Disassembly sequencing using genetic algorithm

Kongar, Elif; Gupta, Surendra M.

doi:10.1007/s00170-005-0041-x

Cited by 158 publications

(68 citation statements)

References 22 publications

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“…Seo et al (2001) presented a genetic algorithm-based approach for an optimal disassembly sequence in term of considering the economic and environmental aspects. Similar study also can be found in (Kongar and Gupta, 2006). Galantucci et al (2004) propose the implementation of hybrid Fuzzy LogicGenetic Algorithm (FL-GA) methodology to plan the automatic assembly and disassembly sequence of products.…”

Section: Disassembly Sequencementioning

confidence: 70%

“…Thus, finding an optimal (or near optimal) disassembly sequence is crucial so as to increase the efficiency of the process (Kongar and Gupta, 2006). By definition, a DSP is a sequence of disassembly tasks that begins with a product to be disassembled and terminates in a state where all the parts of the product are disconnected (Gungor and Gupta, 1997).…”

Section: Overview Of Dspmentioning

confidence: 99%

“…In recent years, the growing amount of waste generated at the End-Of-Life (EOL) of products has become a severe problem in many countries (Kongar and Gupta, 2006). Therefore, in the field of conception and development of industrial products, an approach called Life Cycle Design or Life Cycle Engineering (LCE) has spread and received increasing attention (Giudice and Fargione, 2007).…”

Section: Introductionmentioning

confidence: 99%

“…This includes the growing take-back legislations in Europe, Australia and Asia that motivates the implementation of product EOL options other than landfill and incineration (Kara et al, 2005). In the majority of EOL processing, a certain level of disassembly may be necessary (Kongar and Gupta, 2006;Lambert, 2002;Lambert and Gupta, 2004). The disassemblability concept evolved from the life cycle engineering concept where the design for disassembly is one of the strategies in reducing the impact of the product to the environment (Afrinaldi et al, 2008).…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

A Design Framework for End-of-Life Vehicles Recovery: Optimization of Disassembly Sequence Using Genetic Algorithms

Go¹,

Wahab²,

Rahman³

et al. 2010

American J. of Environmental Sciences

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Problem statement: It is expected that over the next few years type approval legislation and public awareness will force vehicle manufacturers to identify recovery methods during the design process in order to achieve reuse and recycling targets. Current vehicle design in Malaysia does not sufficiently aid the economic recovery of parts and materials to reach these targets. Approach: This study aimed to provide a framework for automotive components to be designed for ease of recovery. Disassemblability concept evolved from the life cycle engineering concept in which design for disassembly is one of the strategies in reducing the impact of the product to the environment. Results: The proposed methodology that consisted of three distinct elements namely implementing principles and guidelines of design for disassembly into the design, generating optimum disassembly using genetic algorithm approach and evaluating disassemblability of end-of-life products will be discussed. Conclusion/Recommendations: There is a need for effective disassembly in order to enhance the recovery of end-of-life product.The proposed methodology was implemented as a computer-based disassemblability evaluation tool that will enhance disassemblability of the product starting from the design stage.

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Section: Disassembly Sequencementioning

confidence: 70%

Section: Overview Of Dspmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

A Design Framework for End-of-Life Vehicles Recovery: Optimization of Disassembly Sequence Using Genetic Algorithms

Go¹,

Wahab²,

Rahman³

et al. 2010

American J. of Environmental Sciences

View full text Add to dashboard Cite

show abstract

“…This dilemma is due to the lack of information on the condition of the components prior to disassembly. However, there is a simple solution: Test each individual component after disassembly (Kongar and Gupta 2006).…”

Section: Introductionmentioning

confidence: 99%

Money-back guarantee warranty policy with preventive maintenance strategy for sensor-embedded remanufactured products

Alqahtani

Gupta

2018

J Ind Eng Int

Self Cite

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In today's global environment, technology is constantly evolving. Being able to stay up-to-date with the very latest technological advances can be extremely hard to accomplish. As a result of these changes and developments in technology, which often come unexpectedly, consumers are frequently tempted to update their devices to the very latest model. The result is that the life cycle of a product is becoming shorter and shorter than before. Manufacturers attempt to respond to consumers' concerns involving environmental issues as well as the more governmentally stringent environmental legislations by establishing facilities which include the minimization of the totality of waste relocated to landfills by recovering materials and components from returned, or End-Of-Life products and reuse them to build a remanufactured product, and/ or novel components. With the rapid growth of interest in remanufactured products' market, offering warranty for remanufactured products and components is becoming a necessity for remanufacturer in order to meet customers' requirement and as a marketing mechanism. During that process, maintenance policies are of great importance in order to reduce the warranty cost on the remanufacturer. In this paper, an optimization simulation model for remanufactured items sold with one-dimensional non-renewing money-back guarantee (MBG) warranty policy is proposed from the view of remanufacturer, in which, an End-Of-Life product is subjected to upgrade action at the end of its past life and during the warranty period, preventive maintenance actions are carried out when the remaining life of the product reaches a prespecified value so that the remanufacturer's expected profit can be maximized. Finally, a numerical example and design of experiment analysis are provided to demonstrate the proposed approach.

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Disassembly 4.0: A Review on Using Robotics in Disassembly Tasks as a Way of Automation

Poschmann

Brüggemann

Goldmann

2020

Chemie Ingenieur Technik

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To successfully implement circular economy processes into present value chains, economic feasibility of disassembly processes is essential. Current developments in science and technology, such as artificial intelligence and Internet of Things, foster steep progression in the field of robotics. In this review, the current research on robotics in disassembly is investigated by a systematic literature review. The results were clustered in a framework system distinguishing between applied and basic research on the two main streams of disassembly automation research, namely, predefined processes and adaptable, flexible automation.

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Disassembly sequencing using genetic algorithm

Cited by 158 publications

References 22 publications

A Design Framework for End-of-Life Vehicles Recovery: Optimization of Disassembly Sequence Using Genetic Algorithms

A Design Framework for End-of-Life Vehicles Recovery: Optimization of Disassembly Sequence Using Genetic Algorithms

Money-back guarantee warranty policy with preventive maintenance strategy for sensor-embedded remanufactured products

Disassembly 4.0: A Review on Using Robotics in Disassembly Tasks as a Way of Automation

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