跳到主要內容區

網站通知

此為舊網站,即將跳轉新網站
 

工商系新網站

陳亭羽 教授 (與管理研究所合聘)

職稱教授
信箱tychen@mail.cgu.edu.tw
電話03-2118800 # 5678
個人網頁http://www.sedonaws.com/members/tychen/cv/
學歷國立交通大學 交通運輸研究所博士
專長領域模糊決策理論與方法、管理決策支援分析、多評準決策信息分析

工作經歷:

【2011/08~ 迄  今】長庚大學 企業管理研究所 教授
【2011/08~ 迄  今】長庚大學 工商管理學系 合聘教授
【2018/01~2020/12】長庚醫療財團法人林口長庚紀念醫院 護理部 合聘研究員
【2016/01~2017/12】長庚醫療財團法人林口長庚紀念醫院 神經內科系腦血管科 合聘研究員
【2014/08~2015/07】休假研究,研究機構:國立暨南國際大學資訊管理學系主題:「建立不確定環境下之e化智慧型決策支援系統」
【2010/08~2011/07】長庚大學 企業管理研究所 副教授
【2010/08~2011/07】長庚大學 工商管理學系 合聘副教授
【2001/08~2010/07】長庚大學 工商管理學系 副教授
【2003/07~2003/12】中央研究院資訊科學研究所訪問學者,專題研究名稱:「以資料探勘技術進行中醫領域之醫療知識發掘」
【2002/08~2003/07】長庚大學 企業管理研究所 碩士在職專班(EMBA)專班主任
【2002/01~2002/12】中華民國習慣領域學會 第四屆常務理事
【1998/08~2001/07】長庚大學 工商管理學系 助理教授

發表期刊論文

Articles in SCI, SSCI, EI, and TSSCI Journals

  1. Ye, J., and Chen, T.-Y.* (2022), “Fabric selection based on sine trigonometric aggregation operators under Pythagorean fuzzy uncertainty,” Journal of Natural Fibers. (SCI, Rank: 4/26=15.38%, Q1, IF: 3.507) (accepted)
  2. Ye, J., and Chen, T.-Y.* (2022), “Pythagorean fuzzy sets combined with the PROMETHEE method for the selection of cotton woven fabric,” Journal of Natural Fibers. https://doi.org/10.1080/15440478.2022.2072993 (SCI, Rank: 4/26=15.38%, Q1, IF: 3.507) (Published online: 30 May 2022)
  3. Zhou, F., and Chen, T.-Y.* (2022), “A hybrid approach combining AHP with TODIM for blockchain technology provider selection under the Pythagorean fuzzy scenario,” Artificial Intelligence Review. https://dx.doi.org/10.1007/s10462-021-10128-7 (SCI, Rank: 17/144=11.81%, Q1, IF: 9.588) (Published online: 07 January 2022)
  4. Chen, T.-Y.* (2022), “A novel T-spherical fuzzy REGIME method for managing multiple-criteria choice analysis under uncertain circumstances,” Informatica. https://doi.org/10.15388/21-INFOR465 (SCI, Rank: 23/267=8.61%, Q1, IF: 3.429) (Published online: 25 November 2021)
  5. Ye, J., and Chen, T.-Y.* (2022), “Selection of cotton fabrics using Pythagorean fuzzy TOPSIS approach,” Journal of Natural Fibers. https://doi.org/10.1080/15440478.2021.1982439 (SCI, Rank: 4/26=15.38%, Q1, IF: 3.507) (Published online: 04 October 2021)
  6. Chen, T.-Y.* (2022), “A point operator-driven approach to decision-analytic modeling for multiple criteria evaluation problems involving uncertain information based on T-spherical fuzzy sets,” Expert Systems with Applications 203 (Oct.) Article ID 117559, 30 pages. https://doi.org/10.1016/j.eswa.2022.117559 (October) (SCI, Rank: 23/276=8.33%, Q1, IF: 8.665)
  7. Chen, T.-Y.* (2022), “Likelihood-based agreement measurements with Pythagorean fuzzy paired point operators to enrichment evaluations and priority determination for an uncertain decision-theoretical analysis,” Engineering Applications of Artificial Intelligence 113 (Aug.) Article ID 104912, 38 pages. https://doi.org/10.1016/j.engappai.2022.104912 (August) (SCI, Rank: 5/92=5.43%, Q1, IF: 7.802)
  8. Chen, T.-Y.* (2022), “Decision support modeling for multiple criteria assessments using a likelihood-based consensus ranking method under Pythagorean fuzzy uncertainty,” Artificial Intelligence Review 55 (Aug.) 4879–4939. https://dx.doi.org/10.1007/s10462-021-10122-z (August) (SCI, Rank: 17/144=11.81%, Q1, IF: 9.588)
  9. Tsao, C.-Y., and Chen, T.-Y.* (2022), “A parametric likelihood measure with beta distributions for Pythagorean fuzzy decision-making,” Neural Computing & Applications 34 (17) 13757–13806. https://dx.doi.org/10.1007/s00521-022-07151-2 (August) (SCI, Rank: 45/144=31.25%, Q2, IF: 5.102)
  10. Chen, T.-Y.* (2022), “Multiple criteria choice modeling using the grounds of T-spherical fuzzy REGIME analysis,” International Journal of Intelligent Systems 37 (3) 1972-2011. https://dx.doi.org/10.1002/int.22762 (March) (SCI, Rank: 20/144=13.89%, Q1, IF: 8.993)
  11. Zhou, F., and Chen, T.-Y.* (2021), “An extended Pythagorean fuzzy VIKOR method with risk preference and a novel generalized distance measure for multicriteria decision-making problems,” Neural Computing & Applications 33 (18) 11821–11844. https://doi.org/10.1007/s00521-021-05829-7 (September) (SCI, Rank: 45/144=31.25%, Q2, IF: 5.102)
  12. Wang, J.-C., and Chen, T.-Y.* (2021), “A T-spherical fuzzy ELECTRE approach for multiple criteria assessment problem from a comparative perspective of score functions,” Journal of Intelligent & Fuzzy Systems 41 (2) 3751–3770. https://doi.org/10.3233/JIFS-211431 (September) (SCI, Rank: 112/144=77.78%, Q4, IF: 1.737)
  13. Chen, T.-Y.* (2021), “A likelihood-based preference ranking organization method using dual point operators for multiple criteria decision analysis in Pythagorean fuzzy uncertain contexts,” Expert Systems with Applications 176 (Aug.) Article ID 114881, 32 pages. https://doi.org/10.1016/j.eswa.2021.114881 (August) (SCI, Rank: 23/276=8.33%, Q1, IF: 8.665)
  14. Chen, T.-Y.* (2021), “Approach-oriented and avoidance-oriented measures under complex Pythagorean fuzzy information and an area-based model to multiple criteria decision-aiding systems,” Journal of Intelligent & Fuzzy Systems 40 (6) 12195–12213. https://doi.org/10.3233/JIFS-210290 (June) (SCI, Rank: 112/144=77.78%, Q4, IF: 1.737)
  15. Tsao, C.-Y., and Chen, T.-Y.* (2021), “Pythagorean fuzzy likelihood function based on beta distributions and its based dominance ordering model in an uncertain multiple criteria decision support framework,” International Journal of Intelligent Systems 36 (6) 2680–2729. https://doi.org/10.1002/int.22398 (June) (SCI, Rank: 20/144=13.89%, Q1, IF: 8.993)
  16. Chen, T.-Y.* (2021), “The likelihood-based optimization ordering model for multiple criteria group decision making with Pythagorean fuzzy uncertainty,” Neural Computing & Applications 33 (10) 4865–4900. https://doi.org/10.1007/s00521-020-05278-8 (May) (SCI, Rank: 45/144=31.25%, Q2, IF: 5.102)
  17. Chen, T.-Y.* (2021), “Pythagorean fuzzy linear programming technique for multidimensional analysis of preference using a squared-distance-based approach for multiple criteria decision analysis,” Expert Systems with Applications 164 (Feb.) Article ID 113908, 31 pages. https://doi.org/10.1016/j.eswa.2020.113908 (February) (SCI, Rank: 23/276=8.33%, Q1, IF: 8.665)
  18. Zhou, F., and Chen, T.-Y.* (2020), “An integrated multicriteria group decision-making approach for green supplier selection under Pythagorean fuzzy scenarios,” IEEE Access 8 (Sep.) 165216–165231. https://doi.org/10.1109/ACCESS.2020.3022377 (September) (SCI, Rank: 105/276=38.04%, Q2, IF: 3.476)
