Cooperative research project between BVU and UBO: Design and Development of GSM/GPRS data transmission from WAVE system to webserver and database

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BỘ GIÁO DỤC VÀ ĐÀO TẠO TRƯỜNG ĐẠI HỌC BÀ RỊA-VŨNG TÀU -------- ĐỀ TÀI NGHIÊN CỨU KHOA HỌC HỢP TÁC Co-operative research project between BVU and UBO TÊN ĐỀ TÀI: Thiết kế và phát triển module truyền thông GSM/GPRS gửi dữ liệu từ hệ thống WAVE đến webserver và database (Design and Development of GSM/GPRS data transmission from WAVE system to webserver and database) Trình độ đào tạo: Chương trình trao đổi sinh viên với trường UBO -Université de Bretagne Occidentale (Pháp) Ngành đào tạo : Cơ khí Chuyên ngành : Cơ điện tử Giảng viên hướng dẫn: Ts. LÊ NGỌC TRÂN Sinh viên thực hiện : Florian Lohezic Lớp : Digital System Niên khóa : 2016-2018 Bà Rịa-Vũng Tàu, năm 2018 Internship report From the 20/05/2018 to the 20/08/2018 Florian Lohézic Bachelor’s degree in electronics and embarked systems ~2~ Summary 1) Thanks page 3 2) The project page 4 1. Introduction 1) Introduction of WAVE project 2) Introduction of WAVE system 2. GPRS communication 1) System’s hardware 2) Introduction of GPRS module 3) Conclusion page 8 page 9 ~3~ Thanks Before beginning the project presentation, I want to thank some people without who, this project never can be possible. First, I want to thank my teacher Mr. Claude Vo, because I am here thank to him, not only in Vietnam for my internship but also in the bachelor’s degree in UBO. When in November I had to quit the ISEN engineering school because I couldn’t find a company, Mr. Vo said me “come in the bachelor’s degree SEME”, the first thing I answered him but if I couldn’t find a company for engineering school how could I find one for the bachelor’s degree, and he answered me that’s not a problem I can find you an internship in Vietnam, and he did it. So, Mr. Vo, I thank you for the year I spend with you. Then, I want to thank my teammates, first because they were enthusiasts when I join them this year to continue the work on our project of technical degree. The guy without the project was not possible to make it was our work team leader Émilien Abgrall, I want to thank him to have convinced Mr. Vo to let us make WAVE, I thank him also for all the great moment we had as a team and as friend, and for all the help he gave to me during this project, thank you Émilien. I want also to thank, Guénolé Picard who was our account and stock manager during the project and when we were in Vietnam to install the project, Raphaël Bergot with who I work on mechanical part of the project he was our reporter in Vietnam, and Quang Dung Truong with whom I work all this year and during the internship he helped us a lot when we were in Vietnam, thank you guys. Moreover, I want to thank Mr. Lê Ngoc Tran who was my internship tutor, I want to thank him to have accepted my internship request in Baria Vung Tau University, to have helped me when I needed help, and to have rented his house to give me a place to live in Vung Tau, for all of this thank you Mr. Tran. ~4~ Finally, I want to thank all BVU’s staff and former student to have helped us here and welcomed us in their university. ~5~ Chapter 1 NECESSITY FOR DEVEOPING A WAVE PROJECT SYSTEM (Sự cần thiết để phát triển dự án WAVE) 1.1. Introduction of WAVE Project Fig 1. Team members of the WAVE Project for Baria –Vung Tau Viet Nam This project began after a request of Ba Ria Vung Tau Aquaculture department. Indeed, the province located in south Viet Nam have for main industry fish and seafood breeding. This breeding took place in enclosure near the sea. However, significant issues of human’s pollution bring the death of breeding product. The department look for a way to preserve farms and increase production. Fig.2 Aquaculture of Baria-VungTau depend on natural ~6~ Aquaculture’s department don’t have water analyze direct method. So, it’s only possible to know why the products die with laboratory analyses but only after when the pollution’s effects are irreversible. It’s been asked at Baria Vung Tau University and the BTS SN of La Croix Rouge to realize a self-sufficient water monitoring system. We have been studying the project’s feasibility in BTS (two-year technical degree in higher education) and we want to continue and finish it during our LP SEME (bachelor’s degree). We have make a complete and automated electronic system allowing to analyze continuously physical water parameter and to transmit measured data in real time. We called our system « WAVE » for Water Analysis for Vietnamese Ecosystem. 