Design of the Anti-Omission Shared Lockers System Based on the Single Chip Microcomputer
Science Journal of Circuits, Systems and Signal Processing
Volume 7, Issue 3, September 2018, Pages: 74-80
Received: Oct. 25, 2018;
Accepted: Nov. 13, 2018;
Published: Dec. 18, 2018
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Ying Pan, College of Physics and Electronics Information Engineering, Qinghai Nationalities University (Xining), Xining, China
Guoqing Jia, College of Physics and Electronics Information Engineering, Qinghai Nationalities University (Xining), Xining, China
Qian Lin, College of Physics and Electronics Information Engineering, Qinghai Nationalities University (Xining), Xining, China
In recent years, shared lockers have been widely used in supermarkets, libraries, exhibition halls and other places due to their features of high safety, reliability and convenience. However, existing lockers, because of their depth, tend to lose small items and are difficult to find. In addition, traditional barcode lockers are also easy to lose barcode. Based on this background, this paper presents a design scheme of the system for anti-omission of the shared locker based on the single chip microcomputer (SCM). In the scheme, STC89C52 single chip microcomputer is used as the main control chip, and the pressure sensor is used to detect whether there are things in the shared lockers and send the information to STC89C52 single chip microcomputer to achieve anti-omission function. Supplemented by relevant keyboard module, which is the input module of the system. Furthermore, display module and voice module are the output module of the system. The fingerprint module is used to input the user’s information and used the information to open the door of shared lockers. GSM (global system for mobile communication) module is used to get help from administrator when the user needs to help, and so forth. This system can realize the function of preventing omission and it is simple to operation, high security, easy to manage by the administrator.
Design of the Anti-Omission Shared Lockers System Based on the Single Chip Microcomputer, Science Journal of Circuits, Systems and Signal Processing.
Vol. 7, No. 3,
2018, pp. 74-80.
Copyright © 2018 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/
) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Bertrand David, René Chalon. Box/Lockers' contribution to Collaborative Economy in the Smart City [C]. 2018 IEEE 22nd International Conference on Computer Supported Cooperative Work in Design (CSCWD), 2018.
Fahmi, M. Irfan, Hutagalung, Jhonson Efendi. Automatic Locker Key with Barcode Based Microcontroller Atmega 8535 [C]. Journal of Physics: Conference Series, v930, n1, International Conference on Information and Communication Technology, IconICT 2017.
Wu A P. The design of anti-theft device for vehicle based on GSM [C]. 2017 International Conference on Smart Grid and Electrical Automation, 2017.
Zheng S W, Zhang J H, Gan J Y and Zhang T H. StaCover: Mobile Energy-Sharing Cabinets Deployment with Public Bike System [C]. 2018 4th International Conference on Big Data Computing and Communications (BIGCOM), 2018.
Wang X C, Li X S. Design of remote wireless control system based on the single chip microcomputer [J]. Agro Food Industry Hi-Tech, v28, n3, p2850-2854, May-June 2017.
Yang Y. Research on the ionized water decontamination and disinfection device based on single chip microcomputer control [J]. Chemical Engineering Transactions, v62, p685-690, 2017.
Zhang J B, Yin Q, Liu S and Lang C. Wireless car control system based on single chip microcomputer [J]. EEA-Electrotehnica, Electronica, Automatica, v65, n3, p147-155, July 1, 2017.
Wang T H, Chen T Y, Hu Y, Zhou X Y and Song N P. Design of intelligent LED lighting systems based on STC89C52 microcomputer [J]. Optik, v158, p1095-1102, April 2018.
Wang X, Zhu J L. Design of a portable pulse measuring instrument based on 51 single chip [C]. Sydney, Australia. February 18-21, 2017.
Zhang J B, Qun Y. Design of simple electronic organ based on single chip microcomputer [C]. 2017.
You G P, Zeng W H. Electronic music box design [C]. 2016 2nd IEEE International Conference on Computer and Communication, 2016.
Wu X J. Design and simulation of wireless environment monitor based on Proteus [C]. 2011 International Conference on Consumer Electronics, Communications and Networks, 2011.
Junhee Jung, Seunghun Jin, Dongkyun Kim and etc. A voice activity detection system based on FPGA [C]. ICCAS 2010.
Wang Y N, Wu Z D, Zhang J W and Chen H L. A robust damaged fingerprint identification algorithm based on deep learning [C]. 2016.
Liu Z W. LCD touch-screen control design based on single-chip microcomputer [J]. Agro Food Industry Hi-Tech, v28, n1, p2284-2288, January-February 2017.
Kapil Mahawar, Vishal Kumar, H. O. Gupta. Design and implementation of AMBE based Voice Codec Module over custom FPGA platform [C]. 2012 International Conference on Computing, Communication and Applications, 2012.
Wu X H, Morrison Obeng, Wang j, Daniel Kulas. A survey of techniques to add audio module to embedded systems [C]. 2013 Proceedings of IEEE Southeastcon, 2013.