INNOVATIVE COMPETENCY ANALYSIS OF THE TURKISH TECHNICAL TEXTILE SECTOR BASED ON AHP AND FCE METHODS
Yıl 2020,
Cilt: 30 Sayı: 1, 20 - 28, 25.03.2020
Pelin Ofluoğlu Küçük
,
Turan Atılgan
Öz
Today, it is known that successful companies in
innovation applications have been maintaining their competitive power and even
superiority in competition. In addition to successful innovation applications
into practice, it is also necessary to analyze the innovation capabilities of
enterprises on a regular basis. According to the findings based on these
regular analyses and evaluations, the strengths and weaknesses of firms in
innovation creation processes can be determined. In this respect, the data
obtained through the field study, conducted with the technical textiles
companies among the top 500 industrial enterprises in Turkey, is evaluated
within the methods of AHP and FCE (Fuzzy Comprehensive Evaluation). According
to the research result, the innovation capability of the Turkish technical
textile sector is measured as "Fair level" and the factors that bring
the innovation capability of the sector to this final result are explained one
by one.
Kaynakça
- 1. İTKİB Tekstil, Deri ve Halı Şubesi, 2015, "Teknik Tekstil Sektörüne İlişkin Güncel Bilgiler", http://www.hightex2016.com/rapor1.pdf (Erişim tarihi:27.10.2016)
- 2. Trademap Veritabanı, 2017, https://www.trademap.org (Erişim tarihi: 08.09.2017)
- 3. European Commission Database, 2018, "European Innovation Scoreboard", http://ec.europa.eu/growth/industry/innovation/facts-figures/scoreboards/, (Erişim tarihi:07.09.2018)
- 4. Hollanders, H., Es-Sadki, N., Kanerva, M., 2016, "European Innovation Scoreboard-2016", European Commission, Belgium, 96p.
- 5. Türk Patent ve Marka Kurumu, "İstatistikler", http://www.turkpatent.gov.tr/TurkPatent/statistics/ (Erişim tarihi:11.09.2017)
- 6. OECD ve Eurostat, 2005, "Oslo Kılavuzu, Yenilik Verilerinin Toplanması ve Yorumlanması İçin İlkeler", (Çev.: TÜBiTAK), 3. Baskı, OECD-Eurostat Ortak Yayını, 163s.
- 7. Masum, M.H. and Fakir, A., 2014, "Implication of Balanced Scorecard in the Textile Sectors of Bangladesh: A Synopsis", Proceedings of The Fourth International Congress on Interdisciplinary Research and Development, pp. 99.1
- 8. Karimov, F., 2002, "Innovation and Efficiency: Application to Catalan Textile Industry", Universitat Autònoma de Barcelona, Departament d'Economia de l'Empresa, http://webs2002.uab.es/edp/workshop/cd/Proceedings/3EDPW_FKarimov.pdf, (Erişim tarihi: 18.09.2014)
- 9. Shouyu, C. and Wencong, L., 2009, "The Key Factors Affecting Technological Innovation in Shaoxing’ Textile Industry", Proceedings of the International Conference on Information Management, Innovation Management and Industrial Engineering, 137-140 pp.
- 10. Pang, J.L., Lu, Y.L., and Han, J.Y., 2009, "Application of multistage integrated fuzzy evaluation in technology innovation capability of textile industry", Proceedings of the Eighth International Conference on Machine Learning and Cybernetics, Baoding, 12-15 July 2009, 2504-2508 pp.
- 11. Zhu, J., Yan, L., and Wei, G., 2011, "Evaluation on the Technological Innovation Ability of Textile Enterprise Based on the Structural Coordination", Proceeding of International Conference on Information Management, Innovation Management and Industrial Engineering,440-443 pp.
- 12. Kuştepeli, Y., Gülcan, Y., and Akgüngör, S., 2012, "The Innovativeness of the Turkish Textile Industry within Similar Knowledge Bases across Different Regional Innovation Systems", European Urban and Regional Studies, 20(2):227 –242 pp.
- 13. Ofluoğlu Küçük, P., 2018, "Türk Teknik Tekstil Sektörünün İnovasyon Yeteneğinin Analizi", Ege Üniversitesi Fen Bilimleri Enstitüsü, Doktora Tezi, 183s. (yayımlanmamış).
