This document provides an overview of technology parks and business incubators, including:
- Definitions of key terms like science parks, technology parks, and business incubators.
- The conceptual framework of technology parks, which aim to facilitate commercialization of new technologies through synergies between research, education, and companies.
- The functions of technology parks and incubators, which include providing facilities, expertise, networking opportunities, and other resources to support startup companies and help them grow.
- Examples of successful parks highlight the importance of links to universities for access to talent, facilities, and intellectual property.
The Vishweshwariah Industrial and Technological Museum was established in 1962 and is located in Bangalore, India. It is named after Sir M. Vishveshwariah, an notable engineer, scholar, and statesman. The museum aims to honor Sir M. Vishveshwariah's contributions and showcase innovations in various fields like engineering, electronics, and biotechnology. It is located near Cubbon Park on Kasturba Road in a 40,000 square foot building, with ample parking space and seven exhibition halls covering different topics.
Hyderabad international convention centrericha bihari
The document provides information about the Hyderabad International Convention Centre (HICC) including its location, accessibility, facilities, floor plans, and services. Key details include:
- The HICC is located in Hyderabad, India and is accessible from the airport within 45 minutes, from the main train station within 42 minutes, and from the bus stand within 19 minutes.
- Facilities include 21 meeting rooms, 6 interpretation booths, 4 speaker preparation rooms, an exhibition hall, and event halls 1-6 with a total area of 6,150 square meters.
- Floor plans show the zoning and facilities on the ground, first, and second floors, including administration areas, registration areas, event spaces, and
Hyderabad International Convention Centre (HICC) Complete PlansKARTIK KANKAR
I have downloaded this ppt from website named "English Document"
https://vdocuments.us/category/documents.html
kindly like and share this website so that others can also make use of this wonderful site. :)
Also this ppt has two more case studies on convention centre.
enjoy !!!!!
This document provides information about a proposed socio-cultural and international convention center to be located in Dwarka, Delhi. It notes that such centers are important for facilitating knowledge exchange and resolving disputes between nations. The proposed center aims to meet the need for large convention venues in Delhi and boost tourism. It will provide space for meetings, exhibitions, cultural activities, and leisure for corporations. The 20-acre site is located near the airport with good connectivity. Research will analyze similar centers and the site context to determine the optimal layout and spaces needed, such as convention halls, auditoriums, meeting rooms, offices, restaurants, and recreational areas.
The document discusses various IT parks located across India. It provides details about prominent IT parks such as Hitec City in Hyderabad, the largest IT park in India. It also discusses International Tech Parks in Chennai and Bangalore developed by Ascendas and International Tech Park Ltd. respectively. The document further mentions other major IT parks located in cities including Bangalore, Kolkata, Chandigarh, Ludhiana and their focus on providing infrastructure and facilities to attract IT and related industries.
This document summarizes the design and construction of the large-span cast-in-situ concrete space frame structures built for the Hall of Nations and Halls of Industries pavilions at the 1982 Asian Games in Delhi. Key aspects include:
1) The Hall of Nation structure had a 73m x 73m base and 30m height, with a 39m x 39m roof span, making it one of the first large-span cast-in-situ concrete space frame structures ever built.
2) The geometry used a truncated pyramid modular design constructed from 24 nodes at the ground forming six nodes on each square plan face.
3) Reinforcement details showed how 16 bars passing through each node
The document provides information on the National Institute of Design located in Paladi, Ahmedabad, India. Key details include:
- It was completed in 1961 with RCC frame structure designed by architects Sarabhai and Gira on a 63,848 sqm site along the Sabarmati River.
- The master plan divides the campus into three parts - the institute complex containing the academic buildings, a residential block, and public areas.
- The complex contains administration blocks, lecture halls, workshops, laboratories, library, exhibition space, auditorium, and faculty rooms organized around courtyards with considerations for local climate and ventilation.
FINAL B.ARCH THESIS PRESENTATION IIT ROORKEE:
City Centre ,Rohini ,Delhi ,Thesis project (2013)
A Mixed use development project comprises of diverse activities and functions located at the
sprawling District centre in Rohini with site area of 16 acres.With a AIM to explore the symbiotic
character of COMMERCE and CULTURE and to evolve a contemporary model of conventional
Indian market.
The Vishweshwariah Industrial and Technological Museum was established in 1962 and is located in Bangalore, India. It is named after Sir M. Vishveshwariah, an notable engineer, scholar, and statesman. The museum aims to honor Sir M. Vishveshwariah's contributions and showcase innovations in various fields like engineering, electronics, and biotechnology. It is located near Cubbon Park on Kasturba Road in a 40,000 square foot building, with ample parking space and seven exhibition halls covering different topics.
Hyderabad international convention centrericha bihari
The document provides information about the Hyderabad International Convention Centre (HICC) including its location, accessibility, facilities, floor plans, and services. Key details include:
- The HICC is located in Hyderabad, India and is accessible from the airport within 45 minutes, from the main train station within 42 minutes, and from the bus stand within 19 minutes.
- Facilities include 21 meeting rooms, 6 interpretation booths, 4 speaker preparation rooms, an exhibition hall, and event halls 1-6 with a total area of 6,150 square meters.
- Floor plans show the zoning and facilities on the ground, first, and second floors, including administration areas, registration areas, event spaces, and
Hyderabad International Convention Centre (HICC) Complete PlansKARTIK KANKAR
I have downloaded this ppt from website named "English Document"
https://vdocuments.us/category/documents.html
kindly like and share this website so that others can also make use of this wonderful site. :)
Also this ppt has two more case studies on convention centre.
enjoy !!!!!
This document provides information about a proposed socio-cultural and international convention center to be located in Dwarka, Delhi. It notes that such centers are important for facilitating knowledge exchange and resolving disputes between nations. The proposed center aims to meet the need for large convention venues in Delhi and boost tourism. It will provide space for meetings, exhibitions, cultural activities, and leisure for corporations. The 20-acre site is located near the airport with good connectivity. Research will analyze similar centers and the site context to determine the optimal layout and spaces needed, such as convention halls, auditoriums, meeting rooms, offices, restaurants, and recreational areas.
The document discusses various IT parks located across India. It provides details about prominent IT parks such as Hitec City in Hyderabad, the largest IT park in India. It also discusses International Tech Parks in Chennai and Bangalore developed by Ascendas and International Tech Park Ltd. respectively. The document further mentions other major IT parks located in cities including Bangalore, Kolkata, Chandigarh, Ludhiana and their focus on providing infrastructure and facilities to attract IT and related industries.
This document summarizes the design and construction of the large-span cast-in-situ concrete space frame structures built for the Hall of Nations and Halls of Industries pavilions at the 1982 Asian Games in Delhi. Key aspects include:
1) The Hall of Nation structure had a 73m x 73m base and 30m height, with a 39m x 39m roof span, making it one of the first large-span cast-in-situ concrete space frame structures ever built.
2) The geometry used a truncated pyramid modular design constructed from 24 nodes at the ground forming six nodes on each square plan face.
3) Reinforcement details showed how 16 bars passing through each node
The document provides information on the National Institute of Design located in Paladi, Ahmedabad, India. Key details include:
- It was completed in 1961 with RCC frame structure designed by architects Sarabhai and Gira on a 63,848 sqm site along the Sabarmati River.
- The master plan divides the campus into three parts - the institute complex containing the academic buildings, a residential block, and public areas.
- The complex contains administration blocks, lecture halls, workshops, laboratories, library, exhibition space, auditorium, and faculty rooms organized around courtyards with considerations for local climate and ventilation.
FINAL B.ARCH THESIS PRESENTATION IIT ROORKEE:
City Centre ,Rohini ,Delhi ,Thesis project (2013)
A Mixed use development project comprises of diverse activities and functions located at the
sprawling District centre in Rohini with site area of 16 acres.With a AIM to explore the symbiotic
character of COMMERCE and CULTURE and to evolve a contemporary model of conventional
Indian market.
The victor menezes convention center (VMCC) IIT - mumbai
The kongu convention center - Tamil nadu
Zayed university - abu dhabi
Centre pompidou - Metz
Convention center – jaipur
Hyderabad has experienced significant economic growth and diversification over the past several decades. Originally based around traditional manufacturing and trade, the city is now a major center for the biopharmaceutical, IT, real estate, and tourism industries. The establishment of industrial zones and technology parks like HITEC City have attracted many multinational companies and transformed Hyderabad into an important hub for the knowledge sector. Hyderabad contributes a large portion of Telangana's GDP and tax revenue and has an increasingly service-based economy centered around these growing industries.
This slide presentation was used to present the InterTech Technology Park plan to the Louisiana American Planning Association and to the Association of University Research Parks. The plan received the "Best Plan Award" from the Louisiana APA in 2002.
