Cluster initiatives and state-wide networks have often
and successfully proven that they can serve as excellent
platforms that facilitate joint innovations between the stakeholders. Nonetheless, there is still a huge potential
in the cluster initiatives and state-wide networks that could be used for an increased and more intense promotion of innovations and product developments – together with the cluster and network stakeholders. Especially with respect to joint innovations,
meaning the joint development of new products, services
or processes, the cluster and network management
teams can provide.
This document is a working paper that examines the relationship between entrepreneurship, innovation, knowledge, and economic growth. It discusses how our understanding of these linkages has advanced in recent decades but is still incomplete. The paper aims to shed light on recent research regarding knowledge creation and diffusion through innovation, and the role of entrepreneurs in the growth process. It concludes by discussing policy implications, such as how regulation can influence knowledge production, ownership, entry barriers, labor mobility, and financial markets to facilitate the efficient spread of knowledge and conversion of knowledge into useful innovations and economic growth.
This document provides information about the 10th World Intellectual Capital Conference, which will focus on "Managing Knowledge in Boundless Organizations". The conference will feature presentations and discussions on measuring and leveraging knowledge in organizations that operate across multiple spaces. Specific topics will include knowledge flow in distributed settings, emerging practices for knowledge sharing, and the role of data in new business models. The conference aims to address these issues from different perspectives and provide policy implications. As in previous years, there will be a focus on reviewing country programs related to intellectual capital, with this year's regional focus being on Brazil and its experiences measuring and monitoring knowledge-based capital.
This document provides an overview of a session on innovation systems. It includes an agenda, mini-test, and discussions of national and regional innovation systems. For national innovation systems, it discusses concepts, the rise of research and development, and factors influencing innovation. For regional innovation systems, it uses Silicon Valley as a case study, examining its characteristics and key success factors. It also discusses an innovation cluster for Galileo and satellite navigation, including the role of key actors and status in the Netherlands.
This document summarizes the discussions from the 2006 Rueschlikon Conference on Information Policy, which focused on how public policy can promote innovative entrepreneurship.
The conference highlighted that the infrastructure and institutions needed today to foster innovation are different than in the past. Governments must accommodate disruptive technologies, ensure platforms exist for creativity to emerge rather than directly invest, and promote open information and talent flows across borders.
Five themes emerged around the "food chain" of innovative entrepreneurship: the individual entrepreneur; social networks; organizing research and development; creating technology clusters; and the role of government policy. Successful innovation requires supporting education, networks, collaboration, modularity and constant change - as well as international cooperation and bold,
The National Innovation System (also NIS, National System of Innovation) is the flow of technology and information among people, enterprises and institutions which is key to the innovative process on the national level.
In this study we tried to focus on the National Innovation System of Thailand and the role of Industries there on contrast of countries like South Korea, Japan, USA, Germany, Singapore.
Wef global informationtechnology_report_2014Silvia Cardona
The Global Information Technology Report 2014 examines the rewards and risks of big data. It features the latest Networked Readiness Index rankings based on data from 148 economies. Several chapters discuss how organizations can leverage big data through improved data management, policies that balance risks and rewards, and building trust through regulation. Overall, the report advises that both public and private sectors will need to adapt to make sense of and obtain value from the vast amount of new data being created.
Korea's National Innovation System_ Andre Roland CharlesAndre Charles
South Korea's rapid economic growth from an impoverished agrarian economy to the world's 12th largest economy was underpinned by the government's strategic policy focus on building science and technology capacity. The government played a vital role in stimulating technical progress and economic expansion through Korea's national innovation system (NIS). The NIS framework views the main elements as universities, firms, and government, and their dynamic interactions that facilitate innovation and economic growth. Korea identified its strengths in human resources but weaknesses in technology and resources, and pursued a path of government-led science and technology development to transform the country from a technology immitator to a leading innovative economy.
This document is a working paper that examines the relationship between entrepreneurship, innovation, knowledge, and economic growth. It discusses how our understanding of these linkages has advanced in recent decades but is still incomplete. The paper aims to shed light on recent research regarding knowledge creation and diffusion through innovation, and the role of entrepreneurs in the growth process. It concludes by discussing policy implications, such as how regulation can influence knowledge production, ownership, entry barriers, labor mobility, and financial markets to facilitate the efficient spread of knowledge and conversion of knowledge into useful innovations and economic growth.
This document provides information about the 10th World Intellectual Capital Conference, which will focus on "Managing Knowledge in Boundless Organizations". The conference will feature presentations and discussions on measuring and leveraging knowledge in organizations that operate across multiple spaces. Specific topics will include knowledge flow in distributed settings, emerging practices for knowledge sharing, and the role of data in new business models. The conference aims to address these issues from different perspectives and provide policy implications. As in previous years, there will be a focus on reviewing country programs related to intellectual capital, with this year's regional focus being on Brazil and its experiences measuring and monitoring knowledge-based capital.
This document provides an overview of a session on innovation systems. It includes an agenda, mini-test, and discussions of national and regional innovation systems. For national innovation systems, it discusses concepts, the rise of research and development, and factors influencing innovation. For regional innovation systems, it uses Silicon Valley as a case study, examining its characteristics and key success factors. It also discusses an innovation cluster for Galileo and satellite navigation, including the role of key actors and status in the Netherlands.
This document summarizes the discussions from the 2006 Rueschlikon Conference on Information Policy, which focused on how public policy can promote innovative entrepreneurship.
The conference highlighted that the infrastructure and institutions needed today to foster innovation are different than in the past. Governments must accommodate disruptive technologies, ensure platforms exist for creativity to emerge rather than directly invest, and promote open information and talent flows across borders.
Five themes emerged around the "food chain" of innovative entrepreneurship: the individual entrepreneur; social networks; organizing research and development; creating technology clusters; and the role of government policy. Successful innovation requires supporting education, networks, collaboration, modularity and constant change - as well as international cooperation and bold,
The National Innovation System (also NIS, National System of Innovation) is the flow of technology and information among people, enterprises and institutions which is key to the innovative process on the national level.
In this study we tried to focus on the National Innovation System of Thailand and the role of Industries there on contrast of countries like South Korea, Japan, USA, Germany, Singapore.
Wef global informationtechnology_report_2014Silvia Cardona
The Global Information Technology Report 2014 examines the rewards and risks of big data. It features the latest Networked Readiness Index rankings based on data from 148 economies. Several chapters discuss how organizations can leverage big data through improved data management, policies that balance risks and rewards, and building trust through regulation. Overall, the report advises that both public and private sectors will need to adapt to make sense of and obtain value from the vast amount of new data being created.
Korea's National Innovation System_ Andre Roland CharlesAndre Charles
South Korea's rapid economic growth from an impoverished agrarian economy to the world's 12th largest economy was underpinned by the government's strategic policy focus on building science and technology capacity. The government played a vital role in stimulating technical progress and economic expansion through Korea's national innovation system (NIS). The NIS framework views the main elements as universities, firms, and government, and their dynamic interactions that facilitate innovation and economic growth. Korea identified its strengths in human resources but weaknesses in technology and resources, and pursued a path of government-led science and technology development to transform the country from a technology immitator to a leading innovative economy.
National Innovation Systems is the network of institutions in the public and private sectors whose activities and interactions initiate, import, modify and diffuse new technologies.
National Innovation Systems is the network of institutions in the public and private sectors whose activities and interactions initiate, import, modify and diffuse new technologies.
The OECD advises governments on economic, social and technological policies. It recommends strengthening innovation through SMEs by: 1) Promoting entrepreneurship cultures and frameworks that support SMEs. 2) Embedding SMEs in knowledge flows through partnerships and collaboration. 3) Strengthening entrepreneurial human capital through education and training. 4) Improving support for social entrepreneurship through financing, research and incubators.
This document outlines a model for 21st century innovation intermediaries that aim to accelerate innovation and drive regional economic growth. It discusses how traditional technology-based economic development models are outdated and must shift focus to innovation. The proposed model centers on connecting regional talent, technologies, and resources to collaborate on innovation. It also discusses functions of innovation intermediaries in convening regions and accelerating technologies to market. The best practice of Innovation Philadelphia is provided as an example that established programs to connect the regional innovation economy and fill gaps.
TCI 2015 Clusters for Competitiveness: Mobilizing the Power of Modern Cluster...TCI Network
This document discusses clusters and cluster policy. It argues that clusters are important for competitiveness and innovation. Modern cluster policies aim to encourage collaboration within industries and address market failures. The document reviews research showing clusters positively impact economic outcomes. Effective cluster policies create platforms for joint industry action, organize public policy around clusters, and support upgrading competitiveness. Critical factors for successful cluster initiatives include strong industry networks, strategic agendas, and operational effectiveness. The document advocates broadening cluster programs and changing the relationship between initiatives and government.
This document discusses regional foresight and innovation activities. It argues that regions must develop self-generative capabilities to continuously innovate and renew themselves in order to remain competitive. Regions and companies must be able to rapidly generate and apply new knowledge to adapt to changing global economic conditions. The success of regions is based on the success of companies operating within them. Finland is used as an example of a country that has transformed its economy to be knowledge-and innovation-based through focused efforts. Regional foresight activities should aim to create dynamic innovation systems with strong interactions between actors rather than follow static models.
This document discusses regional innovation clusters and argues that the federal government should support them through a $100 million funding initiative. Key points:
- Regional innovation clusters are geographic concentrations of interconnected businesses, universities, and organizations that drive economic growth and job creation through collaboration and shared resources.
- While some U.S. clusters like Silicon Valley have thrived, most could benefit from more support to help commercialize research and address challenges like financing and developing talent.
- Other countries invest heavily in national cluster programs, but the U.S. lacks a comprehensive initiative, leading programs to fall short of their potential.
- A new $100 million federal cluster program could help coordinate existing resources and multiply their impact
Olga M. & Manuel G. | K.J. Joseph
LECTURE 6: THE INSTITUTIONAL ASPECT OF NSI by Dr. Olga Mikheeva, UCL Institute for Innovation and Public Purpose, UK & Dr. Manuel Gonzalo, Universidad Nacional de General Sarmiento, Brazil. CHAIR: Professor Joseph K.J., Gulati Institute of Finance and Taxation (GIFT), India
Critical discourse analysis of the private sector in international developmen...Sarah Cummings
Critical discourse analysis (CDA) (Fairclough 2012) is employed to consider discourses of the private sector in the key documents of the MDGs and the SDGs in order to examine the extent to which the international discourse has evolved in the 2000-2015 period.
National Innovation Systems is the network of institutions in the public and private sectors whose activities and interactions initiate, import, modify and diffuse new technologies.
The document analyzes trends, disruptions, and opportunities that could impact value creation in Germany by 2030. It identifies the following key points:
1. Classical boundaries between sectors are disappearing as new comprehensive spheres of activity and forms of cooperation emerge. Tailor-made packages integrating products and services will become more common.
2. Value creation will require a systemic, integrated understanding of innovation that looks beyond individual industries and technologies. Mobility, for example, will center on intelligent transportation systems rather than individual modes.
3. Ubiquitous information dissemination through an "Internet of Things" will link the physical and digital worlds in all sectors of life. Managing complexity will be crucial.
Existing and well-functioning regional or national innovation systems designed to support scienceand
technology-based innovation have to be further developed in order to be able to meet new
challenges from emerging global markets for technology and new forms of global knowledgesharing.
Across all countries, governments have recently been involved in research and education;
hence a need for new knowledge and new business skills will also have to be in the focus of
governmental interest. Governments have constantly been called upon to react accordingly and to
adopt innovation-friendly framework conditions. New policy tools have been created to be able to
better meet this challenge.
The regional dimension has also become of increasing significance. Nowadays, regions have come
up with own innovation strategies considering the individual regional strengths instead of spreading
public investments thinly across several frontier technology research fields and, as a consequence,
not making much of an impact.
Innovation policy has to acknowledge that traditional boundaries between manufacturing and
services are increasingly being blurred. The success of manufacturing depends, for instance, very
much on innovative services, such as design, marketing and logistics as well as on product related
after-sales services, and vice versa. More and more service providers are manufacturing goods
that build upon or are related to their service portfolio or distribution channels. But regional and
industrial development policies and tools are still not sufficiently taking account of these changes.
Service innovation is in fact a driver for growth and structural change across the entire economy. It
helps to make the entire economy more productive and provides fuel for innovation in other
industries. It even has the potential to create new growth poles and to lead markets that have a
macro-economic impact.
The so called systematic innovation policy approach, which has recently been introduced in many
industrialised countries, is based on the assumption that an effective innovation policy has to
improve all determinants that influence a given sector-specific innovation system.
The indicator-based Analysis of National Innovation Systems Approach (ANIS), developed by the
Institute for Innovation and Technology (iit Berlin) includes a comprehensive examination and
evaluation of the status of national innovation systems. It is mainly intended for emerging and
developing countries for which standard innovation benchmarking and monitoring approaches
might not be sufficient as statistical data is often missing or outdated. Policy-makers of these
countries can benefit from clear advice on how to overcome weaknesses within their national
innovation system and to identify determinants of specific relevance.
Changing Paradigms of Cluster Development - FMC.pdfTheBambooLink
This document discusses the evolution of global cluster initiatives. It notes that interest in clusters as drivers of economic growth and innovation has increased significantly since the 1990s. Many international organizations like the World Bank, UNIDO, USAID, and IDB have launched cluster development programs in developing countries since the mid-1990s. The number of cluster initiatives started growing rapidly in the early 2000s. By 2003, over 500 cluster initiatives had been identified globally. India also started cluster development programs in 2002, focusing on traditional manufacturing sectors. Overall, cluster-based approaches have now become widely used by governments and organizations around the world to promote local economic development.
The document outlines Gauteng's innovation strategy, which aims to accelerate innovation in all its forms. It defines innovation broadly, including economic, social, and public innovations. The strategy has three policy objectives: promoting strategic industries and sectors, driving social and public innovation, and enabling effortless communication and access to information. Five initial interventions are proposed: an innovation development office, collaboration networks, innovation incentivization, cluster and precinct management, and smart city support. The strategy emphasizes involving society in innovation through open innovation and community participation.
Smart Diversification of enterprises through cluster organizationsGerd Meier zu Koecker
Cluster initiatives can serve as think tanks to help companies strategically differentiate themselves. They bring together stakeholders along the value chain who can collaborate on new opportunities. Strategic differentiation is challenging as global competition has increased and customer needs have evolved. In the past, technological superiority provided differentiation, but customers now expect products and services to be high quality and trigger emotions. Successful innovations integrate diverse aspects like technology, marketing, design and sales. Cluster initiatives can initiate cross-industry projects to help companies explore new opportunities beyond their core competencies. This allows companies to strategically position themselves ahead of competitors through new products, services, business models or ways of using resources.
#TCI2019 Break - out sessions: Once and future clustersTCI Network
This document discusses the changing role of clusters in the region of Skåne, Sweden. It outlines how clusters in Skåne have evolved from a focus on competitiveness to acting as open innovation platforms and implementing organizations for the region's research and innovation strategy. The regional cluster development program aims to foster cross-industry collaboration. Going forward, clusters are envisioned to drive strategic initiatives and work more closely with other actors in the regional innovation system. Managing this transition will involve addressing challenges around leadership, funding, trust, and strategic collaboration between clusters and their stakeholders.