- 14. Saaty, T.L., 1990, "How to Make a Decision: The Analytic Hiearrchy Process", European Journal of Operational Research, 48:9-26 pp.
- 15. Kuruüzüm, A. ve Atsan, N., 2001, "Analitik Hiyerarşi Yöntemi ve İşletmecilik Alanındaki Uygulamaları", Akdeniz İ.İ.B.F Dergisi, 1:83-105s.
- 16. Ömürbek, N. ve Tunca, Z., 2003, "Analitik Hiyerarşi Süreci ve Analitik Ağ Süreci Yöntemlerinde Grup Kararı Verilmesi Aşamasına İlişkin Bir Örnek Uygulama", Süleyman Demirel Üniversitesi İktisadi ve İdari Bilimler Fakültesi Dergisi, 18(3):47-70 s.
- 17. Riabacke, M., Danielson, M., and Ekeberg, L., 2012, "State-of-the-Art Prescriptive Criteria Weight Elicitation", Advances in Decision Sciences, 2012:1-24 pp.
- 18. Feng, S. and Xu, L.D., 1999, "Decision Support for Fuzzy Comprehensive Evaluation of Urban Development", Fuzzy Sets and Systems, 105:1-12 pp.
- 19. Zuo, R., Cheng, Q., and Agterberg, F.P., 2009, "Application of a Hybrid Method Combining Multilevel Fuzzy Comprehensive Evaluation with Asymmetric Fuzzy Relation Analysis to Mapping Prospectivity", Ore Geology Reviews, 35: 101-108 p.
- 20. Minli Z. and Wenpo Y., 2012, "Fuzzy Comprehensive Evaluation Method Applied in the Real Estate Investment Risks Research", Physics Procedia, 24:1815 – 1821 pp.
- 21. Ofluoğlu, P , Örk, N , Mutlu, M , Atılgan, T ., 2017, "The Best Supplier Selection by Using Analytic Hierarchy Process (AHP) and Fuzzy Comprehensive Evaluation (FCE) Methods: An Example of a Turkish Leather Apparel Company", Tekstil ve Konfeksiyon, 27 (4), 326-333
- 22. Guo, L., Gao, J., Yang, J., and Kang, J., 2009, "Criticality Evaluation of Petrochemical Equipment based on Fuzzy Comprehensive Evaluation and a BP Neural Network", Journal of Loss Prevention in the Process Industries, 22:469–476 pp.
- 23. Shen, G., Lu, Y., Wang, M., and Sun, Y., 2005, "Status and Fuzzy Comprehensive Assessment of Combined Heavy Metal and Organo-Chlorine Pesticide Pollution in the Taihu Lake Region of China", Journal of Environmental Management, 76: 355–362 pp.
- 24. Lihong, M, Yaning, C., Weihong, L., and Ruifeng, Z., 2009, "Fuzzy Comprehensive Evaluation Model for Water Resources Carrying Capacity in Tarim River Basin", Xinjiang, China, Chinese Geographical Science, 19(1):89-95 pp.
- 25. Xie, F and Tang, D., 2010, "The Application of AHP and Fuzzy Comprehensive Evaluation in Harmonious Level Measurement between Human and Water in City", Journal of Computational Information Systems, 6 (14): 4647-4655 pp.
- 26. Yang, L., Liu, C., Zhang, Z., and Shi, Y., 2009, "Control of Supply Risk based on Ranking Foreign Suppliers Using Pattern Search Weighted Fuzzy Comprehensive Evaluation", Proceedings of International Joint Conference on Computational Sciences and Optimization, 613-617 pp.
- 27. Zhijie, G., Jie, J., and Ping, L., 2010, "Design and Application of Evaluation Model on Technical Innovation Ability of SMEs based on AHP and FCE", Proceedings of the 7th International Conference on Innovation & Management,494-498 pp.
- 28. Yuan, J., 2013, "Fuzzy Comprehensive Evaluation Enterprise Performance Management Model Based on AHP", International Journal of Digital Content Technology and its Applications(JDCTA), 7(6): 539-547 pp.
