Rack shape and energy efficient operations in automated storage and retrieval systems

Rack shape and energy efficient operations in automated storage and retrieval systems

Energy efficiency has become a primary goal to be pursued for sustainable logistics. In automated storage and retrieval systems this leads to revise the traditional control policies aimed at picking time minimisation and to pay more attention to rack configuration, which has been not a research conc...

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Veröffentlicht in:International journal of production research 2015-12, Vol.53 (23), p.7090-7103
Hauptverfasser: Meneghetti, Antonella, Dal Borgo, Eleonora, Monti, Luca
Format: Artikel
Sprache:eng
Schlagworte:
automated storage and retrieval systems
Automated storage retrieval systems
Automation
constraint programming
Cranes & hoists
dual-command cycles
Energy efficiency
Energy management
Heuristic
large neighborhood search
Mathematical models
Optimization
Optimization techniques
Pallets
rack shape
Racks
Searching
storage assignment
Studies
Sustainability
Unit loads
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container_end_page 7103
container_issue 23
container_start_page 7090
container_title International journal of production research
container_volume 53
creator Meneghetti, Antonella
Dal Borgo, Eleonora
Monti, Luca
description Energy efficiency has become a primary goal to be pursued for sustainable logistics. In automated storage and retrieval systems this leads to revise the traditional control policies aimed at picking time minimisation and to pay more attention to rack configuration, which has been not a research concern from the time-based perspective. Proper models for energy calculation should be developed by introducing new factors neglected in time analysis, such as the weight of unit loads and the differentiation of shifts along the horizontal and vertical axis as regard energy requirements, due to different contribution of gravity, inertia and friction. In this study, a classification of racks based on system height is proposed in order to select the proper crane specifications needed to compute the torque to be overcome by motors to serve a given location within a rack. An overall optimisation model based on Constraint Programming hybridised with Large Neighborhood Search is developed, allowing the joint application of the best control policies for storage assignment and sequencing both for time and energy-based optimisation, as well as the introduction of multiple weight unit loads and energy recovery. Simulations analysis is performed in order to assess the impact of the rack shape on energy saving. Results show how, regardless the demand curve and the optimisation objective, the best performances in terms of energy efficiency are reached by the intermediate height rack shapes, while the lower ones outperform when considering travel time performance.
doi_str_mv 10.1080/00207543.2015.1008107
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An overall optimisation model based on Constraint Programming hybridised with Large Neighborhood Search is developed, allowing the joint application of the best control policies for storage assignment and sequencing both for time and energy-based optimisation, as well as the introduction of multiple weight unit loads and energy recovery. Simulations analysis is performed in order to assess the impact of the rack shape on energy saving. 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In automated storage and retrieval systems this leads to revise the traditional control policies aimed at picking time minimisation and to pay more attention to rack configuration, which has been not a research concern from the time-based perspective. Proper models for energy calculation should be developed by introducing new factors neglected in time analysis, such as the weight of unit loads and the differentiation of shifts along the horizontal and vertical axis as regard energy requirements, due to different contribution of gravity, inertia and friction. In this study, a classification of racks based on system height is proposed in order to select the proper crane specifications needed to compute the torque to be overcome by motors to serve a given location within a rack. An overall optimisation model based on Constraint Programming hybridised with Large Neighborhood Search is developed, allowing the joint application of the best control policies for storage assignment and sequencing both for time and energy-based optimisation, as well as the introduction of multiple weight unit loads and energy recovery. Simulations analysis is performed in order to assess the impact of the rack shape on energy saving. Results show how, regardless the demand curve and the optimisation objective, the best performances in terms of energy efficiency are reached by the intermediate height rack shapes, while the lower ones outperform when considering travel time performance.</abstract><cop>London</cop><pub>Taylor &amp; Francis</pub><doi>10.1080/00207543.2015.1008107</doi><tpages>14</tpages></addata></record>
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source EBSCOhost Business Source Complete; Taylor & Francis Journals Complete
subjects automated storage and retrieval systems
Automated storage retrieval systems
Automation
constraint programming
Cranes & hoists
dual-command cycles
Energy efficiency
Energy management
Heuristic
large neighborhood search
Mathematical models
Optimization
Optimization techniques
Pallets
rack shape
Racks
Searching
storage assignment
Studies
Sustainability
Unit loads
title Rack shape and energy efficient operations in automated storage and retrieval systems
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