This document provides an overview of the CLUSNET project and lessons learned about innovation and clusters. Some key points:
1. CLUSNET was a 3-year EU-funded project involving 10 city regions in Europe that aimed to improve cluster support policies and facilitate networking between cluster organizations. The project analyzed cluster programs and cases in each city to provide policy recommendations.
2. Innovation occurs more readily in clusters due to interactions between firms, research institutions, education providers, capital sources, and government. Clusters allow complementary skills and resources to be leveraged for innovating new products, services and business models.
3. While research is a source of new ideas, clusters help transform ideas into commercial innovations by providing
This discussion paper explores the role clusters, cluster initiatives and cluster organisations can play in the context of facilitating entrepreneurship within emerging industries. For the pupose of this paper clusters are understood as regional ecosystems of related industries represented through a group of firms, related economic actors and institutions that are located near each other and have reached a sufficient scale to develop specialised expertise etc. Cluster initiatives are organised efforts to support the competitiveness of a cluster and thus consist of practical actions related to the capacity of these clusters to self-organise and increasingly to pro-actively shape the future of the cluster. They usually follow a bottom-up approach, are implemented through a competitive process, and are often managed by specialised intermediaries, such as cluster organisations. Cluster organisations are the legal enti-ties that support the strengthening of collaboration, networking and learning in clusters, and act as innovation support providers by providing or channelling specialised and customised business support services to stimulate innovation activities, especially in SMEs. They are usually the actors that facilitate strategic partnering across clusters.1 Emerging industries can be understood as either new industrial sectors or existing industrial sectors that are evolving or merging into new industries. They are defined as “the establishment of an entirely new industrial value chain, or the radical reconfiguration of an existing one, driven by a disruptive idea (or convergence of ideas).
This discussion paper puts clusters and in particular cluster initiatives and cluster organisations into the spotlight as they constitute the players in the cluster ecosystem through which such an access can be provided.
The document discusses the economic, social, and geopolitical crises facing Europe in the 21st century and how innovation can help address these challenges. It outlines Europe's policy responses, including strengthening core values, socioeconomic development, and large financial commitments. The document emphasizes activating and reconfiguring regional innovation ecosystems using a Triple Helix approach and smart specialization strategies to identify local competitive advantages. It argues that innovation agents must be stimulated and that knowledge institutions and businesses have untapped potential if properly supported through this process.
The document establishes that a new nature of innovation is emerging, driven by four key factors:
1) Co-creating value with customers and tapping user knowledge, 2) Global knowledge sourcing and collaborative networks, 3) Addressing global challenges, and 4) Responding to public sector challenges. It argues that innovation is no longer just technology-driven, but also user-driven, with companies needing to open up, collaborate, and take on more social responsibility. This represents a shift from traditional "firm-centric" innovation to a more personalized, collaborative model. The document then outlines nine principles of this new nature of innovation and provides business cases as examples. It concludes that while technology will still be important, user needs will
This document provides an overview of three emerging business innovation trends: Design for Innovation, Smart Living, and Innovative Business Models. It describes each trend and provides examples of companies demonstrating success in each trend through four case studies per trend. The document also discusses the drivers and obstacles these companies face, relevant policy challenges around supporting these trends, and recommendations for policymakers based on discussions with stakeholders. The overall goal is to better understand new innovation practices and how policy can help scale successful approaches.
National Innovation Systems is the network of institutions in the public and private sectors whose activities and interactions initiate, import, modify and diffuse new technologies.
National Innovation Systems is the network of institutions in the public and private sectors whose activities and interactions initiate, import, modify and diffuse new technologies.
The OECD advises governments on economic, social and technological policies. It recommends strengthening innovation through SMEs by: 1) Promoting entrepreneurship cultures and frameworks that support SMEs. 2) Embedding SMEs in knowledge flows through partnerships and collaboration. 3) Strengthening entrepreneurial human capital through education and training. 4) Improving support for social entrepreneurship through financing, research and incubators.
This document outlines a model for 21st century innovation intermediaries that aim to accelerate innovation and drive regional economic growth. It discusses how traditional technology-based economic development models are outdated and must shift focus to innovation. The proposed model centers on connecting regional talent, technologies, and resources to collaborate on innovation. It also discusses functions of innovation intermediaries in convening regions and accelerating technologies to market. The best practice of Innovation Philadelphia is provided as an example that established programs to connect the regional innovation economy and fill gaps.
TCI 2015 Clusters for Competitiveness: Mobilizing the Power of Modern Cluster...TCI Network
This document discusses clusters and cluster policy. It argues that clusters are important for competitiveness and innovation. Modern cluster policies aim to encourage collaboration within industries and address market failures. The document reviews research showing clusters positively impact economic outcomes. Effective cluster policies create platforms for joint industry action, organize public policy around clusters, and support upgrading competitiveness. Critical factors for successful cluster initiatives include strong industry networks, strategic agendas, and operational effectiveness. The document advocates broadening cluster programs and changing the relationship between initiatives and government.
This document discusses regional foresight and innovation activities. It argues that regions must develop self-generative capabilities to continuously innovate and renew themselves in order to remain competitive. Regions and companies must be able to rapidly generate and apply new knowledge to adapt to changing global economic conditions. The success of regions is based on the success of companies operating within them. Finland is used as an example of a country that has transformed its economy to be knowledge-and innovation-based through focused efforts. Regional foresight activities should aim to create dynamic innovation systems with strong interactions between actors rather than follow static models.
This document discusses regional innovation clusters and argues that the federal government should support them through a $100 million funding initiative. Key points:
- Regional innovation clusters are geographic concentrations of interconnected businesses, universities, and organizations that drive economic growth and job creation through collaboration and shared resources.
- While some U.S. clusters like Silicon Valley have thrived, most could benefit from more support to help commercialize research and address challenges like financing and developing talent.
- Other countries invest heavily in national cluster programs, but the U.S. lacks a comprehensive initiative, leading programs to fall short of their potential.
- A new $100 million federal cluster program could help coordinate existing resources and multiply their impact
Olga M. & Manuel G. | K.J. Joseph
LECTURE 6: THE INSTITUTIONAL ASPECT OF NSI by Dr. Olga Mikheeva, UCL Institute for Innovation and Public Purpose, UK & Dr. Manuel Gonzalo, Universidad Nacional de General Sarmiento, Brazil. CHAIR: Professor Joseph K.J., Gulati Institute of Finance and Taxation (GIFT), India
Critical discourse analysis of the private sector in international developmen...Sarah Cummings
Critical discourse analysis (CDA) (Fairclough 2012) is employed to consider discourses of the private sector in the key documents of the MDGs and the SDGs in order to examine the extent to which the international discourse has evolved in the 2000-2015 period.
National Innovation Systems is the network of institutions in the public and private sectors whose activities and interactions initiate, import, modify and diffuse new technologies.
The document analyzes trends, disruptions, and opportunities that could impact value creation in Germany by 2030. It identifies the following key points:
1. Classical boundaries between sectors are disappearing as new comprehensive spheres of activity and forms of cooperation emerge. Tailor-made packages integrating products and services will become more common.
2. Value creation will require a systemic, integrated understanding of innovation that looks beyond individual industries and technologies. Mobility, for example, will center on intelligent transportation systems rather than individual modes.
3. Ubiquitous information dissemination through an "Internet of Things" will link the physical and digital worlds in all sectors of life. Managing complexity will be crucial.
Existing and well-functioning regional or national innovation systems designed to support scienceand
technology-based innovation have to be further developed in order to be able to meet new
challenges from emerging global markets for technology and new forms of global knowledgesharing.
Across all countries, governments have recently been involved in research and education;
hence a need for new knowledge and new business skills will also have to be in the focus of
governmental interest. Governments have constantly been called upon to react accordingly and to
adopt innovation-friendly framework conditions. New policy tools have been created to be able to
better meet this challenge.
The regional dimension has also become of increasing significance. Nowadays, regions have come
up with own innovation strategies considering the individual regional strengths instead of spreading
public investments thinly across several frontier technology research fields and, as a consequence,
not making much of an impact.
Innovation policy has to acknowledge that traditional boundaries between manufacturing and
services are increasingly being blurred. The success of manufacturing depends, for instance, very
much on innovative services, such as design, marketing and logistics as well as on product related
after-sales services, and vice versa. More and more service providers are manufacturing goods
that build upon or are related to their service portfolio or distribution channels. But regional and
industrial development policies and tools are still not sufficiently taking account of these changes.
Service innovation is in fact a driver for growth and structural change across the entire economy. It
helps to make the entire economy more productive and provides fuel for innovation in other
industries. It even has the potential to create new growth poles and to lead markets that have a
macro-economic impact.
The so called systematic innovation policy approach, which has recently been introduced in many
industrialised countries, is based on the assumption that an effective innovation policy has to
improve all determinants that influence a given sector-specific innovation system.
The indicator-based Analysis of National Innovation Systems Approach (ANIS), developed by the
Institute for Innovation and Technology (iit Berlin) includes a comprehensive examination and
evaluation of the status of national innovation systems. It is mainly intended for emerging and
developing countries for which standard innovation benchmarking and monitoring approaches
might not be sufficient as statistical data is often missing or outdated. Policy-makers of these
countries can benefit from clear advice on how to overcome weaknesses within their national
innovation system and to identify determinants of specific relevance.
Changing Paradigms of Cluster Development - FMC.pdfTheBambooLink
This document discusses the evolution of global cluster initiatives. It notes that interest in clusters as drivers of economic growth and innovation has increased significantly since the 1990s. Many international organizations like the World Bank, UNIDO, USAID, and IDB have launched cluster development programs in developing countries since the mid-1990s. The number of cluster initiatives started growing rapidly in the early 2000s. By 2003, over 500 cluster initiatives had been identified globally. India also started cluster development programs in 2002, focusing on traditional manufacturing sectors. Overall, cluster-based approaches have now become widely used by governments and organizations around the world to promote local economic development.
The document outlines Gauteng's innovation strategy, which aims to accelerate innovation in all its forms. It defines innovation broadly, including economic, social, and public innovations. The strategy has three policy objectives: promoting strategic industries and sectors, driving social and public innovation, and enabling effortless communication and access to information. Five initial interventions are proposed: an innovation development office, collaboration networks, innovation incentivization, cluster and precinct management, and smart city support. The strategy emphasizes involving society in innovation through open innovation and community participation.
Smart Diversification of enterprises through cluster organizationsGerd Meier zu Koecker
Cluster initiatives can serve as think tanks to help companies strategically differentiate themselves. They bring together stakeholders along the value chain who can collaborate on new opportunities. Strategic differentiation is challenging as global competition has increased and customer needs have evolved. In the past, technological superiority provided differentiation, but customers now expect products and services to be high quality and trigger emotions. Successful innovations integrate diverse aspects like technology, marketing, design and sales. Cluster initiatives can initiate cross-industry projects to help companies explore new opportunities beyond their core competencies. This allows companies to strategically position themselves ahead of competitors through new products, services, business models or ways of using resources.
#TCI2019 Break - out sessions: Once and future clustersTCI Network
This document discusses the changing role of clusters in the region of Skåne, Sweden. It outlines how clusters in Skåne have evolved from a focus on competitiveness to acting as open innovation platforms and implementing organizations for the region's research and innovation strategy. The regional cluster development program aims to foster cross-industry collaboration. Going forward, clusters are envisioned to drive strategic initiatives and work more closely with other actors in the regional innovation system. Managing this transition will involve addressing challenges around leadership, funding, trust, and strategic collaboration between clusters and their stakeholders.
This document provides an overview of the CLUSNET project and lessons learned about innovation and clusters. Some key points:
1. CLUSNET was a 3-year EU-funded project involving 10 city regions in Europe that aimed to improve cluster support policies and facilitate networking between cluster organizations. The project analyzed cluster programs and cases in each city to provide policy recommendations.
2. Innovation occurs more readily in clusters due to interactions between firms, research institutions, education providers, capital sources, and government. Clusters allow complementary skills and resources to be leveraged for innovating new products, services and business models.
3. While research is a source of new ideas, clusters help transform ideas into commercial innovations by providing
This discussion paper explores the role clusters, cluster initiatives and cluster organisations can play in the context of facilitating entrepreneurship within emerging industries. For the pupose of this paper clusters are understood as regional ecosystems of related industries represented through a group of firms, related economic actors and institutions that are located near each other and have reached a sufficient scale to develop specialised expertise etc. Cluster initiatives are organised efforts to support the competitiveness of a cluster and thus consist of practical actions related to the capacity of these clusters to self-organise and increasingly to pro-actively shape the future of the cluster. They usually follow a bottom-up approach, are implemented through a competitive process, and are often managed by specialised intermediaries, such as cluster organisations. Cluster organisations are the legal enti-ties that support the strengthening of collaboration, networking and learning in clusters, and act as innovation support providers by providing or channelling specialised and customised business support services to stimulate innovation activities, especially in SMEs. They are usually the actors that facilitate strategic partnering across clusters.1 Emerging industries can be understood as either new industrial sectors or existing industrial sectors that are evolving or merging into new industries. They are defined as “the establishment of an entirely new industrial value chain, or the radical reconfiguration of an existing one, driven by a disruptive idea (or convergence of ideas).
This discussion paper puts clusters and in particular cluster initiatives and cluster organisations into the spotlight as they constitute the players in the cluster ecosystem through which such an access can be provided.
The document discusses the economic, social, and geopolitical crises facing Europe in the 21st century and how innovation can help address these challenges. It outlines Europe's policy responses, including strengthening core values, socioeconomic development, and large financial commitments. The document emphasizes activating and reconfiguring regional innovation ecosystems using a Triple Helix approach and smart specialization strategies to identify local competitive advantages. It argues that innovation agents must be stimulated and that knowledge institutions and businesses have untapped potential if properly supported through this process.
The document establishes that a new nature of innovation is emerging, driven by four key factors:
1) Co-creating value with customers and tapping user knowledge, 2) Global knowledge sourcing and collaborative networks, 3) Addressing global challenges, and 4) Responding to public sector challenges. It argues that innovation is no longer just technology-driven, but also user-driven, with companies needing to open up, collaborate, and take on more social responsibility. This represents a shift from traditional "firm-centric" innovation to a more personalized, collaborative model. The document then outlines nine principles of this new nature of innovation and provides business cases as examples. It concludes that while technology will still be important, user needs will
This document provides an overview of three emerging business innovation trends: Design for Innovation, Smart Living, and Innovative Business Models. It describes each trend and provides examples of companies demonstrating success in each trend through four case studies per trend. The document also discusses the drivers and obstacles these companies face, relevant policy challenges around supporting these trends, and recommendations for policymakers based on discussions with stakeholders. The overall goal is to better understand new innovation practices and how policy can help scale successful approaches.
The document summarizes the key discussions and conclusions from a conference on merging innovation cultures and leveraging creativity. Several workshops examined topics like stimulating creativity in organizations, managing creative processes, government policy, education, and business strategy. Overall, the conference highlighted the importance of creativity for competitiveness and concluded that governments and organizations need to do more to nurture creativity across industries and society through actions like awareness campaigns, education reform, and special funding programs.