  19. Zhou, F., and Chen, T.-Y.* (2020), “Multiple criteria group decision analysis using a Pythagorean fuzzy programming model for multidimensional analysis of preference based on novel distance measures,” Computers & Industrial Engineering 148 (Oct.) Article ID 106670, 19 pages. https://doi.org/10.1016/j.cie.2020.106670 (October) (SCI, Rank: 19/113=16.81%, Q1, IF: 7.180)
  20. Chen, T.-Y.* (2020), “New Chebyshev distance measures for Pythagorean fuzzy sets with applications to multiple criteria decision analysis using an extended ELECTRE approach,” Expert Systems with Applications 147 (Jun.) Article ID 113164, 31 pages. https://doi.org/10.1016/j.eswa.2019.113164 (June) (SCI, Rank: 23/276=8.33%, Q1, IF: 8.665)
  21. Ho, L.-H., Lin, Y.-L., and Chen, T.-Y.* (2020), “A Pearson-like correlation-based TOPSIS method with interval-valued Pythagorean fuzzy uncertainty and its application to multiple criteria decision analysis of stroke rehabilitation treatments,” Neural Computing & Applications 32 (12) 8265–8295. https://doi.org/10.1007/s00521-019-04304-8 (June) (SCI, Rank: 45/144=31.25%, Q2, IF: 5.102)
  22. Wang, J.-C., and Chen, T.-Y.* (2020), “A novel Pythagorean fuzzy LINMAP-based compromising approach for multiple criteria group decision-making with preference over alternatives,” International Journal of Computational Intelligence Systems 13 (1) 444–463. https://doi.org/10.2991/ijcis.d.200408.001 (April) (SCI, Rank: 79/113=69.91%, Q3, IF: 2.259)
  23. Chen, T.-Y.* (2019), “Multiple criteria group decision making using a parametric linear programming technique for multidimensional analysis of preference under uncertainty of Pythagorean fuzziness,” IEEE Access 7 (1) 174108–174128. https://doi.org/10.1109/ACCESS.2019.2957161 (December) (SCI, Rank: 105/276=38.04%, Q2, IF: 3.476)
  24. Chen, T.-Y.* (2019), “A novel PROMETHEE-based method using a Pythagorean fuzzy combinative distance-based precedence approach to multiple criteria decision making,” Applied Soft Computing 82 (Sep.) Article ID 105560, 27 pages. https://doi.org/10.1016/j.asoc.2019.105560 (September) (SCI, Rank: 11/113=9.73%, Q1, IF: 8.263)
  25. Zhou, F., and Chen, T.-Y.* (2019), “A novel distance measure for Pythagorean fuzzy sets and its applications to the technique for order preference by similarity to ideal solutions,” International Journal of Computational Intelligence Systems 12 (2) 955–969. https://doi.org/10.2991/ijcis.d.190820.001 (September) (SCI, Rank: 79/113=69.91%, Q3, IF: 2.259)
  26. Chen, T.-Y.* (2019), “A novel VIKOR method with an application to multiple criteria decision analysis for hospital-based post-acute care within a highly complex uncertain environment,” Neural Computing & Applications 31 (8) 3969–3999. https://doi.org/10.1007/s00521-017-3326-8 (August) (SCI, Rank: 45/144=31.25%, Q2, IF: 5.102)
  27. Chen, T.-Y.* (2019), “Novel generalized distance measure of Pythagorean fuzzy sets and a compromise approach for multiple criteria decision analysis under uncertainty,” IEEE Access 7 (1) 58168–58185. https://doi.org/10.1109/ACCESS.2019.2914703 (May) (SCI, Rank: 105/276=38.04%, Q2, IF: 3.476)
  28. Lin, Y.-L., Ho, L.-H., Yeh, S.-L., and Chen, T.-Y.* (2019), “A Pythagorean fuzzy TOPSIS method based on novel correlation measures and its application to multiple criteria decision analysis of inpatient stroke rehabilitation,” International Journal of Computational Intelligence Systems 12 (1) 410–425. https://doi.org/10.2991/ijcis.2018.125905657 (March) (SCI, Rank: 79/113=69.91%, Q3, IF: 2.259)
  29. Chen, T.-Y.* (2019), “Multiple criteria decision analysis under complex uncertainty: a Pearson-like correlation-based Pythagorean fuzzy compromise approach,” International Journal of Intelligent Systems 34 (1) 114–151. https://doi.org/10.1002/int.22045 (January) (SCI, Rank: 20/144=13.89%, Q1, IF: 8.993)
  30. Chen, T.-Y.* (2018), “A mixed-choice-strategy-based consensus ranking method for multiple criteria decision analysis involving Pythagorean fuzzy information,” IEEE Access 6 (1) 79174–79199. https://doi.org/10.1109/ACCESS.2018.2884895 (December) (SCI, Rank: 105/276=38.04%, Q2, IF: 3.476)
  31. Chen, T.-Y.* (2018), “A novel PROMETHEE-based outranking approach for multiple criteria decision analysis with Pythagorean fuzzy information,” IEEE Access 6 (1) 54495–54506. https://doi.org/10.1109/ACCESS.2018.2869137 (December) (SCI, Rank: 105/276=38.04%, Q2, IF: 3.476)
  32. Chen, T.-Y.* (2018), “An interval-valued Pythagorean fuzzy compromise approach with correlation-based closeness indices for multiple-criteria decision analysis of bridge construction methods,” Complexity 2018 (Nov.) Article ID 6463039, 29 pages. https://doi.org/10.1155/2018/6463039 (November) (SCI, Rank: 49/108=45.37%, Q2, IF: 2.121)
  33. Chen, T.-Y.* (2018), “An outranking approach using a risk attitudinal assignment model involving Pythagorean fuzzy information and its application to financial decision making,” Applied Soft Computing 71 (Oct.) 460–487. https://doi.org/10.1016/j.asoc.2018.06.036 (October) (SCI, Rank: 11/113=9.73%, Q1, IF: 8.263)
  34. Chen, T.-Y.* (2018), “An effective correlation-based compromise approach for multiple criteria decision analysis with Pythagorean fuzzy information,” Journal of Intelligent & Fuzzy Systems 35 (3) 3529–3541. https://doi.org/10.3233/JIFS-18021 (October) (SCI, Rank: 112/144=77.78%, Q4, IF: 1.737)
  35. Wang, J.-C., and Chen, T.-Y.* (2018), “Multiple criteria decision analysis using correlation-based precedence indices within Pythagorean fuzzy uncertain environments,” International Journal of Computational Intelligence Systems 11 (1) 911–924. https://doi.org/10.2991/ijcis.11.1.69 (May) (SCI, Rank: 79/113=69.91%, Q3, IF: 2.259)
  36. Chen, T.-Y.* (2018), “Remoteness index-based Pythagorean fuzzy VIKOR methods with a generalized distance measure for multiple criteria decision analysis,” Information Fusion 41 (May) 129–150. https://doi.org/10.1016/j.inffus.2017.09.003 (May) (SCI, Rank: 1/109=0.92%, Q1, IF: 17.564)
  37. Chen, T.-Y.* (2018), “A novel risk evaluation method of technological innovation using an inferior ratio-based assignment model in the face of complex uncertainty,” Expert Systems with Applications 95 (Apr.) 333–350. https://doi.org/10.1016/j.eswa.2017.11.038 (April) (SCI, Rank: 23/276=8.33%, Q1, IF: 8.665)
  38. Chen, T.-Y.* (2018), “An interval-valued Pythagorean fuzzy outranking method with a closeness-based assignment model for multiple criteria decision making,” International Journal of Intelligent Systems 33 (1) 126–168. https://doi.org/10.1002/int.21943 (January) (SCI, Rank: 20/144=13.89%, Q1, IF: 8.993)