The document provides details about the City Centre shopping mall located in Salt Lake City, Kolkata, India. It was designed by renowned Indian architect Charles Correa and aims to fuse traditional Indian marketplace qualities with modern amenities. The 50,400 square meter complex incorporates residential plots, offices, entertainment venues, shops, and public plazas arranged in a fine-grained mix. Correa's design rejects the isolated mall model and emphasizes connectivity to the surrounding urban context through open layout and semi-covered walkways.
The document provides information on the National Institute of Design located in Paladi, Ahmedabad, India. It was designed in 1961 by architects Sarabhai and Gira on a 63,848 sqm site along the Sabarmati River. The master plan divides the campus into three parts - the institute complex containing the academic buildings, a residential block, and public areas. The complex contains administration blocks, lecture halls, a library, workshops, laboratories, an exhibition space, auditorium, faculty rooms, and circulation areas. The residential block has hostel buildings and quarters for guests and staff. Landscaping with lawns and courtyards helps reduce the campus temperature.
The India Habitat Centre in New Delhi was started in 1993 and designed by architect Joseph Allen Stein. It is spread over 19 acres and contains facilities like restaurants, galleries, an auditorium, amphitheater, and atrium. The complex is built on 9 acres and has 5 main building blocks interconnected by aerial walkways housing various facilities. It has outdoor spaces like lawns and terraces that add to its landscaped surroundings.
LANDSCAPE FOR INSTITUTION: CIDCO EXHIBITION CENTRE AND CHRISTCHURCH CONVENTIONMansi Jain
The document provides details of a case study for landscape design of an institutional site in New Zealand. It discusses the proposed landscape concept plan for the Christchurch Convention and Exhibition Centre which includes integrated pedestrian pathways, vehicular access roads, open spaces, and stormwater management elements. Sections of the plan highlight connections between buildings and the surrounding river, use of native trees and contours to provide seating areas, and lighting design. The plan shows how the landscape and buildings work together to create a comfortable space for public use and movement between activities on the site.
Case study prestige tech park and select city walkMadhu Sagar
Prestige Tech Park III is a clustered development of 3 office buildings and 1 parking structure located along the IT corridor in Bangalore. It has a total built up area of around 33,445-35,303 sqm split between the buildings. The design provides efficient floor plates and segregated cores. Select City Walk in New Delhi is a mixed use development along a main corridor, with retail, office, hotel, and recreational spaces. It has a total area of 62,862 sqm including an outdoor plaza. Both developments provide adequate parking, services, and finishes appropriate for their commercial and office uses.
NEHRU SCIENCE CENTER MUMBAI and Dr. Kallam anji reddy memorialHarshit Jain
NEHRU SCIENCE CENTER MUMBAI and Dr. Kallam anji reddy memorial
architectural case study
India's largest Science Centre designed by Achyut prakash Kanvinde.
The India Habitat Center is a convention center located in New Delhi, India. Constructed in 1993 and designed by architect Joseph Allen Stein, it is built on a 97,000 square meter area and features 5 main building blocks connected by aerial walkways containing office, exhibition, and conference spaces. The complex also includes an auditorium, theaters, meeting halls, restaurants, guest rooms, and outdoor event spaces to host conferences, exhibitions, and other events. The buildings utilize red brick facades and are planned and landscaped to promote air flow and sunlight while separating pedestrian and vehicle access.
Mixed use high rise (THESIS WORK BY:-KAPIL KAUSHIK)Kapil Kaushik
The document discusses the benefits of exercise for mental health. Regular physical activity can help reduce anxiety and depression and improve mood and cognitive functioning. Exercise causes chemical changes in the brain that may help protect against mental illness and improve symptoms.
CIDCO CONVENTION CENTRE ,VASHI,NAVI MUMBAI AS LIVE CASE STUDY AND INDIAN HAB...prateek Dulani
This is a third year architectural case study for a city centre conducted and completed over a period of 5 days. Case study of cidco convention centre navi mumbai and indian habitat centre
done by- prateek dulani,
joshua fernanandes
yash prathyani
yash parmar
prachi warkad
manasi sonar
priya varma
This document provides information about housing trends in Chennai, India. It discusses the traditional objectives of public and private housing developers in Tamil Nadu. It also describes some key features of traditional house typology in Chennai, including open plans with emphasis on cross ventilation to deal with the hot, humid climate. The document includes case studies of two housing developments - Metrozone Apartments and Unity Enclave in Mambakkam.
This is an Architectural case study on the Centre for Environment Planning & Technology (CEPT) building. Situated in Ahmedabad, Gujarat. This is done by an architecture student in semester 5.
The document outlines a thesis report submitted by Saurav Chaudhary for their architectural thesis project on the Noida Habitat Centre in Noida, Uttar Pradesh, India. The report includes an acknowledgement, recommendation, and declaration section. It then provides a synopsis of the project, including an introduction to habitat centres, the objectives, aims, scope, and site details of the Noida Habitat Centre project. The methodology section outlines the site study, literature review, case studies, programming and area analysis, concept development, design stages, and final design that will be included.
The document discusses the origin and growth of IT parks in India. It provides details on the first IT park established in India in Bangalore in partnership with Tata Industries, Singapore Consortium, and Karnataka Industrial Areas Development Board. It outlines the key IT parks established across major cities in India and the facilities and infrastructure provided in these parks. The future of IT parks and their role in promoting India as a global IT hub is also mentioned.
THE RELATIONSHIP OF EDUCATION IN SCIENCE TECHNOLOGY AND (2).pptxCastroMarcoAngelo
The document discusses science and technology parks (STPs), which are organizations that promote innovation and business competitiveness. STPs facilitate knowledge sharing between universities, businesses, and markets. They support startup companies and technology/business skills transfers. STPs provide infrastructure and business services to tenants. Locating near universities and transportation helps STPs collaborate and access talent and markets. The Philippines has established several STPs, including the National Science Complex and U.P. Ayala Land Technohub, through partnerships between government, academia, and industry to promote research and economic development.
This document provides information about science parks and the Italian Association of Science Parks (APSTI). It discusses:
- The definition and role of science parks in promoting innovation and knowledge transfer between universities and companies.
- An overview of the Italian innovation ecosystem and the network of 25 science parks that make up APSTI.
- The skills, infrastructure, and networks that APSTI provides to support companies through incubation, acceleration, technology transfer and internationalization.
The victor menezes convention center (VMCC) IIT - mumbai
The kongu convention center - Tamil nadu
Zayed university - abu dhabi
Centre pompidou - Metz
Convention center – jaipur
Hyderabad has experienced significant economic growth and diversification over the past several decades. Originally based around traditional manufacturing and trade, the city is now a major center for the biopharmaceutical, IT, real estate, and tourism industries. The establishment of industrial zones and technology parks like HITEC City have attracted many multinational companies and transformed Hyderabad into an important hub for the knowledge sector. Hyderabad contributes a large portion of Telangana's GDP and tax revenue and has an increasingly service-based economy centered around these growing industries.
This slide presentation was used to present the InterTech Technology Park plan to the Louisiana American Planning Association and to the Association of University Research Parks. The plan received the "Best Plan Award" from the Louisiana APA in 2002.
The document provides details about the City Centre shopping mall located in Salt Lake City, Kolkata, India. It was designed by renowned Indian architect Charles Correa and aims to fuse traditional Indian marketplace qualities with modern amenities. The 50,400 square meter complex incorporates residential plots, offices, entertainment venues, shops, and public plazas arranged in a fine-grained mix. Correa's design rejects the isolated mall model and emphasizes connectivity to the surrounding urban context through open layout and semi-covered walkways.
The document provides information on the National Institute of Design located in Paladi, Ahmedabad, India. It was designed in 1961 by architects Sarabhai and Gira on a 63,848 sqm site along the Sabarmati River. The master plan divides the campus into three parts - the institute complex containing the academic buildings, a residential block, and public areas. The complex contains administration blocks, lecture halls, a library, workshops, laboratories, an exhibition space, auditorium, faculty rooms, and circulation areas. The residential block has hostel buildings and quarters for guests and staff. Landscaping with lawns and courtyards helps reduce the campus temperature.
The India Habitat Centre in New Delhi was started in 1993 and designed by architect Joseph Allen Stein. It is spread over 19 acres and contains facilities like restaurants, galleries, an auditorium, amphitheater, and atrium. The complex is built on 9 acres and has 5 main building blocks interconnected by aerial walkways housing various facilities. It has outdoor spaces like lawns and terraces that add to its landscaped surroundings.
LANDSCAPE FOR INSTITUTION: CIDCO EXHIBITION CENTRE AND CHRISTCHURCH CONVENTIONMansi Jain
The document provides details of a case study for landscape design of an institutional site in New Zealand. It discusses the proposed landscape concept plan for the Christchurch Convention and Exhibition Centre which includes integrated pedestrian pathways, vehicular access roads, open spaces, and stormwater management elements. Sections of the plan highlight connections between buildings and the surrounding river, use of native trees and contours to provide seating areas, and lighting design. The plan shows how the landscape and buildings work together to create a comfortable space for public use and movement between activities on the site.
