Welcome to Francis Academic Press

Academic Journal of Engineering and Technology Science, 2019, 2(2); doi: 10.25236/AJETS.020040.

Design and Verification of a Workshop Environment Monitoring System Based on Multiple Communication Modes

Author(s)

Xuejie Shang*, Guoxin Dong

Corresponding Author:
Xuejie Shang
Affiliation(s)

Tianjin University of Technology and Education, Tianjin, 300222, China
*Corresponding author e-mail: 943707681@qq.com

Abstract

A workshop environment monitoring system based on multiple communication modes which satisfies the requirements of workshop environment monitoring in manufacturing enterprises is designed in this paper. The environment monitoring system is mainly composed of an execution layer, a communication layer and a control layer. The whole system monitors the running states of the equipment and the running environment of the workshop through real-time data acquisition and analysis, ensuring the normal operation of the production line. At present, this proposed system has been applied in the workshop of photo production enterprises. The practical application shows that this system improves the efficiency of the workshop, and the production environment is monitored in real time, the production safety is protected simultaneously.

Keywords

Multiple communication modes, Environment monitoring system, Workshop

Cite This Paper

Xuejie Shang, Guoxin Dong. Design and Verification of a Workshop Environment Monitoring System Based on Multiple Communication Modes. Academic Journal of Engineering and Technology Science (2019) Vol. 2 Issue 2: 43-50. https://doi.org/10.25236/AJETS.020040.

References

[1] Wang L, Törngren M, Onori M. Current status and advancement of cyber-physical systems in manufacturing [J]. Journal of Manufacturing Systems, 2015, 37: 517- 527.
[2] Akkaya I, Derler P, Emoto S, et al. Systems engineering for industrial cyber–physical systems using aspects [J]. Proceedings of the IEEE, 2016, 104 (5): 997-1012.
[3] Cyber-physical systems: foundations, principles and applications [M]. Morgan Kaufmann, 2016.
[4] Lutz D G, Duggan D. Environmental monitoring system: U.S. Patent 6, 888, 453 [P]. 2005-5-3.
[5] Jang W S, Healy W M, Skibniewski M J. Wireless sensor networks as part of a web-based building environmental monitoring system [J]. Automation in Construction, 2008, 17 (6): 729-736.
[6] Lee J, Bagheri B, Kao H A. A cyber-physical systems architecture for industry 4.0-based manufacturing systems [J]. Manufacturing letters, 2015, 3: 18-23.
[7] Lee E A, Seshia S A. Introduction to embedded systems: A cyber-physical systems approach [M]. Mit Press, 2016.
[8] Yu Z, Xugang L, Xue G, et al. IoT forest environmental factors collection platform based on ZIGBEE [J]. Cybernetics and Information Technologies, 2014, 14 (5): 51-62.
[9] Shi-huan W. Applications analysis of IOT based on RFID and WLAN technologies [J]. Information and Electronic Engineering, 2010, 5: 604-606.
[10] Limin Y L Y , Anqi L A L , Zheng S Z S , et al. Design of Monitoring System for Coal Mine Safety Based on Wireless Sensor Network [C] // IEEE/ASME International Conference on Mechtronic & Embedded Systems & Applications. IEEE, 2008.