My M.Sc. (Tech.) thesis that develops a decision framework and a checklist for sourcing product development activities from external consultants.
It's long and somewhat academic, but if you're interested in hearing how you should manage external product development relationships it may be worth reading, or asking me about it :).
This document summarizes Janne Ohtonen's doctoral thesis, which focuses on analyzing Business Process Management (BPM) Capabilities through a practical design science approach. The research aims to identify capability factors related to BPM success and failure, and develop a process for organizations to consider these factors.
The thesis begins with a literature review identifying over 35 key capability factors. It then uses expert interviews and case studies with three organizations to build and evaluate an artifact - a BPM capability assessment tool. The tool consists of the identified capability factors and a process for organizations to assess their capabilities. The case studies found the tool provided useful information to evaluate strengths and weaknesses.
The research contributes by developing a practical tool combining design
This document provides a research proposal on using design processes and methods in large organizations like Volvo Group. It includes:
1. An overview of the research strategy which involves observing Volvo's current design situation, gathering case studies from other companies, and developing new design tools and methods to propose changes to Volvo's hierarchies.
2. A literature review on design management including challenges of implementing design in large companies and measuring its value.
3. An explanation of the framework including concepts like integrated design management and the role of design in corporations.
The proposal aims to create influence on Volvo's hierarchies to use design more effectively through redesigning relationships and decision making tools, and providing new ways for
The document provides guidance on writing abstracts for science research projects. It explains that an abstract is a brief summary of a research project that describes the purpose, procedures, results, and conclusions. It provides tips for developing an abstract, including using a research prospectus to outline the project and an abstract template to draft the summary. Sample abstract sections and a full sample abstract are included to illustrate the recommended structure and content.
This document summarizes a thesis that conducted an action research project using design thinking at SURFnet to gain insights into students' perspectives on digital learning environments. The research had three goals: 1) provide insights on DLEs, 2) evaluate design thinking's potential value for SURFnet, and 3) evaluate design thinking concepts and practices based on this case. The research included understanding the problem context through literature review and student observations, ideating with experts, prototyping scenarios, and testing with students. Insights from this included that DLEs could facilitate more personalized curricula and learning environments tailored to course goals. The research found that design thinking could help SURFnet gain deeper understanding of student needs
This document summarizes a personal experience of the author related to spillway hydraulic modelling. As a young engineer, the author convinced a project owner to conduct a model study for an innovative spillway concept. The initial modelling effort with a senior researcher was unsuccessful due to personality clashes. Younger researchers were then assigned and collaborated well with the author, successfully meeting study goals. The author learned the importance of compatibility, mutual respect, and relationship building for successful collaboration. Later in his career, the author had another positive experience at an engineering conference, highlighting how the engineering field can be a small world.
This dissertation investigates the key drivers for organizations to outsource their facilities management and measures the level of success. Through a literature review and questionnaire distributed to organizations, the research found:
- Cost reduction and central policy were main drivers but did not always produce good results. Business-driven outsourcing with local involvement was more likely to succeed.
- Contracts developed in partnership with consultants and measuring performance through standards of service, customer satisfaction, and cost savings led to more successful outcomes.
- The optimum contract length was found to be 3 years or less, with the possibility of extension following review, to avoid failure rates associated with longer contracts.
This document summarizes Janne Ohtonen's doctoral thesis, which focuses on analyzing Business Process Management (BPM) Capabilities through a practical design science approach. The research aims to identify capability factors related to BPM success and failure, and develop a process for organizations to consider these factors.
The thesis begins with a literature review identifying over 35 key capability factors. It then uses expert interviews and case studies with three organizations to build and evaluate an artifact - a BPM capability assessment tool. The tool consists of the identified capability factors and a process for organizations to assess their capabilities. The case studies found the tool provided useful information to evaluate strengths and weaknesses.
The research contributes by developing a practical tool combining design
This document provides a research proposal on using design processes and methods in large organizations like Volvo Group. It includes:
1. An overview of the research strategy which involves observing Volvo's current design situation, gathering case studies from other companies, and developing new design tools and methods to propose changes to Volvo's hierarchies.
2. A literature review on design management including challenges of implementing design in large companies and measuring its value.
3. An explanation of the framework including concepts like integrated design management and the role of design in corporations.
The proposal aims to create influence on Volvo's hierarchies to use design more effectively through redesigning relationships and decision making tools, and providing new ways for
The document provides guidance on writing abstracts for science research projects. It explains that an abstract is a brief summary of a research project that describes the purpose, procedures, results, and conclusions. It provides tips for developing an abstract, including using a research prospectus to outline the project and an abstract template to draft the summary. Sample abstract sections and a full sample abstract are included to illustrate the recommended structure and content.
This document summarizes a thesis that conducted an action research project using design thinking at SURFnet to gain insights into students' perspectives on digital learning environments. The research had three goals: 1) provide insights on DLEs, 2) evaluate design thinking's potential value for SURFnet, and 3) evaluate design thinking concepts and practices based on this case. The research included understanding the problem context through literature review and student observations, ideating with experts, prototyping scenarios, and testing with students. Insights from this included that DLEs could facilitate more personalized curricula and learning environments tailored to course goals. The research found that design thinking could help SURFnet gain deeper understanding of student needs
This document summarizes a personal experience of the author related to spillway hydraulic modelling. As a young engineer, the author convinced a project owner to conduct a model study for an innovative spillway concept. The initial modelling effort with a senior researcher was unsuccessful due to personality clashes. Younger researchers were then assigned and collaborated well with the author, successfully meeting study goals. The author learned the importance of compatibility, mutual respect, and relationship building for successful collaboration. Later in his career, the author had another positive experience at an engineering conference, highlighting how the engineering field can be a small world.
This dissertation investigates the key drivers for organizations to outsource their facilities management and measures the level of success. Through a literature review and questionnaire distributed to organizations, the research found:
- Cost reduction and central policy were main drivers but did not always produce good results. Business-driven outsourcing with local involvement was more likely to succeed.
- Contracts developed in partnership with consultants and measuring performance through standards of service, customer satisfaction, and cost savings led to more successful outcomes.
- The optimum contract length was found to be 3 years or less, with the possibility of extension following review, to avoid failure rates associated with longer contracts.
Software Project Management: Business CaseMinhas Kamal
Software Project Management: ResearchColab- Business Case (Document-3)
Presented in 4th year of Bachelor of Science in Software Engineering (BSSE) course at Institute of Information Technology, University of Dhaka (IIT, DU).
This document provides an outline for a capstone project on technopreneurship. It begins by explaining the objectives of the capstone project, which are to explain benefits, formulate a research concept, and share current research in one's field. Next, it defines what a capstone project is and compares it to a thesis. The document then provides guidance on how to write a capstone paper, including choosing a topic, drafting a proposal, and structuring the paper. It also provides examples of capstone titles. The remainder of the document outlines the sections and contents of a capstone project, including preliminaries, introduction, purpose/description, objectives, and scope/limitations. The introduction section in particular is
The document discusses conducting a post-mortem analysis after a project to learn lessons. It provides context on the benefits of leveraging past project experiences. It then discusses the key aspects of performing a post-mortem analysis including collecting data, facilitating discussions, focusing on issues not people, being factual and brief. An example post-mortem meeting for the Microsoft Word 6 development project is then summarized, noting scheduling was unrealistic, milestones were too long, and proposed features' problems were not obvious until development started.
Dorst, kees and cross, nigel (2001): creativity in the design process co evol...ArchiLab 7
The document summarizes a study that analyzed design protocols from 9 experienced industrial designers who were given an assignment to design a new litter disposal system for trains. The designs were evaluated by independent judges on criteria such as creativity, aesthetics, and usability. The study found that defining the design problem in a novel way and focusing on new or unexpected aspects correlated with designs judged to be more creative.
This document summarizes a student's dissertation on barriers to adopting agile project management in the construction industry. It begins with an introduction that outlines the background and rationale for studying this topic. The student's research aim is to identify barriers that prevent agile project management from being implemented in construction projects. The literature review discusses how agile project management originated in IT and has potential benefits for construction, but also faces significant adoption barriers. The student's research methodology includes a quantitative survey and case study analysis to understand these barriers and how they can be overcome.
This document summarizes a doctoral dissertation from Tampere University of Technology. The dissertation examines techniques and practices for software architecture work in agile software development. It studies approaches used in industry and develops new methods to support incremental architecture practices aligned with agile methods like Scrum. The research applied case studies, interviews, and design science. The results show four main ways to conduct architecture work in agile projects and models for aligning software architecture knowledge management. The dissertation also contributes an architecture knowledge repository for sharing knowledge in agile projects and automatic document generation. It presents methods for lightweight, incremental architecture evaluation and decision-centric reviews.
This document provides an agenda and update for a project on embedding employability at DkIT. It discusses the following:
- Conducting pilot focus groups and interviews to inform the development of a survey on employability.
- Creating an embedding employability framework, employability statement, and set of graduate attributes to develop a shared vision of employability.
- Establishing an industry forum to collaborate with key partners on employability.
- The research timeline, with focus groups in March, interviews in March/April, and a survey from April to May, followed by analysis and reporting.
Guideline for Preparing PhD Course Work Synopsis on Engineering Technology - ...PhD Assistance
A PhD synopsis is a complete summary of your proposed research project, which justifies your work requirement. It helps to convince academic committees that your project should be approved.
The Synopsis Writing in PhD Research is a gist of the project, which you are planning to conduct, its goals, team info, and so on, is called a project’s Synopsis. Examine what should be included in a synopsis and how a synopsis for a project should be written.
PhD Assistance offers UK Dissertation Research Topics Services in Computer Science Engineering Domain. When you Order Computer Science Dissertation Services at PhD Assistance, we promise you the following – Plagiarism free, Always on Time, outstanding customer support, written to Standard, Unlimited Revisions support, and High-quality Subject Matter Experts.
Learn More: http://bit.ly/3bCjaYK
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R&D Project Portfolio Management at Volvo Powertrain (2008)Johan Svennung
This document summarizes a master's thesis about conceptualizing new project selection tools for R&D project portfolio management at Volvo Powertrain. It investigates Volvo Powertrain's current Advanced Engineering Planning Process for project selection. It also reviews literature on project portfolio management and examines methods used by other organizations. The thesis proposes a Technology Merit Evaluation Tool combining a scoring model and bubble chart to increase project portfolio value, risk-reward balance, and alignment with business strategy. The tool would rank project proposals based on evaluation criteria to provide a more structured, systematic and objective selection process.
Software Project Management: Project InitiationMinhas Kamal
Software Project Management: ResearchColab- Project Initiation (Document-1)
Presented in 4th year of Bachelor of Science in Software Engineering (BSSE) course at Institute of Information Technology, University of Dhaka (IIT, DU).
Large language models in higher educationPeter Trkman
Discussing the possibilities of large language models for the automatic generation of academic content by the students (e.g. master thesis), and the related need for changes in the way in which to educate and evaluate students.
An analysis of the typologies and hierarchies of interventions applied within KEEN projects funded by the European Regional Development Fund and managed by the University of Wolverhampton
A BIM-integrated approach to construction quality managementEsper Achkar
The document discusses the problem of quality defects on construction projects and proposes developing a new integrated quality management framework that incorporates Building Information Modeling (BIM) concepts to address weaknesses in current practices. It reviews literature on quality defects and management approaches, and develops a prototype system tested on a pilot project to demonstrate how a BIM-integrated framework can improve information management, quality inspections, and reduce defects. The goal is to realize modified practices and tools that stem quality issues through better addressing their root causes and limitations of existing construction quality management.
