论文与专著
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林剑
教授
性别:男 学历:研究生 学位:博士
联系方式:linjian1001@126.com 办公地点:9-505
人工智能系
研究方向:智能计算、调度优化、机器学习、边缘计算等

[1]Hong-Bo Song,You-Hong Yang,Jian Lin*, Jing-Xuan Ye. An effective hyper heuristic-based memetic algorithm for the distributed assembly permutation flow-shop scheduling problem [J].Applied Soft Computing,2023, 135: 110022.(SCI)

[2]肖泽远,林剑*.基于混合蒙特卡洛树搜索的电缆盘装箱方法[J].计算机集成制造系统, 2022,网络首发.

[3]Jian Lin, Yang-Yuan Li, Hong-Bo Song*.Semiconductor final testing scheduling using Q-learning based hyper-heuristic[J].ExpertSystems With Applications, 2022, 187:115978.(SCI)

[4]Yang-Yuan Li,Jian Lin*, Zhou-Jing Wang.Multi-skill resource constrained project scheduling using a multi-objective discrete Jaya algorithm[J].Applied Intelligence, 2022, 52: 5718-5738.(SCI)

[5]林剑,李扬远,陈蒙蒙,干梦清,王凌武*.基于离散Jaya算法的线缆生产调度方法[J].计算机集成制造系统, 2021,网络首发.

[6]Lei Zhu,Jian Lin*,Yang-Yuan Li, Zhou-Jing Wang.A decomposition-based multi-objective genetic programming hyper-heuristic approach for the multi-skill resource constrained project scheduling problem[J].Knowledge-Based Systems, 2021, 225:107099.(SCI)

[7]Hongbo Song,Jian Lin*.A genetic programming hyper-heuristic for the distributed assembly permutation flowshopscheduling problem with sequence dependent setup times[J].Swarm and Evolutionary Computation, 2021(60): 100807.(SCI)

[8]Jian Lin, Lei Zhu*, Kaizhou Gao.A genetic programming hyper-heuristic approach for the multi-skillresource constrained project scheduling problem[J].ExpertSystems With Applications, 2020, 140:112915.(SCI)

[9]Lei Zhu,Jian Lin*, Zhou-Jing Wang. A discrete oppositional multi-verse optimization algorithm for multi-skill resource constrained project scheduling problem[J].Applied Soft Computing, 2019, 85:105805.(SCI)

[10]Jian Lin, Lei Zhu*, Zhou-Jing Wang. A hybrid multi-verse optimization for the fuzzy flexible job-shop scheduling problem [J]. Computers & Industrial Engineering, 2019, 127: 1089-1100.(SCI)

[11]Zhou-Jing Wang,Jian Lin, Fang Liu. Axiomatic property based consistency analysis and decision making with interval multiplicative reciprocal preference relations [J]. Information Sciences, 2019, 291: 109-137.(SCI)

[12]Jian Lin*, Zhou-Jing Wang. Multi-area economic dispatch using an improved stochastic fractal search algorithm [J]. Energy, 2019, 166: 47-58.(SCI)

[13]Jian Lin*. Backtracking search based hyper-heuristic for the flexible job-shop scheduling problem with fuzzy processing time [J]. Engineering Applications of Artificial Intelligence, 2019, 77: 186-196.(SCI)

[14]Zhou-Jing Wang,Jian Lin. Consistency and optimized priority weight analytical solutions of interval multiplicative preference relations. Information Sciences, 2019, 482: 105-122.(SCI)

[15]Zhou-Jing Wang, Fang Liu,Jian Lin. A goal programming based heuristic method to obtaining interval weights in analytic form from interval multiplicative comparison matrices[J]. Computers & Industrial Engineering, 2019, 128: 313-324.(SCI)

[16]Jian Lin*, Zhou-Jing Wang, Xiaodong Li. A backtracking search hyper-heuristic for the distributed assembly flow-shop scheduling problem [J]. Swarm and Evolutionary Computation, 2017, 36: 124-135.(SCI, SSCI)

[17]Jian Lin*, Zhou-Jing Wang. Parameter identification for fractional-order chaotic systems using a hybrid stochastic fractal search algorithm [J]. Nonlinear Dynamics, 2017, 90 (2): 1243-1255.(SCI)

[18]Zhou-Jing Wang,Jian Lin. Acceptability measurement and priority weight elicitation of triangular fuzzy multiplicative preference relations based on geometric consistency and uncertainty indices [J]. Information Sciences, 2017, 402: 105-123.(SCI, SSCI)

[19]Jian Lin*, Shuai Zhang. An effective hybrid biogeography-based optimization algorithm for the distributed assembly permutation flow-shop scheduling problem [J]. Computers & Industrial Engineering, 2016, 97: 128-136. (SCI)

[20]Zhou-Jing Wang,Jian Lin. Ratio-based similarity analysis and consensus building for group decision making with interval reciprocal preference relations. Applied Soft Computing, 2016, 42: 260-275.(SCI)

[21]Jian Lin*. A hybrid discrete biogeography-based optimization for the permutation flow shop scheduling problem. International Journal of Production Research, 2016, 54(16): 4805-4814.(SCI)

[22]Jian Lin*. Oppositional backtracking search optimization algorithm for parameter identification of hyperchaotic systems. Nonlinear Dynamics, 2015, 80(1): 209-219.(SCI)

[23]Jian Lin*. A hybrid biogeography-based optimization for the fuzzy flexible job-shop scheduling problem. Knowledge-Based Systems, 2015, 78: 59-74.(SCI)

[24]Jian Lin*, Chang Chen. Parameter estimation of chaotic systems by an oppositional seeker optimization algorithm, Nonlinear Dynamics, 2014, 76(1): 509-517. (SCI)

[25]Jian Lin, Li Xu*, Huiyuan Zhang. Hybrid biogeography based optimization for constrained optimal spot color matching [J]. Color Research and Application, 2014, 39(6): 607-615. (SCI)

[26]林剑,许力*.基于混合生物地理优化的混沌系统参数估计[J].物理学报, 2013, 62(03): 74-80. (SCI, EI)

[27]林剑,许力*.基于全局和声搜索优化的平版印刷油墨预置[J].仪器仪表学报, 2010, 31(10):2248-2253. (EI)



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