  39. Chen, T.-Y.* (2017), “A likelihood-based assignment method for multiple criteria decision analysis with interval type-2 fuzzy information,” Neural Computing & Applications 28 (12) 4023–4045. https://doi.org/10.1007/s00521-016-2288-6 (December) (SCI, Rank: 45/144=31.25%, Q2, IF: 5.102)
  40. Chen, T.-Y.* (2017), “Multiple criteria decision analysis using prioritised interval type-2 fuzzy aggregation operators and its application to site selection,” Technological and Economic Development of Economy 23 (1) 1–21. https://doi.org/10.3846/20294913.2016.1209249 (January) (SSCI, Rank: 43/379=11.35%, Q1, IF: 5.656)
  41. Tsao, C.-Y., and Chen, T.-Y.* (2016), “A projection-based compromising method for multiple criteria decision analysis with interval-valued intuitionistic fuzzy information,” Applied Soft Computing 45 (Aug.) 207–223. https://doi.org/10.1016/j.asoc.2016.04.016 (August) (SCI, Rank: 11/113=9.73%, Q1, IF: 8.263)
  42. Chen, T.-Y.* (2016), “An IVIF-ELECTRE outranking method for multiple criteria decision-making with interval-valued intuitionistic fuzzy sets,” Technological and Economic Development of Economy 22 (3) 416–452. https://doi.org/10.3846/20294913.2015.1072751 (May) (SSCI, Rank: 43/379=11.35%, Q1, IF: 5.656)
  43. Chen, T.-Y.* (2016), “An inclusion comparison approach for multiple criteria decision analysis based on interval-valued intuitionistic fuzzy sets,” Technological and Economic Development of Economy 22 (3) 357–392. https://doi.org/10.3846/20294913.2014.989930 (May) (SSCI, Rank: 43/379=11.35%, Q1, IF: 5.656)
  44. Chen, T.-Y.* (2016), “An interval-valued intuitionistic fuzzy permutation method with likelihood-based preference functions and its application to multiple criteria decision analysis,” Applied Soft Computing 42 (May) 390–409. https://doi.org/10.1016/j.asoc.2016.02.006 (May) (SCI, Rank: 11/113=9.73%, Q1, IF: 8.263)
  45. Wang, J.-C., and Chen, T.-Y.* (2015), “Likelihood-based assignment methods for multiple criteria decision analysis based on interval-valued intuitionistic fuzzy sets,” Fuzzy Optimization and Decision Making 14 (4) 425–457. https://doi.org/10.1007/s10700-015-9208-6 (December) (SCI, Rank: 19/87=21.84%, Q1, IF: 5.274)
  46. Wang, J.-C., and Chen, T.-Y.* (2015), “A simulated annealing-based permutation method and experimental analysis for multiple criteria decision analysis with interval type-2 fuzzy sets,” Applied Soft Computing 36 (Nov.) 57–69. https://doi.org/10.1016/j.asoc.2015.07.011 (November) (SCI, Rank: 11/113=9.73%, Q1, IF: 8.263)
  47. Wang, J.-C., Tsao, C.-Y., and Chen, T.-Y.* (2015), “A likelihood-based QUALIFLEX method with interval type-2 fuzzy sets for multiple criteria decision analysis,” Soft Computing 19 (8) 2225–2243. https://doi.org/10.1007/s00500-014-1404-8 (August) (SCI, Rank: 65/144=45.14%, Q2, IF: 3.732)
  48. Wang, J.-C., and Chen, T.-Y.* (2015), “An interval type-2 fuzzy permutation method and experimental analysis for multiple criteria decision analysis with incomplete preference information,” Journal of Industrial and Production Engineering 32 (5) 298–310. https://doi.org/10.1080/21681015.2015.1064483 (August) (SCI, Rank: 46/63=73.02%, Q3, IF: 0.38)
  49. Chen, T.-Y.* (2015), “IVIF-PROMETHEE outranking methods for multiple criteria decision analysis based on interval-valued intuitionistic fuzzy sets,” Fuzzy Optimization and Decision Making 14 (2) 173–198. https://doi.org/10.1007/s10700-014-9195-z (June) (SCI, Rank: 19/87=21.84%, Q1, IF: 5.274)
  50. Chen, T.-Y.* (2015), “An interval type-2 fuzzy LINMAP method with approximate ideal solutions for multiple criteria decision analysis,” Information Sciences 297 (Mar.) 50–79. https://doi.org/10.1016/j.ins.2014.10.054 (March) (SCI, Rank: 16/164=9.76%, Q1, IF: 8.233)
  51. Chen, T.-Y.* (2015), “An interval type-2 fuzzy PROMETHEE method using a likelihood-based outranking comparison approach,” Information Fusion 25 (Mar.) 105–120. https://doi.org/10.1016/j.inffus.2014.10.002 (March) (SCI, Rank: 1/109=0.92%, Q1, IF: 17.564)
  52. Chen, T.-Y.* (2015), “An interval type-2 fuzzy technique for order preference by similarity to ideal solutions using a likelihood-based comparison approach for multiple criteria decision analysis,” Computers & Industrial Engineering 85 (Mar.) 57–72. https://doi.org/10.1016/j.cie.2015.03.005 (March) (SCI, Rank: 19/113=16.81%, Q1, IF: 7.180)
  53. Chen, T.-Y.* (2015), “Likelihoods of interval type-2 trapezoidal fuzzy preference relations and their application to multiple criteria decision analysis,” Information Sciences 295 (Feb.) 303–322. https://doi.org/10.1016/j.ins.2014.10.007 (February) (SCI, Rank: 16/164=9.76%, Q1, IF: 8.233)
  54. Lai, H.-L., and Chen, T.-Y.* (2015), “Client acceptance method for audit firms based on interval-valued fuzzy numbers,” Technological and Economic Development of Economy 21 (1) 1–27. https://doi.org/10.3846/20294913.2014.871662 (February) (SSCI, Rank: 43/379=11.35%, Q1, IF: 5.656)
  55. Chen, T.-Y.* (2015), “The inclusion-based TOPSIS method with interval-valued intuitionistic fuzzy sets for multiple criteria group decision making,” Applied Soft Computing 26 (Jan.) 57–73. https://doi.org/10.1016/j.asoc.2014.09.015 (January) (SCI, Rank: 11/113=9.73%, Q1, IF: 8.263)
  56. Chen, T.-Y.* (2014), “Multiple criteria decision analysis using a likelihood-based outranking method based on interval-valued intuitionistic fuzzy sets,” Information Sciences 286 (Dec.) 188–208. https://doi.org/10.1016/j.ins.2014.07.003 (December) (SCI, Rank: 16/164=9.76%, Q1, IF: 8.233)
  57. Chen, T.-Y.* (2014), “Interval-valued fuzzy multiple criteria decision-making methods based on dual optimistic/pessimistic estimations in averaging operations,” Applied Soft Computing 24 (Nov.) 923–947. https://doi.org/10.1016/j.asoc.2014.08.050 (November) (SCI, Rank: 11/113=9.73%, Q1, IF: 8.263)
  58. Chen, T.-Y.* (2014), “The inclusion-based LINMAP method for multiple criteria decision analysis within an interval-valued Atanassov’s intuitionistic fuzzy environment,” International Journal of Information Technology & Decision Making 13 (6) 1325–1360. https://doi.org/10.1142/S0219622014500722 (November) (SCI, Rank: 30/87=34.48%, Q2, IF: 3.508)
  59. Chen, T.-Y.* (2014), “The extended linear assignment method for multiple criteria decision analysis based on interval-valued intuitionistic fuzzy sets,” Applied Mathematical Modelling 38 (7-8) 2101–2117. https://doi.org/10.1016/j.apm.2013.10.017 (April) (SCI, Rank: 7/108=6.48%, Q1, IF: 5.336)