What’s Happening to Our Freshout Engineers?svillach
This presentation describes the results of an exploratory study investigating the work that newly graduated and hired "freshout" engineers perform in the workplace. The study investigates:
* The tasks that freshouts perform successfully and unsuccessfully on the job.
* The consequences of nonperformance.
* The root causes of nonperformance.
This study was funded by the National Science foundation.
Portions of this material are based upon work supported by the National Science Foundation under Grant No. 1037808.
Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.
This document provides an agenda and overview for an Agile and Scrum workshop. The workshop covers Agile development principles and how they differ from traditional waterfall approaches. It then discusses Scrum basics, including Scrum roles, events, and tools. The workshop aims to explain Agile and Scrum concepts, make the sessions interactive, and allow for an open discussion in the final session.
The document describes a new generic construction process modelling method called GEPM. GEPM was developed to overcome limitations of existing process modelling methods. It uses object-oriented principles and concepts such as activities, tasks, inputs, outputs, and temporal dependencies borrowed from methods like IDEF0 and scheduling. GEPM allows for flexible conceptual modelling and supports different views representing partial models through rules for converting between views. The evaluation showed GEPM provides more modelling features compared to earlier methods. A key feature is distinguishing between activities and tasks, where activities define actions and tasks add starting time, duration and location.
Software Outsourcing: Pitfalls and Best PracticesSitrusLLC
When to outsource (and when not to)
Typical projects
Key issues with outsourcing
Most common reasons projects fail
Best practices
Questions to ask your potential partner
HRM 517 SU Progress Results and Finalizing the HR Project.docxwrite4
This document summarizes a chapter from the textbook "Contemporary Project Management" that discusses using Microsoft Project to plan and manage projects. The chapter covers the basics of setting up and using MS Project, including how to create a work breakdown structure, schedule tasks, assign resources, track progress, and develop budgets. It provides step-by-step instructions for key MS Project tools and functions that support project planning and control.
Are shocks and crises good for strategic innovation, and what is the role of complexity of strategy, competitive intensity, and crisis details to strategic resilience and innovation? A paper presentation in DRUID 2012 conference in Copenhagen, June 2012.
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This document provides an outline for a capstone project on technopreneurship. It begins by explaining the objectives of the capstone project, which are to explain benefits, formulate a research concept, and share current research in one's field. Next, it defines what a capstone project is and compares it to a thesis. The document then provides guidance on how to write a capstone paper, including choosing a topic, drafting a proposal, and structuring the paper. It also provides examples of capstone titles. The remainder of the document outlines the sections and contents of a capstone project, including preliminaries, introduction, purpose/description, objectives, and scope/limitations. The introduction section in particular is
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The document summarizes a study that analyzed design protocols from 9 experienced industrial designers who were given an assignment to design a new litter disposal system for trains. The designs were evaluated by independent judges on criteria such as creativity, aesthetics, and usability. The study found that defining the design problem in a novel way and focusing on new or unexpected aspects correlated with designs judged to be more creative.
This document summarizes a student's dissertation on barriers to adopting agile project management in the construction industry. It begins with an introduction that outlines the background and rationale for studying this topic. The student's research aim is to identify barriers that prevent agile project management from being implemented in construction projects. The literature review discusses how agile project management originated in IT and has potential benefits for construction, but also faces significant adoption barriers. The student's research methodology includes a quantitative survey and case study analysis to understand these barriers and how they can be overcome.
This document summarizes a doctoral dissertation from Tampere University of Technology. The dissertation examines techniques and practices for software architecture work in agile software development. It studies approaches used in industry and develops new methods to support incremental architecture practices aligned with agile methods like Scrum. The research applied case studies, interviews, and design science. The results show four main ways to conduct architecture work in agile projects and models for aligning software architecture knowledge management. The dissertation also contributes an architecture knowledge repository for sharing knowledge in agile projects and automatic document generation. It presents methods for lightweight, incremental architecture evaluation and decision-centric reviews.
This document provides an agenda and update for a project on embedding employability at DkIT. It discusses the following:
- Conducting pilot focus groups and interviews to inform the development of a survey on employability.
- Creating an embedding employability framework, employability statement, and set of graduate attributes to develop a shared vision of employability.
- Establishing an industry forum to collaborate with key partners on employability.
- The research timeline, with focus groups in March, interviews in March/April, and a survey from April to May, followed by analysis and reporting.
Guideline for Preparing PhD Course Work Synopsis on Engineering Technology - ...PhD Assistance
A PhD synopsis is a complete summary of your proposed research project, which justifies your work requirement. It helps to convince academic committees that your project should be approved.
The Synopsis Writing in PhD Research is a gist of the project, which you are planning to conduct, its goals, team info, and so on, is called a project’s Synopsis. Examine what should be included in a synopsis and how a synopsis for a project should be written.
PhD Assistance offers UK Dissertation Research Topics Services in Computer Science Engineering Domain. When you Order Computer Science Dissertation Services at PhD Assistance, we promise you the following – Plagiarism free, Always on Time, outstanding customer support, written to Standard, Unlimited Revisions support, and High-quality Subject Matter Experts.
Learn More: http://bit.ly/3bCjaYK
Contact Us:
Website: https://www.phdassistance.com/
UK NO: +44–1143520021
India No: +91–4448137070
WhatsApp No: +91 91769 66446
Email: info@phdassistance.com
R&D Project Portfolio Management at Volvo Powertrain (2008)Johan Svennung
This document summarizes a master's thesis about conceptualizing new project selection tools for R&D project portfolio management at Volvo Powertrain. It investigates Volvo Powertrain's current Advanced Engineering Planning Process for project selection. It also reviews literature on project portfolio management and examines methods used by other organizations. The thesis proposes a Technology Merit Evaluation Tool combining a scoring model and bubble chart to increase project portfolio value, risk-reward balance, and alignment with business strategy. The tool would rank project proposals based on evaluation criteria to provide a more structured, systematic and objective selection process.
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Software Project Management: ResearchColab- Project Initiation (Document-1)
Presented in 4th year of Bachelor of Science in Software Engineering (BSSE) course at Institute of Information Technology, University of Dhaka (IIT, DU).
Large language models in higher educationPeter Trkman
Discussing the possibilities of large language models for the automatic generation of academic content by the students (e.g. master thesis), and the related need for changes in the way in which to educate and evaluate students.
An analysis of the typologies and hierarchies of interventions applied within KEEN projects funded by the European Regional Development Fund and managed by the University of Wolverhampton
A BIM-integrated approach to construction quality managementEsper Achkar
The document discusses the problem of quality defects on construction projects and proposes developing a new integrated quality management framework that incorporates Building Information Modeling (BIM) concepts to address weaknesses in current practices. It reviews literature on quality defects and management approaches, and develops a prototype system tested on a pilot project to demonstrate how a BIM-integrated framework can improve information management, quality inspections, and reduce defects. The goal is to realize modified practices and tools that stem quality issues through better addressing their root causes and limitations of existing construction quality management.
What’s Happening to Our Freshout Engineers?svillach
This presentation describes the results of an exploratory study investigating the work that newly graduated and hired "freshout" engineers perform in the workplace. The study investigates:
* The tasks that freshouts perform successfully and unsuccessfully on the job.
* The consequences of nonperformance.
* The root causes of nonperformance.
This study was funded by the National Science foundation.
Portions of this material are based upon work supported by the National Science Foundation under Grant No. 1037808.
Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.
This document provides an agenda and overview for an Agile and Scrum workshop. The workshop covers Agile development principles and how they differ from traditional waterfall approaches. It then discusses Scrum basics, including Scrum roles, events, and tools. The workshop aims to explain Agile and Scrum concepts, make the sessions interactive, and allow for an open discussion in the final session.
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Typical projects
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Are shocks and crises good for strategic innovation, and what is the role of complexity of strategy, competitive intensity, and crisis details to strategic resilience and innovation? A paper presentation in DRUID 2012 conference in Copenhagen, June 2012.
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See also our slides on the subject!
* Korhonen, J. M. & Hassi, L. (2009). Design Thinking Unpacked: An Evolutionary Algorithm. In Proceedings of the Eight European Academy of Design International Conference, 261-265. Aberdeen. .
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These materials are perfect for enhancing your business or classroom presentations, offering visual aids to supplement your insights. Please note that while comprehensive, these slides are intended as supplementary resources and may not be complete for standalone instructional purposes.
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Forrester’s Digital Transformation Framework
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Gartner’s Digital Transformation Framework
Accenture’s Digital Strategy & Enterprise Frameworks
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Capgemini’s Digital Transformation Framework
PwC’s Digital Transformation Framework
Cisco’s Digital Transformation Framework
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A practical decision framework for sourcing product development services
1. HELSINKI UNIVERSITY OF TECHNOLOGY
Faculty of Engineering and Architecture
Department of Engineering Design and Production
Janne M. Korhonen
A practical decision framework for sourcing product development
services
Thesis submitted in partial fulfilment of requirements for the degree of Master of
Science in Technology
Espoo, 10 March 2009
Supervisor: Professor Kalevi Ekman
Instructor: Roope Takala, M.Sc. (Tech.)
2. HELSINKI UNIVERSITY OF TECHNOLOGY ABSTRACT OF THE MASTER'S THESIS
Author: Janne M. Korhonen
Title of the thesis: A practical decision framework for sourcing product
development services
Number of pages: 222 + 37
Date: 10.3.2009
Faculty: Faculty of Engineering and Architecture
Department: Department of Engineering Design and Production
Professorship: Kon-41 Machine Design
Supervisor: Professor Kalevi Ekman
Instructor: Roope Takala, M.Sc. (Tech.)
In recent years, firms have increasingly sourced some or all of their product development functions
from outside specialists. Although the phenomenon is well documented, research in the theoretical
aspects of new product development (NPD) sourcing has been limited. Existing sourcing
frameworks and decision models are based on studies of functions such as manufacturing, logistics
and back-office services. This approach has biased the sourcing decision frameworks towards arms-
length contracts and cost focus, which are rarely the key drivers in NPD outsourcing. At the same
time, it has ignored or downplayed the importance of interpersonal issues. As a result, there is a
distinct lack of management toolkits for deciding how to properly outsource NPD-related functions.
This study combines three research streams (outsourcing decision-making, new product
development, and selection of service providers) and develops answers to two primary research
questions, namely 1) what features make a product so essential to the firm that its development
cannot be outsourced, and 2) how to determine what parts of the NPD process could be outsourced
to a specific service provider?
The research method is primarily conceptual, with emphasis on literary review from a wide range of
sources. The results emphasize he importance of trust and relationships in NPD outsourcing. A
systematic approach to sourcing is seen as a prerequisite to successful outsourcing. The study
identifies three basic strategies followed by firms outsourcing their NPD services, and develops
practical checklists to aid outsourcing decision-making. A framework that allows analysis of
sourcing decisions is also produced, and practical implications discussed.
The study also reports results from an industry survey featuring 60 respondents. The findings
suggest that NPD outsourcing in Finland follows pan-European NPD outsourcing practices.
