`a`
Journal of Industrial and Management Optimization (JIMO)
 

Single-machine rescheduling problems with learning effect under disruptions
Page number are going to be assigned later 2017

doi:10.3934/jimo.2017085      Abstract        References        Full text (329.4K)      

Mingbao Cheng - School of Management, Guangdong University of Technology, Gaungzhou, Guangdong 510520, China (email)
Shuxian Xiao - School of Management, Guangdong University of Technology, Gaungzhou, Guangdong 510520, China (email)
Guosheng Liu - School of Management, Guangdong University of Technology, Gaungzhou, Guangdong 510520, China (email)

1 M. J. Anzanello and F. S. Fogliatto, Learning curve models and applications: Literature review and research directions, International Journal of Industrial Ergonomics, 41 (2011), 573-583.
2 J. P. Arnaout, Rescheduling of parallel machines with stochastic processing and setup times, Journal of Manufacturing Systems, 33 (2014), 376-384.
3 M. Azizoglu and O. Alagoz, Parallel-machine rescheduling with machine disruptions, IIE Transactions, 37 (2007), 1113-1118.
4 A. Bachman and A. Janiak, Scheduling job with position-dependent processing times, Journal of the Operational Research Society, 55 (2004), 257-264.
5 D. Biskup, Single-machine scheduling with learning considerations, European Journal of Operational Research, 115 (1999), 173-178.
6 D. Biskup, A state-of-the-art review on scheduling with learning effects, European Journal of Operational Research, 188 (2008), 315-329.       
7 M. B. Cheng and S. J. Sun, The single-machine scheduling problems with deteriorating jobs and learning effect, Zhejiang Univ. Science A, 7 (2006), 597-601.
8 M. B. Cheng, P. R. Tadikamalla, J. Shang and B. X. Zhang, Single machine scheduling problems with exponentially time-dependent learning effects, Journal of Manufacturing Systems, 34 (2015), 60-65.
9 Y. Chiu and C. J. Shih, Rescheduling strategies for integrating rush orders with preventive maintenance in a two-machine flow shop, International Journal of Production Research, 50 (2011), 5783-5794.
10 J. A. Filar, P. Manyem, D. M. Panton and K. White, A model for adaptive rescheduling of flights in emergencies, Journal of Industrial and Management Optimization, 3 (2007), 335-356.       
11 N. G. Hall and C. N. Potts, Rescheduling for new orders, Operations Research, 52 (2004), 440-453.       
12 N. G. Hall and C. N. Potts, Rescheduling for Job Unavailability, Operations Research, 58 (2010), 746-755.       
13 H. Hoogeveen, C. Lent and V. Tkindtal, Rescheduling for new orders on a single machine with setup times, European Journal of Operational Research, 223 (2012), 40-46.       
14 K. Katragjini, E. Vallada and R. Ruiz, Flow shop rescheduling under different types of disruption, International Journal of Production Research, 51 (2013), 780-797.
15 L. Liu and H. Zhou, On the identical parallel-machine rescheduling with job rework disruption, Computers & Industrial Engineering, 66 (2013), 186-198.
16 Z. Liu and K. Ro Young, Rescheduling for machine disruption to minimize makespan and maximum lateness, Journal of Scheduling, 17 (2014), 339-352.       
17 G. Mosheiov, Scheduling problems with learning effect, European Journal of Operational Research, 132 (2001), 687-693.       
18 M. Ozlen and M. Azizoglu, Rescheduling unrelated parallel machines with total flow time and total disruption cost criteria, Journal of the Operational Research Society, 62 (2011), 152-164.
19 L. L. Sun , F. J. Luan, Y. Ying and K. Mao, Rescheduling optimization of steelmaking-continuous casting process based on the Lagrangian heuristic algorithm, Journal of Industrial and Management Optimization, 13 (2017), 1431-1448.       
20 B. Vahedi-Nouri, P. Fattahi, M. Rohaninejad and R. Tavakkoli-Moghaddam, Minimizing the total completion time on a single machine with the learning effect and multiple availability constraints, Applied Mathematical Modelling, 37 (2013), 3126-3137.       
21 J. B. Wang, M. Q. Liu, N. Yin and P. Ji, Scheduling jobs with controllable processing time, truncated job-dependent learning and deterioration effects, Journal of Industrial and Management Optimization, 13 (2017), 1025-1039.       
22 T. P. Wright, Factors Affecting the Cost of Airplanes, Journal of Aeronautical Sciences 3 (1936), 122-128.
23 S. D. Wu, R. H. Storer and P. C. Chang, A rescheduling procedure for manufacturing systems under random disruptions, in: G. Fandel, T. Gulledge, A. Jone (Eds.), New Directions for Operations Research in Manufacturing, Springer, Berlin, Germany, 1992, pp. 292-306.
24 B. B. Yang, Single machine rescheduling with new jobs arrivals and processing time compression, International Journal of Advanced Manufacture Technology, 34 (2007), 378-384.
25 Y. Q. Yin, D. H. Xu, K. B. Sun and H. X. Li, Some scheduling problems with general position-dependent and time-dependent learning effects, Information Sciences, 179 (2009), 2416-2425.       
26 J. J. Yuan and Y. Mu, Rescheduling with release dates to minimize makespan under a limit on the maximum sequence disruption, European Journal of Operational Research, 182 (2007), 936-944.
27 L. Zhang, L. Gao and X. Li, A hybrid intelligent algorithm and rescheduling technique for job shop scheduling problems with disruptions, International Journal of Advanced Manufacturing Technology, 65 (2013), 1141-1156.
28 C. Zhao and H. Tang, Rescheduling problems with deteriorating jobs under disruptions, Applied Mathematical Modelling, 34 (2010), 238-243.       

Go to top