  60. Chen, T.-Y.* (2014), “A prioritized aggregation operator-based approach to multiple criteria decision making using interval-valued intuitionistic fuzzy sets: A comparative perspective,” Information Sciences 281 (Oct.) 97–112. https://doi.org/10.1016/j.ins.2014.05.018 (October) (SCI, Rank: 16/164=9.76%, Q1, IF: 8.233)
  61. Chen, T.-Y.* (2014), “An ELECTRE-based outranking method for multiple criteria group decision making using interval type-2 fuzzy sets,” Information Sciences 263 (Apr.) 1–21. https://doi.org/10.1016/j.ins.2013.12.012 (April) (SCI, Rank: 16/164=9.76%, Q1, IF: 8.233)
  62. Chen, T.-Y.* (2014), “An interactive signed distance approach for multiple criteria group decision-making based on simple additive weighting method with incomplete preference information defined by interval type-2 fuzzy sets,” International Journal of Information Technology & Decision Making 13 (5) 979–1012. https://doi.org/10.1142/S0219622014500229 (September) (SCI, Rank: 30/87=34.48%, Q2, IF: 3.508)
  63. Chen, T.-Y.* (2014), “A PROMETHEE-based outranking method for multiple criteria decision analysis with interval type-2 fuzzy sets,” Soft Computing 18 (5) 923–940. https://doi.org/10.1007/s00500-013-1109-4 (May) (SCI, Rank: 65/144=45.14%, Q2, IF: 3.732)
  64. Chen, T.-Y.* (2014), “Interval-valued intuitionistic fuzzy QUALIFLEX method with a likelihood-based comparison approach for multiple criteria decision analysis,” Information Sciences 261 (Mar.) 149–169. https://doi.org/10.1016/j.ins.2013.08.054 (March) (SCI, Rank: 16/164=9.76%, Q1, IF: 8.233)
  65. Wang, J.-C., and Chen, T.-Y.* (2014), “A closeness coefficient-based multiple criteria decision-making method using interval type-2 fuzzy sets and its application to watershed site selection,” Journal of Industrial and Production Engineering 31 (1) 1–16. https://doi.org/10.1080/21681015.2013.879393 (January) (SCI, Rank: 46/63=73.02%, Q3, IF: 0.38)
  66. Chen, T.-Y.* (2013), “An interactive method for multiple criteria group decision analysis based on interval type-2 fuzzy sets and its application to medical decision making,” Fuzzy Optimization and Decision Making 12 (3) 323–356. https://doi.org/10.1007/s10700-013-9158-9 (September) (SCI, Rank: 19/87=21.84%, Q1, IF: 5.274)
  67. Chen, T.-Y.* (2013), “An interval-valued intuitionistic fuzzy LINMAP method with inclusion comparison possibilities and hybrid averaging operations for multiple criteria group decision making,” Knowledge-Based Systems 45 (Jun.) 134–146. https://doi.org/10.1016/j.knosys.2013.02.012 (June) (SCI, Rank: 24/144=16.67%, Q1, IF: 8.139)
  68. Chen, T.-Y.* (2013), “A linear assignment method for multiple-criteria decision analysis with interval type-2 fuzzy sets,” Applied Soft Computing 13 (5) 2735–2748. https://doi.org/10.1016/j.asoc.2012.11.013 (May) (SCI, Rank: 11/113=9.73%, Q1, IF: 8.263)
  69. Chen, T.-Y.*, Chang, C.-H., and Lu, J.-f.R. (2013), “The extended QUALIFLEX method for multiple criteria decision analysis based on interval type-2 fuzzy sets and applications to medical decision making,” European Journal of Operational Research 226 (3) 615–625. https://doi.org/10.1016/j.ejor.2012.11.038 (May) (SCI, Rank: 17/87=19.54%, Q1, IF: 6.363)
  70. Chen, T.-Y.* (2013), “Data construction process and QUALIFLEX-based method for multiple-criteria group decision making with interval-valued intuitionistic fuzzy sets,” International Journal of Information Technology & Decision Making 12 (3) 425–467. https://doi.org/10.1142/S021962201350017X (May) (SCI, Rank: 30/87=34.48%, Q2, IF: 3.508)
  71. Chen, T.-Y.* (2013), “A signed-distance-based approach to importance assessment and multi-criteria group decision analysis based on interval type-2 fuzzy set,” Knowledge and Information Systems 35 (1) 193–231. https://doi.org/10.1007/s10115-012-0497-6 (April) (SCI, Rank: 90/144=62.50%, Q3, IF: 2.531)
  72. Chen, T.-Y.* (2012), “Collaborative decision-making method for patient-centered care based on interval type-2 fuzzy sets,” Journal of the Chinese Institute of Industrial Engineers 29 (7) 494–513. https://doi.org/10.1080/10170669.2012.728539 (October) (EI, TSSCI)
  73. Chen, T.-Y.* (2012), “A comparative study of optimistic and pessimistic multicriteria decision analysis based on Atanassov fuzzy sets,” Applied Soft Computing 12 (8) 2289–2311. https://doi.org/10.1016/j.asoc.2012.03.038 (August) (SCI, Rank: 11/113=9.73%, Q1, IF: 8.263)
  74. Chen, T.-Y.*, and Tsui, C.-W. (2012), “Intuitionistic fuzzy QUALIFLEX method for optimistic and pessimistic decision making,” Advances in Information Sciences and Service Sciences 4 (14) 219–226. https://doi.org/10.4156/AISS.vol4.issue14.26 (August) (EI)
  75. Chen, T.-Y.* (2012), “Nonlinear assignment-based methods for interval-valued intuitionistic fuzzy multi-criteria decision analysis with incomplete preference information,” International Journal of Information Technology & Decision Making 11 (4) 821–855. https://doi.org/10.1142/S0219622012500228 (July) (SCI, Rank: 30/87=34.48%, Q2, IF: 3.508)
  76. Chen, T.-Y.* (2012), “Experimental analysis of multi-attribute decision-making based on Atanassov intuitionistic fuzzy sets: A discussion of anchor dependency and accuracy functions,” International Journal of Systems Science 43 (6) 1077–1103. https://doi.org/10.1080/00207721.2010.543486 (June) (SCI, Rank: 39/109=35.78%, Q2, IF: 2.648)
  77. Chen, T.-Y.* (2012), “Multiple criteria group decision-making with generalized interval-valued fuzzy numbers based on signed distances and incomplete weights,” Applied Mathematical Modelling 36 (7) 3029–3052. https://doi.org/10.1016/j.apm.2011.09.080 (July) (SCI, Rank: 7/108=6.48%, Q1, IF: 5.336)
  78. Chen, T.-Y.* (2012), “Approaches to leniency reduction in multi-criteria decision making with interval-valued fuzzy sets and an experimental analysis,” International Journal of Information Technology & Decision Making 11 (3) 579–608. https://doi.org/10.1142/S0219622012500125 (May) (SCI, Rank: 30/87=34.48%, Q2, IF: 3.508)
  79. Chen, T.-Y.* (2012), “Multi-criteria decision-making methods with optimism and pessimism based on Atanassov’s intuitionistic fuzzy sets,” International Journal of Systems Science 43 (5) 920–938. https://doi.org/10.1080/00207721.2010.543483 (May) (SCI, Rank: 39/109=35.78%, Q2, IF: 2.648)
  80. Chen, T.-Y.* (2012), “Comparative analysis of SAW and TOPSIS based on interval-valued fuzzy sets: Discussions on score functions and weight constraints,” Expert Systems with Applications 39 (2) 1848–1861. https://doi.org/10.1016/j.eswa.2011.08.065 (February) (SCI, Rank: 23/276=8.33%, Q1, IF: 8.665)
