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References

Published online by Cambridge University Press:  14 January 2010

Victor Fey  and
Eugene Rivin
Victor Fey
Affiliation:
Wayne State University
Eugene Rivin
Affiliation:
Wayne State University
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Type
Chapter
Information
Innovation on Demand
New Product Development Using TRIZ
 , pp. 237 - 239
Publisher: Cambridge University Press
Print publication year: 2005

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References

Altshuller, G. S. (1963). How to solve scientific problems, preprint, Baku (in Russian)
Altshuller, G. S. (1984). To Find an Idea. Novosibirsk: Nauka, p. 69 (in Russian)
Altshuller, G. S. (1988a). Small unbounded worlds. In: A Thread in the Labyrinth. Petrozavodsk: Karelia, pp. 165–230 (in Russian)Google Scholar
Altshuller, G. S. (1988b). Creativity as an Exact Science. New York: Gordon and BreachGoogle Scholar
Altshuller, G. S. (1994). And Suddenly the Inventor Appeared. Worcester, MA: Technical Innovation CenterGoogle Scholar
Altshuller, G. S. (1997). 40 Principles: TRIZ Keys to Technical Innovation. Worcester, MA: Technical Innovation CenterGoogle Scholar
Altshuller, G. S. (1999). The Innovation Algorithm.Worcester, MA: The Altshuller Institute for TRIZ StudiesGoogle Scholar
Altshuller, G. S., Shapiro, R. B. (1956). On the psychology of engineering creativity. Problems of Psychology, 6 37–49 (in Russian)Google Scholar
Altshuller, G. S., Vertkin, I. M. (1994). How to Become a Genius: The Life Strategy of a Creative Person. Minsk: Belarus (in Russian)Google Scholar
Altshuller, G., Gadzhiev, Ch., Flikshtein, I. (1973). Introduction to Sufield Analysis.Baku, USSR: The Public Laboratory for the Theory of Invention (in Russian)Google Scholar
Astashev, V. K., Babitsky, V. I. (1998). Ultrasonic cutting as a nonlinear (vibro-impact) process. Ultrasonics, 36, 89–96CrossRefGoogle Scholar
Banks, H. T., Smith, R. C., Wang, Y. (1996). Smart Material Structures: Modeling, Estimation and Control. New York: John Wiley & SonsGoogle Scholar
Bassala, G. (1988). The Evolution of Technology. Cambridge: Cambridge University PressGoogle Scholar
Brown, S., Rose, J. (1996). FPGA and CPLD architecture: a tutorial. IEEE Design and Test of Computers, Summer 1996, 42–57CrossRef
Cole, W. (2002). Let's twist again! Technology that enables wing ‘warping’ rolled out at Dryden. Boeing Frontiers Online, Volume 1, Issue 1, May 2002, http://www.boeing.com/news/frontiers/archive/2002/mayGoogle Scholar
Cusumano, M. A., Markides, C. C. (eds.) (2001). Strategic Thinking for the Next Economy. Boston: Jossey-Bass, p. 159Google Scholar
Davis, T., Sasser, M. (1995). Postponing product differentiation. Mechanical Engineering, No. 11, pp. 105–107Google Scholar
Drexler, K. E. (1992). Nanosystems: Molecular Machinery, Manufacturing, and Computation. New York: John Wiley & SonsGoogle Scholar
Edwards, B., Cox, C. (2002). Revolutionary concepts for helicopter noise reduction – S.I.L.E.N.T. Program, in NASA/CR-2002-211650, May 2002Google Scholar
Fey, V. R. (1988). Chronokinematics of Technological Systems. Baku, USSR: The Laboratory for the Theory of InventionGoogle Scholar
Fey, V., Bodine, N., Rivin, E. (2001). A strategy for effective technology investment. http://trizgroup.com/publications/articles/strategy.pdf
Feynman, R. P. (1959). There's plenty of room at the bottom: an invitation to enter a new field of physics. http://www.zyvex.com/nanotech/feynman.html
Field, F. R., Clark, J. P. (1997). A practical road to lightweight cars, MIT Technology Review, SeptemberGoogle Scholar
Filkovsky, G. L. (1974). A Scientific Theory as a Machine, preprint, Baku (in Russian)Google Scholar
Forbes, S. (1997). Fact and comment: plane to see. Forbes Magazine, March 10Google Scholar
Glasmeier, A. (1997). Technological discontinuities and flexible production networks: the case of Switzerland and the world watch industry. In: Managing Strategic Innovation and Change. Oxford: Oxford University Press, pp. 32–33Google Scholar
Jain, V. K. (2002). Advanced fine finishing processes. http://www.geocities.com/aimtdr20th/keynote/jain.PDF
Kada, M., Smith, L. (2000). Advancements in stacked chip scale packaging (S-CSP) provide system-in-a-package functionality for wireless and handheld applications. In: Proceedings of Pan Pacific Microelectronics Symposium ConferenceGoogle Scholar
Leifer, R., McDermott, C. M., O'Connor, G. C.et al. (2000). Radical Innovation: How Mature Companies Can Outsmart Upstarts. Boston: Harvard Business School PressGoogle Scholar
Lown, B. (1996), The Lost Art of Healing. Boston-N.Y.: Houghton Miffin CoGoogle Scholar
Lynn, G. S., Morone, J. G., Paulson, A. S. (1997). Marketing and discontinuous innovation: the probe and learn process. In: Managing Strategic Innovation and Change. New York: Oxford University Press, p. 357Google Scholar
Malinovsky, G. T. (1988). Oil-based Coolants. Moscow, Russia: Chemistry (in Russian).Google Scholar
Mann, D. (2002). Hands-on Systematic Innovation. Belgium: CREAX Press Leper.Google Scholar
McGrath, C., McCormick, D. (2002). The Ultimate Golf Book: A History and a Celebration of the World's Greatest Game. New York: Houghton Mifflin CompanyGoogle Scholar
McGraw, D. (1996). Staying loose in a tense tech market. U.S. News and World Report, July 8, p. 46Google Scholar
McNeil, B. (2002). Manual windshield wiper conversion and repair. http://www.film.queensu.ca/CJ3B/Tech/WiperManual.htmlGoogle Scholar
Merkle, R. C. (1997). It's a small, small, small world. MIT Technology Review, February/March, pp. 25–32Google Scholar
Moisan, M., Shivarova, A., Trivelpiece, A. W. (1982). Experimental investigations of the propagation of surface waves along a plasma column. Plasma Physics, 24, No. 11, 1331–1400.CrossRefGoogle Scholar
Nolas, G. S., Sharp, J., Goldsmid, H. J. (2001). Thermoelectrics: Basic Principles and New Materials Developments. New York: Springer-VerlagCrossRefGoogle Scholar
Papazian, J. (2002). Tools of change. http://www.memagazine.org/backissues/feb02/features/toolsof/toolsod.htmlGoogle Scholar
Penzias, A. A. (1997). The next fifty years: some likely impacts of solid-state technology. Bell Labs Technical Journal, Autumn, p. 156Google Scholar
Rantanen, K., Domb, E. (2002). Simplified TRIZ: New Problem-Solving Applications for Engineers and Manufacturing Professionals. Boca Raton, FL: St. Lucie PressCrossRefGoogle Scholar
Raskin, A. (2003). A higher plane of problem solving. Business, 2.0, June, pp. 54–57Google Scholar
Rediniotis, O. I., Wilson, L. N., Lagoudas, D. C., Khan, M. M. (2002). Development of a shape-memory-alloy actuated biomimetic hydrofoil. Journal of Intelligent Material Systems and Structures, 13 (January), 35–49CrossRefGoogle Scholar
Rivin, E. I. (1998). Mechanical Design of Robots, New York: McGraw-Hill.Google Scholar