Keywords: make or buy, outsourcing, product development, product strategy, design management,
decision model, trust, best practices
2
3. TEKNILLINEN KORKEAKOULU DIPLOMITYÖN TIIVISTELMÄ
Tekijä: Janne M. Korhonen
Työn nimi: Käytännöllinen päätöksentekomalli tuotekehityspalvelujen
ulkoistamiseen
Sivumäärä: 222 + 37
Päivämäärä: 10.3.2009
Tiedekunta: Insinööritieteiden ja arkkitehtuurin tiedekunta
Laitos: Koneenrakennustekniikan laitos
Professuuri: Kon-41 Koneensuunnittelu
Työn valvoja: Professori Kalevi Ekman
Työn ohjaaja: Diplomi-insinööri Roope Takala
Kuluneina vuosina yritykset ovat enenevässä määrin hankkineet tuotekehitysosaamista ulkopuo-
lisilta spesialisteilta, ulkoistaen tuotekehityksensä kokonaan tai osittain. Vaikkakin ilmiö on hyvin
dokumentoitu, on sen teoreettista taustaa tutkittu vain vähän. Olemassaolevat ulkoistamismallit ja
päätöksenteon apuvälineet perustuvat suurelta osin valmistuksen ja logistiikan kaltaisten yrityksen
funktioiden tutkimukseen. Näiden tulosten soveltamista tuotekehityksen ulkoistamiseen rajoittaa se,
että ko. tapauksissa ulkoistamisella pyritään usein pääasiassa kustannussäästöihin. Lisäksi aikai-
sempi tutkimus jättää usein henkilökohtaisten suhteiden merkityksen vähemmälle huomiolle. Näistä
syistä olemassaolevat ulkoistamismallit sopivat heikosti tuotekehityksen ulkoistamiseen, mutta
kirjallisuudessa ei ole myöskään selkeitä “työkalupakkeja” liikkeenjohdon päätöksenteon tueksi.
Tämä diplomityö yhdistää kolmen tutkimussuunnan (ulkoistamisen päätöksenteko, tuotekehitys, ja
palveluntarjoajien valinta) löydöksiä ja kehittää vastauksia kahteen pääasialliseen tutkimus-
kysymykseen: 1) milloin tuoteominaisuus on niin tärkeä yrityksen kilpailukyvylle, ettei sen
suunnittelua tule missään tapauksessa ulkoistaa, ja 2) kuinka päättää mitä tuotekehitysprosessin osia
voidaan ulkoistaa tietylle palveluntarjoajalle?
Tutkimusmetodi on pääasiassa konseptuaalisen teorian kehittämistä laajaan kirjallisuuskatsaukseen
perustuen. Tutkimuksen tulokset korostavat luottamuksen ja henkilökohtaisten suhteiden merkitystä
tuotekehityksen ulkoistamisessa. Systemaattinen lähestymistapa nähdään vaatimuksena
onnistuneelle ulkoistamiselle. Yhtenä tuloksena tunnistetaan kolme perusstrategiaa, joita tuote-
kehitystään ulkoistavat yritykset seuraavat. Tutkimuksen tuloksia pyritään jalkauttamaan yrityksiin
kehittämällä käytännöllisiä tarkistuslistoja ja toimintamalleja, joiden avulla tuotekehityksen ulkois-
tamista voidaan tarkastella järkiperäisesti. Lisäksi tutkimuksessa tarkastellaan löydösten käytännön
merkityksiä eri toimijoiden kannalta.
Työssä raportoidaan myös tulokset 60 teollisuusyritystä käsittävästä kyselytutkimuksesta.
Tutkimuksen tulokset antavat syytä olettaa, että tuotekehityksen ulkoistaminen Suomessa noudat-
telee yleisesti ottaen Euroopassa vallalla olevia käytäntöjä.
Avainsanat: osta/tee-päätöksenteko, ulkoistaminen, tuotekehitys, tuotestrategia, design management,
päätöksentekomallit, luottamus, parhaat käytännöt
3
5. Foreword
This thesis has been very much a learning process and very little just a task to be
completed before graduation. Having to combine research and writing with the
demands of starting up and working in a design agency – both something that the
author hadn’t done before – is now, in retrospect, something that the author doesn’t
recommend for the faint of heart, but it has definitely been an experience.
However, all the hard work has been worth it. The subject, which surfaced when the
author was working for TKK’s FutureLab of Product Design in late 2007, has been
a fascinating yet understudied one; the process, where around 900 hours of research
and writing were interspersed between long periods of subconscious thinking and –
sometimes – even actually doing outsourced innovation has been very fruitful in
depth of thought and insights into the subject. In the humble opinion of this author,
the lengthy gestation period has greatly improved the thesis and how it is presented.
At this point, thanks are in order. In addition to interviewees who generously
donated their time for answering questions from the author, special mention is in
order for the partners of Seos, our interdisciplinary design agency, for giving the
author their support and allowing the author some time to work on the thesis. Both
the advisor of the thesis, Roope Takala from Nokia Oyj, and the supervisor,
professor Kalevi Ekman at TKK, deserve the author’s gratitude for enduring the
process and giving helpful advice when it was most needed. Sincere apologies for
not being able to complete the work sooner: hopefully the result is worth the wait.
Finally, to Jaana, who kept me fed during the process.
In Helsinki, 10.3.2009
5
6. Table of contents
Foreword............................................................................................................................................. 5
Table of contents ............................................................................................................................... 6
List of figures...................................................................................................................................... 9
List of tables......................................................................................................................................10
List of diagrams................................................................................................................................11
List of abbreviations ........................................................................................................................12
1. Introduction..............................................................................................................................13
1.1. The need for a framework..............................................................................................16
1.2. Research questions...........................................................................................................18
1.3. The purpose and the outline of the thesis ...................................................................19
1.4. Research methodology ....................................................................................................21
1.5. Definitions ........................................................................................................................25
1.5.1. Outsourcing...................................................................................................................25
1.5.2. Offshoring .....................................................................................................................26
1.5.3. Product...........................................................................................................................26
1.5.4. Product development...................................................................................................27
1.5.5. Product development outsourcing.............................................................................27
1.5.6. Client ..............................................................................................................................28
1.5.7. Provider..........................................................................................................................28
1.5.8. Original Equipment Manufacturer (OEM) ..............................................................28
1.5.9. Original Design Manufacturer (ODM) .....................................................................29
1.5.10. Independent Design Team (IDT)............................................................................29
2. NPD outsourcing in theory....................................................................................................30
2.1. A brief history of outsourcing........................................................................................32
2.2. NPD outsourcing as a phenomenon ............................................................................35
2.3. Theory base: outsourcing and outsourced innovation...............................................39
2.4. Key research streams and positioning of the study ....................................................43
2.5. Strategic management......................................................................................................46
2.5.1. Make or buy decision-making.....................................................................................46
2.5.2. Outsourcing core competencies.................................................................................49
2.5.3. New product development .........................................................................................50
2.5.4. Modularity and design rules ........................................................................................51
2.6. Business to business services .........................................................................................57
6
7. 2.6.1. Design management .....................................................................................................58
2.6.2. Selection and evaluation of service providers...........................................................63
2.7. Network theories..............................................................................................................67
2.7.1. Social capital...................................................................................................................68
2.7.2. Institutions .....................................................................................................................70
2.7.3. Trust and relationships.................................................................................................72
3. Outsourcing as a process ........................................................................................................75
3.1. Introduction ......................................................................................................................75
3.2. Motives for outsourcing (why?) .....................................................................................78
3.2.1. Motives for NPD outsourcing....................................................................................81
3.3. Risks in NPD outsourcing (why not?) ..........................................................................85
3.4. Assessment ........................................................................................................................89
3.4.1. Identifying the objectives: three basic strategies ......................................................92
3.4.2. Determining process modularity ................................................................................96
3.4.3. Identifying the key value-added competences....................................................... 100
3.4.4. Assessment of implications of decision.................................................................. 107
3.5. Selection and negotiation ............................................................................................. 111
3.5.1. Information search and preliminary evaluation .................................................... 113
3.5.2. Request for proposals................................................................................................ 117
3.5.3. Shortlisting .................................................................................................................. 121
3.5.4. Selection and negotiation of relationship............................................................... 127
3.6. Execution and relationship management .................................................................. 135
3.6.1. Project transfer ........................................................................................................... 135
3.6.2. Project management .................................................................................................. 137
3.7. Lessons learned.............................................................................................................. 143
3.7.1. Renewal or termination of contract ........................................................................ 144
3.8. Master checklists for NPD outsourcing .................................................................... 146
4. Empirical survey .................................................................................................................... 154
4.1. Hypotheses ..................................................................................................................... 155
4.2. Survey design.................................................................................................................. 158
4.3. Operationalization of variables ................................................................................... 159
4.4. Survey execution and response rate............................................................................ 163
4.5. Results of the study....................................................................................................... 164
4.5.1. Background data ........................................................................................................ 167
4.5.2. Reliability and validity................................................................................................ 171
4.5.3. Hypothesis 1 ............................................................................................................... 172
4.5.4. Hypothesis 2 ............................................................................................................... 173
7
8. 4.5.5. Hypothesis 3................................................................................................................175
4.5.6. Hypothesis 4................................................................................................................178
4.5.7. Conclusions about hypotheses .................................................................................180
4.6. Other findings ................................................................................................................181
4.6.1. Differences in product development process ........................................................181
4.6.2. Obstacles to outsourcing NPD ................................................................................184
4.6.3. Reasons for outsourcing NPD .................................................................................186
4.6.4. Previous outsourcing and NPD outsourcing.........................................................187
4.7. Limits of generalization.................................................................................................191
5. Discussion and practical implications.................................................................................192
5.1. Impact on products and brands...................................................................................194
5.2. Impact on organizations ...............................................................................................196
5.3. Impact on business strategies.......................................................................................197
5.3.1. Offensive flexibility: shaping the marketplace .......................................................198
5.3.2. Opportunistic flexibility: real options approach ....................................................199
5.3.3. Defensive flexibility: contractors and crises ...........................................................200
5.4. Links to Open Innovation and crowdsourcing.........................................................202
5.5. Implications for service providers...............................................................................205
6. Conclusions.............................................................................................................................206
6.1. Directions for further research ....................................................................................207
7. References ...............................................................................................................................209
8. Appendices..............................................................................................................................223
8.1. Appendix A: Semi-structured interview protocol.....................................................223
8.2. Appendix B: Overview of outsourcing decision models .........................................225
8.3. Appendix C: The economics perspective...................................................................230
8.4. Appendix D: Baldridge criteria for core competences.............................................233
8.5. Appendix E: Discovery-driven planning....................................................................235
8.6. Appendix F: Bidder due diligence checklist...............................................................239