The Impact of Innovation in Marketing StrategyYogeshIJTSRD
The purpose of this article is to share a vision of how todays organisations increase their effectiveness by promoting internally among their members including top management , the development of the capacity to generate innovative ideas that can be incorporated into the production processes of goods and services and even into corporate development plans. Innovation is associated with the discovery or invention of something radically new, linked to aspects of high technology or representing a substantial change in a given field. Planning carried out by the company to successfully channel the process of innovation or generation of new and impacting ideas among its members, must be considered as the most important marketing strategy to face competitiveness and, therefore, to obtain greater profitability. Maksud Kurolov "The Impact of Innovation in Marketing Strategy" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-3 , April 2021, URL: https://www.ijtsrd.com/papers/ijtsrd38680.pdf Paper URL: https://www.ijtsrd.com/economics/market-economy/38680/the-impact-of-innovation-in-marketing-strategy/maksud-kurolov
This document provides an introduction to a training manual on public-private dialogue for good governance. It discusses the aim of establishing structured dialogues between government and the private sector to address issues that impact the investment climate and economic growth. It emphasizes the importance of including a diversity of private sector stakeholders, including small, medium and micro enterprises, in policy dialogues to promote transparency, inclusion and accountability. The document also notes that public-private dialogue processes are particularly important in fragile states to rebuild trust between conflicting groups and enable stability, reform and economic growth through a focus on shared development issues and relationship building over time. External support is often needed to establish and sustain public-private dialogue initiatives in their early years through capacity building and acting as an
The Execution Plan For Hitachi Global InnovationEbony Bates
Hitachi is a large Japanese electronics company seeking to increase innovation and speed up its response to market demands. The document discusses Hitachi's culture and the need to facilitate a more sustainable and innovative culture through diversity, creative thinking, collaboration, and risk-taking. It suggests Hitachi cannot force change its subsidiaries' cultures but should draw on their strengths and promote cultural alignment through shared mission, values and goals under strong leadership. This will help improve Hitachi's innovation capabilities.
How any organisation can drive culture and design systems to pursue practical...Toby Farren
This whitepaper will provide an insight into the different elements of modern innovation fostering,
including the various factors determining the capability of organisations to innovate internally;
the differences between frontend and backend innovation; and a focus on the relatively new
‘open’ innovation methods (including the advantages of utilizing sandboxes in the frontend
innovation process as well as collaborating with external bodies).
Innovation is the application of new solutions to meet new requirements or needs. It differs from invention in that innovation refers to using ideas or methods, while invention refers to creating them. Innovation can occur in individuals, societies, businesses, and organizations through sources like changes in markets, demographics, or scientific knowledge. Common goals of innovation programs are improved quality, new markets, and reduced costs, though failures can occur from issues like poor goal definition, participation, or monitoring of results. Innovation is measured globally using indexes that rank countries based on factors like research and development spending and patent activity.
This document discusses the creation of a collaborative knowledge platform to help implement a regional innovation strategy. The platform aims to overcome obstacles to innovation by confronting different actors' perspectives and helping them reconsider their positions. It will include indicators, dashboards, and analysis from enterprise databases to allow actors to position themselves, clarify problems and solutions, and develop their own innovation steering tools. The goal is to move innovation policy away from a market failure model toward one that views innovation as a social process and creates social value in addition to economic value.
This document outlines a report on the strategic impact of R&D and innovation. It discusses the correlation between R&D spending and innovation, current theories around their relationship, and examples of successes and failures of company research efforts. The report provides recommendations for how companies can better organize their R&D to drive innovation, including emphasizing commitment, compensation, and tolerating failure in research projects.
In the context of regional development, there is increasing interest in identifying industrial transformation processes that lead to the emergence of new clusters. This demand is further fu-elled by the concept of Smart Specialisation (S3), which concentrates its approach on transformative activities. Without doubt, traditional cluster mapping can be considered to be an important tool for the identification and monitoring of (existing) clusters but it often fails to identify new clusters that emerge as a result of industrial transformation processes. Conventional statistical approaches provide limited information about these emerging clusters. This is because they are based on statistics, which reflect the present situation or the recent past but do not provide information about the future. This paper introduces a new approach to predicting emerging clusters more effectively through the regional mapping and clustering of applied R&D activities. The methodology is based on the assumption that if a critical mass of regional actors independently invests in a same new area, with the objective of developing new products, technologies and services with high cross-sectoral innovation potential, this will likely lead to an emerging industry and the formation of a new cluster-once these products and technologies are successfully commercialised. The paper successfully verifies this approach by considering e-mobility cluster development in Germany. It also shows where traditional automotive clusters are transforming and becoming e-mobility clusters .
Cluster Initiativen als Schrittmacher regionaler InnovationsentwicklungenGerd Meier zu Koecker
Aus Sicht der Akteure, die regionale Innovationsstrategien
vorantreiben wollen, existieren drei wesentliche Barrieren:
• Mangelndes Bewusstsein für die Notwendigkeit regionaler
Innovationsstrategien. Die Wirtschaft in Baden-
Württemberg entwickelt sich seit Jahren überaus
erfreulich; die Unternehmen können den nationalen
und internationalen Bedarf kaum decken. In solchen
Boom-Zeiten ist es schwierig, den regionalen Akteuren
zu vermitteln, warum regionale Entwicklungskonzepte
für eine nachhaltige wirtschaftliche Entwicklung
notwendig sind. Außerdem ist die Thematik für manche
Akteure noch vergleichsweise neu oder lässt sich
zum Tagesgeschäft dazu nicht verfolgen.
• Das fehlende Wissen, wie regionale Innovationskonzepte
entwickelt werden sollen. Da die Entwicklung
von regionalen Innovationsstrategien zur Steigerung
der Innovations- und Wettbewerbsfähigkeit bisher in
der Regel nicht im Verantwortungsbereich der regionalen
Akteure lag, existiert ein vergleichsweise geringes
Wissen, wie dieser Prozess zu gestalten ist und wie
die Ergebnisse in der Region zu kommunizieren sind.
• Fehlende Instrumente für die Konzeption und Implementierung
regionaler Innovationsstrategien.
Die zukünftige Herausforderung besteht also darin, diese
Barrieren und Unsicherheiten der potenziellen Akteure,
die für die Entwicklung und Umsetzung von derartigen
regionalen Entwicklungskonzepten im Sinne eines kontinuierlichen
regionalen Verbesserungsprozesses zuständig
sind, zu beseitigen.
Die Studie zeigt, welche Rolle Cluster Initiativen in diesem Kontext spielen können
10 YEARS CLUSTER MANAGEMENT EXCELLENCE
IN THE DANUBE REGION
Pan-European Snapshot of the Current Status of Cluster
Management Excellence in Europe
Excellent cluster management is crucial for maximizing the benefits that can be achieved through cluster initiatives in their efforts to support industry, research, and education in the regions. In parallel, these strategic cluster activities support public authorities in their regional development efforts focusing on im-provements in competitiveness.
Over the last 10 years, Cluster Management Excellence has moved up the policy agenda: Initially, most cluster programmes within the European Union paid dedicated attention to funding cluster (management) organisations due to their important role as drivers of innovation within the clusters (or within the regional networks). Funding of such cluster management organisations mainly meant financing the corresponding staff and related infrastructure. In general, key programme objectives were to strengthen the capacities of cluster management organisations. This approach has worked fairly well for many years now. However, when Cluster Management Excellence gained increasing relevance in all political discussions, new approaches were needed to better support cluster management organisations striving for excellence
1) The document analyzes the bio-based packaging sector across the Danube Region through a cluster mapping approach. It identifies over 450,000 employees in the region working in bio-based packaging, representing around 27% of total European employment in the sector.
2) The cluster mapping divides the bio-based packaging value chain into key nodes like cultivation, production, and processing. It then categorizes over 300 companies in the region according to their node and industry classification. Around 40% of companies operate in plastic packaging manufacturing.
3) While the Danube Region represents a sizable share of European bio-based packaging employment and firms, its performance is mixed compared to Europe. Employment declined 4.6% since 2008 versus
The Eco-construction sector in the Danube Region
employs more than 1.2 million workers. The findings
of the previous chapters illustrate that this region
belongs, besides the Baltic and the South-western
European region (South-west France, Portugal and
Spain), to the front-runners in the Eco-construction
sector. Especially regions in Romania and Serbia,
but also in Bosnia and Herzegovina and Bulgaria,
show strong economic data in different categories. More than 1250 high growth enterprises (Gazelles)
are located in the Danube Region.
There are many cluster initiatives in the field of
Eco-Construction, many of them well established
and have a good critical mass.
The previous results have shown that the Danube
Region has developed to become a hot spot
in the field of Phytopharma. Besides European
frontrunner regions, like Praha region, many
others show strong indicators in terms employ-
ment, number of enterprises, fast growing firms
(Gazelles), or terms of regional specialisation. 50 %
of all European regions with two or more Cluster
Stars are located in the Danube Region. 44 % of
all European workers in the Phytopharmaceutical
industry are employed by enterprises coming from
this region. All these figures provide good evidence for the economic strength of the Danube Region.
Table 7 (s. Appendix) provides more information
about the strongest regions in this sector. Despite
of the significant industrial agglomerations in
the Phytopharmaceutical sector in the Danube
Region shown by this report, only a small number
of cluster initiatives exist. They can be character-
ised to be comparable small in terms of size and
young in terms of cluster management experi-
ence. In Appendix II the most relevant cluster initi-
atives are listed.
The present discussion paper, serves to initiate a debate on the current and future role of clusters and cluster organisations in connection with skills development with a special focus on emerging indus-tries.
In recent years, “the cluster and skills” topic gained increasing importance among policy makers in Europe, notably in the context of the New skills Agenda, the Blueprint for sectoral cooperation on skills, Sector Skills Alliance under ERASMUS+, the Digital Skills and Jobs Coalition etc 1. As this paper will show, numerous cluster organisations have initiated actions related to education and training. The rationale for this trend is the emergence of new industries and increasing technological convergence which leads to continuously change of workforce skills by industry. The ongoing discussions point out that much more clarity is needed on how current training efforts are embedded in cluster development and by whom these measures can be implemented best. Also, more insights on what kind of role clus-ter organisations can or should play to assure that workforce skills match the ongoing needs of indus-try, markets, and society are required.
StressTesting Regional Approaches Conducive to Implement S3 through ClustersGerd Meier zu Koecker
The present Policy Report summarises the findings of the 11 Apline regions’ StressTest reports and provides reflections how to make more use of cluster-based approaches in mplementing S3 in practice.
The Interplay between S3 and Clusters - StressTesting Regional Approaches Con...Gerd Meier zu Koecker
Most European Union (EU) regions have developed Smart Specialisation Strategies (S3) as integrated part of their regional innovation strategies. The challenge is to implement S3 through clusters in order to gain sustainable and inclusive growth while generating critical mass of economically viable activities. StressTesting these approaches reveals value insights that go beyond existing knowledge and stimulates policy learning.
The presentation summarises the findings of 11 Alpine Region StressTest exercises and provides reflections how to make more use of cluster-based approaches in implementing S3
Do we need cluster in a digitalized world? What added value can they provide to SMEs? what do they already do? The presentation introduces in the topic of "clusters & digitalization" and provides good practices from Baden-Württemberg how cluster managements can help SMEs to better digitalize.
This report identifies potential synergies among the smart specialization strategies (S3) of 11 regions in the Alpine Space that are partners in the S3-4AlpClusters project. It analyzes data on the partners' priority areas and industries. Key findings include:
- The partners' regions differ significantly in size, clusters, specializations, and innovation investments.
- Priority areas of focus include ICT, environment/energy, agrifood, life sciences, and manufacturing.
- More work is needed to understand market potential and facilitate cross-regional linkages to achieve critical mass.
- Cross-regional workshops could help initiate interactions between actors in different regions.
This document discusses sustainable financing options for cluster initiatives. It begins by outlining the typical financing structure in Europe, which includes baseline public support, membership fees, and EU project funding. It then examines a case study of an aviation cluster that lost public funding and had to transition to new sources. These included increasing membership fees, providing new fee-based services, and partnering with other organizations. The document also analyzes factors that influence financing like acquiring new members and clients, modifying fees, and developing various fee and non-fee services. Overall it promotes moving from sole public funding toward more diverse and sustainable sources like strategic projects and international initiatives driven by member demand.
The Alpine Macro Region is one of European Innovation Hotspots, especially in the field of Eco Innovation. However, cross-regional cooperation is still an exception
Cluster are going to play an important role in regional development, coordination and strategy development. There are plenty of upcoming financing opportunities to cluster organizations to play a more important role. Cluster initiatives from Danube Region shall not miss this opportunity
The management of cluster A1 carried out a so-called impact
analysis in co-operation with the Institute for Innovation and
Technology (iit) in April/May 2012. The objective of the investigations
was to find out in which fields and to which extent the
players of cluster A had particularly profited from the networking
and in which fields the members’ requirements, especially
those of the enterprises, could eventually not have been met.
The results of the study clearly show that the enterprises in cluster
A have generally been able to benefit well or even very well
from the net-working activities.
Equally important is the fact that the surveyed enterprises had
achieved excellent effects specifically in those fields that had
been considered particularly important for a large number of
cluster participants.
This fact illustrates that the management of cluster A had predominantly
focused its activities on the fields of high priority
and has been able to achieve very positive effects.
In the context of limited resources available to the cluster
management organisation, this finding is of high relevance.
The performance of the enterprises involved in cluster A can be
described as good.
At least half of the network’s players range above the general
industry average regarding typical indicators like turnover or
productivity.
The impact analysis shows that public investments generally
result in monetary benefits for the companies involved in a
cluster initiative. The monetary effect (output) hereby has turned
out to be larger than the public sector invest-ments (input)
made over the same period of time. The output/input leverage
amounts to 2.3. Thus, each euro invested to the cluster by
public authorities generates a monetary benefit of EUR 2.3
which is an encouraging result.
The overall analysis revealed that the sum of monetary effects
had been larger than the total number of investments made by
the public and private sector (the output-input-rate amounts
to 1.3).
This result can in fact be interpreted as consolidated legitimization to public investments in recent years.
Forschungsatlas Elektromobilität - Prioritäre Forschungsthemen und regionale ...Gerd Meier zu Koecker
Vor dem Hintergrund der künftigen Bedeutung von Elektromobilität für den Industriestandort Deutschland ist es nicht verwunderlich, dass sich Wissenschaft, Wirtschaft und Politik seit Jahren in diesem Thema engagieren. Allein die Bundesregierung hat in den vergangenen Jahren mehr als 1.3 Mrd. € in Forschung, Bildung und Innovation investiert. Gleichzeitig hat die Industrie ebenfalls in mindestens gleicher Größenordnung investiert. Diese Zahlen zeigen, dass die Elektromobilität ein wichtiges Forschungsfeld
in Deutschland darstellt.