  81. Chen, T.-Y.*, Wang, H.-P., and Wang, J.-C. (2012), “Fuzzy automata based on Atanassov fuzzy sets and applications on consumers’ advertising involvement,” African Journal of Business Management 6 (3) 865–880. https://doi.org/10.5897/AJBM11.1080 (January) (2010, 2009 SSCI, Rank: 58/112=51.79%, Q3, IF: 1.105)
  82. Chen, T.-Y.* (2011), “Signed distanced-based TOPSIS method for multiple criteria decision analysis based on generalized interval-valued fuzzy numbers,” International Journal of Information Technology & Decision Making 10 (6) 1131–1159. https://doi.org/10.1142/S0219622011004749 (November) (SCI, Rank: 30/87=34.48%, Q2, IF: 3.508)
  83. Chen, T.-Y.*, and Li, C.-H. (2011), “Objective weights with intuitionistic fuzzy entropy measures and computational experiment analysis,” Applied Soft Computing 11 (8) 5411–5423. https://doi.org/10.1016/j.asoc.2011.05.018 (December) (SCI, Rank: 11/113=9.73%, Q1, IF: 8.263)
  84. Chen, T.-Y.* (2011), “Interval-valued fuzzy TOPSIS method with leniency reduction and an experimental analysis,” Applied Soft Computing 11 (8) 4591–4606. https://doi.org/10.1016/j.asoc.2011.08.002 (December) (SCI, Rank: 11/113=9.73%, Q1, IF: 8.263)
  85. Chen, T.-Y.*, and Lai, H.-L. (2011), “A risk management method for enhancing patient safety based on interval-valued fuzzy numbers,” African Journal of Business Management 5 (30) 11925–11945. https://doi.org/10.5897/AJBM11.412 (November) (2010, 2009 SSCI, Rank: 58/112=51.79%, Q3, IF: 1.105)
  86. Chen, T.-Y.* (2011), “An integrated approach for assessing criterion importance with interval type-2 fuzzy sets and signed distances,” Journal of the Chinese Institute of Industrial Engineers 28 (8) 553–572. https://doi.org/10.1080/10170669.2011.644330 (December) (EI, TSSCI)
  87. Chen, T.-Y.* (2011), “A comparative analysis of score functions for multiple criteria decision making in intuitionistic fuzzy settings,” Information Sciences 181 (17) 3652–3676. https://doi.org/10.1016/j.ins.2011.04.030 (September) (SCI, Rank: 16/164=9.76%, Q1, IF: 8.233)
  88. Lai, H.-L., and Chen, T.-Y.* (2011), “A fuzzy risk-assessment method using a TOPSIS approach based on interval-valued fuzzy numbers,” Journal of the Chinese Institute of Industrial Engineers 28 (6) 467–484. https://doi.org/10.1080/10170669.2011.613953 (September) (EI, TSSCI)
  89. Chen, T.-Y.* (2011), “Bivariate models of optimism and pessimism in multi-criteria decision-making based on intuitionistic fuzzy sets,” Information Sciences 181 (11) 2139–2165. https://doi.org/10.1016/j.ins.2011.01.036 (June) (SCI, Rank: 16/164=9.76%, Q1, IF: 8.233)
  90. Chen, T.-Y.* (2011), “Optimistic and pessimistic decision making with dissonance reduction using interval-valued fuzzy sets,” Information Sciences 181 (3) 479–502. https://doi.org/10.1016/j.ins.2010.10.005 (February) (SCI, Rank: 16/164=9.76%, Q1, IF: 8.233)
  91. Chen, T.-Y.* (2011), “A multimeasure approach to optimism and pessimism in multiple criteria decision analysis based on Atanassov fuzzy sets,” Expert Systems with Applications 38 (10) 12569–12584. https://doi.org/10.1016/j.eswa.2011.04.045 (June) (SCI, Rank: 23/276=8.33%, Q1, IF: 8.665)
  92. Wu, M.-C., and Chen, T.-Y.* (2011), “The ELECTRE multicriteria analysis approach based on Atanassov’s intuitionistic fuzzy sets,” Expert Systems with Applications 38 (10) 12318–12327. https://doi.org/10.1016/j.eswa.2011.04.010 (September) (SCI, Rank: 23/276=8.33%, Q1, IF: 8.665)
  93. Chen, T.-Y.* (2011), “Experimental analysis of score functions in multi-criteria decision-making with intuitionistic fuzzy sets,” Journal of the Chinese Institute of Industrial Engineers 28 (3) 206–225. https://doi.org/10.1080/10170669.2010.551789 (April) (EI, TSSCI)
  94. Chen, T.-Y.*, and Shr, L.-C. (2011), “Measuring brand image by intuitionistic fuzzy multiattribute models: A comparative analysis,” (in Chinese) Journal of Management and Systems 18 (3) 443–477. (July) (TSSCI)
  95. Chen, T.-Y.* (2011), “Multi-criteria decision-making method with leniency reduction based on interval-valued fuzzy sets,” Journal of the Chinese Institute of Industrial Engineers 28 (1) 1–19. https://doi.org/10.1080/10170669.2010.528919 (January) (EI, TSSCI)
  96. Chen, T.-Y.*, Wang, H.-P., and Lu, Y.-Y. (2011), “A multicriteria group decision-making approach based on interval-valued intuitionistic fuzzy sets: A comparative perspective,” Expert Systems with Applications 38 (6) 7647–7658. https://doi.org/10.1016/j.eswa.2010.12.096 (June) (SCI, Rank: 23/276=8.33%, Q1, IF: 8.665)
  97. Chen, T.-Y.*, and Li, C.-H. (2010), “Determining objective weights with intuitionistic fuzzy entropy measures: A comparative analysis,” Information Sciences 180 (21) 4207–4222. https://doi.org/10.1016/j.ins.2010.07.009 (November) (SCI, Rank: 16/164=9.76%, Q1, IF: 8.233)
  98. Chen, T.-Y.* (2010), “An outcome-oriented approach to multicriteria decision analysis with intuitionistic fuzzy optimistic/pessimistic operators,” Expert Systems with Applications 37 (12) 7762–7774. https://doi.org/10.1016/j.eswa.2010.04.064 (December) (SCI, Rank: 23/276=8.33%, Q1, IF: 8.665)
  99. Chen, T.-Y.*, and Li, C.-H. (2009), “A comparative analysis of objective weighting methods with intuitionistic fuzzy entropy measures,” Journal of the Chinese Institute of Industrial Engineers 26 (6) 469–479. https://doi.org/10.1080/10170660909509161 (November) (EI, TSSCI)
  100. Chen, T.-Y.*, and Wang, J.-C. (2009), “Interval-valued fuzzy permutation method and experimental analysis on cardinal and ordinal evaluations,” Journal of Computer and System Sciences 75 (7) 371–387. https://doi.org/10.1016/j.jcss.2009.03.002 (November) (SCI, Rank: 80/109=73.39%, Q3, IF: 1.043)
  101. Chen, T.-Y.*, and Chou, C.-C. (2009), “Fuzzy automata with Atanassov’s intuitionistic fuzzy sets and their applications to product involvement,” Journal of the Chinese Institute of Industrial Engineers 26 (4) 245–254. https://doi.org/10.1080/10170660909509140 (July) (EI, TSSCI)
  102. Liao, T.-H., and Chen, T.-Y.* (2008), “The relationships among product knowledge, anxiety, and post-purchase dissonance,” (in Chinese) Journal of Management and Systems 15 (3) 411–438. (July) (TSSCI)
  103. Chen, T.-Y.*, and Tsao, C.-Y. (2008), “The interval-valued fuzzy TOPSIS method and experimental analysis,” Fuzzy Sets and Systems 159 (11) 1410–1428. https://doi.org/10.1016/j.fss.2007.11.004 (June) (SCI, Rank: 6/267=2.25%, Q1, IF: 4.462)
  104. Chen, T.-Y.*, and Ku, T.-C. (2008), “Importance-assessing method with fuzzy number-valued fuzzy measures and discussions on TFNs and TrFNs,” International Journal of Fuzzy Systems 10 (2) 92–103. (June) (SCI, Rank: 23/65=35.38%, Q2, IF: 4.085)