8.7. Appendix G: Key questions for a lean organization ................................................241
8.8. Appendix H: Empirical survey questionnaire............................................................247
8.9. Appendix I: E-mail invitation for the survey.............................................................259
8
9. List of figures
Figure 1. Sony Ericsson Xperia smartphone - designed and built by HTC...................... 36
Figure 2. The positioning of the study, key theoretical areas, and research gaps............. 45
Figure 3. Four different cases of integration and internalization........................................ 55
Figure 4. Social capital and firm innovation........................................................................... 69
Figure 5. Losing competitiveness through outsourcing ....................................................... 88
Figure 6. How core competences create value. ................................................................... 101
Figure 7. Outsourcing options: make, buy or ally ...............................................................128
Figure 8. Outsourcing trade-off: flexibility need vs. control need.................................... 131
9
10. List of tables
Table 1. Different types of outsourcing in terms of motives...............................................31
Table 2. Primary theoretical foundations for outsourcing. ..................................................42
Table 3. Primary research streams in outsourcing research. ................................................44
Table 4. Approaches used for selecting service providers....................................................66
Table 5. Motives for outsourcing .............................................................................................80
Table 6.. Primary motives for outsourcing NPD and their rationales................................84
Table 7. Activities modular enough to be considered for outsourcing at Widgets Ltd...99
Table 8. Preliminary division of core and non-core activities at Widgets Ltd................ 106
Table 9. Spotting strategic skills............................................................................................. 108
Table 10. Providers identified by Widget Ltd...................................................................... 116
Table 11. 'Hard' qualifications................................................................................................ 123
Table 12. 'Soft' qualifications. ................................................................................................ 124
Table 13. 'Pros' and 'Cons' of short-term versus long-term relationships in NPD....... 133
Table 14. Examples of measures of NPD quality, time, and cost.................................... 141
Table 15. Checklist for preliminary activities....................................................................... 147
Table 16. Checklist for identifying the objectives............................................................... 147
Table 17. Checklist for determining process modularity. .................................................. 147
Table 18. Checklist for identifying key competences. ........................................................ 148
Table 19. Checklist for assessing the strategic implications. ............................................. 148
Table 20. Checklist for information search and preliminary evaluation.......................... 149
Table 21. Checklist for request for proposals...................................................................... 150
Table 22. Checklist for shortlisting ....................................................................................... 150
Table 23. Checklist for selection and negotiation of relationship. ................................... 151
Table 24. Checklist for project transfer................................................................................ 152
Table 25. Checklist for project management....................................................................... 152
Table 26. Checklist for lessons learned. ............................................................................... 153
Table 27. Key figures of survey respondent firms/SBUs.................................................. 167
Table 28. Top three obstacles to outsourcing NPD. ......................................................... 184
Table 29. Five criteria for successful user innovation........................................................ 204
Table 30. Benefits and assumptions...................................................................................... 238
Table 31. Assumptions grouped with milestones form a task list.................................... 238
Table 32. Core competences checklist.................................................................................. 241
Table 33. Existing partnerships checklist............................................................................. 242
Table 34. Searching for new partners checklist................................................................... 242
Table 35. Negotiating a partnership deal checklist ............................................................. 243
Table 36. Implementing a partnership checklist ................................................................. 244
Table 37. Outsourcing partnerships checklist ..................................................................... 245
Table 38. Management disciplines for partnerships and outsourcing checklist............. 246
Table 39. Partnership culture checklist................................................................................. 246
Table 40. Technology enablers checklist.............................................................................. 246
10
11. List of diagrams
Diagram 1. Classification of respondents by category........................................................165
Diagram 2. Extent of NPD outsourcing. .............................................................................166
Diagram 3. Firm/SBU personnel. .........................................................................................168
Diagram 4. Firm/SBU turnover, in millions €. ................................................................... 169
Diagram 5. Firms by field of business. .................................................................................170
Diagram 6. The effect of client-provider relationship on NPD outsourcing. ................173
Diagram 7. The effect of key technology maturity on NPD outsourcing.......................175
Diagram 8. The effect of firm size to NPD outsourcing...................................................177
Diagram 9. The effect of product life cycle to NPD outsourcing.................................... 179
Diagram 10. Different product development approaches.................................................183
Diagram 11. What of the following are obstacles to NPD outsourcing?........................185
Diagram 12. Reasons for outsourcing NPD........................................................................ 187
Diagram 13. The extent of previous outsourcing initiatives..............................................188
Diagram 14. Previous NPD outsourcing experience..........................................................189
Diagram 15. Why firms aren’t outsourcing NPD any longer............................................190
11
12. List of abbreviations
AEI: Abductive Explanatory Inferentialism
CEO: Chief Executive Officer
GT: Grounded Theory
IDT: Independent Design Team
NDA: Non-disclosure agreement
NPD: New product development
ODM: Original Design Manufacturer
OEM: Original Equipment Manufacturer
RFP: Request for Proposals
SBU: Strategic Business Unit
12
13. 1. Introduction
New product development – the ability to identify the needs of customers and
quickly create products that meet these needs at low cost - is widely recognized to
be the mainstay of economic success of manufacturing firms (e.g. Hart, 1993; Wang
and Ahmed, 2004; Ulrich & Eppinger, 2008). Without effective new product
development, practically every firm will struggle and eventually fail in today’s heavily
competed markets. To make matters worse, in most cases product development is a
continuous race against time, budget, technology constraints, changing trends,
shortening product lifetimes and, ultimately, competitors. Nevertheless, product
innovation is the lifeblood of great companies. When conducted effectively, it
blunts competitive pressures, raises internal growth potential and adds an aura of
excellence (Teresko, 2008a) that helps to bring about a virtuous circle of continuous
improvement.
In recent years, increasing complexity has made product development far more
expensive. At the same time, decreasing product lifetime has made rapid product
development even more important than it used to be. Competitive advantages are
fleeting and short-lived, and creating new competitive advantages necessitate more
and more effective new product development.
However, simply pouring more money into same product development processes as
before faces the law of diminishing returns. Furthermore, many large companies
have outgrown their internal ability to innovate fast enough to sustain investor-
pleasing growth rates: a 70-billion euro firm seeking a 10% yearly growth needs to
invent ways to make seven billion Euros more in what is already a competitive market
(Huston and Nabil, 2006). New approaches are needed. In many cases, this means
that firms sharing mutual interests - and sometimes even competitors - must learn
to cooperate and network with each other, with other firms in the market, and with
the customers that are ultimately buying their products.
13
14. More than perhaps any other function, new product development has traditionally
been shrouded in secrecy. New product development is intimately tied with the key
technologies and the strategy of the firm, and few firms want to share their secrets.
Nevertheless, the challenges outlined above, as well as opportunities awaiting
innovative companies, have spurred several firms to try out new and more open
approaches to both new and traditional problems.
What we have, as a result, is a dizzying variety of options available for product
managers and CEOs in an uncertain, rapidly developing environment. From
‘traditional’ product development outsourcing - using consultants for tasks such as
mechanical engineering or industrial design - to novel, Internet-enabled approaches
such as Open Innovation (Chesbrough, 2003) and crowdsourcing (Howe, 2006), the
range in both choice of partners and variety of options has exploded. The practice is
collectively known as the ‘extended enterprise’ (Jagdev and Browne, 1998; Dyer,
2000). Firms across the globe and across the industries have entered short and long-
term arrangements with other firms to acquire some aspects of product
development they have deemed important for the firm’s long-term success.
What is missing, on the other hand, are guidelines for choosing the right option.
Outsourcing manufacturing and infrastructure functions, and related decision-
making, have been discussed at length (for example, see Walker, 1988; Venkatesan,
1992; Quinn, 1994; Cánez et al. 2000; Jennings, 2002; Kakabadse and Kakabadse,
2002; Kumar and Eickhoff, 2005; Brannemo, 2006). Outsourcing has also been
criticized for being dangerous to long-term innovativeness of the firm (for example,
Tisdale, 1994; Chesbrough and Teece, 1996) and for being a product of
management fads, internal politics and political ideologies (Hendry, 1995). Different
approaches to ‘internal’ new product development processes have been
comprehensively covered by a variety of authors (for just some examples, see
Brown and Eisenhardt, 1995; Cooper, 2001; Ulrich and Eppinger, 2008).
Researchers have also been active in trying to find the economic and managerial
rationale for outsourcing innovation-related activities (some prominent examples
14
15. include Quinn, 2000; Chesbrough, 2003 and 2006; Hoetker, 2005; Love and Roper,
2005). Some of the drivers for outsourced product development have been
identified (Calantone and Stanko, 2007) and even the make-or-buy decision in
product development has been discussed, at least to some extent (Morin, 1999;
Barragan et al. 2003). However, despite the fact that companies consider sourcing
decisions as complex and tend to lack models supporting the decision process
(Brannemo, 2006), so far there have been no studies that provide firms interested in
outsourcing their product development tasks a prescriptive framework for dealing
with issues such as what to outsource and to whom. Although providing a
comprehensive framework for such a wide-ranging issue is beyond the scope of this
thesis, this study attempts to partially rectify the situation by developing a prescriptive
framework for choosing what to outsource, and to whom.
15
16. 1.1. The need for a framework
This lack of knowledge has implications beyond product managers and product
development teams. Any outsourcing decision should be viewed as a strategic
decision that has potential long-term implications, but outsourcing product
development, an activity central to the economic success and continuity of the firm,
should be treated with extreme caution. Therefore, even a sketch of an unified
framework on which to base the product development outsourcing decision-making
should be useful to general managers, product and line managers, and product
development teams. As Kakabadse and Kakabadse (2003, 61) conclude,
‘…unless top management has a clear view for both the strategic pathways to pursue and the
contribution of outsourcing in determining the shape and nature of their organization,
outsourcing may well be transactionally competently handled, but still not achieve the desired
outcomes.’
Although firms that routinely outsource product development often have their own
frameworks and procedures, to date no general model has been published. As
especially smaller firms may lack the resources to develop such models, this study
should be especially helpful to managers in smaller companies and business units
that are considering their options, but do not know how to proceed. Furthermore,
without a careful consideration of the future needs of the firm, outsourcing critical
functions piece by piece - ‘outsourcing creep’ - can spell disaster in the long term.
This is a real danger, given the fact that today many manufacturers have expanded
their businesses by providing design services for their clients (Schweber, 2003). This
can make it all too easy for stressed managers to make decisions with potentially
disastrous consequences for the long-term competitiveness of the firm.
16
17. The absence of a structured framework affects suppliers of product development
services, too. Without knowledge of the factors that should be considered when a
client outsources a product development task, providers and their clients, run the
risk of committing mistakes that can have serious consequences to the success of
the project. Ultimately, this means reduced client satisfaction and damage to the
provider’s reputation and prospects of repeat business.
Of course, having - and using - a framework does not eliminate the risk.
Frameworks can only help the involved parties avoid some most common mistakes.
A framework can also help stimulate the thinking about the entire process, and raise
awareness about importance of involving different functional areas of the firm in
the outsourcing decision. As Ulrich and Eppinger (2008, 7) note, structured
methods 1) make the decision process explicit and allow everyone on the team
understand the decision rationale, reducing the possibility of moving forward with
unsupported decisions (again, helping to avoid the ‘outsourcing creep’), 2) act as a
‘checklist’ of the key steps, and 3) are largely self-documenting for future reference,
evaluation and education. In fact, previous research has found structure and
documentation being virtual prerequisites for successful decision-making in
production outsourcing projects (Cánez et al., 2000).
Of these, of particular importance is the role a structured process has in the
continuous development of the firm. Without a documented process, development
efforts grind to a halt. Even some hypothesis and a process is usually better than
none, and the process described in this thesis should serve as a basis for more
detailed framework which can then be customized to fit the specific needs of a firm.
17
18. 1.2. Research questions
The research questions of this thesis can be stated as follows:
To produce a decision-making aid and guidelines for outsourcing product development
activities to external product development consultancies, especially
1) How to determine what functions or products could be outsourced to a specific
service provider?
2) What features make a product or a function so essential to the firm that know-
how to develop it must be kept within the company and cannot be outsourced?
18
19. 1.3. The purpose and the outline of the thesis
Focusing on core competencies while outsourcing the peripheral functions is
becoming more and more important, not to mention attractive, to firms in
hypercompetitive markets. However, as stated in the Introduction, increased
outsourcing may easily backfire. In particular, valuable competencies can be lost. On
the other hand, equally valuable opportunities may be lost if the firm hesitates to
make a decision. In new product development (NPD) settings, the choice is often
between starting a project with external help, or drastically reducing its scope to fit it
into busy schedules of internal NPD staff. Unprepared, both decisions can be
harmful to the firm. But how to make sense of the subject? How to build a ‘mental
model’ of NPD outsourcing, when existing research on NPD outsourcing is
fragmentary and limited? What’s more, due to interdisciplinary nature of the
phenomenon (see e.g. Hoetker, 2005; Hätönen, 2008), simply re-using old
outsourcing frameworks may easily result to misleading conclusions. A framework
based on one discipline – say, cost-minimizing, transactional outsourcing of easily
standardized component parts of the final product1 – is not just inadequate for
NPD outsourcing; at worst, it can be outright harmful to the firm.
This thesis tries to address the issue of NPD outsourcing based on most relevant
disciplines and help managers build a mental model of what NPD outsourcing is
about. Developing this mental model requires some background in phenomena
related to the subject, such as social capital. As a result, this thesis should be treated
more as a literature review and a sketch on the subject rather than a definitive study.
It is hoped by the author that this review helps firms struggling with the question of
outsourcing their core competencies to make some sense of the subject – at least as
far as new product development is concerned.
1 That is, the ‘traditional’ view of outsourcing as utilized in manufacturing industries.
19
20. The outline of the thesis is as follows: after a discussion of research methodology
and defining the terms used, the historical context of the thesis is briefly sketched
out by short histories of outsourcing in general and outsourced innovation in
particular. These, in turn, build foundations for short treatise on theories
underpinning outsourcing research. Research streams used in the thesis are
identified and briefly outlined. The arguments from theory are then introduced.
The thesis also includes an empirical research on NPD outsourcing in Finnish
export business. The study aims to map the extent of phenomenon, as well as
highlighting challenges inherent in the field. A number of hypotheses are developed
from foreign literature, and are tested against empirical data.
Finally, the thesis includes a brief discussion on phenomena. Practical implications
are identified and presented. Discussion is based on literature review, empirical
research, and semi-structured interviews with various managers and other personnel
with experience in NPD outsourcing.
20
21. 1.4. Research methodology
A challenge that both inspired and shaped this thesis was lack of available data on
the new product development outsourcing. Although prominent authors (e.g. Hagel
and Singer, 1999; Quinn, 2000; Rifkin, 2000; Friedman, 2005) have been declaring
the 2000s as the age when even core competences can and should be considered for
outsourcing, the phenomenon of outsourcing new product development is still far
from widespread. In addition, several journalists and researchers (e.g. Engardio et al.,
2005; Carson, 2007; Calantone and Stanko, 2007) have noted that even firms that
practice NPD outsourcing are often reluctant to talk openly about the subject. Both
of these difficulties were encountered during the research. Nevertheless, the
growing strategic importance of the subject became very clear from nearly every
interview of NPD professionals conducted by the author. Since the subject was
considered important but hard data – especially from Finnish firms – was difficult
to come by, the research relied heavily on literature, secondary data, and semi-
structured interviews and other discussions with professionals from various fields.
As outsourcing and new product development are in themselves broad subject
areas, understanding a phenomena as complex as NPD outsourcing by using a
single theoretical framework or only through qualitative or quantitative studies and
surveys would almost certainly lead to an oversimplified analysis. As stated above,
several authors (e.g. Hoetker, 2005; Hätönen, 2008) argue for an interdisciplinary
approach to the phenomenon. As a result, the research approach used in this thesis
is a generation of theory from various forms of data and various theoretical
backgrounds. The author recognizes that this approach results to a relatively lengthy
thesis; however, it is felt that the breadth is necessary for explaining the outsourcing
phenomenon. The data has been primarily qualitative, but quantitative data (e.g.
Holopainen and Järvinen, 2006) has also been used where appropriate. Of special
importance have been in-depth interviews of NPD professionals from companies A
21
22. and B2, whose comments helped to shape especially the final revision of this text.
The insights from the interviews are attributed in the text as Firm A interviews
(2008) or Firm B interviews (2008), respectively. These interviews were conducted
according to semi-structured interview protocol outlined by Bryman and Bell (2007,
474) and detailed in Appendix A. In addition, a survey of 60 Finnish export-oriented
firms was conducted as a preliminary to the study to determine the extent of the
phenomena in Finland. This study, its methodology, and results are detailed in
Chapter 4.
Although this thesis has been structured according to a standard theory-hypothesis-
test model, in reality the research has gone iteratively back and forth as new data,
literature, and ideas have emerged. Of course, this is what most researchers do
anyway: it is simple common sense to retrospectively formulate new hypotheses to
fit the data during the research process. Where this thesis differs is that hypotheses
were deliberately formed late in the research process, instead of picking a hypothesis
based on limited research and trying to prove or disprove it in some manner. The
latter is an example of ‘hypothetico-deductive orthodoxy’ (Haig, 1995) that may
cause researchers to be perhaps too concerned about empirical adequacy and
testability of their theories (Haig, 1995). In Master’s theses read by the author in
preparation to this research, this has sometimes led to low-content, underdeveloped
theories being prematurely tested with empirical methods. It is the opinion of
philosophers of science Thagard (1992) and Haig (1995), and also of this author,
that in social sciences - business research included – the focus should be on
establishing theory’s explanatory coherence. Explanatory coherence means, in short, that
theories developed should have more explanatory breath than previous theories, be
as simple as possible in terms of special assumptions made, and be supported by
analogies to theories that scientists already find credible (Thagard, 1992; Haig,
1995).
2 The names and details of participating companies and the interviewees have been obscured for
reasons of confidentiality.
22
23. The research approach of this thesis resembles, but does not entirely follow, so-
called ‘grounded theory’ methodology (Glaser and Strauss, 1967; Glaser, 1978;
Strauss, 1987; Strauss and Corbin, 1990; Glaser, 1992). Grounded theory (GT)
contradicts the traditional model of research, where the researcher chooses a
theoretical framework, and only then applies the model to the studied phenomenon.
The research principle behind GT is neither inductive nor deductive, but combines
both in a way of abductive reasoning (Glaser, 1998; see also Kantorovich, 1993).
This leads to an iterative research practice where data sampling, data analysis and
theory development are not seen as distinct and separate, but as steps to be repeated
until one can describe and explain the phenomenon that is to be researched, and
new data does not change the emerging theory anymore. As the goal in grounded
theory is to generate concepts that explain people’s actions regardless of time and
place, instead of accurately describing the events or ‘proving’ a hypothesis, it is
particularly suitable for generating aforementioned ‘mental models’ and frameworks
to help decision-makers do better decisions.
Where this thesis differs from ‘pure’ grounded theory approaches is in details and
some practices of research. Grounded theory expects the researcher to start with as
few preconceptions as possible (Glaser, 1992) and, for example, start with research,
not with literature review. Grounded theory also demands more systematic coding
of research data than was actually practiced during this research, although given this
text’s highly iterative creation process3 the end results might not have been very
different.
Nevertheless, simply because the author came into contact with grounded theory
methodology only late in his research, this study cannot be said to follow the
‘textbook’ grounded theory approach, and fits better with a more general account of
scientific method called ‘abductive explanatory inferentialism’ or AEI (Haig, 1995).
This means that the theory is generated heuristically, or abductively (Kantorovich,
3
11 substantial revisions with a total of nearly 850 pages, some 250 pages of notes, and nearly 500
references.
23
24. 1993), and is appraised in terms of what philosophers have come to call inference to
the best explanation (Haig, 1995), i.e. whether the theory provides a better explanation
of the evidence than its rivals. Thus, it is a hope of the author that this study be
evaluated on its explanatory coherence, rather than methodological purity.
24
25. 1.5. Definitions
Evolution of practice and theory over the last decades has caused researchers,
managers and trade press to use often inconsistent and sometimes contradictory
terms for many activities that fall under the outsourcing paradigm. For this reason,
this section seeks to define the important terms used in the study. Most of the
terminology follows current practice in electronics industry (see Schweber, 2003),
with some additions from general outsourcing research (e.g. Gilley and Rasheed,
2000).
1.5.1. Outsourcing
Generally, past studies about outsourcing have defined outsourcing so broadly that
it can include virtually any good or service that an organization procures from
outside firms (Gilley and Rasheed, 2000, 764). A narrow definition of outsourcing
covers only situations where the ownership of an activity is transferred by divesting
previously internal functions or processes4.
However, for reasons of clarity and simplicity this thesis uses a broader definition
that also includes other long-term contracts that seek to buy capabilities that the
firm needs, even if the firm didn’t originally produce that capability5. Therefore,
activities that are considered as outsourcing in this thesis include capability sourcing
(e.g. Godfredsson et al., 2005) and strategic procurement (Venkatesan, 1992).
A prudent choice is to use definitions that fit the phenomena under study. As this
thesis deals mostly with outsourced R&D services, with the exception of cases where
the NPD service provider also manufactures the final products (so-called Original
4 ‘Outsourcing through substitution’ (Gilley and Rasheed, 2000, 764).
5 ‘Outsourcing through abstention’ (Gilley and Rasheed, 2000, 765).
25
26. Design Manufacturing), definition of the word ‘outsourcing’ used in this thesis is
purchasing any capabilities, activities, processes or functions from outside the company as a part of
the new product development process.
1.5.2. Offshoring
An important differentiation is between outsourcing and offshoring, i.e. transferring
jobs to low-cost countries in order to take advantage of cheaper labour (so-called
labour arbitrage). Outsourcing may involve offshoring, but offshoring can also take
place within the company, without involving any outside suppliers. As location
decision is beyond the scope of this thesis, the text does not explicitly make a
distinction between in- and offshored activities.
1.5.3. Product
A product is something sold by an enterprise to its customers (Ulrich & Eppinger,
2008, 2). Today, this increasingly refers to a mix of physical products, software, and
services - collectively known as the offering - but for reasons of clarity, the word
product is used throughout this text. Although the focus of this text is on engineered,
discrete, and physical products, most of the methods and findings are broadly
applicable to development of services or software (however, for software NPD
outsourcing, see Hätönen, 2008).
26
27. 1.5.4. Product development
Product development is the set of activities beginning with the perception of market
opportunity and ending in the production, sale, delivery (Sheldon, 2004; Ulrich &
Eppinger, 2008, 2) and ultimate re-use or disposal (see McDonough & Baumgard,
2005) of the product. For the purposes of this thesis, product development is defined to
include the following phases (Ulrich & Eppinger, 2008, 9):
1) Planning
2) Concept development
3) System-level design
4) Detail design
5) Testing and refinement
6) Production ramp-up
Reader may note that these phases correspond roughly to the famous and often-
used ‘Stage-Gate™’ model of product development and management (Cooper,
1992). However, since this thesis is more concerned with sourcing the individual
tasks and sub-processes included in a product development process, rather than the
management of the entire process, Ulrich and Eppinger’s generic model is used as a
framework.
1.5.5. Product development outsourcing
Product development outsourcing, or NPD outsourcing, refers to product
development activities performed by an external provider. In practice, product
development outsourcing can be anything from buying ‘turnkey’ designs and
27
28. manufacturing from external sources, to engaging a consultant to design a particular
component or perform e.g. industrial design for the product.
1.5.6. Client
The word ‘client’ in this thesis refers to a person or organization that is purchasing
product development services, i.e. the customer for those services.
1.5.7. Provider
In this thesis, the term ‘provider’ refers to a person or organization supplying
product development services to a client. ‘Provider’ can also refer to a network of
providers working collaboratively or competitively, as is the case in open innovation
(Chesbrough, 2003) and crowdsourcing (Howe, 2006), respectively. These networks
include, but are not limited to: 1) suppliers, 2) supplier’s suppliers, 3) distributors, 4)
franchisees, 5) other middlemen, 6) customers, 7) customer’s customers, and other
specialized resources such as university professors and consultants (Peters, 1992,
310).
1.5.8. Original Equipment Manufacturer (OEM)
Original Equipment Manufacturer is a term that has, in practice, been used to refer
to very different and even contradictory business practices6. The definition used in
this thesis is that an OEM is a company that gains most of their profit from either
manufacturing its own products or purchasing products or components from
another company and reselling the products or components with the purchasing
6
The term ‘OEM’ is sometimes used to refer to firms that make products for others to brand and
sell; in this thesis, this practice is called Original Design Manufacturing (ODM).
28
29. company’s name or logo on them. Thus, OEMs are clients for ODMs. Today, many
OEMs are primarily product definers and marketers, leaving manufacturing and
sometimes detailed design to ODMs and contract manufacturers. (Schweber, 2003,
68)
1.5.9. Original Design Manufacturer (ODM)
Original Design Manufacturers are companies that design and build products for
marketing under another company’s brand and usually own the intellectual property
rights of the product, in contrast to simple contract manufacturers who
manufacture products designed by their clients. The clients of ODMs include
Original Equipment Manufacturers (OEMs) and other brand-name organizations
such as large retail chains or mobile telephone operators. It is important to note that
the distinction between ODM and OEM is rather flexible, especially as many
ODMs are in a track for becoming branded OEMs in their own right (see e.g.
Engardio et al., 2005). For the purposes of this thesis, a company is considered an
ODM if most of their profit comes from ODM activities. (Schweber, 2003, 68)
1.5.10. Independent Design Team (IDT)
IDT’s are vendors that provide for-hire design services and are capable of doing
most if not all of the new product development process by themselves. In some
cases, IDTs can have manufacturing capabilities (at least in limited amounts, such as
for trial runs and prototyping) but they expect to make most of their profit from
design rather than manufacturing phase. (Schweber, 2003, 68)
29
30. 2. NPD outsourcing in theory
The world can doubtless never be well known by theory: practice is absolutely necessary: but
surely it is of great use to a young man, before he sets out for that country, full of mazes,
windings, and turnings, to have at least a general map of it, made by some experienced
traveller.
Lord Chesterfield (1694-1773), a British statesman.
This first part of the thesis aims to explain the theoretical and historical background
for outsourcing phenomenon. To a large extent, the theoretical position of this
thesis falls between several different but – to some extent – overlapping research
traditions. This is largely because the complex and extensive nature of outsourcing
phenomenon encourages the adoption of a highly interdisciplinary perspective (see
also Hätönen, 2008, 35-37; and Hoetker, 2005). In fact, it could be argued that
outsourcing, and particularly innovation outsourcing, cannot be fully understood
from just one theoretical position alone. Understanding outsourcing requires also an
understanding of historical developments that have made outsourcing first an
attractive option for cutting costs, and later a viable way of acquiring competencies
and transforming the organization in the ‘age of access’ (Rifkin, 2000): a world
where ownership of activities matters less than access to world-class competencies.
Both in practice and in theory, outsourcing has proceeded through several distinct
phases. Hätönen (2008, 19 and 69) identified three distinct phases of outsourcing,
which he dubs ‘big bang’ of outsourcing (1980s to early 1990s, with focus on cost
cutting), ‘bandwagon’ (early 1990s to early 2000s; focus on cost cutting and capability
enhancement) and ‘barrierless organization’ (from the early 2000s onwards; focus on
organizational transformation). These phases are summarized in Table 1.
30
31. Table 1. Different types of outsourcing in terms of motives. Adapted from
Hätönen (2008, 19 and 69)
Type Definition Examples of motives Emerged
Transactional Outsourcing aimed directly Reduce costs Big bang:
outsourcing at cutting and reducing Cost discipline/control 1980s-early
operational costs Lower operational costs 1990s
Resource-seeking Outsourcing primarily aimed Aim to achieve and acquire best Bandwagon:
outsourcing at acquiring resources practices early 1990s to
and/or capabilities that are Improve service quality early 2000s
unavailable, inadequate or Access to new technology and
insufficient internally skills
Lack of expertise in-house
Access to a flexible workforce
Transformational Outsourcing aimed at Focus on core Barrierless
outsourcing transforming the competencies/activities organization:
organization into a more Improve business from the early
dynamic, efficient, and more focus/internal reorganization 2000s
focused economic unit Flexibility onwards
Free up internal resources
Accelerate projects
In the following sections, these historical and theoretical developments are briefly
outlined. First, a brief history of outsourcing in general is presented, followed by a
discussion of history of innovation outsourcing. After this introduction, theory base
underpinning outsourcing and innovation outsourcing research is reviewed and
examined. Theories and research streams used in this thesis are also selected and
outlined.
31
32. 2.1. A brief history of outsourcing
There are very few new things under the sun. In practice, outsourcing traces its
roots to Roman tax collectors who were sold rights for collecting taxes (Kakabadse
and Kakabadse, 2000), and outsourcing as a theoretical phenomena has been around
at least since the publication of Adam Smith’s famous thesis Wealth of the Nations
(1776), where Smith argued that the specialization of labour would bring benefits to
all. In the early 1900’s, both industrial practice and management theory argued for
vertically integrated and self-sufficient firms in a belief that size and vertical
integration were an advantage to a firm (Greaver, 1998, 77). This was challenged
during the 1950’s when outsourcing was first suggested as a corporate strategy
(Quinn and Hilmer, 1994).
Since the late 1960’s, as the average size of industrial firms has decreased,
outsourcing has been rising in importance. The importance of outsourcing has risen
dramatically after the communications revolution of early 1990’s provided
companies with ways to communicate even with far-flung suppliers and made
outsourcing a viable strategy not just for cutting costs, but also for seeking value-
adding skills, competences, and knowledge outside the organization (e.g. Quinn and
Hilmer, 1994; Kakabadse & Kakabadse, 2000; Kakabadse & Kakabadse, 2005). This
‘strategic outsourcing’ (e.g. Quinn and Hilmer, 1994; Alexander, 1996a) involved
more strategic functions and encouraged firms to build closer relationships with
their vendors as arms-length, cost-minimizing approaches to relationship
management became insufficient.
Increased knowledge and practice in outsourcing led organizations to outsource
many activities traditionally carried out in-house. By the end of the 1990s,
outsourcing had become a standard operating procedure in nearly all industries
(Hätönen, 2008, 18). Because standard operating procedures cannot provide
competitive differentiation, during the 1990s outsourcing moved on from focusing
primarily from divesting the peripheral, non-core activities of the business - such as
32
33. cleaning, catering and site security - in order to focus on ‘core’ businesses (Prahalad
& Hamel, 1990; Kakabadse & Kakabadse, 2005) towards more critical areas such as
design, manufacture, marketing, distribution and information systems (e.g. Jennings,
1997; Quélin and Duhamel, 2003, Gottfredson et al., 2005; Carson, 2007).
Outsourcing previously internal activities is possible, because in an increasingly
integrated world economy, there is no longer such a need to ensure reliable
suppliers of raw materials such as iron and oil. In addition, uncertainties due to
limited communications capabilities have diminished and communication in general
has become ubiquitous; and, perhaps most importantly, brainpower, not raw
material, is the source of most value added (Peters, 1992, 305). As the pace of
change in every business is accelerating, business leaders have noted that leveraging
the skills, contacts, and expertise of a network enables firms to grow much faster
than they would by just internal growth and competency development (von Ghygzy
et al., 2002). This, in turn, has attracted investors who have come to reward focus
and innovation over size and diversity (Greaver, 1998, 77). The end result has been
an explosion of outsourcing across industries as diverse as aerospace, automobiles,
chemicals, computers, electronics, energy systems, financial services, healthcare,
software, and telecommunications (e.g. Quinn, 2000; Dahan and Hauser, 2002;
Carson, 2007). As a result, our current hypercompetitive economic system could be
referred to as an outsourcing economy, given the increased focus on core organizational
activities and the simultaneous leveraging of assets not controlled by the firm
(Hätönen, 2008, 15).
Formally, the discussion about outsourcing is a discussion about vertical integration of
the firm. As scholars such as Hayes et al. (2005) have noted, the advice on what
actually is the optimum vertical integration strategy has been changing with the
times. For example, Hayes et al. (2005, 116) note that
‘In the mid-1980s, BusinessWeek, for example, warned from dire consequences that would
result from extensive outsourcing and even coined the pejorative term ‘hollow corporations’ to
33
34. describe companies that possessed no manufacturing capabilities of their own. But in a more
recent article the same magazine trumpeted the virtues of outsourcing and argued, ‘The effect
on innovation could be huge…’’
In fact, it was BusinessWeek’s Pete Engardio who first coined the term
‘transformational outsourcing,’ (Engardio, 2006) referring to strategies that aim to create
radically new business models that can change the game in a firm’s industry. In this
view, the future competitive edge is seen to lie in flexibility achieved through a tight
operational focus and the leveraging of external core competences outside of this
focus area (e.g. Quinn, 1999). As rapid change across industries makes core
competences only temporal, coping in the new economy requires firms to
constantly refine and modify their existing pools of knowledge, skills, and resources.
Fine et al. (2002) even suggest that a firm’s real value-creating competency, and
perhaps the only sustainable one, might be its ability to continuously restructure its
value chain. This leads to outsourcing more and more critical and knowledge-
intensive business components, often in close cooperation with the provider
(Hätönen, 2008, 19).
The key management challenges lie in recognizing the key competence areas,
creating a flexible organization that focuses on value-creating competences, finding
providers to provide the value to the rest of the operations, and managing the
resulting global network of providers (Hätönen, 2008, 16-19). In parallel with the
new challenges, this industrial fragmentation also offers firms various opportunities.
34
35. 2.2. NPD outsourcing as a phenomenon
Today, the focus of outsourcing activities has moved from ‘simple’ activities
upwards in the value chain, towards more knowledge-intensive activities (e.g.
Jennings, 1997; Quinn, 2000; Chesbrough, 2003; Quelin and Duhamel, 2003;
Brannemo, 2006; Salminen, 2008; Hätönen, 2008). Even though manufacturing
firms have long outsourced much of actual manufacturing of their products or
components, most have insisted that all the important research and development
work would remain in-house. As common wisdom and anecdotal evidence point
out that ability to develop new products can be accidentally lost by ‘hollowing out’
the firm through outsourcing all production (Tisdale, 1994; Chesbrough and Teece,
1996; Hayes et al., 2005), outsourcing product development deliberately has been
viewed with some suspicion.
Nevertheless, considerable empirical evidence exists of the value of utilizing external
resources for promoting new product development (e.g. Freeman, 1991; Karlsson,
1997; Koschatzky, 1998; Oerlemans et al., 1998; Love and Roper, 1999, Hätönen,
2008), and the use of outside consultants for product development has, for years,
been routine in many if not most firms. Beginning with industrial design
outsourcing in the 1980s and 1990s, the increasing complexity of products and their
shorter life-cycles demanded expertise from a range of different sources, while the
use of technology (i.e. CAD/CAM, embedded systems, etc.) in the design process
facilitated a change in practice that increased the opportunities for changing
organizational forms (Bruce and Morris, 1998). In short time, outsourcing has
dramatically altered new product development in various industries where product
development has come to be viewed fundamentally as a function dispersed across
collaborating firms (Quinn, 2000; Dahan and Hauser, 2002). This decomposition of
production activities from each other and from design (Ulrich and Ellison, 2005;
Carson, 2007) has created market opportunities for several large and small firms,
causing a shift towards buyers’ markets where firms of all sizes in nearly all
35
36. industries can capitalize on their external sources of knowledge and capabilities
(Hätönen, 2008, 16).
With services ranging from specialist expertise provided by design and engineering
consultancies to so-called original design manufacturers (ODMs) who market
complete, manufacturing-ready and rebrandable designs, these providers are playing
an increasingly important part in the global economy. For example, in 2005,
estimated 70% of PDAs, 65% of notebook PCs and MP3 players, 30% of digital
cameras and 20% of mobile phones were designed either completely or at least
significantly by ODMs and sold under other, better-known brand names (Engardio
and Einhorn, 2005). Examples from less high-technology industries such as Procter
and Gamble7 suggest that a trend towards greater outsourcing is not confined to
high-tech consumer electronics.
Figure 1. Sony Ericsson Xperia smartphone - designed and built by HTC. (Photo
credit: Sony Ericsson)
7 Procter and Gamble’s ‘Connect and Develop’ Open Innovation initiative aims to source 50% of
its new products from outside the company; see e.g. Nambisan (2007).
36
37. As technologies mature, the borderline between mission-critical and commodity
R&D is sliding year by year. As a result, NPD outsourcing has been steadily on rise
for the last two decades (Roberts, 1995; Duga and Studt, 2005; National Science
Foundation, 2005). Firms are increasingly turning to their providers for complete
turn-key solutions, as even co-design with help from outside specialists is becoming
too difficult, expensive, or slow. For their part, providers are hungry to expand the
scale and scope of their services, so that parts suppliers build up capabilities in
design, and (more rarely) design firms claim stakes in manufacturing. In other cases,
firms turn to outsiders for big ideas, and then turn those concepts into actual
products8. The fine line between NPD services and other business services is
further blurred by developments where brand-building agencies have employed
product designers and even engineers to help them build entire customer
experiences for their clients, from establishing the brand identity to delivering
products that follow and enhance that identity (e.g. Alviani, 2008; Merholz et al.,
2008).
When all goes well, these developments have resulted to impressive increases of
productivity. Through adroit use of outsourcing and new information technologies,
firms have been able to reduce their time to market for new innovations by as much
as 60 to 90 %, decrease their investments by similar amounts, and radically increase
the value added from innovation (Quinn, 1994, 2000; Narula, 2001; Harland et al.,
2005). It is no wonder that, according to a preliminary investigation by Calantone
and Stanko (2007), there appears to be consensus among researchers and managers
that outsourcing of innovation-related activities is here to stay, and that it could
conceivably become extremely important in the future. However, firms still need to
guard some sustainable competitive advantage, whether it’s control over the latest
technologies, the look and feel of new products, or the customer relationship
(Engardio and Einhorn, 2005) or risk being surpassed in the marketplace.
8
For one example, see Helm (2007).
37
38. In practical terms, NPD outsourcing happens on two levels. Firms either purchase
specialist expertise needed for a certain task from outside providers acting as
consultants to the NPD process9, or they define the required product features and
completely or nearly completely outsource the actual design work. Whether and
how much firms work with these independent design teams or original design
manufacturers during the process depends on the nature of the project and the
firm’s strategy. Some product definers are actively involved in the externalized
design process, while others prefer a hands-off approach. A borderline case that can
also be counted as NPD outsourcing is when firms create designs themselves but
work collaboratively with outsourced manufacturer to refine the design’s
manufacturability. As contract manufacturers are eager to capture a greater share of
the value in NPD process, this has increased to a point where most manufacturers
offer some kind of manufacturing ramp-up or design services.
9 Examples include market research, industrial design, mechanical engineering etc.
38
39. 2.3. Theory base: outsourcing and outsourced innovation
Research on using markets to conduct transactions previously conducted in-house
dates back to 1970’s (e.g. Williamson, 1975), with the first mention of the concept
‘outsourcing’ occurring in the mid-1980s10. Initially, research focus was on
transaction cost economics (Williamson, 1975; Coase, 1937), which suggest that
transactions should be organized within a firm when the cost of doing this was
lower than the cost of using the market. Since then, research has expanded to other
fields and become interdisciplinary in nature (Hoetker, 2005). Hui and Beath (2001)
analyzed 143 studies on outsourcing and identified four main theoretical bases
underpinning outsourcing research:
1) Transaction cost economics,
2) Other economic theories such as agency theory and production cost economics,
3) The resource-based view of the firm, and
4) Social-exchange/trust/relationship theories.
Research on outsourced innovation, in contrast, remained for long a province of
historians of technology. Before the 1980s and the rise of computer start-ups and
specialized design agencies, typical examples of outsourced innovation were 19th
century independent inventors who sold their inventions to burgeoning industries
of the time (Howells, 1999). As a research concept, outsourcing NPD activities
became under discussion after the initial wave of transactional outsourcing (see
Nyström, 1985). However, research in outsourced innovation really took off only in
the late 1990s.
Of particular importance to the topic was the publication of articles and books on
open innovation (Chesbrough, 2003, 2006). The idea behind open innovation is that in
10 According to Hätönen (2008, 39), the concept was first used by Pastin and Harrison (1987).
39
40. a world of widely distributed knowledge, firms cannot rely entirely on their own
research, but should instead buy or license innovations from other firms while
simultaneously using outsiders to help commercialize innovations that are
developed in-house but don’t fit the firm’s business model. The similarities to
historical examples discussed above (Howells, 1999) are readily apparent, although
Chesbrough (2003) goes beyond simple licensing of external inventions by stating
that firms should also out-license technologies they don’t see as attractive to
commercialize by themselves. More recently, crowdsourcing, or outsourcing design
problems to the public rather than to another organization (Howe, 2006; Tapscott
and Williams, 2006) has attracted both attention and criticism in the business press.
Again, this practice has deep historical roots in various prizes awarded for solving
some particularly important problem, for example the 1714 ‘longitude prize’ offered by
the British government to anyone who could solve the problem of time-keeping at
sea. Such practices have continued to the present day; some prominent examples are
DARPA Grand Challenges and Ansari X-Prizes, both intended to stimulate
innovation by giving inventors an incentive to develop radical new solutions.
Compared to other types of outsourcing, the relative lack of research on NPD
outsourcing is partly due to the problem lamented in several of the studies about
NPD outsourcing: the difficulty of getting hard data on the phenomena due to
NPD’s sensitive role and the importance of confidential personal relationships (e.g.
Engardio et al., 2005; Carson, 2007; Calantone and Stanko, 2007). Some data exists
in form of industry surveys and benchmarking studies (e.g. Roberts, 1995; Love and
Roper, 1999, 2004; Sobrero and Roberts, 2001; Howley, 2002; Duga and Studt,
2005; National Science Foundation, 2005; Holopainen and Järvinen, 2006, among
others), and an abundance of less academic accounts such as trade press articles,
case studies and books on NPD outsourcing can be found (e.g. Engardio et al.,
2005; Huston and Sakkab, 2006; Tapscott and Williams, 2006; Helms, 2007; Alviani,
2008; Brown, 2008; Neumeier, 2008). The latter often include ‘how-to’ guides about
best practices when outsourcing NPD activities.
40
41. Nevertheless, research literature has approached R&D sourcing and innovation
outsourcing from a variety of theoretical bases, including knowledge flows (e.g.
Tarun et al, 1998), location and industry clusters (e.g. Koschatzky, 1998), transaction
cost economics (e.g. Love and Roper, 1999; Ulrich and Ellison, 2005; Calantone and
Stanko, 2007) industry networks (e.g. Powell, 1998; Hagel and Singer, 1999; Zirpoli
and Caputo, 2002; Baloh et al., 2008), Calantone and Stanko, 2007), resource-based
view of the firm (e.g. Quinn, 2000), and intellectual property rights (e.g. Love and
Roper, 2004; Hoecht and Trott, 2006). Outsourcing industrial design – often a
precursor for more comprehensive NPD outsourcing – has also been discussed at
length (e.g. Bruce and Morris, 1998; Best, 2006). One of the latest additions to
literature discusses outsourced innovation in terms of real options (Vanhaverbeke et
al., 2008), or small, initial investments that help firms deal with uncertainties by
buying ‘options’ to new ideas or technologies, thus increasing their flexibility11.
Hoetker (2005), discussing the problems of identifying a manufacturer for
technically innovative components, identified three relevant research bases for
analyzing component development and manufacturing relationships. These are
1) Transaction cost economics (e.g. Williamson, 1975),
2) Firm capabilities (e.g. Barney, 1991; Winter, 1987).
3) Inter-firm relationships (e.g. Gulati, 1995; Uzzi, 1996)
In summary, Table 2 presents main theoretical foundations for outsourcing
research. As can be seen from the Table, this thesis is based primarily on the
resource-based view of the firm and on social exchange/trust/inter-firm
relationship theories. As NPD outsourcing is only rarely about cutting the costs,
transaction costs and other economic theories are not as relevant to the thesis as
they would be in more transactional outsourcing.
11
For an overview of real options approach and how it helps firms increase their flexibility and
cope with uncertainty, see e.g. Kogut and Kulatilaka (2003).
41
42. Table 2. Primary theoretical foundations for outsourcing and innovation outsourcing.
Research bases for Research bases for R&D Research bases
outsourcing (Hui and relationships (Hoetker, 2005; primarily used in this
Beath, 2001) Hoecht and Trott, 2006) thesis
1. Transaction cost economics
2. Other economic theories
1. Transaction cost economics 1. The resource-based
(agency theory, production cost
2. The resource-based view of the view of the firm (firm
economics)
firm (firm capabilities) capabilities)
3. The resource-based view of
3. Social exchange/trust/relationship 2. Social exchange/trust/
the firm
theories relationship theories
4. Social
4. Intellectual property rights
exchange/trust/relationship
theories
42
43. 2.4. Key research streams and positioning of the study
Both Hätönen (2008) and Hoetker (2005) argue that to understand the trade-offs
involved in outsourcing decisions, multiple viewpoints and multiple theories should
be integrated. Hätönen (2008, 43) went on to identify four discipline-based research
streams on outsourcing in general (Table 3). However, in contrast with Hätönen’s
work on software NPD outsourcing in small firms, this thesis deals primarily with
discrete, engineered goods and their design and development. Additionally, this
thesis does not cover the location decision (in-shore or off-shore) and therefore
lacks the explicit international business aspect.
On the other hand, this thesis argues that the role of relationships and relationship
management, specific features of service businesses, and the role social capital plays
in the process have been undervalued by previous research. Therefore, relevant
research streams for this thesis include strategic management, service businesses,
and social capital, including institutions12. In addition, the author argues that research
on external design services can provide insights into the practice and future of NPD
outsourcing. (Table 3)
12As defined by Akerlof (1970) and Holmström (1985); i.e. mechanisms and organizations that
provide clients with more complete information in regard to services purchased.