Gleichzeitig haben sich über die Jahre in verschiedenen Bereichen in Deutschland erste Anzeichen einer regionalen
Spezialisierung gezeigt. So spezialisieren sich die Akteure in
Berlin / Brandenburg und in der Region Rhein-Ruhr auf „Mobilitätskonzepte“, während die klassischen Automobilstandorte vor allem in den Bereichen „Produktion und Fertigung“ sowie „Fahrzeuge / Fahrzeugkomponenten“ aktiv sind. Niedersachsen und Dresden fokussieren sich auf den Bereich „Laden und Speichern“. In Sachsen sind besonders viele Forschungsaktivitäten im Bereich „Hybridbusse“ zu verzeichnen. Der Forschungsatlas gibt hier einen umfassenden Überblick.
Cluster funding in Germany has a long tradition, on Federal State as well as on Federal Level. The graphs displays the most relevant cluster and network support schemes over the last 15 years
Implementation RIS3 through Clusters - New Role of Clusters in Regional Devel...Gerd Meier zu Koecker
In recent years, cluster policy has gained increased importance in improving the competitiveness of local industries and in facilitating industrial transformation processes. The majority of European regions has developed regional Smart Specialisation Strategies (S3) to stimulate more strategic and more focused investments in the regions to create more jobs and economic growth. These growth strategies, based on clusters in the respective regions, demand comprehensive efforts for mobilising resources for accelerating innovation and industrial transformation efforts. Regions are a driving force in this endeavour, as favourable place-based business conditions are making a difference to incentivise actors in the real economy, notably small and medium-sized enterprises (SMEs). Industrial transformation is a significant challenge for regional policy makers to adapt existing cluster policies accordingly. Requirements for enterprises, clusters as well as for cluster policy are changing dramatically. The challenge is to implement S3 through clusters to gain sustainable and inclusive growth. Not much experiences exist due to a lack of knowledge about S3 in other regions.
The presentation shows new ways how to make better use of clusters and how to measure the systematic of the related approach.
Industrie 4.0 – die Rolle von Cluster-Initiativen im Wandel der Wertschöpfung...Gerd Meier zu Koecker
Können daher Cluster-Initiativen auch im Kontext Industrie
4.0 eine nachhaltige Rolle als Coach und Mittler zwischen
Wissenschaft, Wirtschaft und Politik einnehmen?
Welche sinnvolle Rolle können diese neben anderen Akteuren,
wie Wirtschaftsförderern, Handelskammern oder
Landesagenturen, die sich zum Ziel gesetzt haben, Unternehmen
in diesem Themenfeld zu unterstützen, einnehmen?
Wo liegen aber auch die Grenzen der Möglichkeiten
der Cluster-Initiativen?
An einer ersten Sachstandsanalyse nahmen sieben
der leistungsfähigsten Clustermanagements aus Baden-
Württemberg teil, welche alle mit dem Baden-Württemberg
Exzellenz-Label ausgezeichnet sind. Die Region
Baden-Württemberg wurde vor allem deswegen ausgewählt,
weil sie im Bereich der Produktionstechnik eine
führende Rolle in Deutschland einnimmt.
This document discusses best practices for cluster policy based on analysis of advanced regions. It finds that effective cluster policy (1) has clear, measurable objectives and sufficient long-term funding; (2) supports a broad range of industries through related-industry initiatives rather than individual firms; and (3) coordinates cluster programs through a capable implementation agency. Peer review is presented as an approach to benchmark policies across regions and improve framework conditions for innovation and regional collaboration around clusters.
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How MJ Global Leads the Packaging Industry.pdfMJ Global
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Part 2 Deep Dive: Navigating the 2024 Slowdownjeffkluth1
Introduction
The global retail industry has weathered numerous storms, with the financial crisis of 2008 serving as a poignant reminder of the sector's resilience and adaptability. However, as we navigate the complex landscape of 2024, retailers face a unique set of challenges that demand innovative strategies and a fundamental shift in mindset. This white paper contrasts the impact of the 2008 recession on the retail sector with the current headwinds retailers are grappling with, while offering a comprehensive roadmap for success in this new paradigm.
Industrial Tech SW: Category Renewal and CreationChristian Dahlen
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Understanding User Needs and Satisfying ThemAggregage
https://www.productmanagementtoday.com/frs/26903918/understanding-user-needs-and-satisfying-them
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In this webinar, we won't focus on the research methods for discovering user-needs. We will focus on synthesis of the needs we discover, communication and alignment tools, and how we operationalize addressing those needs.
Industry expert Scott Sehlhorst will:
• Introduce a taxonomy for user goals with real world examples
• Present the Onion Diagram, a tool for contextualizing task-level goals
• Illustrate how customer journey maps capture activity-level and task-level goals
• Demonstrate the best approach to selection and prioritization of user-goals to address
• Highlight the crucial benchmarks, observable changes, in ensuring fulfillment of customer needs
1. Clusters and Innovations
Cluster Initiatives as Drivers of Innovations
Dr. Matthias Künzel
Dr. Gerd Meier zu Köcker
Thomas Köhler
2.
Imprint:
Editor
ClusterAgentur Baden-Württemberg
On behalf of the Ministry of Economic Affairs, Labour and
Housing Baden-Württemberg
Baden-Württemberg
Haus der Wirtschaft
Willi-Bleicher-Straße 19
70174 Stuttgart
Telephone: +49 711 123-3033
www.clusteragentur-bw.de
Authors
Dr. Matthias Künzel
Dr. Gerd Meier zu Köcker
Thomas Köhler
Design
VDI/VDE-IT Berlin
Published
May 2016
3. 1Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Contents
1 Preface ........................................................................................................................................................... 3
2 Economic Conditions.................................................................................................................................... 5
3 Introduction to Innovation Management ................................................................................................... 6
3.1 Innovation – what does this actually mean?............................................................................................ 6
3.2 From invention to innovation................................................................................................................... 7
3.3 Processes in innovation management..................................................................................................... 9
3.4 Open innovation......................................................................................................................................11
3.5 Integrating customers into innovation processes – The Living Lab.........................................................14
3.6 From the single enterprise to the cluster................................................................................................16
4 Operationalization in the Context of Clusters ............................................................................................18
4.1 The cluster management’s role as a driver of innovations......................................................................19
4.2 The cluster management‘s actions on the strategic level.......................................................................19
4.2.1 Roadmapping................................................................................................................................20
4.2.2 Determining the positions of the cluster stakeholders in the context of innovations ..................23
4.2.3 Technology portfolio analysis........................................................................................................23
4.2.4 Definition of the strategy..............................................................................................................25
4.3 Methods on the operational level..............................................................................................................28
4.3.1 Technology Scouting.....................................................................................................................30
4.3.2 Innovation Matching.....................................................................................................................32
4.3.3 Cross-Clustering............................................................................................................................32
5 Outlook...........................................................................................................................................................36
6 Literature .......................................................................................................................................................37
7 Figures............................................................................................................................................................39
Contents
4. 2 Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
5. 3Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Preface
1 Preface
For many years, innovations have been seen as the key
to economic growth, wide-spread wealth, and prosperity.
The successful “use” of this key – in terms of business
administration as well as in economic terms – is one of
the persistent challenges faced both by the manage-
ments in companies, and in politics.
For an enterprise to successfully generate innovations,
many small steps must be taken. These steps reach from
the strategic level to general conditions, and the individu-
al employees. The mere fact that the innovation process
involves and concerns the strategic levels of a company
as much as all executive levels makes it a management
task.
Innovation management means the systematic planning
and control of innovations within organizations. For this
purpose, organizations not only means enterprises – al-
though the considerations further below are mainly focu-
sed on these – but also includes public administrations
and research institutions. As opposed to creativity and
invention, which both have their focus on the idea and its
creation, innovation management is about the utilization
of ideas. However, innovation management is not limited
to new ideas in the original meaning, it also includes new
combinations of known things or using known things for
new target groups.
As for any other management task, a huge variety of lite-
rature, handbooks, and consulting services exists about
the topic of innovation management. With this in mind,
another guide to innovation management could also be
seen as superfluous or redundant. Taking a closer look,
however, it can be seen that most of them deal with in-
ternal processes. Not always do they meet the require-
ments of innovation processes today or have kept pace
with the economic developments. The interconnections
between the stakeholders within the value chains (and
not only there) have increased more and more.
Taking into consideration an increasing globalization and
the industrial transformation processes, cross-industry in-
novations have gained more and more importance. That
means that innovations primarily emerge where different
industries meet or overlap (for example, health and bio-
technology, or ICT and automotive). However, this trend
also makes innovations more and more complex and
difficult, especially for small and medium-sized enterpri-
ses (SMEs) And this is where the cluster and network
initiatives, whose goal it is to bring together and build
networks between different stakeholders or stakeholder
groups, can come in. That means that the cluster or net-
work managements take an active role in connecting and
bringing together the right stakeholders and in reducing
the barriers for joint innovations. This not only applies to
stakeholders from different industries but also to stake-
holders from within the value chains (for example, users
and developers, or science and industry).
Improving the economic conditions to promote innova-
tions has had a long tradition in Baden-Württemberg.
Since the beginning of the new millennium, Baden-Würt-
temberg’s innovation policy has had its emphasis on the
building of systematic networks between cluster stake-
holders and on the establishing of an independent clus-
ter policy which is an essential element of the state’s
innovation policy [1]. In the past, various intermediate
institutions were established, for example, the Medien-
und Filmgesellschaft Baden-Württemberg mbH (MFG) or
BIOPRO Baden-Württemberg GmbH (2002). eMobil BW
GmbH and Umwelttechnik BW GmbH have also been
founded recently, and, in 2013, Landesagentur Leichtbau
BW GmbH. Together with the approximately 120 cluster
initiatives and state-regional networks, these state agen-
cies represent important institutions providing consulting
and other services that play a significant role for the inno-
vation stakeholders in the relevant industries and fields
of technology, acting as service providers, sponsors, and
moderators in the innovation process. Since 2011, the
state’s innovation and economic policy has been focused
on selected growth areas1
that promise the best growth
opportunities for the state’s economy taking the global
trends and the state’s profile of competencies into con-
sideration.
Cluster initiatives and state-wide networks have often
and successfully proven that they can serve as excellent
platforms that facilitate joint innovations between the
1 The four growth areas are: “Sustainable mobility”, “Environmental technology, renewable energy, and resource efficiency”, “Health and care”, and “Information and communication
technology (ICT), Green IT, and smart products” [1]
6. 4 Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Preface
stakeholders. Nonetheless, there is still a huge poten-
tial in the cluster initiatives and state-wide networks in
Baden-Württemberg that could be used for an increased
and more intense promotion of innovations and product
developments – together with the cluster and network
stakeholders. Especially with respect to joint innovations,
meaning the joint development of new products, ser-
vices or processes, the cluster and network management
teams can provide much more direct support than many
would expect.
This publication therefore, on the one hand, addresses
employees of cluster and network managements – irres-
pective of the development phase of the relevant cluster
initiative or network. It intends to raise the awareness
among them to intensify their support for innovations,
also by long-term measures. That means that networking,
matchmaking, and professional events continue to be im-
portant measures to achieve more openness among the
cluster stakeholders. But this is not enough. Therefore,
other services such as roadmapping, Technology Scou-
ting, or Cross-Clustering are to be integrated into the
cluster and network management service portfolios.
On the other hand, this brochure addresses all the cluster
stakeholders that are dealing with the topic of Innovation
and Technology Transfer. In addition to providing basic
information and information about the latest trends with
regard to innovations, it intends to make clear that power-
ful cluster initiatives and state-wide networks can indeed
support enterprises in their innovation activities.
The editors are well aware that the knowledge about
clusters, networks, and innovations among the members
of this extremely wide-spread target group is extremely
diverse, too. Therefore, they have divided this document
in two parts. The first part contains an introduction to
the topics of innovation and innovation management. It
specifically explores the changes that have been brought
about by the modern structures of interaction that differ
from the traditional company-internal approaches.
The second part, the editors have dedicated to a syste-
matic listing of examples of good practice. They are in-
tended to provide ideas and inspire cluster and network
management teams to become more involved in the to-
pic and take a more creative approach in this regard. It
has shown that a large number of suitable instruments
already exists for cluster management teams that can be
used to support their members on their way to innovati-
on. Therefore, the challenge is rather the consistent use
and development of these instruments.
7. 5Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Economic Conditions
2 Economic Conditions
With a nominal gross domestic product (GDP) of appro-
ximately EUR 2.9 trillion in 2014 [2], Germany is the lar-
gest economy in Europe and ranks fourth in the world.
Today, growth and wealth are primarily generated by
high-knowledge products and services in Germany. The
sector of the primary industries has reduced in signifi-
cance; despite the long-standing mining tradition in the
state, almost all, but especially the metal raw materials
are being imported. In addition to the quantitative facts,
there are various characteristics that define Germany as
an economic location. Compared to other members of
the European Union, Germany’s production industry re-
presents a larger portion of the economy as a whole. The
German Mittelstand is an essential pillar of the economy
and the economic locations are structured in a rather
decentralized way.
In modern times, innovations have increasingly become
the key to sustainable and successful development of
companies. This applies to companies in the high-tech
industries in the same way as it applies to the establis-
hed (Old Economy) industries. Especially the latter are
often overlooked in public discussions although they of-
ten provide unused potentials that are above average. In
Baden-Württemberg alone, approximately 20,000 SMEs
launch new products or processes each year. This fact
also emphasizes their economic importance.
Germany is one of the globally leading innovation loca-
tions in technological and economical terms. However,
the global competition with regard to innovations has also
increased and new competitors are entering the interna-
tional markets. Companies have become extremely fle-
xible in the selection of their locations for research and
development. The value chains are becoming more and
more international and complex. At the same time, inno-
vations that are well in line with the regional demands are
gaining importance, too.
Strong economic areas in Baden-Württemberg are the
metropolitan regions of Stuttgart and Rhine-Neckar as
well as the Lake Constance and the Upper Rhine areas.
Except for the Stuttgart area, all of these economically
strong regions are cross-border regions, reaching across
state or national borders. Although Baden-Württemberg
still ranks first in an EU-wide comparison of innovation
activities, it shows that its innovation dynamic has been
slowly declining. For some time now, the establishment
of new companies has remained extremely low, the
number of patent applications by SMEs is in decline, and
the commercialization level of research findings can be
seen as relatively low. Therefore, the importance of clus-
ter initiatives and state-wide networks will be high in the
future, as innovation drivers that will contribute to a rever-
sion of the trend.
8. 6 Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Introduction to Innovation Management
3 Introduction to Innovation Management
3.1 Innovation – what does this actually mean?
In the 19th century, innovations were controlled, to a lar-
ge extent, by the maximization of luck, or were a result of
the scientific and technological progress. An example for
this is the discovery of x-rays by Wilhelm Conrad Röntgen
in Würzburg in 1895. Especially worth mentioning is the
fact that Röntgen never patented his discovery so that its
utilization for the benefit of mankind would not be impai-
red. Only a year later, they were used in practice – and
the invention had become an innovation. In 1901, Rönt-
gen received the first Nobel prize in physics in the history
of science for his invention.
In 1911, Joseph Schumpeter brought the economists’
attention to the topic of innovation with his book “The
theory of economic development”. The basic idea of
Schumpeter’s thesis is that Capitalism is Chaos. This
chaos generates progress and growth. With his publicati-
on, Schumpeter was actually way ahead of his time. Only
in the course of the 20th century, society changed and
developed into a direction that left behind continuity and
conservation and adopted the need for adapting to chan-
ging conditions. In the second half of the 20th century, a
new quality was reached: one increasingly tried to ma-
nage and control innovations systematically. Innovation
management was born.