Case study prestige tech park and select city walkMadhu Sagar
Prestige Tech Park III is a clustered development of 3 office buildings and 1 parking structure located along the IT corridor in Bangalore. It has a total built up area of around 33,445-35,303 sqm split between the buildings. The design provides efficient floor plates and segregated cores. Select City Walk in New Delhi is a mixed use development along a main corridor, with retail, office, hotel, and recreational spaces. It has a total area of 62,862 sqm including an outdoor plaza. Both developments provide adequate parking, services, and finishes appropriate for their commercial and office uses.
NEHRU SCIENCE CENTER MUMBAI and Dr. Kallam anji reddy memorialHarshit Jain
NEHRU SCIENCE CENTER MUMBAI and Dr. Kallam anji reddy memorial
architectural case study
India's largest Science Centre designed by Achyut prakash Kanvinde.
The India Habitat Center is a convention center located in New Delhi, India. Constructed in 1993 and designed by architect Joseph Allen Stein, it is built on a 97,000 square meter area and features 5 main building blocks connected by aerial walkways containing office, exhibition, and conference spaces. The complex also includes an auditorium, theaters, meeting halls, restaurants, guest rooms, and outdoor event spaces to host conferences, exhibitions, and other events. The buildings utilize red brick facades and are planned and landscaped to promote air flow and sunlight while separating pedestrian and vehicle access.
Mixed use high rise (THESIS WORK BY:-KAPIL KAUSHIK)Kapil Kaushik
The document discusses the benefits of exercise for mental health. Regular physical activity can help reduce anxiety and depression and improve mood and cognitive functioning. Exercise causes chemical changes in the brain that may help protect against mental illness and improve symptoms.
CIDCO CONVENTION CENTRE ,VASHI,NAVI MUMBAI AS LIVE CASE STUDY AND INDIAN HAB...prateek Dulani
This is a third year architectural case study for a city centre conducted and completed over a period of 5 days. Case study of cidco convention centre navi mumbai and indian habitat centre
done by- prateek dulani,
joshua fernanandes
yash prathyani
yash parmar
prachi warkad
manasi sonar
priya varma
This document provides information about housing trends in Chennai, India. It discusses the traditional objectives of public and private housing developers in Tamil Nadu. It also describes some key features of traditional house typology in Chennai, including open plans with emphasis on cross ventilation to deal with the hot, humid climate. The document includes case studies of two housing developments - Metrozone Apartments and Unity Enclave in Mambakkam.
This is an Architectural case study on the Centre for Environment Planning & Technology (CEPT) building. Situated in Ahmedabad, Gujarat. This is done by an architecture student in semester 5.
The document outlines a thesis report submitted by Saurav Chaudhary for their architectural thesis project on the Noida Habitat Centre in Noida, Uttar Pradesh, India. The report includes an acknowledgement, recommendation, and declaration section. It then provides a synopsis of the project, including an introduction to habitat centres, the objectives, aims, scope, and site details of the Noida Habitat Centre project. The methodology section outlines the site study, literature review, case studies, programming and area analysis, concept development, design stages, and final design that will be included.
The document discusses the origin and growth of IT parks in India. It provides details on the first IT park established in India in Bangalore in partnership with Tata Industries, Singapore Consortium, and Karnataka Industrial Areas Development Board. It outlines the key IT parks established across major cities in India and the facilities and infrastructure provided in these parks. The future of IT parks and their role in promoting India as a global IT hub is also mentioned.
THE RELATIONSHIP OF EDUCATION IN SCIENCE TECHNOLOGY AND (2).pptxCastroMarcoAngelo
The document discusses science and technology parks (STPs), which are organizations that promote innovation and business competitiveness. STPs facilitate knowledge sharing between universities, businesses, and markets. They support startup companies and technology/business skills transfers. STPs provide infrastructure and business services to tenants. Locating near universities and transportation helps STPs collaborate and access talent and markets. The Philippines has established several STPs, including the National Science Complex and U.P. Ayala Land Technohub, through partnerships between government, academia, and industry to promote research and economic development.
This document provides information about science parks and the Italian Association of Science Parks (APSTI). It discusses:
- The definition and role of science parks in promoting innovation and knowledge transfer between universities and companies.
- An overview of the Italian innovation ecosystem and the network of 25 science parks that make up APSTI.
- The skills, infrastructure, and networks that APSTI provides to support companies through incubation, acceleration, technology transfer and internationalization.
Open innovation and technology transfer chp 11AartiPandey63
1. The document discusses open innovation and technology transfer, noting the increasing importance of external sources of technology for companies. It describes several models of technology transfer, including licensing, science parks, and intermediaries.
2. Limitations to technology transfer are also covered, such as an organization's absorptive capacity and the "Not Invented Here" syndrome which can inhibit accepting outside ideas. Successful transfer requires an organization to be able to identify, acquire, assimilate and apply new technologies.
3. Key aspects of open innovation discussed are the paradox of openness in balancing external collaboration with internal protection, and the role of relationships and trust in managing uncertainty in technology transfers between organizations.
The document discusses definitions of science parks from various organizations like Castells, Kang, UKSPA, AURP, and SPRINT. It provides details on the objectives, development patterns, management types, and activities of science and technology parks (STPs). The rest of the document outlines the process of developing a Teknopolitan, including conducting feasibility studies, creating a master plan and action plan, construction, and ongoing management.
Science parks and business incubation centres: An overviewFundaciat
The document provides an overview of science parks and business incubation centres. It defines them as organizations that promote innovation and help new businesses grow. Science parks stimulate knowledge sharing between universities, businesses, and markets. They facilitate company creation and growth through business support. Business incubation combines infrastructure, services, and networks to help new companies survive and grow in their early stages. The document discusses key factors for success, including strong leadership, partnerships with universities, and financial sustainability.
The document provides an overview of science parks and business incubation centres. It defines them as organizations that promote innovation and help new businesses grow. Science parks stimulate knowledge sharing between universities, businesses, and markets. They facilitate company creation and growth through business support. Business incubation combines infrastructure, services, and networks to help new companies survive and grow in their early stages. The document discusses key factors for success, including strong leadership, partnerships with universities, and financial sustainability.
The document discusses the concept and development stages of science parks and technopolises. It defines them as areas that link educational or research institutions with businesses, providing infrastructure and support services to enable technology transfer and economic development. The document outlines different types of science parks and technopolises, their key features, physical characteristics, focuses, and examples to illustrate the concepts.
The document proposes solutions to improve research commercialization in India by establishing Research Commercialization Centers (RCCs) located at IITs. The RCCs would synergize existing programs and policies to promote industry-academia partnerships. A governing board would oversee each RCC. Challenges include implementing the synergistic framework and securing funding, but the model aims to be self-sustaining through equity shares. The RCCs are expected to strengthen commercialization of research and boost the startup ecosystem.
Science parks require an integrated approach and clear success factors to be successful. Key regional factors that contribute to success include a network of innovative businesses and institutions, a job market of knowledge workers, and the presence of universities. Crucial success factors for the science park itself are having a clear market strategy and vision, strong management providing services to support businesses, a clear choice of target industry, and a unique identity. Embedding the science park in the regional innovation strategy and obtaining government support are also important.
Mr. Charles Monck (Founder, Charles Monck & Associates): Science and Technol...Asbar World Forum 2016
Science and Technology Parks (STPs) and Business Incubators play a vital role in helping diversify economies by stimulating the development of technology-based clusters. They bring together technology firms in a supportive commercial environment. Key drivers of success include building critical mass through entrepreneurial startups and attracting foreign firms. Critical success factors are having a clear business plan, marketing strategy, and support services for tenants. Challenges include initially attracting enough tenants and securing long-term funding; practical actions can strengthen STPs through cooperation across organizations and evaluation of programs.
This report summarizes a benchmarking project analyzing the status and future of university-based value creation in Finland, Israel, Massachusetts, and Singapore. The key findings across regions were that major universities have adopted an ecosystem approach, where 80-85% of knowledge transfer is created through alumni and students rather than direct research commercialization. Technology transfer offices represent a small percentage of university budgets. High-quality applied research conducted with industry is important. The roles of technology transfer offices are evolving to focus on networking between academia and industry. Proof-of-concept funding, incubators, and business angels are important for supporting startups. The report provides recommendations for Finland including new business development services, competence development programs, and revised funding mechanisms
The document discusses various ways to maximize and optimize research and innovation in India. It identifies key issues such as lack of funding, infrastructure, and industry-institute collaboration. It proposes solutions like increasing government funding for R&D, setting up more research facilities, incentivizing careers in research, strengthening industry-institute linkages through mentorship programs and jointly developed courses, and improving the patent filing system. The overall goal is to promote research by students and professionals and enhance commercialization of innovations.