  105. Chen, T.-Y.*, and Tien, G.-F. (2008), “The metrics for measuring the effectiveness of web advertisements,” (in Chinese) Journal of Management and Systems 15 (2) 177–208. (April) (TSSCI)
  106. Chen, T.-Y.*, and Wang, H.-P. (2007), “Using fuzzy automata to develop an integrated model for personal involvement in advertising,” International Journal of Fuzzy Systems 9 (4) 247–260. https://doi.org/10.1.1.618.5057 (December) (SCI, Rank: 23/65=35.38%, Q2, IF: 4.085)
  107. Chen, T.-Y.* (2007), “A note on distances between intuitionistic fuzzy sets and/or interval-valued fuzzy sets based on the Hausdorff metric,” Fuzzy Sets and Systems 158 (22) 2523–2525. https://doi.org/10.1016/j.fss.2007.04.024 (November) (SCI, Rank: 6/267=2.25%, Q1, IF: 4.462)
  108. Chen, T.-Y.* (2007), “Remarks on the subtraction and division operations over intuitionistic fuzzy sets and interval-valued fuzzy sets,” International Journal of Fuzzy Systems 9 (3) 169–172. (September) (SCI, Rank: 23/65=35.38%, Q2, IF: 4.085)
  109. Chen, T.-Y.* (2006), “Using a distance between fuzzy number-valued fuzzy measures to determine attribute importance: An outcome-oriented perspective,” International Journal of Fuzzy Systems 8 (3) 127–136. https://doi.org/10.1.1.580.9665 (September) (SCI, Rank: 23/65=35.38%, Q2, IF: 4.085)
  110. Wang, J.-C., and Chen, T.-Y.* (2005), “Experimental analysis of l-fuzzy measure identification by evolutionary algorithms,” International Journal of Fuzzy Systems 7 (1) 1–10. (March) (SCI, Rank: 23/65=35.38%, Q2, IF: 4.085)
  111. Chen, T.-Y.*, and Li, K.-W. (2005), “Experimental analysis of different types of Internet advertisements on consumer attention,” (in Chinese) Journal of Management and Systems 12 (2) 1–31. (April) (TSSCI)
  112. Chen, T.-Y.*, and Chen, Y.-H. (2005), “Applying fuzzy number-valued fuzzy measures on weight assessment,” (in Chinese) Industry and Management Forum 7 (4) 153–177. (December) (TSSCI)
  113. Chen, T.-Y.* (2003), “Expansion design of competence sets for the consumer decision problem,” (in Chinese) Journal of Management 20 (5) 859–897. https://doi.org/10.6504/JOM.2003.20.05.02 (October) (TSSCI)
  114. Chen, T.-Y.* (2002), “Expanding competence sets for the consumer decision problem,” European Journal of Operational Research 138 (3) 622–648. https://doi.org/10.1016/S0377-2217(01)00152-7 (May) (SCI, Rank: 17/87=19.54%, Q1, IF: 6.363)
  115. Chen, T.-Y.*, Chang, H.-L., and Tzeng, G.-H. (2002), “Using fuzzy measures and habitual domains to analyze the public attitude and apply on the gas taxi policy,” European Journal of Operational Research 137 (1) 145–161. https://doi.org/10.1016/S0377-2217(01)00137-0 (February) (SCI, Rank: 17/87=19.54%, Q1, IF: 6.363)
  116. Chen, T.-Y.*, and Wang, J.-C. (2001), “Identification of l-fuzzy measures using sampling design and genetic algorithms,” Fuzzy Sets and Systems 123 (3) 321–341. https://doi.org/10.1016/S0165-0114(01)00010-0 (November) (SCI, Rank: 6/267=2.25%, Q1, IF: 4.462)
  117. Chen, T.-Y.* (2001), “Using competence sets to analyze the consumer decision problem,” European Journal of Operational Research 128 (1) 98–118. https://doi.org/10.1016/S0377-2217(99)00353-7 (January) (SCI, Rank: 17/87=19.54%, Q1, IF: 6.363)
  118. Chen, T.-Y.*, Chang, H.-L., and Tzeng, G.-H. (2001), “Using a weight-assessing model to identify route choice criteria and information effects,” Transportation Research Part APolicy and Practice 35 (3) 197–224. https://doi.org/10.1016/S0965-8564(99)00055-5 (March) (SSCI, Rank: 28/379=7.39%, Q1, IF: 6.615)
  119. Chen, T.-Y.*, Wang, J.-C., and Tzeng, G.-H. (2000), “Identification of general fuzzy measure by genetic algorithm based on partial information,” IEEE Transactions on Systems, Man, and CyberneticsPart B: Cybernetics 30 (4) 517–528. https://doi.org/10.1109/3477.865169 (August) (2014 SCI, Rank: 3/123=2.44%, Q1, IF: 6.220)
  120. Chen, T.-Y.*, and Tzeng, G.-H. (2000), “Reducing the amount of information necessary to compute fuzzy measures used in multiattribute decision making,” (in Chinese) Journal of Management 17 (3) 483–514. (September) (TSSCI)
  121. Chen, T.-Y.*, Wang, J.-C., and Tzeng, G.-H. (1999), “Dynamic analysis of importance-assessing for evaluation criteria using habitual domain theory,” (in Chinese) Journal of Management 16 (2) 255–283. (June) (TSSCI)
  122. Tzeng, G.-H.*, Chen, T.-Y., and Wang, J.-C. (1998), “A weight-assessing method with habitual domains,” European Journal of Operational Research 110 (2) 342–367. https://doi.org/10.1016/S0377-2217(97)00246-4 (October) (SCI, Rank: 17/87=19.54%, Q1, IF: 6.363)
  123. Chen, T.-Y., Chang, H.-L.*, and Huang, S.-F. (1997), “A study of attributes’ interaction in decision making for mode choice using habitual domains--a case of motorcycle users in Taipei,” (in Chinese) Transportation Planning Journal 26 (1) 1–36. (March) (TSSCI)
  124. Chang, H.-L.*, and Chen, T.-Y. (1996), “Competence set analysis of mode choice and its application on Mass Rapid Transit,” (in Chinese) Transportation Planning Journal 25 (3) 439–466. (September) (TSSCI)

Articles in Other Journals

  1. Wang, J.-C., and Chen, T.-Y.* (2017), “A novel multiple criteria decision-making method using a likelihood-based compromise approach under complex uncertainty,” International Journal of Research in Engineering & Technology 6 (6) 46–57. (June) (IF by ISRA: 3.935, Index Copernicus Value: 49.63)
  2. Wang, J.-C., and Chen, T.-Y.* (2014), “Approach to multiple criteria group decision-making with incompletely identified information based on interval type-2 fuzzy sets,” Advances in Fuzzy Sets and Systems 18 (2) 131–149. (December) (MathSciNet, Global Impact Factor: 1.009)
  3. Wu, M.-C., and Chen, T.-Y.* (2012), “Interval-valued intuitionistic fuzzy ELECTRE method,” Asian International Journal of Science and Technology in Production and Manufacturing Engineering 5 (3) 33–40. (September)
  4. Chen, T.-Y.*, and Wang, J.-C. (2012), “Intuitionistic fuzzy decision analysis with dissonance reduction for optimistic/pessimistic decision makers,” Pan-Pacific Management Review 15 (2) 99–129. (July)
  5. Chen, T.-Y.*, and Wang, J.-C. (2012), “An interactive procedure for interval type-2 fuzzy decision making with incomplete information and applications to site selection,” Advances in Fuzzy Sets and Systems 12 (1) 17–48. (June) (MathSciNet, Global Impact Factor: 1.009)
  6. Chen, T.-Y.*, and Lin, C.-T. (2011), “Group decision making model based on interval-valued fuzzy numbersCases on selection of recruiting approaches,” (in Chinese) Management Science Research 7 (2) 1–31.