- 29. Castellion, G. and Markham, S.K., 2013, "Perspective: New Product Failure Rates: Influence of Argumentum ad Populum and Self-interest", Journal of Product Innovation & Management, 30(5):976-979 pp.
- 30. TÜİK, "İstatistik Göstergeler Veritabanı", https://biruni.tuik.gov.tr/gosterge/?locale=tr (Erişim tarihi:04.01.2017)
Yıl 2020,
Cilt: 30 Sayı: 1, 20 - 28, 25.03.2020
Pelin Ofluoğlu Küçük
,
Turan Atılgan
Kaynakça
- 1. İTKİB Tekstil, Deri ve Halı Şubesi, 2015, "Teknik Tekstil Sektörüne İlişkin Güncel Bilgiler", http://www.hightex2016.com/rapor1.pdf (Erişim tarihi:27.10.2016)
- 2. Trademap Veritabanı, 2017, https://www.trademap.org (Erişim tarihi: 08.09.2017)
- 3. European Commission Database, 2018, "European Innovation Scoreboard", http://ec.europa.eu/growth/industry/innovation/facts-figures/scoreboards/, (Erişim tarihi:07.09.2018)
- 4. Hollanders, H., Es-Sadki, N., Kanerva, M., 2016, "European Innovation Scoreboard-2016", European Commission, Belgium, 96p.
- 5. Türk Patent ve Marka Kurumu, "İstatistikler", http://www.turkpatent.gov.tr/TurkPatent/statistics/ (Erişim tarihi:11.09.2017)
- 6. OECD ve Eurostat, 2005, "Oslo Kılavuzu, Yenilik Verilerinin Toplanması ve Yorumlanması İçin İlkeler", (Çev.: TÜBiTAK), 3. Baskı, OECD-Eurostat Ortak Yayını, 163s.
- 7. Masum, M.H. and Fakir, A., 2014, "Implication of Balanced Scorecard in the Textile Sectors of Bangladesh: A Synopsis", Proceedings of The Fourth International Congress on Interdisciplinary Research and Development, pp. 99.1
- 8. Karimov, F., 2002, "Innovation and Efficiency: Application to Catalan Textile Industry", Universitat Autònoma de Barcelona, Departament d'Economia de l'Empresa, http://webs2002.uab.es/edp/workshop/cd/Proceedings/3EDPW_FKarimov.pdf, (Erişim tarihi: 18.09.2014)
- 9. Shouyu, C. and Wencong, L., 2009, "The Key Factors Affecting Technological Innovation in Shaoxing’ Textile Industry", Proceedings of the International Conference on Information Management, Innovation Management and Industrial Engineering, 137-140 pp.
- 10. Pang, J.L., Lu, Y.L., and Han, J.Y., 2009, "Application of multistage integrated fuzzy evaluation in technology innovation capability of textile industry", Proceedings of the Eighth International Conference on Machine Learning and Cybernetics, Baoding, 12-15 July 2009, 2504-2508 pp.
- 11. Zhu, J., Yan, L., and Wei, G., 2011, "Evaluation on the Technological Innovation Ability of Textile Enterprise Based on the Structural Coordination", Proceeding of International Conference on Information Management, Innovation Management and Industrial Engineering,440-443 pp.
- 12. Kuştepeli, Y., Gülcan, Y., and Akgüngör, S., 2012, "The Innovativeness of the Turkish Textile Industry within Similar Knowledge Bases across Different Regional Innovation Systems", European Urban and Regional Studies, 20(2):227 –242 pp.
- 13. Ofluoğlu Küçük, P., 2018, "Türk Teknik Tekstil Sektörünün İnovasyon Yeteneğinin Analizi", Ege Üniversitesi Fen Bilimleri Enstitüsü, Doktora Tezi, 183s. (yayımlanmamış).
- 14. Saaty, T.L., 1990, "How to Make a Decision: The Analytic Hiearrchy Process", European Journal of Operational Research, 48:9-26 pp.
- 15. Kuruüzüm, A. ve Atsan, N., 2001, "Analitik Hiyerarşi Yöntemi ve İşletmecilik Alanındaki Uygulamaları", Akdeniz İ.İ.B.F Dergisi, 1:83-105s.
