A Machine-Learning-Based Access Point Selection Strategy for Automated Guided Vehicles in Smart Factories

Author:

Ohori Fumiko12,Yamaguchi Hirozumi2,Itaya Satoko1,Matsumura Takeshi1

Affiliation:

1. National Institute of Information and Communications Technology, Yokosuka 239-0847, Japan

2. Graduate School of Information Science & Technology, Osaka University, Suita 565-0871, Japan

Abstract

Automated Guided Vehicles (AGVs) are becoming popular at many manufacturing facilities. To ensure mobility and flexibility, AGVs are often controlled by wireless communication, eliminating the constraints of physical cables. These AGVs require multiple Access Points (APs) to ensure uninterrupted coverage across the site. As AGVs move, they need to switch between these APs seamlessly. A primary challenge is that the communication downtime during this link-switching process must be minimal for effective AGV monitoring and control. Current AP selection strategies based on observed Received Signal Strength Indicator (RSSI) often fail in manufacturing environments due to RSSI’s inherent instability. This paper introduces a new AP selection technique for AGVs navigating these sites. Our approach harnesses the distinct movement patterns of AGVs and uses machine learning techniques to learn location-, trajectory-, and orientation-specific RSSI from the APs. Real-world factory data from our unique dataset revealed that our method extends the potential communication duration per route by 1.34 times compared to the prevalent signal strength-based switching methods commonly implemented in current drivers provided by chipset vendors or open-source Wi-Fi drivers. These results indicate that the automatic evaluation and tuning of the wireless environment using the proposed method is beneficial in reducing the time and effort required to investigate the detailed propagation paths needed to adapt AGV to existing APs.

Funder

Ministry of Internal Affairs and Communications

Publisher

MDPI AG

Subject

Electrical and Electronic Engineering,Biochemistry,Instrumentation,Atomic and Molecular Physics, and Optics,Analytical Chemistry

Reference28 articles.

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2. Cisco Systems, Inc (2023, September 10). Cisco Wireless Controller Configuration Guide, Release 8.10. Available online: https://www.cisco.com/c/en/us/td/docs/wireless/controller/8-10/config-guide/b_cg810.pdf.

3. National Institute of Information and Communications Technology (2023, September 10). Examples of Wireless Communication Trouble and Countermeasures at Manufacturing Sites. Available online: https://www2.nict.go.jp/wireless/en/ffpj-case.html.

4. Pei, C., Wang, Z., Zhao, Y., Wang, Z., Meng, Y., Pei, D., Peng, Y., Tang, W., and Qu, X. (2017, January 1–4). Why It Takes so Long to Connect to a WiFi Access Point. Proceedings of the IEEE INFOCOM 2017—IEEE Conference on Computer Communications, Atlanta, GA, USA.

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