1.2. Introduction of WAVE system The WAVE system is shown in figure 3. Figure 3. WAVE system is implement in Baria-Vungtau province WAVE system operation: Beginning of measurement cycle, Pump No. 1 take salt water from river into the tank 1 to clean the pipe in the same time Pump No. 2 empty the tank, then Pump No. 1 fill the tank to execute a measurement process. The measurement begins by the measurement of the temperature, then the pH, after that the salinity, next the chlorine, the pressure and the oxygen concentration ~7~ and saturation. After the completion of measurement, the electronic box will send the measurement result to the raspberry pi3 by radio and alert you by sending a SMS through GSM wave. Here, the measure information will be updated to the system's database and can be access through the web server and server interface. Next, the tank cleaning process takes place: the Pump No. 2 draws water out of the tank, and Pump No. 3 the fresh water can be pumped from the clean water tank into the measurement tank and the spray nozzle clean the sensor. After the cleaning, the Pump No. 2 draws water out from the tank again, the new measurement can start. Seawater measurement is automated by setting the system frequency. The system use solar power system, Electronic box with LCD display and rotary button to choose easily the menu and function, sensor calibration, frequency measurement as well as data transmission modes (GSM / radio waves) . We have already install the system in a fish farm near Vung Tau, and now my internship project was to improve the software by developing a new subroutine in the software to allow WAVE’s electronic board to send all the data on a website, created by Mr. Quang Dung Truong, he also make a database to record the data. Figure 4. Implementation of the WAVE system in Cha Va river ~8~ Chapter II DESIGN OF GPRS MODULE FOR WAVE SYSTEM (Thiết kế mô – đun truyền thông GPRS cho hệ thống WAVE) 2.1. System’s hardware The WAVE system is handled by the electronic board, the schematic of electronic board is shown in attachment. In this Project, my research target designs and make the communication between the WAVE system and webserver, the WAVE system can send or receive data to webserver or versa vise through GPRS module. 2.2. Introduction of GPRS module Sim800L is a GSM/GPRS module, it has many functions such as, send SMS, make a call or transmit data through GPRS. This module utilities for IoT applications in tiny custommer design. Moreover, it can integrate the function of Bluetooth, FM and Embedded AT. The connection diagram is showned in Fig. 5. Figure 5. Block diagram of GPRS communication ~9~ To send the data on the website I use GPRS communication, made possible thanks to the SIM800L device, which send also SMS when the measure reaches the minimum and maximum level configured, by the owner of the fish farm. Figure 7. Connection between Microprocessor with GPRS module SIM800L The SIM800L module is connect on the pin TX/RX of the PIC18F67J11. To make my subroutine I must use “AT” commands to configure the SIM800L, I also ask for a Vietnamese sim card to put in the SIM800L to allow communications, GSM and GPRS. “AT” commands are declared like character’s string, inside this string I write text for different “AT” commands. I had to use: 1) AT+CGREG = 0,5; -> Enable network registration 2) AT+CPIN = [PIN code]; -> connection with the sim card 3) AT+CGATT = 1; -> Attach GPRS Service 4) AT+CIPSHUT; -> detachment of packet data control for configuration 5) AT+CIPMUX=0; ->simple IP connection 6) AT+CIPSRIP=0; ->configuration of the simple IP answer ~ 10 ~
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