Demand and Price Evolution Forecasting as Tools for Facilitating the RoadMapping Process of the Photonic Component Industry
| Autor: | T. Kamalakis, I. Neokosmidis, D. Varoutas, T. Sphicopoulos |
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| Jazyk: | angličtina |
| Rok vydání: | 2008 |
| Předmět: | |
| DOI: | 10.5281/zenodo.1057319 |
| Popis: | The photonic component industry is a highly innovative industry with a large value chain. In order to ensure the growth of the industry much effort must be devoted to road mapping activities. In such activities demand and price evolution forecasting tools can prove quite useful in order to help in the roadmap refinement and update process. This paper attempts to provide useful guidelines in roadmapping of optical components and considers two models based on diffusion theory and the extended learning curve for demand and price evolution forecasting. {"references":["G. Einarsson, Principles of Lightwave Communications New York:\nWiley 1995","C. A. Brackett \"Dense Wavelength Division Multiplexing Networks:\nPrinciples and Applications\", IEEE J. Select. Areas in Communications,\nVol. 8, No. 6, August 1990, pp. 948-963.","A. M. Rodriguez, O. Bonenfant, S. Baroni and R. Wu \"Optical Data\nNetworking: Protocols, Technologies and Architectures for Next\nGeneration Optical Networks and Optical Internetworks\", IEEE J. Select\nAreas in Communications Vol. 18, No 10, October 2000, pp. 1855-1871.","V. Ramamurthy, K. S. Schanze, Optical Sensors and Switches, Marcel\nDekker, 2001","X. Shen and R. V. Wijk, Biophotonics: Optical Science and\nEngineering for the 21st Century, Springer 2006.","A. Zukauskas, M. S. Shur, R. Gaska, Introduction to Solid-State\nLighting, Wiley-Interscience 2002","S. Walsh and J. Linton, \"Infrastructure for emerging markets based on\ndiscontinuous innovations\", J. Engineering Management, Vol. 12, No. 2\npp. 23-31 (2000).","CTR, MIT Microphotonics Center, \"Microphotonics: Hardware for the\nInformation Age, Current State of the Industry\", Communications\nTechnology Roadmapping, 2005. Available at http://mphroadmap.\nmit.edu/about_ctr/report2005/","Sandia National Laboratories: Fundamentals of technology\nRoadmapping, available at http://www.sandia.gov\n[10] S. T. Walsh, \"Roadmapping a disruptive technology: A case study - The\nemerging microsystems and top-down nanosystems industry\",\nTechnological Forecasting and Social Change, vol. 71, pp. 161-185,\n2004.\n[11] S. T. Walsh, et al., \"The semiconductor silicon industry roadmap:\nEpochs driven by the dynamics between disruptive technologies and\ncore competencies\", Technological Forecasting and Social Change, vol.\n72, pp. 213-236, 2005\n[12] M. Hamacher, et al., \"Optically Amplifying Microring Resonator\nComponents Based on GaInAsP/InP: Challenges and Perspectives\",\npresented at CAS 2004, 2004.\n[13] A. Yariv, Y. Xu, R.K. Lee and A. Scherer, \"Coupled-resonator optical\nwaveguide: a proposal and analysis\", OSA Optics Letters, Vol. 24, pp.\n711-713, 1999.\n[14] R. Fildes, \"Telecommunications demand forecasting - a review\"\nInternational Journal of Forecasting, vol. 19, pp. 337-337, 2003.\n[15] B. T. Olsen and K. Stordahl, \"Models for forecasting cost evolution of\ncomponents and technologies\", Telektronikk, 4, pp. 138-148.\n[16] IST-TONIC, EU \"Techno-economics of IP Optimised Networks and\nServices\", IST-2000-25172. Available at http://wwwnrc.\nnokia.com/tonic/\n[17] B. T. Olsen, et al., \"Techno-economic evaluation of narrowband and\nbroadband access network alternatives and evolution scenario\nassessment\", IEEE JSAC, vol. 14, pp. 1203, 1996.\n[18] T. Monath, et al., \"Economics of fixed broadband access network\nstrategies\", IEEE Commun. Mag., vol. 41, pp. 132-139, 2003.\n[19] D. Varoutas, et al., \"Business opportunities through UMTS-WLAN\nnetworks\", Ann. Telecommun., vol. 58, pp. 553-575, 2003.\n[20] D. Katsianis, et al., \"The financial perspective of the mobile networks in\nEurope\", IEEE Pers. Commun., vol. 8, pp. 58-64, 2001."]} |
| Databáze: | OpenAIRE |
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