Multi-objective optimization of production scheduling with evolutionary computation: A review

Ojsteršek, Robert; Brezočnik, Miran; Buchmeister, Borut

doi:10.5267/j.ijiec.2020.1.003

Cited by 33 publications

(20 citation statements)

References 75 publications

(82 reference statements)

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…The machine can only perform one operation at a time. The assignment of operation to the machine is given to the occupancy of the machine and the relevance of the machine to carry out the operation [7,26], so only some number of routings are possible for individual product.…”

Section: Scheduling In the Flexible Job Shop Systemsmentioning

confidence: 99%

“…In this context, heuristic procedures, nature-inspired methods, neural networks, and utilizing priority dispatching rules are the most applied methods to solve the optimization problem in scheduling [1]. The most common metaheuristic procedures, such as Simulating Annealing [6], Tabu search [12], Random Search, or many types of nature-inspired optimization methods, such as evolutionary [7,28,29] and genetic algorithms [18], ant colony optimization [30], or particle swarm optimization [16,19,31], can provide acceptable solutions near the optimum. Although metaheuristics are advantageous in the sense of the solution quality and robustness, they do not guarantee solution optimality [1,27], they depend on the choice of method's parameters [11], and they are often too complex to implement computationally in a real-time system [2].…”

Section: Scheduling In the Flexible Job Shop Systemsmentioning

confidence: 99%

“…Exact optimization methods are mainly used only for the systems which have a specific topology where very strong simplifying assumptions must be used [6], so they are not too applicable in a real-world scenario for more complex systems. In that case, approximate optimization methods and metaheuristics [7] based on stochastic local search approach, machine learning techniques, especially artificial neural networks (ANN), fuzzy logic methods, and expert systems, are at the center of research interest to find optimal or near-optimal solutions [8,9] instead of exact mathematical optimization models.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Multi-Criteria Optimization in Operations Scheduling Applying Selected Priority Rules

et al. 2021

View full text Add to dashboard Cite

The utilization of a specific priority rule in scheduling operations in flexible job shop systems strongly influences production goals. In a context of production control in real practice, production performance indicators are evaluated always en bloc. This paper addresses the multi-criteria evaluating five selected conflicting production objectives via scalar simulation-based optimization related to applied priority rule. It is connected to the discrete-event simulation model of a flexible job shop system with partially interchangeable workplaces, and it investigates the impact of three selected priority rules—FIFO (First In First Out), EDD (Earliest Due Date), and STR (Slack Time Remaining). In the definition of the multi-criteria objective function, two scalarization methods—Weighted Sum Method and Weighted Product Method—are employed in the optimization model. According to the observations, EDD and STR priority rules outperformed the FIFO rule regardless of the type of applied multi-criteria method for the investigated flexible job shop system. The results of the optimization experiments also indicate that the evaluation via applying multi-criteria optimization is relevant for identifying effective solutions in the design space when the specific priority rule is applied in the scheduling operations.

show abstract

Section: Scheduling In the Flexible Job Shop Systemsmentioning

confidence: 99%

Section: Scheduling In the Flexible Job Shop Systemsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Multi-Criteria Optimization in Operations Scheduling Applying Selected Priority Rules

et al. 2021

View full text Add to dashboard Cite

show abstract

“…Finding the optimal solution for this problem is too complex, and so it is classified in the NP-hard class [1,2]. On the other hand, the JSSP foundations provide a theoretical background for developing efficient algorithms for other significant sequencing problems, which have many production systems applications [3]. Furthermore, designing and evaluating new algorithms for JSSP is relevant not only because it represents a big challenge but also for its high industrial applicability [4].…”

Section: Introductionmentioning

confidence: 99%

Chaotic Multi-Objective Simulated Annealing and Threshold Accepting for Job Shop Scheduling Problem

Frausto–Solís

Hernández-Ramírez

Castilla-Valdez

et al. 2021

MCA

View full text Add to dashboard Cite

The Job Shop Scheduling Problem (JSSP) has enormous industrial applicability. This problem refers to a set of jobs that should be processed in a specific order using a set of machines. For the single-objective optimization JSSP problem, Simulated Annealing is among the best algorithms. However, in Multi-Objective JSSP (MOJSSP), these algorithms have barely been analyzed, and the Threshold Accepting Algorithm has not been published for this problem. It is worth mentioning that the researchers in this area have not reported studies with more than three objectives, and the number of metrics they used to measure their performance is less than two or three. In this paper, we present two MOJSSP metaheuristics based on Simulated Annealing: Chaotic Multi-Objective Simulated Annealing (CMOSA) and Chaotic Multi-Objective Threshold Accepting (CMOTA). We developed these algorithms to minimize three objective functions and compared them using the HV metric with the recently published algorithms, MOMARLA, MOPSO, CMOEA, and SPEA. The best algorithm is CMOSA (HV of 0.76), followed by MOMARLA and CMOTA (with HV of 0.68), and MOPSO (with HV of 0.54). In addition, we show a complexity comparison of these algorithms, showing that CMOSA, CMOTA, and MOMARLA have a similar complexity class, followed by MOPSO.

show abstract

“…Production scheduling is defined as allocating limited resources to do several jobs [1,2,3]. Scheduling is a decision-making process related to job sequence determination used in many manufacturing and services industries.…”

Section: Introductionmentioning

confidence: 99%

Flow Shop Scheduling Based on Palmer-Neh, Gupta-Neh and Dannenbring-Neh Algorithms to Minimize the Energy Cost

Masrikhan

Kurniawati

2021

Sinergi

View full text Add to dashboard Cite

In the manufacturing industry, the most widely used equipment is equipment that uses electricity. Electricity cost is one of the highest operational production costs after labor cost. So, it is very important to save and optimize the use of electrical equipment. One of the manufacturing industries is Taru Martani, Ltd. This research aims to minimize the energy cost by proposing three hybrid algorithms, namely Palmer-NEH, Gupta-NEH, and Dannenbring-NEH methods. Some scheduling evaluation is done using the Efficiency Index (EI) and Relative Error (RE) parameters. It is concluded that the Palmer-NEH and Gupta-NEH methods are the best methods with the lowest energy cost compared with company's actual method and the Dannenbring-NEH method. Based on the Palmer-NEH and Gupta-NEH methods, both methods can save the makespan up to 399.13 minutes or 6.65 hours compared with the company's actual method. With these methods, the company is also able to save the production cost by Rp. 818,043.00.

show abstract

Multi-objective optimization of production scheduling with evolutionary computation: A review

Cited by 33 publications

References 75 publications

Multi-Criteria Optimization in Operations Scheduling Applying Selected Priority Rules

Multi-Criteria Optimization in Operations Scheduling Applying Selected Priority Rules

Chaotic Multi-Objective Simulated Annealing and Threshold Accepting for Job Shop Scheduling Problem

Flow Shop Scheduling Based on Palmer-Neh, Gupta-Neh and Dannenbring-Neh Algorithms to Minimize the Energy Cost

Contact Info

Product

Resources

About