The document discusses innovation in universities. It notes that universities generate new knowledge through research and development activities. However, most Philippine universities face challenges in meaningful research due to lack of resources. While university research alone rarely results in marketable products, combining efforts with industry can generate innovation. The establishment of Innovation & Technology Support Offices (ITSOs) in universities by the Intellectual Property Office of the Philippines helps build innovation capacity. ITSOs assist with patent searches, drafting, and prosecution. Knowledge and Technology Transfer Offices (KTTOs) further facilitate interaction between universities and private industry. Together, ITSOs and KTTOs help create an efficient innovation ecosystem in universities.
The document discusses technology transfer in South African universities and research institutions. It summarizes that technology transfer offices are relatively new in South Africa and performance varies widely between institutions. While income from technology transfer is currently low, offices need time to become self-supporting. Government policy has aimed to strengthen technology transfer, though commercialization still faces challenges.
A business setup in business speak could be a company that helps new and startup firms to form by providing services like management coaching or workplace area.
Business incubators dissent from analysis and ability parks in their dedication to startup and early-stage firms.
The document discusses various ways that companies can access new technologies, including setting up their own companies, entering into technological alliances, mergers and acquisitions, and obtaining technologies from external sources. It also describes different types of technology providers that can help companies, such as universities, research centers, technology centers, and some companies that develop custom technologies. The document advertises paid documents on its website about how to work with technology providers to transfer technologies.
Innovation Across Borders - Session 8 wang rong for toronto conferenceMaRS Discovery District
The document discusses international cooperation programs between Shanghai business incubators and organizations in other countries and regions. It provides an overview of business incubation in Shanghai and four models of transnational bilateral programs. The programs are intended to encourage entrepreneurship and commercialization of technologies by helping companies establish connections and operations overseas.
The document discusses academia spin-offs and the process of creating a university spin-off company. It describes that a university spin-off is a technology-based company created by university researchers to commercialize technology developed at the university. The process involves getting approval from the university technology transfer office and various committees. The university would then partner with the spin-off company and license the necessary technology, while not being involved in management. Researchers can work with the spin-off under certain legal frameworks that allow outside work and ownership stakes in startups commercializing their research.
The document provides information about a group presentation on Techno Park. It lists the group members and their registration numbers. The topic of the presentation is "Techno Park". The agenda includes an introduction on the definition, history, vision, mission, purpose, benefits, and how it differs from other parks. It then provides details on Dubai Techno Park, including its location, vision, mission, activities, and advantages. It also briefly summarizes Kerala Techno Park in India and East Azerbaijan Science & Technology Park in Iran.
We are pleased to share with you the latest VCOSA statistical report on the cotton and yarn industry for the month of May 2024.
Starting from January 2024, the full weekly and monthly reports will only be available for free to VCOSA members. To access the complete weekly report with figures, charts, and detailed analysis of the cotton fiber market in the past week, interested parties are kindly requested to contact VCOSA to subscribe to the newsletter.
Enhanced data collection methods can help uncover the true extent of child abuse and neglect. This includes Integrated Data Systems from various sources (e.g., schools, healthcare providers, social services) to identify patterns and potential cases of abuse and neglect.
Open Source Contributions to Postgres: The Basics POSETTE 2024ElizabethGarrettChri
Postgres is the most advanced open-source database in the world and it's supported by a community, not a single company. So how does this work? How does code actually get into Postgres? I recently had a patch submitted and committed and I want to share what I learned in that process. I’ll give you an overview of Postgres versions and how the underlying project codebase functions. I’ll also show you the process for submitting a patch and getting that tested and committed.
Build applications with generative AI on Google CloudMárton Kodok
We will explore Vertex AI - Model Garden powered experiences, we are going to learn more about the integration of these generative AI APIs. We are going to see in action what the Gemini family of generative models are for developers to build and deploy AI-driven applications. Vertex AI includes a suite of foundation models, these are referred to as the PaLM and Gemini family of generative ai models, and they come in different versions. We are going to cover how to use via API to: - execute prompts in text and chat - cover multimodal use cases with image prompts. - finetune and distill to improve knowledge domains - run function calls with foundation models to optimize them for specific tasks. At the end of the session, developers will understand how to innovate with generative AI and develop apps using the generative ai industry trends.
Generative Classifiers: Classifying with Bayesian decision theory, Bayes’ rule, Naïve Bayes classifier.
Discriminative Classifiers: Logistic Regression, Decision Trees: Training and Visualizing a Decision Tree, Making Predictions, Estimating Class Probabilities, The CART Training Algorithm, Attribute selection measures- Gini impurity; Entropy, Regularization Hyperparameters, Regression Trees, Linear Support vector machines.
1. INSTITUTE FOR EASTWEST STUDIES
NEW YORK - PRAGUE - BUDAPEST - BRUSSELS-KIEV - KOSICE
Technology Parks – Concept and Organization
Technology Parks – Concept and Organization
Summary Report
prepared by
Rick Petree, Radoslav Petkov and Eugene Spiro
Institute for EastWest Studies
for
Center for Economic Development, Sofia
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Technology Parks – Concept and Organization
Executive summary: This study presents a conceptual and organizational framework for
establishing a pilot technology park and incubator in Bulgaria. Such a park might initially
focus on the telecommunication and information technology (IT) sector (including
software development), where the country displays strong, albeit under-utilized, technical
talent. The park might encompass an export-oriented IT service firm and an incubator
that will nurture hi-tech companies and help them commercialize innovative ideas and
technologies. The study presents the experience of leading technology parks and
incubators in the U.S., Israel, India and elsewhere and draws upon an on-going project of
the Institute for EastWest Studies to establish a technology incubator in Budapest. The
purpose of the paper is to identify the existing models of technology parks and to suggest
organizational, legal and management solutions that can be applied in Bulgaria.
Part 1 of the study clarifies terminological definitions in order to facilitate comparison
and discussion of international efforts in the fields of “science” and “technology parks”.
Part 2 explores the conceptual framework of science and technology parks. Part 3
presents the functions that technology parks and incubators perform. Part 4 deals in more
detail with their organization, legal framework, and financing. Part 5 illustrates a
successful software technology park scheme in India and a Technology incubator
program in Israel. Part 6 offers recommendations for establishing a technology park and
incubator in Bulgaria based on the country’s comparative advantages and economic
circumstances.
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1. Definitions.
The International Association of Science Parks defines a science park as:
• a property-based initiative, which has formal and operational links with
universities or other higher educational institution, or major centers of research;
• designed to encourage the formation and growth of knowledge-based industries
or high value-added firms, normally resident on site; and
• has a steady management team actively engaged in fostering the transfer of
technology and business skills to tenant organizations.
There are currently about 700 parks worldwide that meet the foregoing criteria. The first
park was founded in California in 1951, at what is now the center of the Silicon Valley –
the University of Stanford1
.
Science parks are also known as technology or research parks, or innovation and science
centers. The term technology park usually denotes a focus on technology innovation and
tenant company involvement in applied science. In presenting the relevant international
experience in this study, we use the term “technology park” (TP) since it seems to capture
the purpose of a prospective Bulgarian initiative aimed at software and information
technology development.
A business incubator is most broadly defined as a facility providing favorable controlled
conditions for the development of new companies. The controlled conditions include at
least three types of resources: facilities support, administrative assistance, and
professional expertise, e.g., management, marketing, accounting, financial and legal
services (Smillor and Gill, 1986). There are currently 550 incubators in the United States
and Canada.
The business incubator is also referred to as innovation center, enterprise center, and
business and technology center. A technology incubator is a business incubator that is
focused on development of technology-based companies.
2. The concept.
Technology parks are designed to facilitate the production and commercialization of
advanced technologies by forging synergies among research centers, education
institutions, and technology-based companies. Tenants of technology parks are usually
small companies at an early development stage pursuing an ambitious growth strategy
based on the incubation of new ideas. To facilitate the successful adaptation and take-up
of these ideas in the market place, the technology park provides:
1
In his end-of-the year speech that year, the Stanford University Dean, Frederick Terman, announced the
formation of small enterprises on campus, managed by students and developing innovative product for
local industries.
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• cooperation in R&D with scientific research institutes and laboratories;
• financial consulting and assistance in obtaining venture capital;
• professional, technical, administrative and legal assistance;
• information and telecommunications services; and
• supportive business infrastructure.
By aiding the growth of tenant companies, technology parks play a significant role in the
development of local economies. They help create new jobs, attract foreign capital, and
increase local and national competitiveness. This developmental role is particularly
important in transition economies, which must absorb a great deal of structural
unemployment and "catch-up" with rapid technological developments in the global
economy.
The technology incubator is an integral part of most technology parks and a major
contributor to their success. The incubator is considered one of the best means of
promoting business growth by effectively linking talent, technology, capital, and
professional know-how. The incubator helps overcome bureaucratic obstacles and
provides affordable space and business facilities, thus reducing the costs of start-ups.
