Dynamic Scheduling Optimization Method for Multi-AGV-Based Intelligent Warehouse Considering Bidirectional Channel

Yu, Chengwei; Liao, Wenzhu; Zu, Leting

doi:10.3390/systems12010009

Systems

2023

DOI: 10.3390/systems12010009

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Dynamic Scheduling Optimization Method for Multi-AGV-Based Intelligent Warehouse Considering Bidirectional Channel

Chengwei Yu,

Wenzhu Liao,

Leting Zu

Abstract: With the implementation of AGV technology and automated scheduling, storage and retrieval systems have become widely utilized in warehouse management. However, due to the use of unidirectional channels, AGV movement is restricted, and detours may occur frequently. Additionally, as the number of AGVs increases, deadlocks can arise, which lead to delays in order packaging and a decrease in overall warehouse performance. Hence, this paper proposes a dynamic scheduling method for task assignment and route optimiza… Show more

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2024

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A Velocity-Adaptive MPC-Based Path Tracking Method for Heavy-Duty Forklift AGVs

Wang,

Sun,

Zhang

et al. 2024

Machines

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In warehouses with vast quantities of heavy goods, heavy-duty forklift Automated Guided Vehicles (AGVs) play a key role in facilitating efficient warehouse automation. Due to their large load capacity and high inertia, heavy-duty forklift AGVs struggle to automatically navigate optimized routes. Additionally, rapid acceleration and deceleration can pose safety hazards. This paper proposes a velocity-adaptive model predictive control (MPC)-based path tracking method for heavy-duty forklift AGVs. The movement of heavy-duty forklift-type AGVs is categorized into straight-line and curve-turning motions, corresponding to the straight and curved sections of the reference path, respectively. These sections are segmented based on their curvature. The best driving speeds for straight and curved sections were 1.5 m/s and 0.3 m/s, respectively, while the optimal acceleration rates were 0.2 m/s2 for acceleration and −0.2 m/s2 for deceleration in straight paths and 0.3 m/s2 for acceleration with −0.15 m/s2 for deceleration in curves. Moreover, preferred sampling times, prediction domain, and control domain were determined through simulations at various speeds. Four path tracking methods, including pure tracking, Linear Quadratic Regulator (LQR), MPC, and the velocity-adaptive MPC, were simulated and evaluated under straight-line, turning, and complex double lane change conditions. Field experiments conducted in a warehouse environment demonstrated the effectiveness of the proposed path tracking method. Findings have implications for advancing path tracking control in narrow aisles.

show abstract

A Velocity-Adaptive MPC-Based Path Tracking Method for Heavy-Duty Forklift AGVs

Wang,

Sun,

Zhang

et al. 2024

Machines

View full text Add to dashboard Cite

show abstract

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Dynamic Scheduling Optimization Method for Multi-AGV-Based Intelligent Warehouse Considering Bidirectional Channel

Cited by 1 publication

References 31 publications

A Velocity-Adaptive MPC-Based Path Tracking Method for Heavy-Duty Forklift AGVs

A Velocity-Adaptive MPC-Based Path Tracking Method for Heavy-Duty Forklift AGVs

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