  7. Chen, T.-Y.*, and Li, Y.-S. (2011), “The influential paths of wellness tourism advertising under the elaboration likelihood model,” (in Chinese) Operating Management Reviews 7 (1) 77–105.
  8. Chen, T.-Y.*, and Tang, Y.-T. (2011), “The intuitionistic fuzzy permutation method in multiple attribute decision making and experimental analysis on data collection reduction,” (in Chinese) Mingchi Management Review 42 (1) 13–23.
  9. Chen, T.-Y.*, Lu, Y.-Y., and Wang, H.-P. (2011), “Group decision making methods based on interval-valued intuitionistic fuzzy sets,” (in Chinese) Journal of Business Administration 88 (Mar.) 39–68.
  10. Chen, T.-Y.*, Li, Y.-J., and Wang, H.-P. (2011), “A dissonance reduction method for intuitionistic fuzzy multi-criteria decision-making problems,” Pan-Pacific Management Review 14 (1) 1–27. https://doi.org/10.30166/PPMR.201101.0001
  11. Chen, T.-Y.*, Zheng, Y.-T., and Wang, H.-P. (2011), “Customer satisfaction measurement by intuitionstic fuzzy multiple attribute methods: A comparative analysis,” (in Chinese) Journal of Customer Satisfaction 7 (1) 101–134.
  12. Chen, T.-Y.*, and Tang, Y.-T. (2010), “The permutation method in multiple attribute decision making based on intuitionistic fuzzy sets,” (in Chinese) Management Science Research 7 (1) 1–16.
  13. Chen, T.-Y.*, Wang, H.-P., and Yen, L.-H. (2010), “An integrated model of consumer involvement based on fuzzy automata,” Pan-Pacific Management Review 13 (2) 1–34. https://doi.org/10.30166/PPMR.201007.0001
  14. Chen, T.-Y.*, Wu, C.-H., and Wang, H.-P. (2010), “The effect of brand name combinations on brand alliance,” (in Chinese) Marketing Review 7 (3) 323–356.
  15. Chen, T.-Y.*, and Li, C.-H. (2010), “Assessing informational importance by using intuitionistic fuzzy entropy measures and experimental analysis,” Advances in Fuzzy Sets and Systems 6 (1) 77–94. (MathSciNet, Global Impact Factor: 1.009)
  16. Chen, T.-Y.* (2010), “On properties of optimistic and pessimistic point operators over interval-valued fuzzy sets,” Advances in Fuzzy Sets and Systems 5 (2) 105–126. (MathSciNet, Global Impact Factor: 1.009)
  17. Chen, T.-Y.*, Huang, S.-F., and Wang, H.-P. (2010), “A comparative study applying intuitionistic fuzzy scales to measure store image,” (in Chinese) Journal of Business Administration 84 (Mar.) 71–106.
  18. Chen, T.-Y.*, and Shr, L.-C. (2010), “Using intuitionistic fuzzy evaluation functions and score functions to identify brand imagecases on mobile phones,” (in Chinese) Management Science Research 6 (2) 1–29.
  19. Chen, T.-Y.*, and Shr, L.-C. (2010), “Using intuitionistic fuzzy evaluation functions to develop the measurement model of brand image,” (in Chinese) Mingchi Management Review 41 (2) 21–36.
  20. Chen, T.-Y.*, and Huang, S.-F. (2009), “Measuring store image by using intuitionistic fuzzy averaging operationscases on department stores,” (in Chinese) Chaoyang Business and Management Review 8 (3–4) 75–98.
  21. Chen, T.-Y.*, and Shr, L.-C. (2009), “Using intuitionistic fuzzy multiattribute models to measure brand image,” (in Chinese) Management Research 9 (Dec.) 137–176. https://doi.org/10.6626/MR.2009.9.06
  22. Chen, T.-Y.*, and Huang, S.-F. (2009), “Exploring the measurement of store images based on intuitionistic fuzzy scales and evaluation functions,” (in Chinese) Operating Management Reviews 5 (2) 1–16.
  23. Chen, T.-Y.*, and Huang, S.-F. (2009), “The intuitionistic fuzzy scaling model of store image: Applications of evaluation functions and score functions,” (in Chinese) Chung Yuan Management Review 7 (2) 55–80.
  24. Chen, T.-Y.*, and Li, Y.-W. (2009), “The extended TOPSIS method with interval-valued fuzzy sets and experimental analysis on separation measures,” Advances in Fuzzy Sets and Systems 4 (3) 269–292. (MathSciNet, Global Impact Factor: 1.009)
  25. Chen, T.-Y.*, and Li, Y.-W. (2009), “The intuitionistic fuzzy TOPSIS method in decision analysis and experimental analysis on distance measures,” Pan-Pacific Management Review 12 (2) 77–111.
  26. Chen, T.-Y.*, and Zheng, Y.-T. (2009), “Consumer satisfaction with the intuitionistic fuzzy sets: Conceptualization and measurement,” (in Chinese) Marketing Review 6 (2) 159–184. https://doi.org/10.29931/MR.200906.0001
  27. Chen, T.-Y.*, and Lu, P.-J. (2009), “The study of cognitive age and exploratory buying behavior for elderly people,” (in Chinese) Mingchi Management Review 41 (1) 57–71.