There is no generally accepted (scientific) definition of
the term innovation. In fact, the use of this fashionable
term tends to be widespread and has therefore produced
many different meanings and definitions. For this publica-
tion, we refer to the definition below [3]:
Innovation = scientific description of the (complex) chan-
ges incurred by technical, social, and economic change.
This makes it clear that the term innovation is far more
comprehensive than the meaning that is most often
attributed to it, that is the reduction to the success-
ful launching of new products, processes, or services
on the market, which is not accepted. It is much more
about the “novelty” of the object under consideration:
Fig. 1: Correlation between level of innovation and frequency
Levelofinnovation(symbolic)
Frequency (symbolic)
1000
100
10
1
0,001 0,01 0,1 1
Technology
Leap
Radical
Innovation
Generation
Change
Development
9. 7Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Introduction to Innovation Management
• with respect to the object, it means the launching of
new types of products, methods, or services on the
market,
• with respect to time, it means the changing of existing
and the implementation of new processes that may
well be linked to novelties with respect to the object
(but not necessarily), and
• finally in the social dimension, it refers to new forms
of benefits or other social changes.
Innovations may feature extremely differing levels of no-
velty. Even though a quantification of the level of novelty
seems rather unusual it can be broken down to the fact
that the distribution of frequency equals a logarithmic
function (see figure 1). The commercial success does not
correlate with the level of innovation.
Today, innovation has become a buzzword. This has re-
sulted in a large variety of interpretations and uses. The-
refore, there are many definitions for the term innovation.
Starting from incremental process improvements to pro-
duct line extensions or business model innovations, or
even radical system innovations. Today, the approaches
of innovation management are as versatile as are the ty-
pes of innovation: from classical innovation processes to
open innovations and innovation greenhouses. To be suc-
cessful, it is important to choose the right tools for the
innovation projects. Before we elaborate on a selection
of these tools, we would like to take a closer look here at
the managed process itself.
3.2 From invention to innovation
In the innovation process, the actual realization (launch
as product / process / service / workflow) is preceded by
the observation of trends, markets, technologies (inven-
tions), needs, etc., and their assessment. Therefore, in-
novations can be driven by the supplier (push) as well
as by the customer (pull). In either case, the benefit for
the driver is in the focus of the process. In addition to
the obvious economic benefits, other elements play an
important role for the success of an innovation:
• The compatibility with existing structures (products,
processes, value system, etc.)
• The simplicity or low threshold for (first) use
• The subjective benefit (prestige, visibility, etc.)
Fig. 2: Innovation funnel
DiffusionInventionsIdeas
Generation
of ideas
Assessment
Selection
Development Production
10. 8 Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Introduction to Innovation Management
Fundamental
research
Investmentsfrom...
… the private economy
Bridging-the-gap!
Valley of Death
Applied
research
Feasibility
study
Almost
marketable
Market
launch
Growth
… public or
private research funding
In all cases, inventions (ideas, solutions) and the neces-
sary assessments significantly outnumber the output of
innovations at the end of the process. The innovation pro-
cess itself can be designed or structured very individually.
The type of innovation as well as the structure and type
of the acting organization have a significant influence on
this process. What they all have in common is the Inno-
vation Funnel (see figure 2). It symbolizes the widespread
picturing of the workflow of the innovation process. A
large number of ideas is created and evaluated but only
a small portion is selected and developed. An even smal-
ler portion of these is realized in the form of product de-
velopments of which only very few are launched as new
products on the market.
These considerations already make it clear that innova-
tions also bear some risks; for an idea to generate real
sales, considerable amounts of resources (labour, materi-
als, many ideas, etc.) are required and only at the end of
the process will the market decide whether it is an eco-
nomic success or loss. The weighing of the willingness to
make innovations against the bearable risks is a challenge
for the management of every enterprise. The model of
the Valley of Death depicts the financial risk of an inno-
vation (see figure 3). While the funding of research and
development activities is already subject to degression
– especially in the case of public funding – the private
industry’s willingness to make investments is still insuffi-
cient. The Valley of Death may well be steeper or flatter:
solutions that are already in demand on the market, with
only low implementation costs, are found at one end of
this scale – solutions with high historic costs, where the
market acceptance is not clear, at the other.
Fig. 4: Different market characteristics in an innovation context
Rapid
market changes
Low innovation
rate
Slow
market changes
High innovation
rate
Rapid
market changes
High innovation
rate
Slow
market changes
Low innovation
rate
Fig. 3: Economic risk of innovations (Valley of Death)
11. 9Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Introduction to Innovation Management
The bridging of the Valley of Death is a classical task for
which not only the innovation management teams are re-
sponsible but also the governmental innovation support
programmes. Typical risks of this phase are:
• Long life cycle of new functions / technology is critical
(for example, OLED – organic light-emitting diodes).
• Scalability of the required production technology can-
not be proven.
• Companies will only buy proven and tested solutions
(conservative market environment).
The latter points out an important element for the stra-
tegic alignment of innovation management. The proce-
dures must be in line with the customs and conventions
and the investment opportunities of the target market.
In a simple setting, this can be achieved by categorizing
the different target market characteristics in the context
of innovations (see figure 4). The specific characteristics
of many markets change over time. In this respect, the
automotive market can confidently be used as a signifi-
cant example. Formerly characterized rather by long in-
novation cycles, it now has to deal with rapidly changing
markets and extremely high innovation rates.
Fig. 5: Phases of market penetration
Degreeofmarketsaturation
Phases of market penetration
100 %
60 %
80 %
40 %
0 %
20 %
Introduction
Innovators
Early users
Early majority
Late majority
Latecomers
Saturation
It is typical for innovations to have a multi-stage market
launching and distribution phase, up to a certain limit
(= saturation; see figure 5). In this context, saturation me-
ans the actual limit of sales; it is insignificant, however,
whether the forecast targets are reached, an actual “ob-
jective” market saturation is achieved, or changing mar-
ket conditions (competition, shifts in demand) affect this
level.
In summary, it must be noted that an innovation typical-
ly involves a multi-stage process over a period of time
where the process may be repeated (at a higher level if
required).
3.3 Processes in innovation management
Innovation management can be understood as the sys-
tematic planning and control of innovations within orga-
nizations. Innovation management expressly targets the
realization of ideas, transforming them into successful
products, processes, or services, that means the enti-
re Innovation Funnel. The management of innovations
should ideally be part of the corporate strategy. The term
was originally created for company-internal processes.
Innovation management must be reflected in all of the
13. 11Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Introduction to Innovation Management
• Where different innovations stakeholders are brought
together,
• where ideas are generated (together with the inno-
vation stakeholders),
• where innovations are evaluated (in the upper area of
the innovation funnel),
• where the Valley of Death is overcome, and
• during market launches.
For these action focuses, different concepts of action are
required. That means innovation managers and also clus-
ter and network managers must be able to act in diffe-
rent roles, depending on where they are in the innovation
value chain (see figure 8).
The management of innovations has now reached a qua-
lity level that has resulted in the formulation of a stan-
dard. The core piece of the current (valid for three years)
technical specification [5] is the Innovation Management
System (IMS). It targets the company-internal innovati-
on management and specifically takes into consideration
Human Resources management; only in a paragraph at
the end of the specification, does it address the Manage-
ment of Collaboration.
In summary, it becomes clear how essential innovations
and their management are for enterprises. As a result,
company-internal innovation management has been the
subject of many publications – both scientific and also
as handbooks. At this point, we expressly do not intend
to make any recommendations or express criticism but
instead would like to mention two of the newer books as
examples, Gassmann & Sutter [6] and Hauschild & Salo-
mo [7].
3.4 Open Innovation
Title and ownership significantly influence economic pro-
cesses. The concept of the Knowledge-Based Economy
– used by the OECD to describe the state of develop-
ment of the economically leading states of the world – al-
ready points out the changing relations between the right
to knowledge and the right to physical goods.
Intellectual property (IP) describes that type of knowledge
that is created by intellectual work. In today’s knowled-
ge-based economy, intellectual property represents an
important added value in competition. Such added value
results from the right to use the respective knowledge
(through technologies, processes, etc.) in the creation of
products and services. The legal recognition of knowled-
ge (intellectual property rights, IPR) features some speci-
Fig. 8: Points where most support is needed
Fundamental
research
Investmentsfrom…
… the private economy
Bridging-the-gap!
Valley of Death
Applied
research
Feasibility
study
Almost marke-
table prototype
Market
launch
Growth
… public or private
research funding
Find the way to get
on the bridge
Evaluate
inventions
Support
growth
14. 12 Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Introduction to Innovation Management
fic characteristics as opposed to the protection of physical
goods; for example, the concept of the level of invention
(meaning a quality test) and the limitation in time.
Taking this into consideration, the strategies for handling
the intellectual property (creating added value) that is re-
levant for a respective company (or for a research institu-
tion) represent a key element of a corporate strategy [8].
Basically, there are two strategies:
• Publication
• Protection
Historically, intellectual property was protected by
secrecy. Production methods or formulations were di-
sclosed to selected employees only and very often pas-
sed on to the next generation together with the enterpri-
se. Secrecy was also exercised by memberships in guilds
and other similar medieval organizations.
Together with the development from craft trades to bu-
sinesses, another means of protection towards secrecy
was created in the form of patents and other elements at
the end of the 19th / beginning of the 20th century; intel-
lectual property thus became a good. However, patents
are all but secret; they rather become openly accessible
by their disclosure.
Through the principles of secrecy and patent protection,
two fundamental methods were created that still apply up
to this day; their advantages and disadvantages are not ex-
plained here. There is a large number of publications on
the topic of corporate IP strategies but only two of them [9,
10] are referred to in this document as examples.
“In times of increasing pressure through competition and
increasing innovations – while the budgets for research
and development (R&D) are reduced – companies are
forced to open up their innovation processes to increase
their innovation potential by integrating and involving ex-
ternal elements. This strategic inclusion is described as
the Open Innovation Approach” [11].
For this, there are three methods available:
• The integration of external knowledge or of the corres-
ponding knowledge owners (for example, by awarding
development contracts, employment of employees
with new competencies, or acquisition of companies
owning key competences)
• The investment into new fields of business outside
the existing organization
• The cooperation with complementary partners (inclu-
ding competitors and networks)
The latter is the key to understanding the concept of
Open Innovation. Open Innovation is the commercial
exchange of knowledge (whether classical IPR or custo-
mer experiences, etc.) although this does not require mo-
netary compensation in each individual case.
Among other things, the concept of Open Innovation is
an organizational innovation. Enterprises and other stake-
holders open up for a continuous exchange of knowledge
with their suppliers, research institutions, competitors,
and, last but not least, their end customers. This proac-
tive inclusion of end customers enables a better under-
standing of their needs and, furthermore, reveals what
customers are prepared to pay for a novelty. In this re-
gard, Open Innovation must primarily be understood as a
culture of cooperation.
However, this culture certainly involves challenges, too.
Looking at such examples as the LibreOffice open-source
software [12] quickly raises questions such as:
• Who is the owner of the jointly created IPR?
• How can such a group build trust?
• What happens if parts of open IPR are commercially
utilized by individuals?
Open Innovation ≠ Free Innovation
At this point, we would like to expressly point out that
Open Innovation does not mean the sharing of innovati-
ve ideas with random external stakeholders. It is rather
a means to share ideas with those partners who can
improve the chances for their realization, (ideally) in the
context of a win-win situation. For this, a cluster offers
an excellent basis because the fundamental trusting re-
lationships have already been established and there is
(also informal) information available about the strengths
and weaknesses of the potential partners.
15. 13Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Introduction to Innovation Management
Open Innovation Platform (OptecNet Germany)
A multifunctional open innovation platform was developed
and tested in the course of a joint project of the clusters
OpTech-Net e. V., Optence e. V., Photonics BW e. V., bay-
ern photonics e. V., PhotonicNet GmbH, and OptoNet e.
V. supported by the German Federal Ministry of Economic
Affairs and Energy. Its uniqueness is less based on its indi-
vidual features than on their combination, to form an overall
concept for a targeted group (industry). In this example, the
six cooperation partners represent approximately 400 clus-
ter members. With this, such formats as crowd sourcing
can also be realized, which require a significant critical mass
to be successful.
The platform clearly shows how important a culture of
cooperation and corporate cultures are for the success of
open innovations. Open innovations are basically based on
trust – as are all common cluster activities. Hence, clusters
are the “natural” environments for such processes. The
role of web-based processes becomes obvious. They can
support and facilitate the processes – but they are still only
tools. They cannot replace the process of building trust.
The overall concept developed in the joint project is based
on six elements that complement and support each other:
• The use of an industry-oriented crowd sourcing platform
that, inter alia, is based on the experiences and feed-
back of members and users (internal collaboration),
• a platform for exchanging innovation offers and re-
quests in the area of photonics that is primarily used
for trade fairs and other centralized events,
• an interface for interdisciplinary cooperation projects
with other high-technology clusters or networks that
take into consideration market trends and roadmaps,
• an interface for mini enterprises with special consultati-
on and information requirements,
• the use of social networks as innovation platforms, the
development and realization of new forms of events
(for example, bar camps), and new opportunities for
innovation funding (for example, crowd funding), and
• the formation of temporary cluster teams to support
the flow of information.
The basic idea here is to strengthen the commitment wi-
thin the cluster – up to now, this has mainly taken place
at senior management level – and to extend it to a larger
audience within the companies in order to further the in-
tegration of the companies’ environments into the gene-
ration of ideas and product development across company
borders [13].
More information: www.optecnet.de
Another example for Open Innovation in clusters is described in detail under [14].
Supporting the flow of information
Cooperation, opening and transfer processes
Cross-subject
clustering
Industry trade
fairs as platforms
(innovation board,
innovation forum)
Addressing of
mini enterprices
start-ups
Outside-in-process
for the corporate
environment
Web-based methods
Crowd sourcing Open Innovation
platform Social media Bar camps
16. 14 Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Introduction to Innovation Management
Fig. 9: From the cluster’s triple helix model to the quadruple helix model of a Living Lab
Cluster
initiative
Research
institutions
Enterprises
Public
authorities
Living Lab
Research
institutions
EnterprisesCostumers
Public
authorities
The fact that such issues can easily become precarious
becomes obvious from the story of the splitting up of the
open source community in the area of office software:
In September 2010, the above-named LibreOffice (sup-
porting organization: The Document Foundation) was
established as a spin-off from OpenOffice (supporting
organization: Apache Software Foundation). That means
that the innovation process can by no means be an open
process in all phases and situations. Large companies of-
ten make very clear decisions on which subjects they will
work alone (also without the use of R&D institutions) – in
most cases, these are the absolute core elements and
their key competences – and on which they will work on
in cooperation with others (usually subjects where they
are not dependent on the competencies/work of third
parties or where the market size is insufficient for large
enterprises). This is where cluster managements (also
across clusters) can act as neutral idea brokers. They
can identify potential cooperation partners who own the
sought-after specific competencies or companies which
are already successful in the respective market niches.
