Multiple-Rack Strategies Using Optimization of Location Assignment Based on MRCGA in Miniload Automated Storage and Retrieval System

He, Miao; Guan, Zailin; Wang, Chuangjian; Hou, Guichen

doi:10.3390/pr11030950

Cited by 4 publications

(6 citation statements)

References 37 publications

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“…The storage capacity (in the large-scale model, the storage capacity is 13440, as listed in Table 7) is significantly bigger than the KIVA system (2000 to 4000, [5,6]). At the same time, the picking efficiency (in the large-scale model, the picking efficiency can reach 2430 boxes per hour, as listed in Table 7) is significantly better than the SBS/RS (between 500 and 800 boxes per hour, [1]) and the miniload AS/RS (less than 300 boxes per hour, [22]). Furthermore, when the number of AMRs reaches the max, the picking efficiency (2430 in the large-scale model, as listed in Table 7) is no less than the KIVA system (nearly 2000 per hour, [5,6]).…”

Section: Conclusion and Further Research Opportunitiesmentioning

confidence: 96%

“…Considering the various sizes of materials in industrial warehouses, the unified-size-unit rack design is not suitable for all parts, components, and entire pieces. In [22], the authors propose different-unit-size racks to maximize space utilization and storage capacity. At the same time, the pod design in the KIVA system is not suitable here because, on the one hand, the height of the storage pods is two to three meters, which is significantly lower than that of industrial warehouses (more than eight meters) and means a significant waste of vertical space.…”

Section: Storage and Retrieval Operationsmentioning

confidence: 99%

“…In order to improve space utilization, we consider different unit sizes for materials of different sizes, such as tiny parts, medium-sized components, and large-sized entire pieces [22]. The rack design should reduce the gaps in racks to increase the utilization of the warehouse.…”

Section: Different Unit Sizesmentioning

confidence: 99%

“…According to the 80/20 rule [22] and the reality material probabilities of manufacturing enterprises [1,2], for example, in some cases, we set the proportions of small, medium, and big as 8, 8, and 1. The racks' length and height are 30 m and 16 m, respectively, and we set the different unit sizes as 2 m × 2 m (big), 1 m × 1 m (medium), and 0.5 m × 0.5 m (small), and the number of shelves is two for big, eight for medium, and four for small, as shown in Figure 7.…”

Section: Different Unit Sizesmentioning

confidence: 99%

“…The operation time of a DC is obviously less than the sum of loading and unloading. When the rack has different unit sizes, as shown in Figure 11, the first fit (FF) and best fit (BF) rules are considered in DC processes [22]. FF gives the loading position, which is first searched with a space big enough for loading an item, and BF gives the loading position, which is the best for loading an item with low space waste.…”

Section: Stacker Picking and Loadingmentioning

confidence: 99%

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A Novel Parts-to-Picker System with Buffer Racks and Access Racks in Flexible Warehousing Systems

He,

Guan,

Hou

et al. 2024

Sustainability

Self Cite

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With the tremendous development of the logistics industry, the global market of automated warehousing has been growing rapidly. Meanwhile, the warehousing industry shows drawbacks, such as low storage capacity and poor efficiency. By comparing and analyzing the shuttle-based storage and retrieval system (SBS/RS), miniload automated storage and retrieval system (AS/RS), and KIVA system, a novel efficient parts-to-picker approach in flexible warehousing systems is proposed. Among them, buffer racks and access racks, associated with the access of automated mobile robots (AMRs) and stackers are used. The results show that compared with other parts-to-picker systems (such as the KIVA system), this system provides a significant increase in storage capacity (more than three times), and the picking efficiency is also very high at various layout scales, where the picking efficiency is no less than the KIVA system when the number of AMRs reaches the max. The novel system is suitable for small-, medium-, and large-scale warehouses in terms of showing high capacity and producing excellent space utilization. More importantly, this system can easily compete with its traditional counterparts by using a layout of high density without much increase in cost. This sustainable improvement realizes the efficient utilization of spatial resources and provides important support for the construction of green supply chains.

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Section: Conclusion and Further Research Opportunitiesmentioning

confidence: 96%

Section: Storage and Retrieval Operationsmentioning

confidence: 99%

Section: Different Unit Sizesmentioning

confidence: 99%

Section: Different Unit Sizesmentioning

confidence: 99%

Section: Stacker Picking and Loadingmentioning

confidence: 99%

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A Novel Parts-to-Picker System with Buffer Racks and Access Racks in Flexible Warehousing Systems

He,

Guan,

Hou

et al. 2024

Sustainability

Self Cite

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Efficient Material Flow and Storage Space Determination in Automated Distribution Centers

Alnahhal,

Gjeldum,

Ruzayqat

2024

Journal of Engineering

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There can be two automated storage and retrieval systems (AS/RS) in the same distribution center: one for pallets and the other for cases. Full pallets or half‐full pallets are depalletized and moved to the case storage system. The number of cases depalletized daily for an item needs to be determined based on the average daily demand for that item. Too many depalletized cases ahead of time will inflate the required storage capacity of the case storage system. On the other hand, depalletizing only the necessary cases day by day might lead to too frequent material flow, and therefore more stacker cranes are necessary. Therefore, the number of depalletized pallets affects the number and utilization of stacker cranes in the pallet storage system. It also affects the needed space in the case storage system. This study determines the most efficient number of depalletized cases for three classes of items (A, B, and C), which are determined based on their daily demand. This is done using three scenarios. The total cost is minimized, considering the utilization of the two storage systems. More investigation was done for B items, which have daily demand levels of one layer of cases or more, but less than pallet size. First, analytical equations were formulated to model the system. The model was solved using a genetic algorithm (GA) with special chromosome representations. Results showed that B items can be grouped into two subgroups that are replenished based on two different material flow scenarios. Items with relatively large demand levels have scenario 3 as the optimal one. Results also showed that the model reduces both total costs and stacker crane utilization while improving system flexibility.

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Design of storage benchmark kit framework for supporting the file storage retrieval

Naazre Vittal Rao,

Munegowda

2024

IJECE

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An open-source software framework called the storage benchmark kit (SBK) is used to store the system benchmarking performance framework. The SBK is designed to perform any storage client or device using any data type as a payload. SBK simultaneously helps number of readers as well as writes to the storage system of large amounts of data as well as allows end-to-end latency benchmarking for multiple writers and readers. The SBK uses standardized performance measures for comparing and evaluating various storage systems and their combinations. Distributed file systems, distributed database systems, single or local node databases, systems of object storage, platforms of distributed streaming and messaging, and systems of key-value storage are the storage solutions supported by SBK. The SBK supports various storage systems like XFS, Kafka streaming storage systems, and Hadoop distributed file system (HDFS) performance benchmarking. The experimental results show that a proposed method achieves execution time of 65.530 s, 40.826 s and 30.351 s for the 100k, 500k and 1000k files respectively which ensures better improvement than the existing methods such as simple data interface and distributed data protection system.

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Multiple-Rack Strategies Using Optimization of Location Assignment Based on MRCGA in Miniload Automated Storage and Retrieval System

Cited by 4 publications

References 37 publications

A Novel Parts-to-Picker System with Buffer Racks and Access Racks in Flexible Warehousing Systems

A Novel Parts-to-Picker System with Buffer Racks and Access Racks in Flexible Warehousing Systems

Efficient Material Flow and Storage Space Determination in Automated Distribution Centers

Design of storage benchmark kit framework for supporting the file storage retrieval

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