Combining Extended Imperialist Competitive Algorithm with a Genetic Algorithm to Solve the Distributed Integration of Process Planning and Scheduling Problem

Zhang, Shuai; Xu, Yangbing; Yu, Zhinan; Zhang, Wenyu; Yu, Dejian

doi:10.1155/2017/9628935

Cited by 6 publications

(5 citation statements)

References 26 publications

(27 reference statements)

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“…6 in Section 3, the shop scheduling problem is the inner layer of the ecosystem described in this work. At this level, it is possible to identify multiple characteristics of the jobs to 2012) makespan (Michalewicz, 1996) Amin-Naseri and Afshari (2012) makespan; hybridization with local search (Goldberg, 1989) Lihong and Shengping (2012) makespan, mean flowtime Zhang and Wong (2013) makespan; hibridization with multi-agent system Lv and Qiao (2014) makespan; flowtime, machine utilization rate Zhang and Wong (2015) makespan Mohapatra et al (2015) multi-objective NSGA-II; makespan, machining cost, idle time Chaudhry and Usman (2015) makespan simulation-based multi-objective under uncertainty Xia et al (2016) makespan; hybridization with Variable Neighborhood Search (Hansen andMladenović, 2003) Luo et al (2017) multi-objective; makespan, total tardiness, total flowtime, maximum and total machine workload Zhang et al (2017) makespan Lee and Ha (2019) makespan Uslu et al (2019) makespan; hybridization with ant colony optimization Ba et al (2020) multi-objective; earliness/tardiness, maximum and total machine workload Zhang et al (2020b) be processed and the resources available on the shop floor, the workflow of the jobs while they are processed in the machines, and the mainly used performance metrics.…”

Section: An Overview Of Shop Scheduling Problems Characteristicsmentioning

confidence: 99%

Shop scheduling in manufacturing environments: a review

Márquez

Ribeiro

2022

Int Trans Operational Res

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We review the literature about shop scheduling problems in manufacturing systems, revealing the concepts and methodologies that most impact the usage of scheduling theory in manufacturing environments. We focus our attention on the job shop and flow shop problems and their variants. We emphasize the interactions between the scheduling functions and manufacturing paradigms such as Industry 4.0, Computer Integrated Manufacturing, Computer‐Aided Process Planning, Advanced Planning and Scheduling, and Integrated Process Planning and Scheduling. We describe the main components and characteristics of the scheduling ecosystem, and we discuss how the scheduling interacts with the components that make it up and how it is affected by them. The metadata collected from the digital libraries on which the review was based (ScienceDirect, Scopus, and Elsevier) made it possible to characterize the historical evolution of the main concepts of the scheduling ecosystem in terms of scientific publications and research trends in the period 2000–2020.

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Section: An Overview Of Shop Scheduling Problems Characteristicsmentioning

confidence: 99%

Shop scheduling in manufacturing environments: a review

Márquez

Ribeiro

2022

Int Trans Operational Res

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“…The types of production shops include (hybrid) flow shop, parallel-machine scheduling, (flexible) job shop, and generally distributed production environments. In some studies, the distributed scheduling problems are integrated with other problems, e.g., distribution problems [35][36][37] , planning problems [38,39] , resource allocation problems [39] , and vehicle routing problems [40] . Few publications focus on real-life areas, e.g., semiconductor wafer manufacturing [41] .…”

Section: Problemmentioning

confidence: 99%

“…To address the highly complicated distributed scheduling problems, SI and EAs have been adopted, including GA [38,39,44,51,88,[93][94][95][96][97][98][99][100][101][102][103][104] , EDA [50,81,105] , MA [106] , VNS [40,42,43,53,64,76,82,98,[107][108][109] , TS [43,55,89,110,111] , PSO [107] , ACO [35,112] , DE [42,58,61,70,113] , SS [114,115] , IGA [49, 50, 55-57, 59, 63, 80, 82, 83, 86, 89, 108, 109, 115-120] , SA [38,51,…”

Section: Si and Easmentioning

confidence: 99%

Distributed scheduling problems in intelligent manufacturing systems

Hou

Wang

et al. 2021

Tsinghua Sci. Technol.

110

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Currently, manufacturing enterprises face increasingly fierce market competition due to the various demands of customers and the rapid development of economic globalization. Hence, they have to extend their production mode into distributed environments and establish multiple factories in various geographical locations.Nowadays, distributed manufacturing systems have been widely adopted in industrial production processes. In recent years, many studies have been done on the modeling and optimization of distributed scheduling problems.This work provides a literature review on distributed scheduling problems in intelligent manufacturing systems. By summarizing and evaluating existing studies on distributed scheduling problems, we analyze the achievements and current research status in this field and discuss ongoing studies. Insights regarding prior works are discussed to uncover future research directions, particularly swarm intelligence and evolutionary algorithms, which are used for managing distributed scheduling problems in manufacturing systems. This work focuses on journal papers discovered using Google Scholar. After reviewing the papers, in this work, we discuss the research trends of distributed scheduling problems and point out some directions for future studies.

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“…Zhang et al [35] developed imperialist competitive algorithm (ICA) for the districted IPPS, and GA-based method was adapted to maintain the robustness of the plan and schedule. Wang and Song [36] presented a framework of collaborative process planning system supported by a real-time monitoring system.…”

Section: Distributed Process Planningmentioning

confidence: 99%

An Adaptive Multi-Strategy Artificial Bee Colony Algorithm for Integrated Process Planning and Scheduling

Cao

Shi

2021

IEEE Access

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Traditionally, process planning and scheduling were performed sequentially, where scheduling depended on the result of process planning. Considering their complementarity, the two functions are more tightly integrated to improve the performance of job shop flexible manufacturing environment. This study proposes an adaptive multi-strategy artificial bee colony (AMSABC) algorithm to solve integrated process planning and scheduling (IPPS) problem. In AMSABC, two search strategies with different characteristics are introduced into employed bees and onlooker bees to take on the responsibility of both exploration and exploitation. The selection probability of each search strategy is dynamically adjusted according to previous experiences. To further improve the exploitation performance of the approach, a problem-specific multi-objective local search has been embedded in the proposed algorithm. Furthermore, AMSABC algorithm presents a unique solution representation where a food source is represented by three discrete vectors, and a well-designed decoding scheme is developed. Next, the corresponding neighborhood structure is adopted that it can directly generate feasible solutions in the search space. The proposed algorithm is tested on the well-known benchmark instances and compared with the state-of-the-art algorithms. Through detail analysis of experimental results, AMSABC algorithm is more beneficial in the quality and efficiency of solution.INDEX TERMS integrated process planning and scheduling, artificial bee colony algorithm, multiobjective optimization, multi-strategy collaboration, strategy adaptation This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.

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Combining Extended Imperialist Competitive Algorithm with a Genetic Algorithm to Solve the Distributed Integration of Process Planning and Scheduling Problem

Cited by 6 publications

References 26 publications

Shop scheduling in manufacturing environments: a review

Shop scheduling in manufacturing environments: a review

Distributed scheduling problems in intelligent manufacturing systems

An Adaptive Multi-Strategy Artificial Bee Colony Algorithm for Integrated Process Planning and Scheduling

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