3.5 Integrating customers into innovation
processes – The Living Lab
Besides the cooperation between stakeholders along the
value chain or within industries (B2B cooperation), the in-
clusion of end customers (both business customers as
well as private customers) plays an important role as a
driver of innovations. For this purpose, the basic concept
of the Living Lab was defined. The Living Lab is a new
model in innovation management. It is based on the fact
that solutions of this type will gain greater importance
in the future; a comparison with the concept of direct
democracy may be a bit far-fetched but draws a quite
realistic picture. The Living Lab can also be described as
bringing together the concept of Open Innovation with
the end customer who was formerly involved to a limited
extent only.
The correct measure of involvement of end customers
in the Living Lab is a key topic of innovation research in
this field and ultimately the key to the added value this
method provides. Living Labs specifically address the ap-
plication of technologies and the products and services
resulting thereof. By integrating (potential) users (private
customers, enterprises, or public institutions), the poten-
tials of socio-technological innovations for production and
consumption can be identified and analyzed throughout
the system. The early and realistic integration of applica-
tion contexts into research and development processes
supports acceptance by the markets later on, reduces the
risk of flops, and promotes a quicker diffusion. The Living
Lab can also be seen as a practical method to assess the
socio-ecological effects of innovation.
Information technology plays a key role in the realization
of the Living Lab; but this does not at all mean that the
Living Lab method can only be used for ICT innovations.
17. 15Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Introduction to Innovation Management
The SmartIES2
project [15] describes the five key princip-
les of a Living Lab:
• The added value for the customer is the key to the
later market success of an innovation. Above all, this
requires an understanding of the needs and the moti-
vations of the customer group. The added value for a
customer can be described as the price that the custo-
mer is willing to pay for new products / new services
and how often the customer will use them. However,
a purely financial consideration may not be sufficient in
this context as the example of the energy saving lamp
has shown (compact fluorescent lamp). The simple
calculation of the payback period in this case stands
opposed to such arguments as colour fidelity, lacking
switching capability, or outdoor use.
• The influence of the later customers as competent
partners in the development process demonstrates
their appreciation. These potential customers may well
be a heterogeneous group. The Living Lab can help
here to describe the customer groups in more detail.
Customers may act in different roles in the Living Lab:
for democratic reasons, to analyze the acceptance of
policy-driven solutions in particular (see demography),
for economic reasons (for example, to determine the
usage frequencies), or for developmental reasons
(emphasis of the further R&D process). Ultimately,
this involves the implementation of a feedback pro-
cess.
• The consideration of sustainability is increasingly
made a requirement today. The granting of public fun-
ding today is often made dependent on the minimum
requirement that there will be no additional environ-
mental burden. Many customers take into considera-
tion aspects of sustainability in various forms in their
purchasing decisions – this begins with the private
customer who considers the power consumption of a
device, the procurement of FSC-certified paper only,
and ends with repair options. Especially the latter as-
pect indicates an economic conflict of interests as the
current discussions about “planned obsolescence”
show.
• Many companies already use the process of Open
Innovation. The cluster initiatives are the best ex-
amples for this. However, the inclusion of customers
must not be on the account of observing one of the
basic principles of Open Innovation: all of the parties
involved must (in the long term) recognize an added
value for themselves when they participate in the
Living Lab.
• Another core element of the Living Lab concept is
the implementation of a realistic scenario. Only
through this, the later market conditions and factors
of influence can be adequately recognized and taken
into consideration. For this, inventions may either be
tested by end customers in model environments or in
the actual environment of the end customer. The first
of the above procedures is required in any case if the
legal or technical framework conditions forbid testing
in the real environment (see autonomous vehicles).
The above description gives an impression of the comple-
xity of the organization of a Living Lab – but at the same
time it reveals the tasks that the cluster management can
take over in such an environment:
• Management of a heterogeneous process with high
demands on the neutrality of the moderator
• The trust of all stakeholder groups in the moderator,
manager, or contact
• “Head point” for the integration of the fourth axis (the
customers; the other three axes of the helix are alrea-
dy present in a cluster initiative)
LivingLab BWe
(e-mobil BW GmbH)
The topic of electric mobility is especially suited to a
Living Lab. Transport and mobility are of special interest
to the public. The LivingLab BWe
mobil basically con-
sists of 34 projects and is understood as a systematic
approach consisting of interconnected projects; electric
mobility, from E-bike to E-car, from electric vans to plug-
in buses, is to be made available or usable for everyo-
ne. These projects address such issues as intermodali-
ty, fleets and commercial transport, infrastructure and
energy, housing and electric mobility, urban and trans-
port planning, vehicle technology, communication and
participation, as well as training and qualification. The
2 Transnational Nordic Smart City Living Lab Pilot
18. 16 Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Introduction to Innovation Management
federal government supports this showroom region
with approximately EUR 45 million [16].
In a special way, the LivingLab BWe
mobil can address
the issue of proximity to the end customer (residents,
companies) but also to producers and suppliers. A ma-
jor portion of its services can be accessed by the broad
public (for example, car sharing fleets or public trans-
port). Another specialty of the Baden-Württemberg
showroom project in this connection is the communica-
tion services offered. With its numerous producers and
suppliers, Baden-Württemberg is an industrial location
that is characterized by the automotive industry. Taking
into consideration this very specific position, it is of spe-
cial importance for the state to actively contribute to this
technological change. By means of cooperations in par-
ticular, companies can identify the needs of users and
integrate these into their strategic planning – this clearly
demonstrates the importance of clusters.
More information: www.livinglab-bwe.de
3.6 From the single enterprise to the cluster
This publication primarily addresses innovation proces-
ses in network structures. The fundamental difference
to the company-internal innovation management is the
relationship aspect: within a company, there are hier-
archical structures (irrespective of their form); network
structures, however, feature a peer to peer architecture
(irrespective of any existing economic dependencies).
That means that trust is the key element in the relations-
hips between the stakeholders.
The management of networks, for example, in form of
alliances, value chains, supply chains, or long-term busi-
ness relations, has become part of the daily business of
many private and public organizations, and increasingly
also for other types of organizations (NGOs, unions, or
even administrative bodies of public-private partners-
hips). In particular the large globally active companies
were extremely successful in the past when they had in-
itiated their networks in a targeted and strategic manner
[17]. Today, it is almost unthinkable for a great variety
of industries to be competitive without the sustainable
networks between producers, suppliers, complemen-
tors, and customers – not only taking traditional indust-
ries such as the automotive or construction industry into
consideration, but also modern industries like informati-
on and communication technology. SMEs are able to es-
tablish smaller company-specific cooperations although
they cannot quite be described as networks, and not
at all as structured or strategically planned networks.
These networks are often based on customer-supplier
relations.
Cluster initiatives and state-wide networks in Ba-
den-Württemberg can be understood as cooperation al-
liances between competent partners from the industry,
science, research, and politics which are characterized
by close coordinated interaction and communication
among each other. Through this intensive and particu-
larly early cooperation between companies and rese-
arch institutions, the knowledge transfer is accelerated
which lets companies benefit from the research findings
so that they can market innovative products and ser-
vices each more expediently and competitively. It also
helps research institutions to effectively find partners in
the industry to realize their research products. Cluster
initiatives and networks are thus able to significantly
increase the innovation capability of enterprises and to
contribute to the profiling and positioning of the regions
in global competition. In this aspect, cluster initiatives
and networks that benefit from the spatial agglomera-
tion of the stakeholders are more than a loose web of
relations. They act target-oriented, support the develop-
ment of competencies, the transfer of knowledge, the
generation of innovations, and align their activities to the
requirements of a knowledge society and the continuing
globalization. This requires professional coordination ef-
forts that are usually provided by the cluster or network
managements [18].
If companies actively innovate within cluster initiatives
or networks their activities no longer take place on an
individual corporate level, but instead take place on a
multi-stakeholder level. In such a context, the cluster
and network management often takes over the role of
innovation management. This is especially the case in
the beginning when the concerned stakeholders have
not known each other for long or the required trust has
not yet been established.
The following determinants or trends have significant-
ly influenced the generation of innovations so that the
former well-known patterns or procedures of innovation
generation are no longer valid (no ranking order):
• So far, separate technologies have become convergent
(see analogue voice telephony and digital data transfer)
and penetrate a wide range of segments of the industry.
19. 17Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Introduction to Innovation Management
• The complexity of the topics of individual innovations
more and more often reaches beyond the technologi-
cal capacities of a company.
• Many innovations are particularly created by the
connection and combination of different technologies
and industries. Within established industries (Old
Economy), incremental innovations may also genera-
te important competitive advantages on the market.
• Many (high)-tech innovations require long develop-
ment lead times before they can be utilized in the
market; the Valley of Death of an innovation rather
increases on average. Last but not least, this ap-
plies to innovations that are dependent on complex
production processes or that involve new production
processes as integrated elements of innovation.
• The role of intellectual property rights (IPR) [19] in
innovation processes has changed. Established pro-
tection mechanisms (patents, secrecy) partly compe-
te with the new methods of innovation management
(Open Innovation). This also bears economic risks.
Taking into consideration the above-mentioned trends,
innovation processes are becoming increasingly deman-
ding, complex, and time-consuming, especially for SMEs.
Therefore, interactions between stakeholders with diffe-
rent competencies are required more frequently.
The success of cluster initiatives3
as drivers of innovati-
on processes is undisputed [20]. Consequently, this topic
is given adequately high priority in cluster and network
initiatives as is the issue of finding the “right” partner
[21]. In the course of the study of the Institute for Econo-
mic Research (Institut der deutschen Wirtschaft) in 2011,
approximately two out of three interviewed cluster and
network managements stated that the generation of in-
novations or increasing the innovation capabilities was an
important or very important goal of their networking acti-
vities [13]. This means that clusters and regional innovati-
on structures – whether organized as formal cluster initia-
tives or not – essentially contribute to the acceleration of
innovation processes for the benefit of their stakeholders
today [22]. Together with the excellence of the cluster or
network managements the potential and the capabilities
of the cluster or innovation managements grows to pro-
mote such innovation processes in the interest of their
members.
3 In the following, we use the term Cluster Initiative although it involves a regional group (of cluster stakeholders) that has entered into an understanding for common and trusting
actions in an appropriate form. This action is coordinated by the cluster management (or cluster organization).
20. 18 Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Operationalization in the Context of Clusters
4 Operationalization in the Context of Clusters
The fundamental findings and trends of the preceding chap-
ters can be summarized by the following thesis. At the
same time, they represent the motivations for the cluster
and network managements to act as important drivers of in-
novation processes within cluster initiatives and networks.
1. Larger globally-active companies have their own me-
thods and structures to deal with the company-in-
ternal innovation management. This also includes
distinct decisions on which of the innovation topics
are dealt with in-house exclusively and which of
them are made the subjects of cooperation projects.
2. For medium-sized enterprises, there are usually stan-
dardized methods for innovation management that
facilitate the implementation and operation of an in-
novation management system. Standardized and es-
tablished methods such as IMP3rove [23] are suitable
to precisely analyze and improve processes. These
companies (depending on their size) employ at least
one executive or a small staff division that is familiar
with innovation management. If specific competen-
cies are required they can be sourced externally.
3. Smaller enterprises – even if they are active in the
high-tech sector or can be described as innovati-
ve – usually do not have a structured innovation
management. If at all, innovations are more likely
initiated by chance or in an unstructured manner.
The standardized methods and procedures of
innovation management that are offered on the
market for these enterprises are often too complex
or oversized, or do not adequately take into conside-
ration the specific circumstances of the respective
enterprises. At the same time, SMEs are specifically
dependent on external know-how because they do
not have the corresponding competencies in-house.
This is especially true for SMEs that do not belong
to the high-tech sector.
4. Often, SMEs are unable to provide an appropria-
te strategic level for innovation processes within
their own companies. They sometimes react highly
market (customer) driven. Most often, the executive
management is directly responsible.
5. SMEs are usually integrated into value chains, often
as suppliers. Often, original equipment manufactu-
rers (OEMs) are at the other ends of the chains. The
innovation strategy of a SME should be aligned to
such a structure.
6. Roadmaps, technology scouting, foresight proces-
ses, and similar methods for assessing future trends
and market / technology developments can provide
orientation / a framework for the innovation strate-
gies of individual companies. A commonly agreed
cluster strategy helps SMEs to (jointly) track a broad
market or application spectrum.
7. With a cross-stakeholder innovation or cluster
strategy, cluster initiatives can identify and reduce
the economic risks that lie in the innovation process
for SMEs because they make the needs of their
customers more predictable (industry roadmaps can
be similarly useful).
8. Work groups (or innovation labs, innovation arenas,
etc.) initiated and coordinated by cluster or network
managements are an ideal open innovation platform
and a starting point for concrete innovation proces-
ses.
9. Cluster managements can also act as external
innovation experts for their member SMEs; they
enjoy the benefit of trust and neutrality as opposed
to external consultants. Oftentimes, they also act as
project coordinators in later phases.
10. SMEs most easily find partners for innovations in
the familiar environment of their “own” cluster
initiative. A condition for this, however, is a profes-
sional cluster and network management that has an
interest in their topic. The more specific the require-
ments the more willing are stakeholders to engage
in supra-regional networks; especially in the absence
of the critical mass or sufficient competencies.
11. Radical innovations are relatively rare (“hitting the
jackpot”). In the daily business and when defining
their service portfolios, the cluster managements
have their focus on incremental innovations. Provi-
ding support for the transformation of (partial) indus-
tries in the course of an implementation of radical
innovations can also represent an important value
added by cluster or network managements.
21. 19Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Operationalization in the Context of Clusters
4.1 The cluster management’s role as a driver
of innovations
As demonstrated in the previous chapters, new tasks
and duties arise for cluster and network managements in
cross-stakeholder cluster environments, especially if they
intend to contribute to a strengthening of the cluster sta-
keholders’ innovation capabilities. This approach is main-
ly helpful for SMEs that cannot afford their own explicit
innovation management. Thus, the cluster or network
management can practically partly take over the task of
innovation manager. Some of the methods that must be
applied by cluster or network managements in this cont-
ext differ from the company internal utilization of the clas-
sic innovation management methods to a minor extent
only; others are specific for this environment, mainly the
networking component.
The added value of innovation management in a cluster
environment is, on the one hand, created by observing the
value chains (including the prior development steps – ver-
tical expansion of the observation area – and, on the other
hand, by reaching the critical mass / market share through
the number of cluster members – horizontal expansion
of the observation area. Furthermore, cluster initiatives –
which can be compared to a virtual large-scale enterpri-
se – have other options to influence their basic external
conditions. In this respect, their options range from the
Fig. 10: Innovation pyramid in a cluster environment
Innovation
strategy
Operated innovation
management
Transfer of results
Externalconditions
Internalconditions
economies of scale, as can be achieved by purchasing as-
sociations, to the utilization of political stakeholders. The
table on page 20 provides an overview over the methods
of innovation management that are presented in detail
in the following chapters. These methods are applied at
different levels of the innovation pyramid (see figure 10).