  28. Chen, T.-Y.*, Chu, Y.Y., and Shr, L.-C. (2009), “Exploring consumer perceived barriers towards mobile internet and their influential factors in the perspective of innovation adoption and resistance,” (in Chinese) Mingchi Management Review 40 (2) 27–44.
  29. Chen, T.-Y.*, and Zheng, Y.-T. (2009), “Extending the concept of consumer satisfaction by using averaging operations based on intuitionistic fuzzy sets,” (in Chinese) Operating Management Reviews 5 (1) 55–80.
  30. Chen, T.-Y.*, Wu, F.-H., and Shr, L.-C. (2008), “Exploring influential factors on consumer intentions to use cash cards based on the theory of planned behavior,” (in Chinese) Management Research 8 (2) 107–137. https://doi.org/10.6626/MR.2008.8.05
  31. Chen, T.-Y.*, and Huang, S.-Y. (2008), “Exploring effective market segmentation and segmentation bases for mobile commerce,” (in Chinese) Operating Management Reviews 4 (2) 97–126.
  32. Chen, T.-Y.*, and Peng, Y.-M. (2008), “Reducing positive leniency in importance assessing with fuzzy measure ratings,” Advances in Fuzzy Sets and Systems 3 (2) 175–219. (MathSciNet, Global Impact Factor: 1.009)
  33. Chen, T.-Y.*, and Chou, C.-C. (2008), “Conceptualizing product involvement using fuzzy automata: An integrated model of antecedents and consequences,” Pan-Pacific Management Review 11 (2) 1–37.
  34. Chen, T.-Y.*, and Chen, R.-R. (2008), “A study on the product involvement using fuzzy systems -- cases on automobile,” (in Chinese) Management Science Research 5 (1) 61–97.
  35. Chen, T.-Y.*, and Yen, L.-H. (2008), “Intuitionistic fuzzy automata and applications to consumer involvement in marketing,” Advances in Fuzzy Sets and Systems 3 (1) 43–85. (MathSciNet, Global Impact Factor: 1.009)
  36. Chen, T.-Y.*, and Tsui, C.-W. (2007), “An inquiry into consumer decision rules with fuzzy inference,” (in Chinese), Management Science Research, Special Issue, 11–34.
  37. Chen, T.-Y.*, Pan, X.-H., and Tsui, C.-W. (2007), “Examining the influences of telepresence and vividness of visual imagery on online learning efficiency,” (in Chinese) Operating Management Reviews, Special Issue, 113–138.
  38. Chen, T.-Y.*, and Lin, H.-T. (2007), “A study of brand equity and switching barrier affecting customer loyalty in private banking clients,” (in Chinese) Mingchi Management Review 38 (2) 81–96.
  39. Chen, T.-Y.*, Chen, M.-H., and Chu, Y.Y. (2006), “The influences of multimedia message service characteristics on advertising value and effectiveness,” (in Chinese) Marketing Review 3 (3) 279–310.
  40. Chen, T.-Y.*, and He, Q.-Y. (2006), “Applying decision tree techniques to explore the bases of market segmentation of CCRCs,” (in Chinese) Operating Management Reviews 2 (2) 61–84.
  41. Chen, T.-Y.*, Hsieh, C.-M. Jamal, and Liu, M.-Y. (2006), “Relationship quality and its relation to customer loyalty: Research on health examination centers using LISREL,” (in Chinese) Mingchi Management Review 38 (1) 43–62.
  42. Chen, T.-Y.*, and He, Q.-Y. (2006), “Applying decision tree techniques to segmentation bases for e-marketing,” (in Chinese) Management Science Research 3 (1) 1–25.
  43. Chen, T.-Y.*, and Chen, R.-R. (2005), “Applying fuzzy measures and competence sets to design the expansion process of the service set for cybercafes,” (in Chinese) Electronic Commerce Studies 3 (2) 173–192. https://doi.org/10.29767/ECS.200507.0004
  44. Chen, T.-Y.*, and Chen, D.-Y. (2005), “Exploring the relation between client-side functions of the travel web site and performance indices for eCRM,” (in Chinese) Mingchi Management Review 37 (1) 51–64.
  45. Chen, T.-Y.*, Chen, X.-D., and Chen, Y.-H. (2005), “i-mode: Any people can enjoy mobile-commerce services in anyplace at any time,” (in Chinese) Journal of Chinese Management Case Studies, Fall 2002/Spring 2003, 53–74.
  46. Chen, T.-Y.*, and Chen, X.-D. (2005), “i-mode: Any people can enjoy mobile-commerce services in anyplace at any time (teaching manual),” (in Chinese) Journal of Chinese Management Case Studies, Fall 2002/Spring 2003, 75–85.
  47. Chen, T.-Y.*, and Lu, P.-J. (2005), “Formosa Live Station: Energy deliverer of refined oil products for Formosa Petrochemical Corporation,” (in Chinese) Journal of Chinese Management Case Studies, Fall 2002/Spring 2003, 86–112.
  48. Chen, T.-Y.*, Lu, P.-J., and Chen, X.-D. (2005), “Formosa Live Station: Energy deliverer of refined oil products for Formosa Petrochemical Corporation (teaching manual),” (in Chinese) Journal of Chinese Management Case Studies, Fall 2002/Spring 2003, 113–130.
  49. Chen, T.-Y.*, and Lin, Z.-X. (2005), “Exploring elderly people’s intention to reside at long-term care institutions -- the influences of demographic variables, lifestyle, behavior variables, and consumer involvement,” (in Chinese) Operating Management Reviews 1 (1) 47–77.
  50. Chen, T.-Y.*, and Kang, C.-W. (2005), “The relationship between the degree of involvement with on-line products and consumption behavior--cases of on-line games, e-learning, and on-line trading,” (in Chinese) Hsuan Chuang Journal of Management 2 (1) 50–88.
  51. Chen, T.-Y.*, and Huang, C.-H. (2005), “Exploring effective market segmentation and segmentation bases for Internet marketing,” (in Chinese) Hsuan Chuang Journal of Management 2 (1) 89–121.
  52. Chen, T.-Y.*, and Lai, C.-H. (2004), “A study on the components of online store images and the influences with consumer buying behavior,” (in Chinese) Journal of Industry Management 5 (2) 203–233.
  53. Chen, T.-Y.*, and Hu, K.-J. (2004), “The first car of Formosa Automobile Corporation: MAGNUS,” (in Chinese) Journal of Chinese Management Case Studies, Fall 2001/Spring 2002, 44–68.
  54. Chen, T.-Y.*, Hu, K.-J., and Lai, C.-H. (2004), “The first car of Formosa Automobile Corporation: MAGNUS (teaching manual),” (in Chinese) Journal of Chinese Management Case Studies, Fall 2001/Spring 2002, 69–78.
  55. Chen, T.-Y.*, and Tzeng, G.-H. (2003), “Exploring the public attitude using fuzzy measures and fuzzy integrals,” Pan-Pacific Management Review 6 (1) 45–58. https://doi.org/10.30166/PPMR.200301.0003
  56. Chen, T.-Y.* (2002), “Analyzing consumers’ extensive problem solving processes using competence sets,” Pan-Pacific Management Review 5 (1) 45–64.
  57. Chen, T.-Y.*, Wang, J.-C., and Tzeng, G.-H. (2001), “Using genetic algorithms to identify fuzzy measures for multiple attribute decision making,” Pan-Pacific Management Review 4 (2) 127–143. https://doi.org/10.30166/PPMR.200108.0001
  58. Chen, T.-Y.*, Chang, C.-C., and Tzeng, G.-H. (2001), “Applying fuzzy measures to establish priority-setting procedures for the pavement management system,” Pan-Pacific Management Review 4 (1) 35–54.

瀏覽數: