Innovation rate of change measurement part 1: Information Technology (IT)

Vega-González, L. R.

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Journal of applied research and technology

versión On-line ISSN 2448-6736versión impresa ISSN 1665-6423

J. appl. res. technol vol.3 no.3 Ciudad de México dic. 2005

Innovation rate of change measurement part 1: Information Technology (IT)

L. R. Vega-González

Centro de Ciencias Aplicadas y Desarrollo Tecnológico (CCADET), UNAM Circuito Exterior S/N, Ciudad Universitaria, México, D.F., CP. 04510, 52-56228602 ext.1135, Fax 56228626 lrvg@servidor.unam.mx

Received: September 10^th 2004.
Aprobado: October 27^th 2005.

Abstract

It is possible to characterize the different stages of history according the type of technology available. The last fifty years of human history have been referred to as "The Information Age" because of the great advancements and innovations of technology in electronics, computers and communications. The first part of this work presents a method based on the generation and exploitation of a database for the measurement of information technology gradients. The lack of the innovative data in earlier historic times is compensated by the consideration of the transport technologies as IT. The obtained result is a clear exponential growth curve. If the IT is driver of the global change, the notorious changes in the resulting graph can be related to the appearance of the Kondrattief cycles or "K" waves. Modelski [48] pointed out that the evolution of economic processes is closely related to the rate of growth in technological learning. According to the obtained results, the expected rate of change for IT innovation during the first two decades of the XXI Century will surely surpass the rate of change of technological learning. This will probably generate a non-sustainable system unless a change in the human consciousness occurs. Apparently, the sustainable evolution of the world system will depend on the appropriate technological selections, provoking the adjustment of innovation gradients to the rates of technological learning within the next generational cycles.

Keywords: Technology Rate of Change, Information Technologies, "K" Waves.

Resumen

Es posible caracterizar las diferentes etapas de la historia de acuerdo con el tipo de tecnología disponible. Los últimos cincuenta años de la historia humana han sido referidos como "la era de la información", debido a los grandes avances e innovaciones en las tecnologías de la electrónica, las computadoras y las comunicaciones. La primera parte de este trabajo presenta un método basado en la generación y explotación de una base de datos para la medición de los gradientes de las tecnologías de la información (TI's).

La falta de datos sobre las innovaciones en tecnologías de la información en épocas tempranas de la historia humana se compensa cuando consideramos las tecnologías de transporte como TI's. El resultado obtenido es una clara curva exponencial. Si las TI's son impulsoras del cambio global, los notorios cambios en la gráfica pueden relacionarse con la aparición de los ciclos de Kondratieff u ondas "K". Modelski [39] señaló que la evolución de los procesos económicos esta muy relacionada con la tasa de cambio del aprendizaje tecnológico. De acuerdo con los resultados obtenidos, la tasa de cambio esperada para la innovación de las TI 's durante las dos primeras décadas del siglo XXI, seguramente sobrepasará la tasa de cambio del aprendizaje tecnológico. Esto, probablemente, generará un sistema no sostenible a menos que ocurra un cambio en la conciencia humana. Aparentemente la evolución sostenible del sistema mundial dependerá de la selección de las tecnologías apropiadas, lo que provocará el ajuste de los gradientes de innovación a las tasas de aprendizaje tecnológico dentro de los siguientes ciclos generacionales.

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References

[1] Abernathy, W. J., Clarck, K. B., Kantrow, A.M., (1983), Industrial Renaissance, Producing a Competitive Future for America, Basic Books, New York, EUA. [ Links ]

[2] Ayres R., OR; Technological Transformations and Long Waves. Part I, Technological Forecasting Social and Change. Vol. 37, pp. 1-37. Elsevier Publishing Co. (1990). [ Links ]

[3] Ayres R., OR, (1990), Technological Transformations and Long Waves. Part II, Technological Forecasting Social and Change, Vol. 36, pp. 111-137, Elsevier Publishing Co. [ Links ]

[4] Basalla G; (1991), The Evolution of Technology, Mexico: Editorial Grijalvo. [ Links ]

[5] Boar, B.H., (1994), Practical Steps for Aligning Information Technology with Business Strategies, John Wiley & Sons. [ Links ]

[6] Borst Cornellius, (2000), Operating on to Beating Heart, Scientific American, Vol. 283; No.4, pp 46. [ Links ]

[7] Chakrabarti A.K., (1988), Trends in innovation and productivity: The case of chemical and textile industries in the US R & D Management; Vol. 18 No. 2. [ Links ]

[8] Chakrabarti A. K; (1989), Technology Indicators: conceptual issues and Measurement problems, Journal of Engineering and Technology Management, Vol. 6, pp. 99-116; Elsevier Science Publishers. [ Links ]