4.2 The cluster management‘s actions on the
strategic level
In the following, we present different measures that have
a more strategic character (see page 20). They are usually
carried out at the very beginning of a comprehensive in-
novation process within a cluster initiative. These measu-
res are used to determine the position and the needs, or
for defining the strategy. They can, but do not necessarily
need to, take place in the order they are dealt with in this
document. A roadmapping process usually identifies the
future development lines and future technological, mar-
ket-related, and social requirements. A subsequent deter-
mination of the position and an analysis of the technology
portfolio show how well a cluster initiative and its stake-
holders are prepared for the challenges to come. All this
information is important for the strategy-defining process
that usually follows.
22. 20 Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Operationalization in the Context of Clusters
Table: Selected methods of innovation management in a cluster environment
Level Cluster-related
Innovation strategy
Internal conditions
(Innovation culture)
Operative innovation
management
External conditions
Transfer of results
Roadmapping, portfolio analysis, international determination of position,
cluster strategy form the framework/emphasis of SME strategies
Advanced training options, connection of industry and research, work
groups innovation labs, open innovation arenas
Make contacts with cooperation partners (Innovation Matching), technology
transfer
Joint purchasing platforms, recruitment of qualified personnel, make contact
with politics and multipliers
Common brands or processes, innovation packages
4.2.1 Roadmapping
Roadmapping means graphically noting methods in order
to present complex scenarios including their dependen-
cies in terms of time and paths. They are often used for
complex projects to develop strategies for product fami-
lies, industries, or even clusters. This method is called
the dialogue-hermeneutic method and is about visualizing
the knowledge and the findings of experts in a mode-
rated dialogue, and reaching a consensus based on the
presented processes and the illustrated factors.
This results in roadmaps or structural plans that provide
insight into the complexity, the critical development pa-
ths and the temporal development of an industry.
Their major advantages are:
• Visualization of complex processes
• Substantiation of statements and determination of
events, dimensions, and relations
• Reduction of complex connections and dependencies
to the central aspects
• Multidisciplinarity through involvement of different
expert groups
This method is also used in different research and de-
velopment areas, including, for example, product road-
maps, technology roadmaps, research roadmaps, and
industry roadmaps. An example of the latter is the Inter-
national Technology Roadmap for Semiconductors [24]
that is subject to a continuous revision process.
As a practical example, we would like to present the Vi-
sual Roadmapping method here (see figure 11). Besides
the technical aspects, this method addresses the so-
cio-economic factors of influence and the effects on the
economy and society. Such questions are of critical im-
portance in connection with radical innovations. A visual
roadmap categorizes four relevant aspects that address a
specific problem (for example, industry development or
topics relating to the corresponding value chain).
Usually, these four aspects are the following (but can be
adjusted):
• Socio-economic factors of influence (legal, economic,
social conditions, phenomenons, and requirements)
• Enabling technologies (scientific-technological require-
ments for the respective topic)
• Development of the topic under consideration (central
aspects and milestones that are of importance for the
development of the topic)
23. 21Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Operationalization in the Context of Clusters
Economic
and social
effects
2020 Future
Product
development
and services
Enabling
technologies
Socio-economic
factors of
influence
Fig. 11: Visual Roadmapping method: basis (left) and outcome (right) (Source: iit Berlin)
Economic and
social effects
2020 Future
Product
development
and services
Enabling
technologies
Socio-
economic factors
of influence
Energy Harvesting
Smart Micro-grids and
smart controls
Energy storage
Solar heat pump
Photocatalysis
for homes
Compatibility of
useful energy
3rd generation
of insulation
World champien
in energy efficiency
High and transparent
energy prices
through taxes
Political Incentive
system for housing
settlements
Stable
funding conditions
Personalized CO2
-
labeling
Energy control and
information systems
for consumers become
standard
New „ligth bulb“
Versorgungssicherheit
Climate protection 2 million energy
selfsufficient homes
50 % of heat residential
area renovated
Export of prefab
energy+ housesInnovative business
models (for example, solar
plant leasing)
New business model
for housing companies
Innovative business
models (for example, solar
plant leasing)
Smart homes
Old buildings renovated
Objective
• Effects (economic and social effects, but also new
product and service offers)
Irrespective of the chosen roadmapping method, the fol-
lowing findings can be derived from an existing roadmap:
• Identification and determination of milestones
• Identification of future developments: trend analysis
• Identification of critical path dependencies (technical,
non-technical)
• Identification of positive and negative effects and
reciprocities
• Identification of important factors of influence
Finally, the last step in the process is the derivation of
recommended actions.
Ideally, the cluster management sees itself as the driver
of this process. Figure 12 shows an example of a typical
process in practice. Besides the literature analysis in pre-
paration of the process, the concerned cluster manage-
ment coordinated the joint status and requirements ana-
lysis, together with its members, which was the basis for
the next steps in the process. After agreeing on a com-
mon goal (Where are the members heading?) they iden-
tified the topics in their focus and the expected product
and process innovations. The end point was the question
of how the cluster-internal innovation management pro-
cess can be derived from the identified trends and expec-
ted transformation processes. After that, specific action
plans were agreed. An active cluster management and a
proactive involvement of the members can be conside-
red a success factor in this process.
The common development of a roadmap can thus be
considered an essential instrument of cooperative colla-
boration which, at the same time, helps to answer the
questions of selection and regulation of the cluster ma-
nagement. Through the written fixation of the technologi-
cal and market strategy in the roadmap, the projects are
not only prioritized – the stakeholders for specific projects
are selected as well; this also represents a formal codi-
fication of which technological and market alternatives
are to be taken into consideration within the network and
which organizations are actually involved in the projects.
The roadmap also stipulates specific answers to the
question of the regulation of the cluster management:
the roadmap specifies – through milestones in a sche-
dule and through (partial) project plans and stakeholder
constellations – how the tasks interact with each other in
the cluster initiative. The specific design of the roadmap
clearly shows that it is a customized supporting service
for the cluster initiative which provides orientation for the
initiative as a whole.
24. 22 Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Operationalization in the Context of Clusters
Fig. 12: Example of workflow of a roadmap process [25]
Kick-off-Workshop
Findings of current literature and source analyses in the context of
innovation research and nutrition science taking into consideration the
preliminary examinations for the Innovation roadmap
Status and requirements analysis:
understanding innovation, innovation
systems in enterprises
Targets and motif of Innovation
roadmap
Topical emphasis, product
and process innovations
Innovation management process Action plan
Innovation roadmap
Commercial vehicle roadmap 2030 (Commercial
Vehicle Cluster – Nutzfahrzeug GmbH)
As the relevant comprehensive documents were not
available, experts from science and industry drafted a
corresponding roadmap document under the guidance
of the cluster management. The key statements of this
document are presented here as an example [26]:
German commercial vehicle producers and their sup-
pliers are world-class in terms of technology. In the
high-end area, there is great potential in the optimiz-
ation of entire business processes: the connection of
vehicles and systems allows boosts in productivity that
clearly go beyond the optimization of individual vehicles.
A requirement for the rapid realization is the collabora-
tion between vehicle producers, suppliers and service
providers in order to create common standards and in-
terfaces.
Ensuring the security and reliability of connected dyna-
mic systems is a key competence of future commercial
vehicles. For connected smart ecosystems, simulations
must be developed that include the connections bet-
ween communication technology, fleet management,
and traffic flow.
The automation of functions in commercial vehicles,
including autonomous functions, requires the real-time
processing of machine and ambience data. For an effi-
cient and reliable integration, the goal should be a stan-
dardization in the area of real-time capable data com-
munication, simulation, and connection, especially for
commercial vehicles.
A powerful energy management system that can sup-
ply more electric power will sustainably improve the
productivity of a commercial vehicle. The definition of
energy interfaces between different system and voltage
levels is required for this, as is the definition of suitable
topologies.
The role of the cluster management is to convince its
members of the necessity of a roadmapping process, to
draw up a concept for it, and to control the entire pro-
cess. In this regard, it was important to integrate all the
25. 23Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Operationalization in the Context of Clusters
necessary competencies and to provide for a balancing
of the interests of large enterprises and SMEs. Upon
completion of the roadmap, the cluster management
coordinated the realization of the relevant aspects wit-
hin the cluster initiative.
More information: www.cvc-suedwest.com
4.2.2 Determining the positions of the cluster stake-
holders in the context of innovations4
To improve the innovation capability and to strengthen
the profiles of cluster initiatives and their stakeholders, as
cores and drivers of innovation, the basic definition of the
positions of the cluster stakeholders in the global rese-
arch and innovation environment is a fundamental requi-
rement. By carrying out comprehensive innovation audits
for individual cluster initiatives, which are organized and
coordinated by the respective cluster managements, it is
possible to identify the outstanding innovation capacities
(for example, specific technological capacities) and critical
innovation bottlenecks (for example, a lack of pioneers for
radically new technological applications) and to provide
an important basis for decisions on the further strategic
cluster development in an international environment. Th-
rough the systematic analysis of the environment, a Part-
ner Radar including potential partners with a strategic im-
portance for the cluster initiative (other cluster initiatives,
technology platforms, etc.) is worked out in the course of
the audit, in cooperation with the cluster management.
The audits are carried out in close cooperation with the
cluster management and stakeholders whereas the fo-
cus is clearly on the common assessment of innovation
capacities/bottlenecks, and the systematic analysis of the
global research and innovation environment. The cluster
management, which receives support from external ex-
perts, if necessary, may utilize a comprehensive range
of methods for this, including interviews, expert discussi-
ons, innovation workshops, and stakeholder or secondary
data analyses. The audit results, especially the Partner
Radar help the cluster initiatives to identify strategically
important partners and to initiate new cluster alliances –
for example, for the purpose of smart specialization to
utilize synergy effects and to increase the innovation ca-
pabilities in the European research and innovation area.
Based on the audit findings, the relevant cluster initiati-
ves can start establishing or extending regional and sup-
ra-regional strategic innovation partnerships in a targeted
manner. Here, the cluster management also plays an im-
portant role in the practical implementation. Depending on
the intended strategic alignment of the cluster initiative,
partnerships with other cluster initiatives, with comple-
mentary competencies, are initiated and jointly designed
in order to (for example, for the purpose of smart speci-
alization and synergetic cooperation) combine the com-
plementary capabilities and competencies for a mutual
benefit. Alternatively, the cluster management can also
be supported and accompanied in the pre-competitive co-
operation with strategic partners, for example, following
the example of the Microtechnics Alliance5
, to boost the
cluster initiative’s international “impact power”.
Possible support measures on the part of the cluster ma-
nagement for establishing/extending strategic collabo-
rations with a partner that was identified in the Partner
Radar are, for example, the initiation of the contact and
providing support during first meetings, drafting the com-
mon agenda, and the implementation of the agenda du-
ring the first year of the strategic cooperation. Especially
during the critical phase at the beginning of the strategic
cooperation during which the first common activities shall
be realized in practice, the cluster management can provi-
de important assistance in the interests of its members.
4.2.3 Technology portfolio analysis
The technology portfolio analysis was first presented in
[27]. It is an instrument of strategic technology manage-
ment. The results of the analysis are presented in two
dimensions – the current situation and the future (see
figure 13). It takes into consideration external (that can-
not be influenced) and internal (that can be influenced)
parameters. If applied to cluster initiatives it is important
to note that the terms internal and external (that actually
relate to a company) must be used differently. From the
results, recommended actions can be derived for the
topical emphasis and the strategy.
In the classical diagram, the term ‚technology attractive-
ness‘ summarizes partial aspects, development potenti-
al, compatibility, and application range; ‚resource capaci-
ty‘ means the degree of command (of technology), the
potentials, and responsiveness. It is certainly possible to
4 Author: Dr. Björn Sautter, Steinbeis-Europa-Zentrum
5 The Microtechnics Alliance is a strategic alliance of the four leading clusters in the area of microsystems technology in the European region that was established
26. 24 Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Operationalization in the Context of Clusters
Fig. 13: Classical technology portfolio analysis
Technologyattractiveness
Ressource capacity
3
4
2
0
0
1
1 2 3 4
Technology attracting
selection field
Deinvest
High-resource
selection field
Invest
change the definition of the ordinates depending on the
goal of the analysis. An example for this is the assess-
ment of a portfolio of R&D results. In this case, the
availability of industry partners (proximity, size, etc.) may
represent an important criterion of resource capacity.
The two fields Invest (high technology and market
attractiveness) and Deinvest can be described relatively
easy and translated into recommendations for actions.
A more differentiated analysis is required for the (yellow)
band in the middle. Here, the current market position of
the stakeholder under consideration (individual enter-
prise as well as the cluster with its value chain), the
industry specifics (innovative industry versus traditional
industry), and other specialties (for example, approval as
an innovation obstacle) play roles that should not be un-
derestimated. The technology attracting selection field
can be especially attractive in the long term for high-tech
segments with a niche character that are mainly occu-
pied by SMEs. The high-resource selection field is rather
quantity-based and requires high-performing production
capacities. The scales must be adapted to the specifics
of the industry; for example, the technology attractive-
ness of photonics cannot be measured with the same
measure as logistics.
If this method is applied to cluster initiatives, the inter-
connections of the stakeholders within the cluster must
be adequately taken into consideration. This concerns
the (accumulated) resource capacity of the cluster initia-
tive; because the degree of integration of small and ac-
tually low-resource stakeholders can clearly improve the
resource capacity of the cluster as a whole (see figure
14: small dots = individual enterprises, large dot = value
chain). With respect to the technology attractiveness,
especially the availability of technologies that are based
on or complement each other may result in a significant
change in the assessment. The opposite is true for gaps
in technology or value chains.
As in many analytic processes of this type, the modera-
tion of such a process but also the performance of such
an analysis is typically the task of the cluster manage-
ment. What makes the cluster management unique
here is its solid knowledge of the stakeholders (and their
strengths and weaknesses) and its neutrality.
27. 25Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Operationalization in the Context of Clusters
4.2.4 Definition of the strategy
An analysis of the relationship between the intensity of
individual services of a cluster initiative (that is, the ope-
rative level of innovation management = input) and their
effectiveness (= output) shows that high quantity at this
point does not necessarily correlate with the activities’ ef-
fectiveness. Therefore, to achieve effects the quantity of
the performed work is not the only decisive factor, decisi-
ve is especially the quality of the work performed, that is
the development, contents, and provision of the services.
It is also the combination and interaction of services (that
is, the concept as a whole) that have an effect on the
R&D and business activities of SMEs, as activities of the
cluster management. This overall concept represents the
cluster initiative’s strategy.
There is no blueprint for this task because these services
are mainly targeted at the practical needs and are thus
strongly dependent on the structure of the network (sta-
keholder structure, industry) and the actual current needs
of its members. Two important points must be highligh-
ted in this respect:
• Cluster managements must constantly observe
the technological and economic trends in the (sub-)
industries that are relevant for the respective cluster
initiative. This observation should not be limited to the
cluster-based sectoral aspects but must include the
ecosystems of related industries, competencies, and
value chains. Such observation of the trends assists
the identification of new opportunities for the cluster
initiative whose further development can be facilitated
by the cluster management when it offers such ser-
vices that extend their capacities. Cluster managers
are not only managers of their cluster initiatives but
also trend scouts and consultants. In practice, cluster
managers manage a holding company without any
ownership or other hierarchical structures.
• The industrial members of the cluster initiative must
be included in the development of the services.
Excellent cluster organizations constantly communica-
te with the cluster stakeholders both in the strategic
process and in the daily business. They consider them
to be “customers” who seek support for the develop-
ment of their companies. Steady communication is
therefore mandatory to identify new service require-
ments.
The strategy of a cluster initiative can, but not necessarily
needs to, be closely related to a roadmap (see Chapter
4.2.1). This basically depends on how important the to-
pic of innovation is for the respective cluster initiative.
Fig. 14: Technology portfolio analysis: high resource capacity through accumulation
Technologyattractiveness
Ressource capacity
3
4
2
0
0
1
1 2 3 4
Technology attracting
selection field
Deinvest
High-resource
selektion field
Invest
28. 26 Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Operationalization in the Context of Clusters
Fig. 15: Four-step process to work out a cluster strategy (Source: iit Berlin)
• Target identification
process
• Vision of the cluster
• Basis for the strategic
positioning
• Current situation
• Identification of possi-
ble fields of aactivity
• Based on SWOT
• Identification and
prioritization in accor-
dance with targets
• Allocation of servic,
new development
• Resources and time
periods
Vision /
target
SWOT: Strengths /
weakness
analysis
Development of
measures
Derivation of
fields of avtivity
A technology portfolio analysis (see Chapter 4.2.3) may
be carried out before a strategy is determined.
The motivations for working out a common innovation
strategy may be diverse. Carrying out the process invol-
ved in determining a strategy basically means that the
critical innovation stakeholders that are part of the orga-
nization develop a common idea of into which direction
the cluster initiative should develop and which measures
must be taken to approach that goal.
Such a process towards the formulation of a cluster stra-
tegy or the refining of an existing strategy often starts
with the identification of the strengths and weaknesses
at the current point of time and the opportunities and ris-
ks of the future development. Based on the description
of the current situation, a common idea of the future sta-
te in the medium or long term (strategic vision) is worked
out and the target system is determined for the cluster
initiative. This defines a corridor of actions that should be
designed in an adequately concrete way in order to derive
the range of services and at the same time be flexible
enough to allow further development options. Based on
the results of the analysis of strengths and weaknesses
(SWOT analysis), the relevant fields of activity, that will
be the targets of the measures for realizing the strategy,
are determined and prioritized. The general course of ac-
tion as shown in figure 15 needs to be adapted to the
actual circumstances of the respective cluster initiative.
The strategy process that is coordinated by the cluster
management thus contributes to providing transparency
with respect to the goals and interests of the participants
and to the creation of a common outlook for the future by
defining a vision and a target system. A strategy proces-
ses within a cluster initiative thus represents a process
of communication and of negotiating perspectives and
approaches. The integration of all stakeholder groups is
a requirement for the success of the strategy process.
A successful strategy process retains the integrative po-
wers, enables the stakeholders’ identification with the
visions, and creates a high degree of commitment. Parti-
cipation increases the trust for further cooperation. Figu-
re 16 shows an example of a possible course of action
for the development of an innovation strategy for cluster
initiatives.
29. 27Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Operationalization in the Context of Clusters
Fig. 16: Schematic procedure for the development of a strategy for a cluster initiative (Source: iit Berlin)
Analysis of the current state
• Documents that are relevant for the cluster initiative or for industries in which it operates
• Regional SWOT topics and focuses
Workflow design, strategy process / review
• Review process (for example, innovation capability of members, technological strengths)
• Efficient integration of members/integration of a satisfaction analysis
• Performance indicators for cluster managements
Analysis
• Roadmapping process (with selected cluster stakeholders)
• Development of strategic key areas in an innovation context
• Identification of cluster-relevant cross-sectoral topics that promote innovations
• Consideration of regional future-proof unique characteristics
Strategy design and result
• Refining of strategy
• Integration of strategic key areas into method kits and strategy document
• Implementation steps and action planning
Fig. 17: Diagram of the strategic key topics of the “microTEC Südwest” cluster (Source: microTEC Südwest)
CLUSTER MANAGEMENT
SPECIALIST GROUPS
TECHNOLOGY PLATFORMS
QUALIFICATION & INTERNATIONAL.
Production – Smart Production
Energy – Smart Energy
Health – Smart Health
Mobility – Smart Mobility
30. 28 Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Operationalization in the Context of Clusters
Strategy process STRATCLU (microTEC
Südwest)
An excellent example of a sophisticated and mature
strategy can be found in the management organization
of the microTEC Südwest cluster. The underlying stra-
tegy development process was funded by the Federal
Ministry of Education and Research (BMBF) in the cour-
se of the Leading-Edge Cluster competition.
An important cornerstone is the development of the
cluster in the form of a learning system; challenges, tech-
nologies, and basic conditions for clusters are changing
constantly. The cluster organization must learn to identify
global challenges and future markets in time, to formulate
(or identify) long-term research and innovation strategies
for the concerned targets industries, and to find the sui-
table alliance partners for this. These activities must take
place continuously or in short intervals in order to adjust
the targets in the case of changing basic conditions.
Important activities in the STRATCLU strategy process
were:
• concept design and testing of strategy processes for
the systematic development of an overall strategy for
the cluster as well as the promotion of the corres-
ponding methodologies and process competencies
(taking into consideration strategic political and
management instruments such as innovation audits,
foresight, evaluation of consequences, roadmap-
ping6
),
• the development and testing of processes for adap-
ting and streamlining the overall cluster strategy for
prioritized future topics and applications,
• the development and testing of processes for the
systematic evaluation of progress in the realization
of the strategy, and its integration into the cluster
management’s method portfolio,
• the design and implementation of benchmarking
methods to compare the development of the own
cluster with globally leading microsystem technology
clusters,
• the establishment of a platform for professional
cluster services.
• The microTEC Südwest cluster strategy is defined by
a three guiding targets:
• It is intended to establish the cluster as a leading
research, development, and production location
for smart products with integrated microsystems
technology.
• It is planned to extend the competencies and ca-
pacities in the cluster in a targeted manner and to
optimally streamline the creative cooperation and
innovation processes.
• It is intended to increase the region’s attractiveness
for qualified personnel, creative minds, companies,
and investors worldwide.
The cluster’s strategy is aligned to these three guiding
targets. Responsible for its realization is the cluster
management that was put in charge by the state of
Baden-Württemberg, the professional organization
microTEC Südwest e. V.
As a result of the strategy process – that also consi-
dered the design of the post Leading-Edge Cluster
phase – seven expert groups were established to work
thoroughly on application and technology-related and
structural issues. Currently, approximately 350 repre-
sentatives from companies, universities, and research
institutions discuss technological and application-rela-
ted topics within these groups.
Technology platforms, qualification, and internationaliz-
ation are further key targets of the cluster.
More information: http://microtec-suedwest.de/
der-cluster/clusterstrategie-microtec-suedwest
4.3 Methods on the operational level7
For innovation management at the corporate level, me-
aning innovations on the level of an individual member
enterprise or group of enterprises, there is a large variety
of methods available – a number in the region of 100 is
occasionally mentioned in literature – but they cannot all
be discussed in this document.
The main advantage of innovations within cluster initia-
tives is the integrated and connected handling of inno-
vations as shown in the following figure 18. Because of
the increasing complexity of innovations, complemen-
6 These methods are partly described in other chapters of this publication.
7 Authors: Ralf Lauterwasser and Dr. Michael Ortiz, Steinbeis Beratungszentren GmbH
31. 29Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Operationalization in the Context of Clusters
Fig. 18: Projects life-cycle (with respect to individual innovations)
Demand analysis
Project- /
toping life-
circle
Bringing together
stakeholders (Inno-
vation matching)
Define project topics
Raising of (public)
funding
Project assistance
tary competences are more and more often required but
which are not available in the individual SMEs. That me-
ans, that a whole network of competencies is required
and a cluster initiative or a network represents the ideal
environment for this.
The degree of support to be provided by the cluster ma-
nagement for such an individual (cluster) innovation pro-
cess is directly dependent on the already existing quality
of the stakeholder network and the complexity of the is-
sue. In the case of projects that arise from established
work groups within a cluster initiative, support may be
limited to assistance in the raising of public funding; in
other cases, it may be necessary to provide compre-
hensive support from the search for suitable coopera-
tion partners (to close gaps in the innovation chain), to
the project definition for workshops, or even assistance
(coaching, project management) for the actual invention
process (for example, also in the form of neutral project
management), or the conducting of commercialization
workshops, that is, that the cluster management is requi-
red in all steps of the project life-cycle.
To support innovation activities or common product or
technology developments by cluster stakeholders, clus-
ter managements can develop specific services for their
cluster stakeholders relating to the generation of innova-
tions as shown in figure 19. These are dependent on the
specific basic conditions of the respective sector and the
cluster initiative.
Depending on where the cluster initiative or the involved
cluster stakeholders are in the innovation process, there
are different approaches of support available that depend
on the outcome of the preliminary determination of their
respective positions (see Chapter 4.2.2):
• Technology Scouting
• Innovation Matching
• Cross-Clustering
• Technology Transfer between cluster stakeholders
For all of the presented measures, the following applies:
Interested cluster stakeholders, especially SMEs, can
basically enter the process at any point, but they should
determine their own positions beforehand in order to ad-
apt the following measures to the needs of the cluster
stakeholders.
If the majority of the cluster stakeholders is more in need
of new technologies to solve current user problems, the
cluster management should take measures in the cont-
ext of Technology Scouting. If the cluster stakeholders
are rather looking for new or additional applications for
“their” technologies, Innovation Matching would be a
better fit. In a later stage, both options may also result
in Cross-Clustering activities or specific Technology
Transfer projects, because the best innovation potential
32. 30 Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Operationalization in the Context of Clusters
often lies exactly in those areas where technology and
applications meet. A strong penetration of SMEs with
such measures should also be the goal of cluster initia-
tives which are enabled by such measures to offer new
services.
The goal of Cross-Clustering is to have different cluster
initiatives provide support to companies as well as to
universities and research institutions to help them solve
their technological problems and to assist their common
innovation projects with a systematic innovation appro-
ach. This requires consultations and close cooperation
between the individual stakeholders of the different clus-
ter initiatives.
Technology Transfer, however, includes both the trans-
fer of a specific type of knowledge, namely knowledge
about a technology, and the transfer of technological
knowledge that has already been transformed into arte-
facts [28]. To put it simply, technology can be considered
the basis of production and products in the broadest sen-
se, also in the case of services. Consequently, technolo-
gy is more than knowledge – technology is know-how,
that is knowing how to do things. Technologies converge
(they always have, but it takes place quicker today), the
borders between technologies are blurred, technologies
are interdependent or required to enable each other –
microsystems are an example for this [29].
Fig. 19: Specific measures for generating innovations within cluster initiatives (source: Steinbeis)
SME
Starting position
of cluster initiative
Technology
Scouting
Innovation
Matching
Cross-
Clustering
TechTransfer
Effective transfer
prozesses
Systematic
networking
Providing
ideas and partners
Open innovation
prozess
Competencies,
environment, analysis,
partner radar
4.3.1 Technology Scouting8
Technology Scouting means the structured analysis and
early recognition of changes, potentials, and relevant
knowledge, as well as technological developments and
processes. However, Technology Scouting also means
the demand-driven search for experts whose knowledge
is to offer solutions for specific problems. We can also
find targeted Technology Scouting in cluster initiatives,
as an active element of Technology Transfer, when co-
operation projects are brokered between companies and
scientific institutions. The term ‚matching‘ is also often
used in connection with Technology Scouting because it
is about making perfect matches and connections bet-
ween persons and competencies.
The topic of Technology Scouting is gaining more and
more importance in cluster initiatives. The generation of
innovations and competition increasingly become global
matters and it is specifically hard for SMEs to identify
new technological developments or new trends. The de-
mand for Technology Scouting is rising as well because
of the reduction of internal research activities, the increa-
sing pressure on research and development in terms of
efficiency, and the growing technological diversification
and increasing complexity of technologies.
Technology Scouting is a systematic approach to the ob-
servation of the technological environment and the ana-
lysis of the applicability of new technologies to their own
fields of application. Large enterprises often use Techno-
logy Scouting as an instrument for analysing technologies
or technology-oriented start-ups. Technology Scouting in
8 Authors: Dr. Jürgen Jähnert and Alexandra Rudl, bwcon GmbH
33. 31Clusters and Innovations: Cluster Initiatives as Drivers of Innovations
Operationalization in the Context of Clusters
cluster initiatives can be targeted at a specific technologi-
cal area or a specific application area (searching for new
technologies for an existing field of application). Because
Technology Scouting usually utilizes informal resources
too – for example, personal contacts, experts, expertise
– cluster initiatives are specifically useful because of the
existing network of knowledge. In addition, Technology
Scouting is part of the innovation strategies of cluster in-
itiatives.
Examples of questions that arise in the context of Tech-
nology Scouting are:
• Is a certain technology interesting for cluster stakehol-
ders? If so, why?
• Which technologies are available for solving a speci-
fic problem? Which technologies exist in a specific
subject area?
• Which competitor solutions compete with a certain
technology?
• In which area is a technology superior to competitor
solutions?
Possible cluster management services (if necessary, with
external support) could be:
• Definition of a search field to identify interesting tech-
nologies
• Search for suitable technologies to solve specific prob-
lems in a cluster initiative
• Identification of applications for a technology in diffe-
rent markets
• Identification and comparison of competitor technolo-
gies
• Assessment of the market potential of a technology
Technology Scouting TechnologyMountains
What are the trends? Which are the future develop-
ments? Which technologies will be in demand tomorrow
and can strengthen our everyday business even today?
These are the big questions raised by the Kunststoff-Insi-
tute Südwest (Southwestern Plastics Institute) – as one
of the three stakeholders of the TechnologyMountains
e.V. Association – in the Technology Scout project. They
relate to the system itself and can serve as examples in
this context.
The selected structure is a three-year joint project in
which six enterprises from Baden-Württemberg partici-
pate. These six enterprises with their respective fields of
business set the course. And yet, it is especially the look
beyond the horizon that creates the specific added value
for all participants. In addition to the classic plastics indus-
try topics such as mould making and plastics engineering,
it also deals with new developments in the areas of elec-
tric mobility, connected industry, testing and sensor tech-
nology, and additive manufacturing. Through this, this
project can lay the foundations for all participating com-
panies and prepare a solid base for the developments in
the years to come.
Among all those topics, especially the topic of additive
manufacturing receives more and more attention. But
what does this mean for conventional injection moulding?
Although additive manufacturing convinces through its
flexibility, allows new concepts for products, and provi-
des more individuality, the choice of materials is still limi-
ted in most cases. Moreover, the mechanical durability of
the components is usually inferior to that of conventional-
ly injection moulded components and the same applies to
the surface quality. Due to the extremely long production
times and the higher production costs for higher volumes,
additive manufacturing is currently primarily suited for the
production of prototypes or mini series. Classic injection
moulding won’t be driven out too quickly but the niche of
additive manufacturing is growing! A future trend could
be the combination of both worlds: the combination of
additive manufacturing and conventional injection moul-
ding for the product of tomorrow.
The role of the cluster management is not only about
process initiation and design, but also the identification
of derived market-relevant trends and the corresponding
preparation for the members.
More information: www.technologymountains.de