- 16. Ömürbek, N. ve Tunca, Z., 2003, "Analitik Hiyerarşi Süreci ve Analitik Ağ Süreci Yöntemlerinde Grup Kararı Verilmesi Aşamasına İlişkin Bir Örnek Uygulama", Süleyman Demirel Üniversitesi İktisadi ve İdari Bilimler Fakültesi Dergisi, 18(3):47-70 s.
- 17. Riabacke, M., Danielson, M., and Ekeberg, L., 2012, "State-of-the-Art Prescriptive Criteria Weight Elicitation", Advances in Decision Sciences, 2012:1-24 pp.
- 18. Feng, S. and Xu, L.D., 1999, "Decision Support for Fuzzy Comprehensive Evaluation of Urban Development", Fuzzy Sets and Systems, 105:1-12 pp.
- 19. Zuo, R., Cheng, Q., and Agterberg, F.P., 2009, "Application of a Hybrid Method Combining Multilevel Fuzzy Comprehensive Evaluation with Asymmetric Fuzzy Relation Analysis to Mapping Prospectivity", Ore Geology Reviews, 35: 101-108 p.
- 20. Minli Z. and Wenpo Y., 2012, "Fuzzy Comprehensive Evaluation Method Applied in the Real Estate Investment Risks Research", Physics Procedia, 24:1815 – 1821 pp.
- 21. Ofluoğlu, P , Örk, N , Mutlu, M , Atılgan, T ., 2017, "The Best Supplier Selection by Using Analytic Hierarchy Process (AHP) and Fuzzy Comprehensive Evaluation (FCE) Methods: An Example of a Turkish Leather Apparel Company", Tekstil ve Konfeksiyon, 27 (4), 326-333
- 22. Guo, L., Gao, J., Yang, J., and Kang, J., 2009, "Criticality Evaluation of Petrochemical Equipment based on Fuzzy Comprehensive Evaluation and a BP Neural Network", Journal of Loss Prevention in the Process Industries, 22:469–476 pp.
- 23. Shen, G., Lu, Y., Wang, M., and Sun, Y., 2005, "Status and Fuzzy Comprehensive Assessment of Combined Heavy Metal and Organo-Chlorine Pesticide Pollution in the Taihu Lake Region of China", Journal of Environmental Management, 76: 355–362 pp.
- 24. Lihong, M, Yaning, C., Weihong, L., and Ruifeng, Z., 2009, "Fuzzy Comprehensive Evaluation Model for Water Resources Carrying Capacity in Tarim River Basin", Xinjiang, China, Chinese Geographical Science, 19(1):89-95 pp.
- 25. Xie, F and Tang, D., 2010, "The Application of AHP and Fuzzy Comprehensive Evaluation in Harmonious Level Measurement between Human and Water in City", Journal of Computational Information Systems, 6 (14): 4647-4655 pp.
- 26. Yang, L., Liu, C., Zhang, Z., and Shi, Y., 2009, "Control of Supply Risk based on Ranking Foreign Suppliers Using Pattern Search Weighted Fuzzy Comprehensive Evaluation", Proceedings of International Joint Conference on Computational Sciences and Optimization, 613-617 pp.
- 27. Zhijie, G., Jie, J., and Ping, L., 2010, "Design and Application of Evaluation Model on Technical Innovation Ability of SMEs based on AHP and FCE", Proceedings of the 7th International Conference on Innovation & Management,494-498 pp.
- 28. Yuan, J., 2013, "Fuzzy Comprehensive Evaluation Enterprise Performance Management Model Based on AHP", International Journal of Digital Content Technology and its Applications(JDCTA), 7(6): 539-547 pp.
- 29. Castellion, G. and Markham, S.K., 2013, "Perspective: New Product Failure Rates: Influence of Argumentum ad Populum and Self-interest", Journal of Product Innovation & Management, 30(5):976-979 pp.
- 30. TÜİK, "İstatistik Göstergeler Veritabanı", https://biruni.tuik.gov.tr/gosterge/?locale=tr (Erişim tarihi:04.01.2017)