[9] Coates F. J., (1998), Business and Privacy in the Early 21st Century, Technological Forecasting Social and Change, Vol. 58, pp. 167-174, Elsevier Science Inc. [ Links ]

[10] Cawson A., (1996), Innovation and Consumer Electronics; in: The handbook of industrial innovation, Dodgson Mark, Rothwell R., Editors; Edward Elgar Publishing Ltd, Uk, pp. 145-153. [ Links ]

[11] Concheiro A., (1975), "A Brief History of Automatic Control", Engineering Institute Series, UNAM, México. [ Links ]

[12] Dator J., (1999), From Tsunamis to Long Waves and Back, Futures, Vol. 31, pp. 123/133, Elsevier, Pergamon. [ Links ]

[13] Derry T. K., Williams T., (1977), History of Technology from te Antiquity up to 1750, Ed. Siglo XXI, 19^a Edition, México. [ Links ]

[14] Derry T. K., Williams T., (1977), History of Technology from 1750 up to 1900, No. I, Ed. Siglo XXI, 18a Edition, México. [ Links ]

[15] Derry T. K., Williams T., (1977), History of Technology from 1750 up to 1900, No.II, Ed. Siglo XXI, 13a Edition, México. [ Links ]

[16] Devezas T., (2001), Future Scenario: Fifth Kondratieff, http://www.demnet.ubi.pt/~tessalen/scenario.htm [ Links ]

[17] Electronic World, Supercapacitors, November 2000, pp. 842-845. [ Links ]

[18] Gomulka Stanislaw, (1990), The theory of technological change and economic growth, Routledge, London, New York. [ Links ]

[19] Grim B., (1975), The Timetables of History, Touchstone Books, Simon & Schuster. [ Links ]

[20] Grossman W., (2000), Bits of Radio, Scientific American, December. [ Links ]

[21] Hadjilambrinos C., (1998), Technological regimes: an analytical framework for the evaluation of technological systems, Technology in Society, Vol. 20, pp.179-194; Elsevier Science Ltd. [ Links ]

[22] Halal W. E., Kull M. D., Leffmann A., (1998), The George Washington University Forecast of Emerging Technologies: To Continuous Assessment of Technological Revolution, Technological Forecasting & Social Change, Vol. 59, pp. 89-110, Elsevier Science Inc. [ Links ]

[23] Heinonen S., Jokinen P., Kaivo-oja J., (2001), The Ecological Transparency of Information Society, Futures, Vol. 33, pp. 319-337, Elsevier Science, Pergamon. [ Links ]

[24] Hobday M., (1996), Innovation in Semiconductor Technology: the limits of the Silicon Valley Network Model; in The handbook of industrial innovation, Dodgson Mark, Rothwell Roy, Editors; Edward Elgar Publishing Ltd, UK, pp. 154-168. [ Links ]

[25] http://www.fht-esslingen-de/telehistory/define.html

[26] http://www.fht-esslingen-de/telehistory/1840.html

[27] http://www.fht-esslingen-de/telehistory/1850.html

[28] http://www.fht-esslingen-de/telehistory/1870.html

[29] http://www.fht-esslingen-de/telehistory/tv35-60.html

[30] http://www.fht-esslingen-de/telehistory/transi30.html

[31] http://www.fht-esslingen-de/telehistory/sputnik.html

[32] http://www.fht-esslingen-de/telehistory/radio30.html

[33] http://www.fht-esslingen-de/telehistory/microwave.html

[34] http://www.fht-esslingen-de/telehistory/future.html

[35] http://www.hartcourtcol.hottopic/genechips/html

[36] http://www.uspto.gov/patft/helpdb.htm

[37] Institute of Electrical & Electronics Engineers, IEEE, Spectrum, Special Report, July 1999. [ Links ]

[38] Institute of Electrical & Electronic Engineers, IEEE, (2001), News Briefs Computer: Innovative Technology for Computer Professionals, November 21-24. [ Links ]

[39] Infosystems,(1977),The Future for Facsimile, Monthly Report, Vol. 24 No. 75. [ Links ]

[40] James P., Thorpe N., (1994), Ancient Inventions, Ballantine Books, New York, USA. [ Links ]

[41] Jegalian K., (1999), The Gene Factory, Technology Review, March-April, pp. 64. [ Links ]

[42] Khaney L, (2000), "The Wireless Web", Scientific American, Vol. 283 No.4. pp. 28. [ Links ]

[43] Laszlo E., (2001), Human Evolution in the Third Milennium, Futures, Vol. 33, pp. 649/658, Elsevier, Pergamon. [ Links ]