43
44. Table 3. Primary research streams in outsourcing research, and those used in this
thesis.
Research streams on Primary research
Key theoretical areas used in this
outsourcing streams used in
thesis and an example of sources
(Hätönen, 2008, 43) this thesis
1. Make-or-buy decision making (e.g. de
Boer, 2006)
1. Strategic management
2. Outsourcing core competencies (e.g.
2. Supply chains
1. Strategic Gottfredson et al., 2005)
3. International business
management 3. New product development (e.g. Ulrich and
4. Information systems
Eppinger, 2008)
/technology
4. Modularity (e.g. Baldwin and Clark, 1997)
and design rules (Ulrich and Ellison, 2005)
1. Selection and evaluation of service
providers (e.g. Gallouj, 1997)
2. Service business
2. Design management (e.g. Bruce and
Morris, 1998)
1. Trust/relationship and innovation (e.g. Mu
3. Social capital et al., 2008)
2. Institutions (e.g. Holmström, 1985)
The positioning of the study and its key theoretical areas are introduced graphically
in Figure 2. The primary research streams and theoretical areas used in this thesis
are introduced briefly in the following sections.
44
45. Figure 2. The positioning of the study, key theoretical areas, and research gaps to
be addressed.
45
46. 2.5. Strategic management
According to Hätönen (2008, 44), the literature on strategic management is largely
focused on the resource base, the core competencies and the boundaries of the
firm. Where outsourcing is concerned, the main focus in the literature is the
rationale and incentives behind the actions leading to outsourcing. Strategic
management literature used to see outsourcing as a tool for either trimming the cost
base (transactional outsourcing) or acquiring resources that were insufficient or not
internally available (resource-seeking outsourcing), but as increased competition and
falling interaction costs have caused companies to outsource more critical functions
and processes, the focus in strategic management literature has shifted to the
creation of superior customer value (see, for example, Merholz et al., 2008).
As a strategy, outsourcing is typically used either to outsource only a part of an
integrated function while retaining responsibility for coordinating the function, or as
a ‘turnkey’ or total outsourcing, where the client outsources an entire function to an
external provider (van Weele, 2000, 54-55).13
2.5.1. Make or buy decision-making
In strategic management literature, outsourcing or make-or-buy decision has been
approached from different perspectives such as economics, purchasing, operations
research, accounting and strategic management (Cánez et al., 2000). Despite their
outward differences, most outsourcing decision-making frameworks basically
13
According to Willcocks and Choi (1995), total outsourcing generally refers to a situation in which
more than 80 percent of the function or process is outsourced. In NPD practice, the client
commonly undertakes product concepting and gives the resulting specifications to the total service
provider, who then performs detailed design and engineering for the product.
46
47. consist of a limited number of steps and share common aspects.14 The outsourcing
process itself will be discussed in more detail in Section 3.
The discussion about what actually causes firms to start the outsourcing process,
beyond vague references to trends and market forces, is not present in all of the
studies. Although some studies seem to make the implicit assumption that firms are
always on a lookout for a ‘better deal,’ Cánez et al. (2000; see also de Boer et al.,
2006) note that usually only ‘trigger’ events, such as changes in economic
conditions, cause firms to re-evaluate their policies. Unless such events occur, firms
only rarely start costly search and evaluation processes. Triggers also serve as bases
for performance measures for the success of outsourcing initiative. For instance, if
the trigger is cost reduction, cost saving is logically the key performance measure.
An important addition from de Boer et al. (2006) is that the resulting search includes
both cognitive (i.e. cost analysis and other analytical tools) and experiential (‘trying
before buying’) evaluation, and continues only until the quality and/or quantity of
information exceeds a threshold level, when a tentative solution is determined and
evaluated.
The primary contribution of de Boer et al. (2006) was to take explicitly into account
concepts of bounded rationality and satisficing. Current strategic management theory
recognizes (see e.g. Mintzberg et al., 1998) that most decision processes stop after
first ‘good enough’ solutions are identified (satisficing) and the decision-maker is
expected to work under conditions of bounded rationality, where all the information
is not available, and the decision-maker cannot know whether s/he knows everything.
Bounded rationality also allows for the fact that decision-makers are usually
14
The frameworks reviewed for this study were from Walker (1988), Venkatesan (1992), Welch
and Nayak (1992), Quinn and Hilmer (1994), Apte and Mason (1995), Bruce and Morris (1998),
Lonsdale et al. (1998), Greaver (1998), Vining and Globerman (1999), Sislian and Satir (2000), Fill
and Visser (2000), Cánez et al. (2000), Chiesa et al. (2000), McIvor (2000), Probert et al. (2000),
Milgate (2001), Jennings (2002), Kakabadse and Kakabadse (2002), Momme and Hvolby (2002),
Offodile and Abdel-Malek (2002), Eklund (2004), Kumar and Eickhoff (2005), de Boer et al. (2006),
and Hätönen (2008). For a reader interested in a more detailed description, Appendix B contains
brief summaries of several more prominent frameworks.
47
48. operating under time pressure: even if they had resources to conduct an exhaustive
search, most often they simply do not have time to do so.
However, the most obvious problem with simply re-using existing outsourcing
frameworks in this thesis is that most frameworks have been developed by
researchers using data from manufacturing, logistics, and IT outsourcing.15 The
need to support these functions in the most efficient way, and the resulting arms-
length models, tend to bias the existing outsourcing frameworks towards cost
optimization and leave the purchasing process to hands of lower-level procurement
professionals (Laios and Moschuris, 1999; Barragan et al., 2003).
In a summary, these arms-length, adversarial approaches are still perfectly adequate
for outsourcing less critical or non-core activities, but it is easy to see how they can
lead the organization to eventually use them, unwittingly perhaps, to more strategic
areas such as product development and thus inadvertently ‘hollow out’ the
corporation. Therefore, the typology of three different outsourcing strategies
(transactional, resource-seeking and transformational; see also Section 2) proposed
by Hätönen (2008) is particularly valuable, since it allows practitioners to mentally
separate cost-minimizing outsourcing from more strategic options.
15Notable exceptions to this include Pisano (1990), who examined R&D sourcing decisions in the
biotechnology industry, and Novak and Eppinger (2001) who studied automotive component
sourcing, as well as contributions from e.g. Chiesa et al. (2000), Barragan et al. (2003), and Ulrich
and Ellison (2005), of which only Barragan et al develop a prescriptive framework. In addition,
Hätönen (2008) studied NPD outsourcing in context of Finnish small and medium software
businesses. Design management research should also be mentioned here, as lessons learned from
design consultancies can be extremely valuable in understanding NPD outsourcing (e.g. Bruce and
Morris, 1998). These contributions will be explored in more detail later in this thesis.
48
49. 2.5.2. Outsourcing core competencies
As outsourcing becomes more strategic and inches towards the organization’s core
competencies, outsourcing decisions become more complicated and require input
from a wider base of stakeholders and experts. In NPD settings, outsourcing
decisions require input from technology, design and marketing functions to
distinguish truly strategic and non-strategic activities (Barragan et al., 2003).
Nevertheless, strategic management literature now recognizes that even outsourcing
core competencies may be possible in certain circumstances (e.g. Gilley and
Rasheed, 2000; Gottfredson et al., 2005). In this transformational outsourcing, new
dynamic core competences are needed. Hätönen (2008, 44) refers to these
competences as strategic restructuring competencies (see also Hagel and Singer, 1999; Fine
et al, 2002). These mean competences that give the firm the ability to continuously
restructure its value chain. This issue is often considered in terms of value-chain
management, but it is also closely connected to core competency analysis: the firm
undertaking transformational outsourcing must know which activities actually
increase customer value or capture value from the network and concentrate on
those activities that provide best return for investment.
Outsourcing also requires many firms to develop another ‘new’ core competency in
managing the geographically dispersed network of providers that results from
outsourcing economic activities (Hätönen, 2008, 45; Kakabadse and Kakabadse,
2002). In the context of new product development, these networks of providers can
either supply individual product development tasks, or they can supply the entire
product development process as total outsourcing (van Weele, 2005, 54-55). In
order to define what these tasks are, a brief overview of product development
management is required.
49
50. 2.5.3. New product development
Literature review finds that the coordination of product development activities has
been a subject of much study. Numerous authors have attempted to develop
generalized models of product development process, but most of the resulting
models differ only in details. Predominant product development models focus on
staged task sequencing (Cooper, 2001), the use of project management and cross-
functional teams, and the development of widely shared product concepts early in
the process (Brown and Eisenhardt, 1995).
All of the models reviewed divide the product development process into distinct
phases or stages, with common elements including a problem-definition stage, a
concept-generation stage, preliminary and detailed design, and concept embodiment
(Seidel, 2007). The actual number of stages differs between four and six (Ulrich and
Eppinger, 2008) but include essentially the same activities.
For example, Ulrich and Eppinger’s generic product development process (Ulrich &
Eppinger, 2008, 14) consists of six phases: 1) planning, 2) concept development, 3)
system-level design, 4) detail design, 5) testing and refinement, and 6) production
ramp-up. Each of these phases includes different responsibilities for organization’s
key functions – marketing, design, manufacturing and other functions, which have a
different technological profile, involve different risks and costs and therefore have
unique risk/reward balances if outsourced (Love and Roper, 2005).
A recurring question in product development literature is whether the product
development should be integrated (so-called concurrent or integrated product
development, e.g. Cagan and Vogel, 2001; Ulrich and Eppinger, 2008) or
disaggregated to separate tasks. Concurrent product development became a
buzzword during the 1990s, when it was seen as a way to faster time-to-market
cycles and better product quality. Today, cross-functional, integrated product
development is widely seen as a virtual requirement for innovative new products
50
51. (see e.g. Brown, 2008). But this raises a question: if product development needs to be
integrated, either as a process, or with e.g. manufacturing, can it be outsourced at all?
2.5.4. Modularity and design rules
Much of the existing literature tend to address the decision to outsource a single
activity in isolation, instead of considering interactions between two or more
sourcing decisions. In case of NPD outsourcing, this gives a relatively limited view
since, for example, decisions to outsource research or concept design may very well
have implications to detailed design and manufacturing decisions.
How these interactions and interdependences affect the organization is a subject of
much research in modularity (e.g. Ulrich, 1995; Baldwin and Clark, 1997, 2000;
Schilling, 2000; Brusoni and Prencipe, 2001; Fine et al., 2002; Langlois, 2002).
Modularity reflects the degree to which the products and their production processes
are decomposed into smaller subsystems and activities, which may be designed and
managed independently yet function as a whole (Baldwin and Clark, 2000; Brusoni
and Prencipe, 2001; Mikkola, 2006; Hätönen, 2008).
Originally, modularity research arose from product design strategy research as
product modularity (Ulrich, 1995; Baldwin and Clark, 1997). Product modularity refers
to products where interdependencies between different parts and subsystems or
modules are kept to a minimum and where these modules communicate and interact
with each other through standardized interfaces and specifications. The idea is to
decrease the complexity of the system by decomposing its complex tasks into
simpler independent tasks or units that communicate with each other through
standards without compromising the overall performance (Mikkola, 2006).
However, in practice modularity can be at odds with performance, because
51