Rivin, E. I. (1999). Stiffness and Damping in Mechanical Design. New York: Marcel Dekker, pp. 52– 86.CrossRefGoogle Scholar
Talanquer, V. (2002). Nucleation in gas–liquid transitions. Journal of Chemical Education, 79, No. 7, 877–83CrossRefGoogle Scholar
Tate, K., Domb, E. (1997). 40 Inventive Principles with Examples. http://www.triz-journal.com/archives/1997/07/b/index.htmlGoogle Scholar
Taylor, M. B., Kim, J., Miller, J.et al. (2002). The raw microprocessor: a computational fabric for software circuits and general purpose programs. IEEE Micro, Mar–April, pp. 25–35CrossRefGoogle Scholar
Travers, B. (ed.) (1995). World of Invention. Farmington Hills, MI: Gale, p. 635Google Scholar
Tsugawa, S. (2000). An introduction to Demo 2000: the cooperative driving scenario. IEEE Intelligent Systems, 15, No. 4, 78–9Google Scholar
Vertkin, I. M. (1984). Mechanisms of Convolution of Technological Systems. Baku, USSR: The Public Laboratory for the Theory of Invention (in Russian).Google Scholar
Volti, R. (1996). A century of automobility. Technology and Culture, 37, No. 4, 663–85CrossRefGoogle Scholar
Walczyk, D. F., Hardt, D. E. (1998). Design and analysis of reconfigurable discrete dies for sheet metal forming. SME Journal of Manufacturing Systems, 17, No. 6, 436–454.CrossRefGoogle Scholar
Wlezien, R. W., Horner, G. C., McGowan, A. R.et al. (1998). The aircraft morphing program. In: Proceedings of the SPIE Smart Structures and Materials Symposium, Industrial and Commercial Applications Conference, Vol. 3326, paper 3326–20Google Scholar
Altshuller, G. S. (1963). How to solve scientific problems, preprint, Baku (in Russian)
Altshuller, G. S. (1984). To Find an Idea. Novosibirsk: Nauka, p. 69 (in Russian)
Altshuller, G. S. (1988a). Small unbounded worlds. In: A Thread in the Labyrinth. Petrozavodsk: Karelia, pp. 165–230 (in Russian)Google Scholar
Altshuller, G. S. (1988b). Creativity as an Exact Science. New York: Gordon and BreachGoogle Scholar
Altshuller, G. S. (1994). And Suddenly the Inventor Appeared. Worcester, MA: Technical Innovation CenterGoogle Scholar
Altshuller, G. S. (1997). 40 Principles: TRIZ Keys to Technical Innovation. Worcester, MA: Technical Innovation CenterGoogle Scholar
Altshuller, G. S. (1999). The Innovation Algorithm.Worcester, MA: The Altshuller Institute for TRIZ StudiesGoogle Scholar
Altshuller, G. S., Shapiro, R. B. (1956). On the psychology of engineering creativity. Problems of Psychology, 6 37–49 (in Russian)Google Scholar
Altshuller, G. S., Vertkin, I. M. (1994). How to Become a Genius: The Life Strategy of a Creative Person. Minsk: Belarus (in Russian)Google Scholar
Altshuller, G., Gadzhiev, Ch., Flikshtein, I. (1973). Introduction to Sufield Analysis.Baku, USSR: The Public Laboratory for the Theory of Invention (in Russian)Google Scholar
Astashev, V. K., Babitsky, V. I. (1998). Ultrasonic cutting as a nonlinear (vibro-impact) process. Ultrasonics, 36, 89–96CrossRefGoogle Scholar
Banks, H. T., Smith, R. C., Wang, Y. (1996). Smart Material Structures: Modeling, Estimation and Control. New York: John Wiley & SonsGoogle Scholar
Bassala, G. (1988). The Evolution of Technology. Cambridge: Cambridge University PressGoogle Scholar
Brown, S., Rose, J. (1996). FPGA and CPLD architecture: a tutorial. IEEE Design and Test of Computers, Summer 1996, 42–57CrossRef
Cole, W. (2002). Let's twist again! Technology that enables wing ‘warping’ rolled out at Dryden. Boeing Frontiers Online, Volume 1, Issue 1, May 2002, http://www.boeing.com/news/frontiers/archive/2002/mayGoogle Scholar
Cusumano, M. A., Markides, C. C. (eds.) (2001). Strategic Thinking for the Next Economy. Boston: Jossey-Bass, p. 159Google Scholar
Davis, T., Sasser, M. (1995). Postponing product differentiation. Mechanical Engineering, No. 11, pp. 105–107Google Scholar
Drexler, K. E. (1992). Nanosystems: Molecular Machinery, Manufacturing, and Computation. New York: John Wiley & SonsGoogle Scholar
Edwards, B., Cox, C. (2002). Revolutionary concepts for helicopter noise reduction – S.I.L.E.N.T. Program, in NASA/CR-2002-211650, May 2002Google Scholar
Fey, V. R. (1988). Chronokinematics of Technological Systems. Baku, USSR: The Laboratory for the Theory of InventionGoogle Scholar
Fey, V., Bodine, N., Rivin, E. (2001). A strategy for effective technology investment. http://trizgroup.com/publications/articles/strategy.pdf
Feynman, R. P. (1959). There's plenty of room at the bottom: an invitation to enter a new field of physics. http://www.zyvex.com/nanotech/feynman.html
Field, F. R., Clark, J. P. (1997). A practical road to lightweight cars, MIT Technology Review, SeptemberGoogle Scholar
Filkovsky, G. L. (1974). A Scientific Theory as a Machine, preprint, Baku (in Russian)Google Scholar
Forbes, S. (1997). Fact and comment: plane to see. Forbes Magazine, March 10Google Scholar
Glasmeier, A. (1997). Technological discontinuities and flexible production networks: the case of Switzerland and the world watch industry. In: Managing Strategic Innovation and Change. Oxford: Oxford University Press, pp. 32–33Google Scholar
Jain, V. K. (2002). Advanced fine finishing processes. http://www.geocities.com/aimtdr20th/keynote/jain.PDF
Kada, M., Smith, L. (2000). Advancements in stacked chip scale packaging (S-CSP) provide system-in-a-package functionality for wireless and handheld applications. In: Proceedings of Pan Pacific Microelectronics Symposium ConferenceGoogle Scholar
Leifer, R., McDermott, C. M., O'Connor, G. C.et al. (2000). Radical Innovation: How Mature Companies Can Outsmart Upstarts. Boston: Harvard Business School PressGoogle Scholar
Lown, B. (1996), The Lost Art of Healing. Boston-N.Y.: Houghton Miffin CoGoogle Scholar
Lynn, G. S., Morone, J. G., Paulson, A. S. (1997). Marketing and discontinuous innovation: the probe and learn process. In: Managing Strategic Innovation and Change. New York: Oxford University Press, p. 357Google Scholar
Malinovsky, G. T. (1988). Oil-based Coolants. Moscow, Russia: Chemistry (in Russian).Google Scholar
Mann, D. (2002). Hands-on Systematic Innovation. Belgium: CREAX Press Leper.Google Scholar
McGrath, C., McCormick, D. (2002). The Ultimate Golf Book: A History and a Celebration of the World's Greatest Game. New York: Houghton Mifflin CompanyGoogle Scholar
McGraw, D. (1996). Staying loose in a tense tech market. U.S. News and World Report, July 8, p. 46Google Scholar
McNeil, B. (2002). Manual windshield wiper conversion and repair. http://www.film.queensu.ca/CJ3B/Tech/WiperManual.htmlGoogle Scholar
Merkle, R. C. (1997). It's a small, small, small world. MIT Technology Review, February/March, pp. 25–32Google Scholar
Moisan, M., Shivarova, A., Trivelpiece, A. W. (1982). Experimental investigations of the propagation of surface waves along a plasma column. Plasma Physics, 24, No. 11, 1331–1400.CrossRefGoogle Scholar