Most importantly, it provides advisory, training and information services, management
and marketing support, linkages to research facilities, and access to capital, thereby
greatly enhancing the chances of success of the early-stage “technopreneur” (Lalkaka,
1996).
The incubator idea gained popularity in the U.S. in the early 1980s with the advent of a
more robust entrepreneurial culture during the Reagan years. In Central and Eastern
Europe, the incubator attracted attention as an effective mechanism to utilize the
scientific potential of state universities and research institutions and channel existing
engineering talent into commercial uses. Incubators were also seen as a way of renewing
the careers of highly qualified specialists and scientific workers who lost their jobs
through the reorganization of the state funded science and high education in the region.
3. Functions of technology parks and incubators.
Most of the science and technology parks, especially those in the US, are built around
universities. This allows for:
• access to faculty and staff on a consultative basis;
• access to graduate and undergraduate students through internships and co-op
arrangements;
• access to university facilities and proprietary technology and intellectual
property;
• contractual use of university owned scientific, engineering and computing
equipment;
• access to the university library system;
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• the ability to receive on-site customized training and education offerings, as
well as access to regular and continuing education offerings on the university
campus; and
• adjunct faculty positions for employees of park tenants.
In addition to the above university-specific services, university-linked tech parks can also
develop services providing support in the areas of:
• scientific, engineering, financial, tax, managerial and business planning;
• copy, fax facilities, telephone answering and on-site fiber optics; and
• shipping and receiving capabilities.
Appendix I summarizes the experience of one of the most successful university-linked
parks in the United States – the Raleigh-Durham Research Triangle Park in North
Carolina.
Many of the university-centered technology parks in the US receive federal support
through the Small Business Innovation Research Program and state and local assistance
in the form of direct funding of R&D, development of high-technology initiatives, and
tax incentives.
Technology incubators are most often organized around a company providing basic
business and administrative support and tied to university or research center facilities.
The incubator is a physical unit, a single building or a group of buildings in which
participating entrepreneurs can be housed together, thereby facilitating spontaneous
interaction. To support start-up businesses, the incubators perform the following
functions:
• assist in conducting technological and marketing feasibility studies and in
preparing an R&D plan (generally intended to be implemented over a 1-2 year
period);
• assist in recruiting and organizing R&D staff;
• provide physical facilities suitable for carrying out each project, including
plant and equipment and administrative offices;
• provide professional and managerial guidance and direction;
• provide secretarial, administrative, maintenance, purchasing, bookkeeping and
legal services; and
• assist in recruiting investment capital and preparation for commercialization
and marketing.
The major success factors for technology incubators are:
• availability of on-site business expertise;
• access to financing and capitalization;
• provision of entrepreneurial education;
• link to a university or research center.
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4. Organization, legal framework and financing of technology parks
4.1. Organization.
Technology parks and incubators vary in the way they are established and managed.
They can be founded as independent legal organizations by state and local governments,
universities and research institutes, development foundations, private corporations or any
combination of those. Depending on the institutional character of their founders, parks
and incubators can be public or not-for-profit, private, academic-related, hybrid, and
other. This classification is used by the American National Business Incubation
Association in Athens, Ohio, in relation to incubation facilities, but can be extended, in
principle, to include technology parks.
Public or not-for-profit parks and incubators are sponsored by government and non-profit
organizations, and serve primarily the purpose of local economic development, i.e. job
creation, economic diversification and/or expansion of the tax base. According to the
National Business Incubation Association, 49% of the business incubators in North
America are in this category.
Private parks and incubators are run by investment groups or by real estate development
partnerships. Their primary interests are economic reward for investment in tenant firms,
new technology applications and other technological transfers, and added value through
development of commercial and industrial real estate. 12% of all North American
incubators are private.
Academic-related parks and incubators are affiliated with universities and colleges and
share some of the same objectives of public and private incubators. In addition, they are
actively engaged in transferring research and development activities, spinning-off
university research efforts, providing faculty with research opportunities, and alumni,
faculty and associated groups with start-up business opportunities. 13% of North
American incubators are academic-related.
The so-called hybrid parks and incubators are joint efforts of government, non-profit
agencies and/or private developers. These partnerships may offer the incubator access to
government funding and resources, and private sector expertise and financing. Hybrid
incubators constitute 18% of all North American facilities.
Other parks and incubators can be sponsored by a variety of non-conventional sources
such as art organizations, church groups, chambers of commerce, etc. 8% of incubators
in North America fall in this category.
While in the US there is a diversity of park and incubator sponsorship, in the
industrializing countries (e.g. China, Taiwan, and to a lesser extent India,) parks usually
rely on a strong government support. Sponsorship, however, is not a defining difference
when it comes to the overall effect of technology parks’ operations: they all serve the
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broad mission of developing knowledge-intensive businesses and increase the
competitiveness of local economies.
4.2. Management.
For the purpose of administering the park, its founders establish a managing company.
The managing company is responsible for the day-to-day management of the park and
has full authority over the park's infrastructure and development. The company can be
established as a non-profit institution or foundation, public corporation, or a private
company with the express purpose of managing the park. In Central and Eastern Europe
management companies are most often non-profit, limited liability companies (the
Latvian Technological Center), or joint-stock companies with government participation
(The InfoPark Budapest).
The management company can set up a subsidiary to run most of the special supporting
services in the park: maintenance of infrastructure, security, central heating and air
conditioning, etc. The subsidiary can be financed by tenants in proportion to the area
they occupy.
An important part of the management company’s portfolio is to provide information
services to tenant companies (Orminsky, 1991). Since park tenants tend to be small and
young companies, their business plans are rarely adequately developed to include a
systematic approach to information gathering and use1
should create an information providing service that can:
• possess basic business knowledge and speak the language of business;
• define carefully the information products of the service so that they can be
identified by potential clients and be recognized to have value for the
•
with casual, informal contacts (Orminsky, 1991).
4.3. Legislative and policy framework.
The success of technology parks and incubators depends on how effectively they create
an environment conducive to business development. State policies and regulations can
significantly contribute in this direction by:
• simplifying the regulatory system to facilitate the registration costs and time
for starting a business;
• encouraging the creation of flexible funding mechanisms, including venture
capital funds, loan-guarantee schemes, etc;
1
There is, however, a growing tendency among small and medium enterprises to use highly developed
forms of electronic communication (telematics).
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• providing tax incentives for corporate and co-operative research and venture
creation;
• strengthen the legal system to protect business rights and intellectual property.
In the US most of the business incentives for the park tenant companies are provided at
the municipal level, e.g. low-cost facilities, preferential income taxes. In some
industrializing countries, such as India, the national government can relieve park tenants
from national income tax for an initial period of time and grant them exemptions from
import and export duties.
4.4. Financing.
The existence of well-developed university and research facilities and strong
technological talent is one of the conditions for the success of technology parks and
incubators. Another is availability of financing. There are basically four models to
structure the financing of a technology park/incubator (Lalkaka, 1996). One is for the
state to cover the initial investment and then let the park/incubator meet all operating cost
on a fee-for-service basis. The other is to cover both the capital and continuing
operations as a social investment1
. The third is to structure the park/incubator as a
private, for-profit, real-estate based undertaking. The fourth model is for a public-private
partnership, whereby the state meets capital and initial (3 to 5 years) operations, on the
premise that private investors will eventually take-over the entity.
Governments in transition countries can be reluctant to commit public funds to
technology parks for a variety of reasons: limited budgetary resources (in the case of
Bulgaria restricted by a currency board), more urgent priorities (wages and pensions due),
the lack of guarantee for quick returns and job creation, or simply because there is
incomplete understanding of the longer-term benefits of investing in technological
enterprises (Lalkaka, 1996). For these reasons, a more acceptable form of government
assistance can be an in-kind and indirect (for example relief of import/export duties)
public support. India is a good examples of this case.
5. Example: The Software technology parks scheme in India and the Technology
incubator program in Israel.
5.1. The Software technology parks scheme in India.
1
In China, the State Science and technology Commission supports 72 technology incubators. In Turkey,
the Small enterprise promotion agency has financed incubators at Istanbul Technical University and at
Middle East Technical University in Ankara. Taiwan largest (out of 73) science park in Tapei is managed
by the government. Established in 1978, it houses 150 enterprises with 29,000 employees.
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India today has the second largest English speaking scientific manpower pool. There are
over 1,670 educational institutes including engineering colleges, technical institutes and
polytechnics that train more than 55,000 people annually. The software professionals in
the country number 140,000, their median age is 29 years, and half of them have at least
5 years of experience. On the basis of this human capital, the compound annual growth
rate of the Indian software industry during the last ten years has been 42.35%, with the
share of software export industry 54.31%. Software technology parks, operating under a
government-sponsored scheme, played a major role in that impressive growth.
