Bi-objective speed-scaling robotic cell scheduling with peak power consumption constraint
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Publication:6133185
DOI10.3934/jimo.2023007zbMath1524.90140OpenAlexW4319335153MaRDI QIDQ6133185
Sihan Zhang, Ada Che, Yi-pei Zhang, Jianguang Feng
Publication date: 21 July 2023
Published in: Journal of Industrial and Management Optimization (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.3934/jimo.2023007
Mixed integer programming (90C11) Deterministic scheduling theory in operations research (90B35) Combinatorial optimization (90C27)
Cites Work
- Unnamed Item
- Two-phase branch and bound algorithm for robotic cells rescheduling considering limited disturbance
- An efficient new heuristic for the hoist scheduling problem
- Hybrid discrete differential evolution algorithm for biobjective cyclic hoist scheduling with reentrance
- Flow shop scheduling with peak power consumption constraints
- Speed scaling on parallel processors
- A linear programming approach to the electricity contract capacity problem
- Parametric algorithms for 2-cyclic robot scheduling with interval processing times
- A mixed integer programming approach for multi-cyclic robotic flowshop scheduling with time window constraints
- Sequencing and scheduling in robotic cells: recent developments
- An evolutionary approach for the design and scheduling of electroplating facilities
- Nonlinear multiobjective optimization
- Cyclic scheduling in robotic flowshops
- Optimizing energy consumption of robotic cells by a branch \& bound algorithm
- A fast algorithm for multiprocessor speed-scaling problem minimizing completion time and energy consumption
- Speed scaling on parallel processors with migration
- A branch and bound algorithm for optimal cyclic scheduling in a robotic cell with processing time windows
- Optimal Cyclic Multi-Hoist Scheduling: A Mixed Integer Programming Approach
- On a Bicriterion Formulation of the Problems of Integrated System Identification and System Optimization
- Optimal Cyclic Scheduling Of A Robotic Processing Line With Two-Product And Time-Window Constraints
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