Nolas, G. S., Sharp, J., Goldsmid, H. J. (2001). Thermoelectrics: Basic Principles and New Materials Developments. New York: Springer-VerlagCrossRefGoogle Scholar
Papazian, J. (2002). Tools of change. http://www.memagazine.org/backissues/feb02/features/toolsof/toolsod.htmlGoogle Scholar
Penzias, A. A. (1997). The next fifty years: some likely impacts of solid-state technology. Bell Labs Technical Journal, Autumn, p. 156Google Scholar
Rantanen, K., Domb, E. (2002). Simplified TRIZ: New Problem-Solving Applications for Engineers and Manufacturing Professionals. Boca Raton, FL: St. Lucie PressCrossRefGoogle Scholar
Raskin, A. (2003). A higher plane of problem solving. Business, 2.0, June, pp. 54–57Google Scholar
Rediniotis, O. I., Wilson, L. N., Lagoudas, D. C., Khan, M. M. (2002). Development of a shape-memory-alloy actuated biomimetic hydrofoil. Journal of Intelligent Material Systems and Structures, 13 (January), 35–49CrossRefGoogle Scholar
Rivin, E. I. (1998). Mechanical Design of Robots, New York: McGraw-Hill.Google Scholar
Rivin, E. I. (1999). Stiffness and Damping in Mechanical Design. New York: Marcel Dekker, pp. 52– 86.CrossRefGoogle Scholar
Talanquer, V. (2002). Nucleation in gas–liquid transitions. Journal of Chemical Education, 79, No. 7, 877–83CrossRefGoogle Scholar
Tate, K., Domb, E. (1997). 40 Inventive Principles with Examples. http://www.triz-journal.com/archives/1997/07/b/index.htmlGoogle Scholar
Taylor, M. B., Kim, J., Miller, J.et al. (2002). The raw microprocessor: a computational fabric for software circuits and general purpose programs. IEEE Micro, Mar–April, pp. 25–35CrossRefGoogle Scholar
Travers, B. (ed.) (1995). World of Invention. Farmington Hills, MI: Gale, p. 635Google Scholar
Tsugawa, S. (2000). An introduction to Demo 2000: the cooperative driving scenario. IEEE Intelligent Systems, 15, No. 4, 78–9Google Scholar
Vertkin, I. M. (1984). Mechanisms of Convolution of Technological Systems. Baku, USSR: The Public Laboratory for the Theory of Invention (in Russian).Google Scholar
Volti, R. (1996). A century of automobility. Technology and Culture, 37, No. 4, 663–85CrossRefGoogle Scholar
Walczyk, D. F., Hardt, D. E. (1998). Design and analysis of reconfigurable discrete dies for sheet metal forming. SME Journal of Manufacturing Systems, 17, No. 6, 436–454.CrossRefGoogle Scholar
Wlezien, R. W., Horner, G. C., McGowan, A. R.et al. (1998). The aircraft morphing program. In: Proceedings of the SPIE Smart Structures and Materials Symposium, Industrial and Commercial Applications Conference, Vol. 3326, paper 3326–20Google Scholar

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  • References
  • Victor Fey, Wayne State University, Eugene Rivin, Wayne State University
  • Book: Innovation on Demand
  • Online publication: 14 January 2010
  • Chapter DOI: https://doi.org/10.1017/CBO9780511584237.013
Available formats
×

Save book to Dropbox

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Dropbox.

  • References
  • Victor Fey, Wayne State University, Eugene Rivin, Wayne State University
  • Book: Innovation on Demand
  • Online publication: 14 January 2010
  • Chapter DOI: https://doi.org/10.1017/CBO9780511584237.013
Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

  • References
  • Victor Fey, Wayne State University, Eugene Rivin, Wayne State University
  • Book: Innovation on Demand
  • Online publication: 14 January 2010
  • Chapter DOI: https://doi.org/10.1017/CBO9780511584237.013
Available formats
×