The Software Technology Parks Scheme is instituted by the Department of Electronics of
the government of India as an autonomous organization (Software Technology Parks of
India - STPI). Its objective is to promote export of computer software. The scheme
provides for preferential export and import regime and includes approximately 450
software units operating in software technology parks. It is oriented to the development
and export of computer software using data communication links or physical media and
export of professional services.
A Software Technology Park (STP) or a STP unit may be set up under the scheme by the
central government, state government, public or private sector undertakings or any
combination thereof. The STP acts as a resource center for the member computer
software units by offering general infrastructure facilities like utility power, ready to use
built-up space, centralized computing facilities, and high speed data communication
links. Besides providing necessary support in infrastructure facilities to the member
units, STP also performs various functions like the issuance of import certificates,
software valuation, attestation of export declaration, etc. This enables the STP units to
commence their operations with a minimum gestation period. Successful examples of
software technology parks set up under the scheme are those in Bangalore, Pune,
Bhubaneshwar, Thiruvananthapuram, Hyderabad, Noida (near Delhi), and Gandhinagar
(near Ahmedabad).
The major characteristics of the STP scheme are:
• A STP unit may be a stand-alone unit or one of the units located in any STP.
• STP units may be set up anywhere in India.
• An organization setting up a STP for development and export of software through
STP scheme may import, free of duty, the requisite infrastructure equipment with
no export obligation.
• The centralized infrastructure created by STPs can be accessed by the educational
& research community.
• STP/STP units can import telematic infrastructure without any custom duty and
export obligation.
• STP/STP unit is a duty free and bonded area under section 65 of the customs Act,
1962.
• All the imports to STP units are duty free.
• STP units are exempt from payment of income tax for a block of five years in the
first eight years of its operation under Section 10 A and 10 B of Income Tax
Rules.
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• STP units are entitled to sell the computer software in Domestic Tariff Area
(DTA) up to 25% of the software exported in value terms.
• The capital goods purchased from the Domestic Tariff Area (DTA) are entitled
for the benefits like levy of excise duty and reimbursement of Central Sales-Tax
(CST).
• 100% foreign equity of STP/STP units is permissible.
• Computer systems in STP units can be made available for training purposes
within the premises of STP unit.
• Capital invested by foreign entrepreneurs, as well as know-how fees, royalty,
dividends, etc. can be freely repatriated after payment of income taxes due on
them if any.
• Export obligation on the STP unit on Net Foreign Exchange (NFE) terms is as
follows: "Export obligation = 1.5 times CIF value of the hardware (including
software) imported + 1.5 times the annual wage bill.
For setting up a unit under the STP scheme, an application along with project report,
including marketing arrangements and business plan must be made to the Jurisdictional
Director of the STP scheme. Projects costing less than or equal to Rs.100 million and not
involving foreign equity participation are considered by the Jurisdictional Director of the
STP scheme. Projects costing more than Rs.100 million and not involving any foreign
equity participation are considered by Inter Ministerial Standing Committee (IMSC) of
STP scheme. Projects involving foreign equity are considered by the Foreign Investment
Proposal Board (FIPB). The approval process takes 8-10 weeks approximately.
5.2. The technology incubator program in Israel.
The development of the Israeli economy during the 1990s has been marked by the spur of
small homegrown technology companies (formed at a rate of about one every 36 hours).
With the exception of the United States, perhaps no other country in the world has
managed to build a technology sector based on start-up companies rather than older,
established businesses. High technology has fueled much of Israel's growth, certainly
since the middle of the decade when the rest of the economy began slowing down. The
Bank of Israel estimates that high technology accounts for two thirds of Israeli industrial
output and 80 percent of its industrial exports.
Much of the success of the Israeli hi-tech industry stems from the government’s sustained
effort to make Israel a source of high technology based goods and services, rather than a
supplier of intermediate products. Towards this end, the Israeli Ministry of Industry has
designed and implemented an industrial policy that considers support of technological
innovation a priority economic task. A good reason for that policy orientation was the
huge inflow of well-educated Russian immigrants in the early 90s. It was at that time
when the Office of the Chief Scientist in the Ministry of Industry established the
Technology incubator program as an instrument for channeling the increased technical
talent to innovative and hi-tech commercial uses.
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The Israeli program was designed to support technology incubators that would provide
entrepreneurs with the financial, managerial, and professional support to commercialize
innovative ideas. Executed by the Office of the Chief Scientist (OCS), the program
aimed to fill the gap in seed investments caused by the financial community’s focus on
later-stage investments. With an annual budget of USD 30 million, the program currently
supports 26 technology incubators with 200 projects under process, employing some 800
professionals.
Each incubator, operating under the program, is an independent legal organization,
governed by a Board of Directors. The Board is assembled by OCS and comprises of
selected professionals from the industry (e.g. general managers in high-tech companies or
conglomerates), representatives of the academic and research centers and senior officials
from the local government (often the mayor). All Board members serve on a volunteer
basis, bring the support of their own organizations to the work of the incubator, and are
encouraged to invest in or partner with tenant companies.
The average technology incubator houses 8 to 10 innovative projects and provides
working space, administrative services, management skills, and professional and
commercial assistance with the objective to help the projects’ successful transition to
commercial viability. To enter incubators, projects must propose a new product or
service based on R&D and suitable for commercialization. Upon approval, the Office of
Chief Scientist grants the incubator USD 360,000 to support each project/inventor over a
two years span1
. That sum constitutes as a rule 85% of the approved project budget. An
outside investor, identified with the help of the incubator, usually provides the balance.
In addition to the USD 360,000 for each project, the incubator receives USD 170,000 per
year to cover administration costs. The incubator must re-apply every year for this
funding. Prior to approval, OCS checks its operations, status of the Board of Directors
and whether enough projects are being developed. An incubator housing less than six
projects over a sustained period of time is considered “underemployed” and, unless the
situation is remedied quickly, the OCS withholds funding.
The projects hosed in the incubator are incorporated as a commercial company as soon as
possible and an outside manager is often recruited to help the entrepreneur develop
business skills. The typical ownership structure of such a company is as follows:
• 50% – inventor
• 20% – investor (in return for 15% of the budget)
• 20% – incubator (representing government)
• 10% – key employees (e.g. company management)
This distribution can be altered via sale of additional shares to the investor (this occurs
usually when the chances of the project success look good). The incorporation of
projects provides for a legal interface in negotiating with prospective partners/customers
and defines clearly legal rights (in regard to intellectual property rights, for example).
1
The OCS gives full license to the incubator to manage the inventors, which the latter accept as a condition
of receiving support. The inventor and the incubator sign a contract, which stipulates when and how to pay
the inventor. The two-year period can be extended if the funds are not fully absorbed at its end.
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The goal of the two-year “incubation” period is to arrive at the point at which a
functioning product or service prototype has been built and is supported by feasibility
tests (clinical tests in the case of biotech), market research, and product definition.1
Upon
“graduating” from the incubator, the company goes on the market and is obliged to return
3% of annual sales to OCS until the USD 360,000 is repaid. This makes the initial grant
effectively a loan. Upon repayment to OCS, the USD 360,000 goes back to the incubator
and thus provides for a cyclical nature of the process.
The results are convincing. By the end of 1997, 400 projects had “graduated” from the
Israeli incubator program. Over half of them have continued as independent commercial
entities, producing viable products. 40% have raised commercial investment ranging
from USD 100,000 to USD 8 million per project, and commercial investment in these
projects has totaled over USD 100 million.
For an example of technology incubator operating under the Israeli incubator program,
please see Appendix III.
6. The Bulgarian Technology Park – foundations and perspectives.
6.1. The rational.
The economic rationale for developing a hi-tech park with an incubator in Bulgaria rests
on the existence of well-trained scientific and engineering personnel in the country,
particularly in the field of microelectronics and software development2
. As a result of
budget cuts at technical institutes and research centers, a significant amount of the
research capacities developed in this field are currently under-utilized and qualified
human capital is being wasted. At the same time, the information technology revolution
has become a dominant force in the global economy, defining national and firm
competitiveness and shaping flows of foreign investments. National investment in and
support of information and high technologies have proved to be a major factor in the
economic renaissance and growth of countries as diverse as India, Israel, and Taiwan. In
Bulgaria, however, bureaucratic obstacles and lack of supportive legislative and
regulatory policies at the national level have substantially weakened the sector. The
recent economic upturn, brought by the election of a reform-oriented government and
introduction of currency board in 1997, has created another chance for the country to
"catch up" with fast-track Central European economies. It has also opened the
opportunity to utilize more intelligently the country’s scientific talent by directing it to
hi-tech, export-oriented commercial ventures that can generate sustainable and even
1
The incubator has the power to shut down any project with mostly automatic approval from OCS.
Roughly 3-5 percent of projects are closed each year.
2
The existence of this talent is partly due to the specialization of Bulgaria in microelectronics within the
former Soviet-block Council on Mutual Economic Assistance.
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accelerating economic growth. One of the creative mechanisms to spur the development
of such ventures is to host them in a technology park, a designated special place with
supportive business services, shared research facilities, and intellectually stimulating
environment.
A 1997 Phare study conducted by the Kantor Management Company for the Ministry of
Science and Education concluded that Bulgaria has a strong technology base in the areas
of information technology, telecommunications, and advanced engineering. (Phare,
1997). Kantor surveyed 109 laboratories in three Bulgarian universities (St. Kliment
Ohridski University of Sofia, Technical University in Sofia, and Assen Zlatarov
University in Bourgas) and assessed their areas of research interest, qualification level of
the personnel, products and patterns developed, and services provided to outside
companies. The analysis showed that the three universities have a sufficient number of
laboratories and institutes developing innovative products and services with commercial
nature. Many of those university units have entered subcontracting agreements with
enterprises. Based on the results of the study, Kantor proposed the establishment of a
university-based science park comprising small fully-equipped units to house start-up or
spin-off companies, or R&D departments of large companies. The best suited
laboratories or institutes would become part of the science park as university spin-offs.
The park will also host a business incubator and a technology-transfer unit (Phare, 1997).
6.2. The focus.
A university-based science park can certainly aid the transfer of laboratory research and
development to industrial uses. What is very important, however, for the success of any
science and technology park is the choice of a commercial niche in which the park can
develop competitive edge on the basis of the locally available human talent and
professional tradition. Such niche in Bulgaria is the software development and
information technologies sector. The country has computer specialists and engineers
with excellent mathematical training and programming talent, mostly known to the
world, unfortunately, for sophisticated software piracy and virus development. Part of
that potential can be channeled to more productive (and legitimate) uses with the help of
a technology park that will focus on software development and information technologies
and will host an incubator to assist start-ups in those fields.
6.3. The organization.
The park can be hosted at one of the available university (or the Academy of Science)
buildings in Sofia, whose other tenants are computer and hi-tech laboratories and
institutes1
. Establishing the park on the basis of existing facilities is much less costly
1
The international experience shows that start-ups demand on average 100 m2 to 150 m2 each, growing
small companies around 200 m2 and corporate tenants between 500 m2 and 2000 m2, depending on the
size of the park. Science parks in Europe usually host less than 25 tenants after the first five years of
experience, mostly small start-ups with less than 15 employees (Phare study, 1997).
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than building new premises. As in the case of a university-based science park, those
university institutes and laboratories that are at an advanced stage of developing
commercially suitable products and services can become the first tenants of the park. A
young IT-service firm can also serve as a major attraction to software development and
information technology-related companies. The research personnel and faculty of the
host university (or the Academy of science), as well as its students will be encouraged to
participate in the park as consultants and interns.
Another major component of the park can be a high-technology incubator that will
provide professional and business support to software development and hi-tech R&D
projects. The incubator will offer:
• technical assistance and consulting in information technology and software
development;
• information service, linked to the University (Academy of Science) library;
• professional services – financial and management consulting, accounting,
marketing, and legal services;
• logistical support – utilities, secretarial and communication services, office
equipment, etc.
• training and education.
The incubator’s professional services can be staffed by the faculty of the host University
or the Academy of Science. If suitable professionals are not available, some of the
services can be provided by an outside firm on a contractual basis. To facilitate research
and development activities, tenant companies will be encouraged to interact with one
another and hold joint seminars/workshops at a common conference place in the
incubator or the park.
In addition to the incubator, it will be extremely beneficial for the marketing image of the
park if a foreign company (e.g. the IT service firm) is attracted as an early resident.. An
emerging trend in science and technology parks around the world is their
internationalization; i.e. attraction of foreign companies through a preferential regime of
registration and operation. Evidence of this trend can be found in Hungary (see Appendix
II) and China.
6.4. The financing.
There are at least three aspects of park financing – financing of the initial investment for
the park, financing of its continuing operations, and financing the business plans of its
tenant companies.
A 1985 Study of the National Science Foundation in the US found that:
• Support for a technology park within a university budget is unlikely, unless the
university has strong economic development ties with the local community.
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• At least ten years are required before a park can become self-sustaining by
obtaining equity position in tenant companies; five to ten years should be allowed
before expecting economic development results from a center functioning with
public funds.
In the case of Bulgaria, there is an additional reason to look for innovative, non-public
financing of the technology park. The country is under the financial discipline of a
currency board, which has severely limited the state finance for R&D and start-up capital.
Bank finance is an alternative option for financing the start-up costs of the park, its
continuing operation, and the business of its tenants. The difficulty in the case of
Bulgaria comes from the reluctance of major banks to finance longer-term projects and
their inexperience in lending to small and medium companies. On the other side, the
park tenant companies will also be most likely inexperienced in dealing with banks. To
facilitate bank financing, the park’s incubator can develop a special financial service unit
to assist tenant companies prepare loan applications and service bank debts. A loan-
guarantee scheme can also greatly enhance the availability of bank financing.
Another financing option is provision of development capital by multilateral institutions
(World Bank, EBRD, EU - through the Phare program, etc.). An outside investor or a
venture fund can provide funding for specific projects in the incubator or park companies
on a commercial-success basis. Seeking such investments should become one of the
major functions of the park’s management.
Venture capital funds have been especially instrumental in the growth of hi-tech start-ups
in the United States. Their usual structure consists of limited partners, who invest their
own capital in the fund, and a general partner, responsible for the day-to-day
management. The usual exit strategies of a venture capital fund are a buyout from
another company, often a strategic foreign acquirer, or a public offering, including on
foreign markets.
In regard to financing continuing operations, the park should try to become self-
sustaining as soon as possible. The park’s operating budget will come mostly from rent
of space, utilities, and common facilities and fees for park services. Costs will be
incurred from maintenance of buildings and infrastructure, security, utilities, management
salaries, and advertising.
To facilitate the development of the park and the attraction of foreign companies, the
government and the municipal authorities can create a favorable economic regime as a
quasi-public support for the venture. As in India, tenant companies can be relieved of
import and export duties and exempt from income taxes for the first several years of
operations. This will be particularly beneficial for the start-up companies in the incubator
and for foreign companies resident on site.
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6.5. Legal form.
The park can be incorporated as a non-profit organization (foundation) and managed by a
limited liability company1
. An alternative is to establish the park as a for-profit joint
stock company with shares distributed between the government and participating
university institutes. Most of the technology parks and incubators in the US operate as
non-profit organizations, supported by local governments and business development
association. As pointed in part 4.1, however, there are growing number of for-profit
incubators, run by investment groups or real estate development partnerships. The legal
status of the technology park in Bulgaria and the form of its incorporation should be
chosen in view of the parties involved and on the basis of the legal framework of the
country.
6.6. Steps in establishing a technology park in Bulgaria.
The following is a non-all-inclusive and not-necessarily-sequential list of steps that
should be taken towards establishing a technology park in Bulgaria. It should serve as a
planning tool, not a comprehensive blueprint:
• Clearly define the mission of the park.
• Select founding partners that subscribe to the mission.
• Generate support for park at relevant state institutions (Ministry of Industry,
Ministry of Science and education), Bulgarian universities, and the Bulgarian
Academy of Science.
• Win for the idea dynamic companies from the software development and
information technology sector.
• Select a site for the park.
• Prepare a feasibility study on the building reconstruction and modernization for
the purpose of hosting a park.
• Prepare financial projections based on the start-up costs, investments, and
revenues of the park.
• Develop different financing options on the basis of the number of tenants, the rent
and maintenance costs of the incubator and park.
• Secure start-up financing.
• Establish a screening/selection procedure for incubator projects and park tenants.
• Incorporate the park and appoint a managing company.
• Set up the incubator.
• Market the park.
• Select projects for the incubator and tenant companies for the park.
1
Such is the case with the Latvian Technological Center in Riga, created by the Municipality of Riga,
Municipality of the Vidzemes District of Riga, Latvian Academy of Sciences, Institute of Physical
Energetics, Association of Latvian Scientific and technical societies.
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Appendix I. The Raleigh-Durham Research Triangle Park
The Raleigh-Durham Research Triangle Park (RTP) is one of the largest research parks
in the United States, home to more than 130 organizations, 99 of them research and
development related. With over 39,500 employees entering the 8-mile by 2-mile Park
each day, it is a vital foundation to both the state's and Southeastern region's economies.
Recognized internationally as a center for cutting-edge research and development, the
Park is owned by the private, not-for-profit Research Triangle Foundation. The Research
Triangle itself is named for the Triangle formed by the three cities and universities: Duke
University at Durham, the University of North Carolina at Chapel Hill, and North
Carolina State University at Raleigh. All three consistently rank in the top national
listings for graduate and undergraduate research in such areas as medicine, law,
engineering, business, computer science, chemistry and journalism. The region itself
offers a varied and well-qualified workforce, a good governmental atmosphere for
business, and excellent transportation and communications infrastructure (the Raleigh-
Durham International airport is only 5 miles away). It has repeatedly been honored with
such titles as Best Cities for Business (Fortune Magazine) and Best Place to Live in
America (Money Magazine).
I.1. The origins of RTP.
In the 1950s, the economy of central North Carolina depended on maturing industries
such as agriculture, furniture, textiles, and tobacco. At the same time, the state's
government and business leaders were fostering economic development investments in
universities, technical colleges, highways, seaports, and telecommunications. The
question, however, was where would the graduates of higher education work and can the
state attract technology-based industry?
Against this background, the idea for the "Research Triangle" emerged. Leaders from
universities, business, and government cooperated to create what has become one of the
most successful planned science park in the world, the Research Triangle Park, and one
of the world's most diverse research institutes, the Research Triangle Institute.
Both the Park and its centerpiece, the Institute, came into formal existence at the end of
1958. Their seed money, $2 million between them, came from anonymous private
donations.
I.2. RTP’s development.
The Research Triangle Park is a center for a wide variety of research organizations to call
home, created by leaders from business, academia and industry. The purpose of the
Park’s founders was to provide an economic development initiative that would attract
companies doing world class research and development in growing scientific areas. They
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proposed to offer companies the available resources of the Triangle's three world-class
universities - Duke University, North Carolina State University, and the University of
North Carolina at Chapel Hill, which surround the Park. The Park's biggest drawing
cards were the resources of the Research Triangle Institute, a collection of educated and
talented students, opportunities for interactive research, and the pool of labor and talent
from other fine institutions throughout the state.
The Research Triangle Institute was the Park's first tenant and served as a focal point for
companies interested in the Park, as it still does today -- RTI is now the fourth-largest
non-profit contract research organization in the United States. Its areas of research range
from statistics to virtual reality; cochlear implants to advanced pharmaceutical projects.
The Park overall grew slowly through the early 1960's. Then, in 1965, with the advent of
both International Business Machines Corp. (IBM) and the National Institute of
Environmental Health Sciences (NIEHS) the Park began to grow in earnest. By 1969, 21
companies had located in RTP. From 1970 to 1979, 17 additional companies located
here. By 1989, 28 more companies chose locations in the Park.
In the 1990s, nearly 30 new companies have established facilities in RTP. Development
has included land sales of over 300 acres to new tenants and over 150 acres to existing
tenants for expansions. New construction and expansion has totaled over 2 million square
feet. In 1994, construction began on another 400,000 sq. ft. A research business incubator
has been formed to provide interim laboratory facilities for early-stage companies.
Also located in the Park is the North Carolina Biotechnology Center, a state-supported
initiative that provides grants and creative services to support biotech companies. The
partially state funded MCNC offers advanced resources in microfabrication and
telecommunications and houses the North Carolina Supercomputing Center. Together,
they provide unparalleled resources to North Carolina companies, the universities, and
area entrepreneurs. All of these institutions work together with the Park companies,
engendering a special spirit of cooperation and learning within the scientific and
technological community.
The Park encompasses 6,900 acres of North Carolina pine forest and is still offering
approximately 1,400 acres for development. It currently houses more than 98 research
and development facilities, which employ over 37,000 Triangle residents. The combined
annual salaries in RTP amount to over $1.2 billion dollars.
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Appendix II. InfoPark Budapest
Since 1989, Hungary has attracted over half of the foreign direct investments in Central
and Eastern Europe. A large part of those investments came from technology-oriented
companies who transferred production and R&D activities to utilize the traditionally high
level of scientific and engineering talent in the country. To fully utilize this advantage,
the Hungarian government decided in 1996 to sponsor the creation of an information
technology park (INFOPARK) in Budapest. The purpose of the park is to:
• serve as a platform for R&D activities of companies from the information technology
and related industry;
• utilize the experience of two leading Hungarian academic and scientific institutions -
the Budapest Technical University and the Faculty of Natural Sciences of the
Budapest University;
• create a basis for the development of information and other high technologies, on
which multinational companies can base their development strategies for the region.
The intent was to attract companies from the following sectors: informatics,
telecommunications, data processing equipment, consumer electornics, multimedia
technologies, process control/automation technologies and software development.
The government provided a site for the park, initially developed for the canceled 1996
World Exhibition and adjoining the buildings of the Budapest Technical University and
the Faculty of Natural Sciences of the Budapest University. A joint stock company - the
InfoPark RT - was established at the initiative of the Ministry of industry and trade with
the express purpose of administering the INFORPARK as a business venture. The
company was incorporated in December 1996 with the Ministry of Industry and Trade
taking 75% minus one share, and the two universities jointly holding 25% plus one share.
To facilitate the build-up of the park, the government simplified permit and registration
regulations for tenant companies.
In April 1998, the InfoPark Rt and a German consortium established a joint venture with
registered capital of HUF 1.8bn to develop the InfoPark.. Deutche Telecom and Industrie
Vermogens Gesselschaft Immobilien GmbH provided HUF 1.26 bn of the new
company’s capital. The InfoPark Rt will contribute the 14.2 hectare site. The Trade and
Industry Ministry also transferred the management of its assets in InfoPark Rt to the
national technical development committee (24%) and to the Hungarian Development
Bank (49%) and will retain a single share.
So far, several companies have expressed interest in renting office and laboratory
facilities constructed for them on a tailor-made basis - or, in the case of smaller tenants,
standard facilities and business services. Two candidates have submitted letters of intent:
IBM Hungary and MATAV, the Hungarian telecommunication company (privatized in
1996 by a consortium including AMERITECH and Deutsche Telecom.) MATAV plans
to locate in the park its research and development headquarters.
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Appendix III. The Ashkelon Technology Incubator in Israel
The city of Ashkelon (population 100,000) is situated about 100 kilometers south of Tel
Aviv on the coast. The Ashkelon Technology Incubator (ATI) was established in 1990
by the Office of Chief Scientist with the objective to:
• develop technological innovation;
• develop employment in and around Ashkelon;
• contribute to raising national income levels.
Another major reason to create the incubator was the desire to alleviate local
unemployment stemming from large Russian immigration and to make use of the new
immigrants’ considerable science skills.
The incubator is a collaborative effort of the Jewish Agency of Israel, the City of
Ashkelon, and local businesses. It is housed in a building measuring 1,500 square meters
of office, laboratory and light manufacturing space, provided by the Ben Gurion
University. ATI pays rent but is not liable for taxes, and the municipality covers
maintenance expenses.
The ATI’s Board of Directors consists of twelve members coming for various industrial
sectors, with the Mayor of Ashkelon serving as Chairman. The Board meets twice a year,
occasionally on an extraordinary basis, and is responsible primarily for confirming
budgets and policies.
In taking on projects, the managing director of ATI needs approval of the OCS, not the
Board (ATI selects on average 5 out of 40 project applications for close appraisal). He
makes a recommendation first to a Project Committee (not necessarily Board members),
upon whose approval he gathers in-depth documentation and supportive evidence and
prepares market research for submission to OCS, along with his own recommendation.
This process takes about two months. OCS then sends the application to a “tester” within
the Ministry of Industry for a “second opinion”. The tester is a specialist to whom the
ATI’s managing director and the inventor make a formal project presentation, “selling”
the project as a feasible innovation in both the technological and business senses. The
managing director’s job at this point is to prove that the product will be marketable, that
possible partnerships have been identified and that the competition has been assessed.
Projects can be terminated at any point on his recommendation.
In case of project approval, OCS provides USD180,000 per year for two years in support
of R&D and administrative expenses. The project is established legally as a company
with its own Board and budget covering salaries, equipment, marketing, patents and
miscellaneous expenses. In addition to the OCS allotment, the budget can be enhanced
by selling company shares via dilution. The incubator itself also receives roughly
USD180,000 per year assuming around ten projects in “tenancy” (the level of support
varies according to the number of projects). In addition to the USD180,000, the
incubator also receives 15% from each project budget’s salary category, which comes to
around USD 10,000 from each project.
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An average incubator company budget looks as follows (USD ‘000 per year):
Salaries 70
Equipment 50
Marketing 30
Patent 20
Miscellaneous 10
Total 180
ATI’s 20 percent share can, but need not, be sold when the company goes on the market.
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REFERENCES:
Huuskonen, Pertti. 1993. “Practical Aspects of Science Parks/Technopolies Promotion.”
Asia Pacific Science Park Conference, Bangkok.
Lalkaka, Rustam. 1996. “Technology Business Incubators: Critical Determinants of
Success.” Asia Pacific Science Park Conference, Singapore, 20-22 March 1996.
Orminsky, Evelyn M. “Business information needs of science park companies.” Library
and Information Research Report. The British Library.
Phare Project BG 95.06-06. 1997. “Feasibility Study: Development of Science Park
Network.” Prepared by Kantor management consultants.
Smillor, R. and Michael Gill. 1986. “The new business incubator: linking talent,
technology, capital, and know-how.” Massachusetts: Lexington Books.