[44] Lissoni F., Metcalfe J.S., (1996), Diffusion of innovation Ancient and Modern: a review of the main themes; in The handbook of industrial innovation, Dodgson Mark, Rothwell Roy, Editors; Edward Elgar Publishing Ltd, Uk, pp. 106-144. [ Links ]

[45] Mansell R., (1996), Innovation in Telecommunication: Bridging the Supplier-User Interface, in The handbook of industrial innovation, Dodgson Mark, Rothwell Roy, Editors; Edward Elgar Publishing Ltd, Uk, pp. 232-253. [ Links ]

[46] Mallman C., Lemarchand G. A., (1998), Generational Explanation of Long Term Billow Like Dynamics of Societal Processes, Technology Forecasting Social and Change, Vol. 59, pp. 1-30, Elsevier Science Inc. [ Links ]

[47] Mensch G., (1974), Institutional barriers to the science and technology interactions, in H.F. Davidson et. al. (eds). Technology Transfer, Leiden: Nordhoff, p.215. [ Links ]

[48] Modelski G., (2001), What causes K - waves?, Technological Forecasting & Social Change, Vol. 68 pp 75-80. Elsevier Science Inc. [ Links ]

[49] Modelski G. & Thompson W., (1996), Leading Sectors and World Powers: The Co Evolution of Global Economics & Politics, Columbia: University of South Carolina Press. [ Links ]

[50] Modis T., (1998), Limits to Cycles and Harmony in Revolutions, Technological Forecasting & Social Change, Vol. 59 pp 33-38. Elsevier Science Inc. [ Links ]

[51] Nebbia G., (2001), Twenty Twenty-Five, Futures, Vol. 33 pp. 43-54, Elsevier Science Inc. [ Links ]

[52] Pohlmann Markus, (2005), The Evolution of Innovation: Cultural Backgrounds and the use of innovation models, Technology Analysis & Strategic Management, Vol. 17, No. I, pp. 9-19. [ Links ]

[53] Prahalad; C. K., (1998), Managing Discontinuities, the Emerging Challenges, Research and Technology Management, pp. 14-22. [ Links ]

[54] Pereira Da Silva F., (2001), Internet Protocol (IP) over Wavelength Division Multiplexer (WDM), http://www.gta.ufrj.br/~fagundes/IP_WDM/ip_wdm.htm [ Links ]

[55] Pezcovitz D., (2000), Robotics Telesurgery: in the Waiting Room, Scientific American, December. [ Links ]

[56] Ravets J.R., (1995) Micro-Cybernetics Age to Revolution, Futures, Vol. 27, pp. 699-712. [ Links ]

[57] Sardar Z., Ravets J., (1995), Cyberspace: To Boldly Go...; Futures, Vol. 27 pp 695-698. [ Links ]

[58] Sciberras E; (1983), New competition and technical change in the computer industry, Technovation, Vol.2, pp. 17-26. Elsevier Scientific Publishing Company, Amsterdam. [ Links ]

[59] Schmookler, J., (1966), Invention and Economic Growth, Harvard University Press, Cambridge Mass. EUA. [ Links ]

[60] Stoelhorst, J.W., (2002), Transition Strategies for Managing Technological Discontinuities: Lessons from the History of the Semiconductor Industry, International Journal of Technology Management, Vol.23, No.4, pp. 261-286. Inderscience Enterprices Ltd. [ Links ]

[61] Suck-Chul Y., (2005), Technological Innovation as responding to business challenges; case study and theorization, International Journal of Technology Management, Vol. 29, Nos 3/4, pp. 295-307. [ Links ]

[62] The Royalty Rate Journal of Intellectual Property, Licensing Economics Review, No. 3, June, 1999, pp. 5. [ Links ]

[63] http://www.impi.gob.mx

[64] Truett A., W., (2001), The Information Planet: To Report on Our Trip to Another World, Futures, Vol. 33, pp. 437-441, Elsevier Science, Pergamon. [ Links ]

[65] Utterback , J. M., Abernathy W. J., (1975), A Dinamic model of Process and Product Innovation, OMEGA Vol. 3, No. 6, pp. 639-56. [ Links ]

[66] Williams T., (1987), The History of Technology from 1900 up to 1950, No. I, Ed. Siglo XXI, 8a Edition, Mexico. [ Links ]

[67] Williams T., (1987), The History of Technology from 1900 up to 1950, No. II, Ed. Siglo XXI, 8a Edition, Mexico. [ Links ]

[68] Whitworth J.E; Rebstock W. S; (2005), Measuring the impact of global information technology applications, International Journal of Technology Management, Vol. 29, Nos 3/4, pp 280-294. [ Links ]

[69] Yoffie D.B., Kwak M., (2001), Mastering Strategic Movement at Palm, MIT Sloan Management Review, Vol. 43, No. 1, pp. 55-63. [ Links ]