Tech Mining

Inhaltsverzeichnis

List of Figures.
Preface.

Acknowledgments.

Acronyms & Shorthands-Glossary.

PART I. UNDERSTAND TECH MINING.

Chapter 1. Technological Innovation and the Need for Tech Mining.

1.1 Why Innovation is Significant.

1.2 Innovation Processes.

1.3 Innovation Institutions and Their Interests.

1.4 Innovators and Their Interests.

1.5 Technological Innovation in an Information Age.

1.6 Information About Emerging Technologies.

Chapter 1 Take-Home Messages.

Chapter Resources.

Chapter 2. How Tech Mining Works.

2.1 What is Tech Mining?

2.2 Why Do Tech Mining?

2.3 What Is Tech Mining's Ancestry?

2.4 How to Conduct the Tech Mining Process?

2.5 Who Does Tech Mining?

2.6 Where Is Tech Mining Most Needed?

Chapter 2 Take-Home Messages.

Chapter Resources.

Chapter 3. What Tech Mining Can Do for You.

3.1 Tech Mining Basics.

3.2 Tech Mining Analyses.

3.3 Putting Tech Mining Information to Good Use.

3.4 Managing and Measuring Tech Mining.

Chapter 3 Take-Home Messages.

Chapter 4. Example Results: Fuel Cells Tech Mining.

4.1 Overview of Fuel Cells.

4.2 Tech Mining Analyses.

4.3 Tech Mining Results.

4.4 Tech Mining Information Processes.

4.5 Tech Mining Information Products.

Chapter 4 Take-Home Messages.

Chapter Resources.

Chapter 5. What to Watch For in Tech Mining.

5.1 Better Basics.

5.2 Research Profiling and Other Perspectives on the Data.

5.3 More Informative Products.

5.4 Knowledge Discovery.

5.5 Knowledge Management.

5.6 New Tech Mining Markets.

5.7 Dangers.

Chapter 5 Take-Home Messages.

Chapter Resources.

PART II. DOING TECH MINING.

Chapter 6. Finding the Right Sources.

6.1 R&D Activity.

6.2 R&D Output Databases.

6.3 Determining the Best Sources.

6.4 Arranging Access to Databases.

Chapter 6 Take-Home Messages.

Chapter Resources.

Chapter 7. Forming the Right Query.

7.1 An Iterative Process.

7.2 Queries Based on Substantive Terms.

7.3 Nominal Queries.

7.4 Tactics and Strategies for Query Design.

7.5 Changing the Query.

Chapter 7 Take-Home Messages.

Chapter 8. Getting the Data.

8.1 Accessing Databases.

8.2 Search and Retrieval from a Database.

8.3 What to Do, and Not to Do.

Chapter 8 Take-Home Messages.

Chapter 9. Basic Analyses.

9.1 In the Beginning.

9.2 What You Can Do with the Data.

9.3 Relations Among Documents and Terms Occurring in Their Information Fields.

9.4 Relationships.

9.5 Helpful Basic Analyses.

Chapter 9 Take-Home Messages.

Chapter 10. Advanced Analyses.

10.1 Why Perform Advanced Analyses?

10.2 Data Representation.

10.3 Analytical Families.

Chapter 10 Take-Home Messages.

Chapter Resources.

Chapter 11. Trend Analyses.

11.1 Perspective.

11.2 An Example Time Series Description and Forecast.

11.3 Multiple Forecasts.

11.4 Research Fronts.

11.5 Novelty.

Chapter 11 Take-Home Messages.

Chapter Resources.

Chapter 12. Patent Analyses.

12.1 Why patent Analyses?

12.2 Getting Started.

12.3 The 'What' and 'Why' of patent Analysis.

12.4 Tech Mining Patent Analysis Case Illustration: Fuel Cells.

12.5 Patent Citation Analysis.

12.6 For Whom?

12.7 TRIZ.

12.8 Reflections.

Chapter 12 Take-Home Messages.

Chapter Resources.

Chapter 13. Generating and Presenting Innovation Indicators.

13.1 Expert Opinion in Tech Mining.

13.2 Innovation Indicators.

13.3 Information Representation and Packaging.

13.4 Examples of Putting Tech Mining Information Representation to Use.

13.5 Summing Up.

Chapter Resources.

Chapter 14. Managing the Tech Mining Process.

14.1 Tough Challenges.

14.2 Tech Mining Communities.

14.3 Process Management.

14.4 Enhancing the Prospects of Tech Mining Utilization.

14.5 Institutionalizing the Tech Mining Function.

14.6 The Learning Curve.

Chapter 14 Take-Home Messages.

Chapter 15. Measuring Tech Mining Results.

1

Portrait

ALAN L. PORTER's major concentration is technology intelligence, forecasting, and assessment. He has led the development of "technology opportunity analysis"-mining electronic bibliographic data sources to generate intelligence on emerging technologies. He holds a BS in chemical engineering from the California Institute of Technology, and a PhD in engineering psychology from UCLA. He is currently Director, Research & Development, for Search Technology, Inc., in Norcross, Georgia. SCOTT W. CUNNINGHAM worked for the Technology Policy & Assessment Center at the Georgia Institute of Technology. He has worked in industry as a data mining and machine learning consultant, working chiefly in the e-commerce and retail industries. He holds a BEng in engineering science and mechanics from Georgia Tech and a DPhil in science, technology, and innovation policy from the University of Sussex, UK. He currently serves as an assistant professor on the Technology, Policy, and Management faculty of TU Delft.

Pressestimmen

"...useful to a variety of institutions, programs, and people." ( E-STREAMS , August 2005)
"Two data mining practitioners explain how to use the available software tools...to quickly access the technological information needed to gain competitive advantage." ( Research Technology Management , May-June 2005)