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Proceedings ArticleDOI

ZIGBEE based Wireless SCADA System

TL;DR: In this article , a Zigbee-based wireless S CADA system (ZBWS) is proposed for cost reduction in the industrial environment, which is ideal for industries where it is too expensive to install wired SCADA in remote locations.
Abstract: The advancement of the remote monitoring industry has become more level-playing in recent years. This means that companies can now monitor their equipment remotely, without having to be present onsite. With the introduction of wireless S CADA systems, these systems became more affordable and efficient. SCADA systems have advanced significantly in the field of process control in recent years. SCADA is a supervisory control that is very important in the automation industry. Today, SCADA is required to control the process from any distance. Additionally, the potential for additional features such as security, process parameter control, and visualization paves the way for SCADA to become a powerful tool for industrial applications. Using SCADA, the entire process area can be monitored remotely. Automatic process manipulation, warning system, and automatic report generation are huge advantages of SCADA. Wireless SCADA is ideal for industries where it is too expensive to install wired SCADA systems in remote locations. Fortunately, wireless SCADA systems offer all the benefits of wired systems without the expense and hassle of wiring everything. In this study, an innovative prototype of a Zigbee-based wireless S CADA system (ZBWS) is proposed for cost reduction.
References
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Proceedings ArticleDOI
01 Jul 2017
TL;DR: The experimental results show that the system can realize wireless collection of greenhouse environment data and the control of main equipment in the greenhouse, and the data packet loss rate is zero, which is applicable for small greenhouse monitoring and control with good accuracy and scalability.
Abstract: The cable acquisition and control system of the traditional greenhouse has many disadvantages such as complicated wiring, high cost and lack of accuracy and expansibility. In order to solve those problems, a greenhouse acquisition and control system based on ZigBee wireless sensor network (WSN) is designed in this paper. The ZigBee with temperature sensor DS18B20 and humidity sensor AM2301 is used as the sensor node, the fan and the wet curtain formed as two controller nodes which are respectively connected with the ZigBee module. The coordinator receives environmental data collected by the sensor nodes, and then sends the control commands to the controller nodes after processing and analyzing the data, which changes the execution status of the fan and the wet curtain, so as to adjust temperature and humidity inside the greenhouse, providing suitable growth environment for crops. The experimental results show that the system can realize wireless collection of greenhouse environment data and the control of main equipment in the greenhouse. The greenhouse acquisition and control system based on WSN with low cost and low power consumption has reduced labour intensity, and the data packet loss rate is zero, which is applicable for small greenhouse monitoring and control with good accuracy and scalability.

19 citations

Proceedings ArticleDOI
10 Jun 2018
TL;DR: One possible methodology for control, reduction and optimization of water loss in the communal water supply system is recommended, with efficient usage of modern SCADA systems implemented to existing water supply systems, becoming integral part in the new optimized operational management and control system of communal water Supply companies.
Abstract: Drinking water reserves are not infinite natural resource. Rapid social development generates huge pollution of all of the environment, including surface and underground drinking water reserves. One of the biggest challenges in management and control of modern city water supply system is to retain uninterrupted supply with chemically and biologically safe drinking water. Real-time monitoring systems of the water quality and quantity parameters gives us on-time alert and more time for reaction. The possible solution for this challenge is presented. Real-time measuring station using industrial SCADA system and optimization of the system is recommended. SCADA system provides continuous monitoring of the many physical, chemical and biological parameters enabling fast and reliable detection of the deviations in system. Saved data give chance for additional analysis of the measured parameters and dependencies between. One possible methodology for control, reduction and optimization of water loss in the communal water supply system is recommended, with efficient usage of modern SCADA systems implemented to existing water supply systems, becoming integral part in the new optimized operational management and control system of communal water supply companies.

17 citations

Proceedings ArticleDOI
01 Dec 2015
TL;DR: This article focuses on the high level open protocol of SCADA systems: IEC 60870-5-101 as well as its implementation and the design of aRTU TESTER and the conception of a RTU.
Abstract: As the choice of the communications protocol for a given application represents one of the most significant tasks in the development of information technical solutions, this article focuses on the high level open protocol of SCADA systems: IEC 60870-5-101 as well as its implementation and the design of a RTU TESTER and the conception of a RTU.

10 citations

Proceedings ArticleDOI
03 Dec 2020
TL;DR: In this paper, an automatic real-time system for automated car parking is proposed This system is implemented with the help of internet of things (IOTs) IOT generally exchanges information or data between the two physical devices Arduino Uno is a microcontroller used in proposed system, main use of Arduino in the proposed system is to provide platform to communicate digital devices and interactive objects that can sense and control physical devices.
Abstract: In the current decade we are facing parking problem with the advancement in the technology The population in urban cities is dense due to which lots of vehicles are running on road leads to parking problem, traffic problem World is facing new challenge of Car parking It is observed that one million of vehicles consumes oil on daily basis In this paper, An automatic real-time system for automated car parking is proposed This system is implemented with the help of internet of things (IOTs) IOT generally exchanges information or data between the two physical devices Arduino Uno is a microcontroller used in proposed system The main use of Arduino in the proposed system is to provide platform to communicate digital devices and interactive objects that can sense and control physical devices The proposed system is implemented with the help of Arduino Uno board for car parking and Node MCU to connect parking area with web or internet The proposed system incorporated with an infrared sensor in each slot for getting information about vacancy position of parking slot The user book parking slot well in advance, all the necessary information is available on server Every user has exclusive username and password In case any misuse happened then the system will alert the responsible person

10 citations

Proceedings ArticleDOI
01 Jun 2017
TL;DR: This project is the prototype for all electrical systems for which online monitoring and controlling is required and can implement in wide range for commercial buildings, substaions, etc.
Abstract: In dissonance with the limitations of present substation monitoring system, this paper introduced a Zigbee based wireless network system in traditional online monitoring system and the wireless online monitoring system. This system is constituted by a Zigbee sensor network nodes.and a zigbee coordinator node. The sensor terminal nodes are comprised by different type of sensors and Zigbee wireless modules which are spreaded evenly in monitoring area and its responsibilities are the data acquisition and transmission. The zigbee coordinator node is the control center and it is authoritative for network maintenance and data processing. The innovations of this paper broughts the efficienct monitoring and controlling. This project is the prototype for all electrical systems for which online monitoring and controlling is required. We can implement in wide range for commercial buildings, substaions, etc. Here Arduino is used for controlling and different zigbees can be interfaced by XCTU and substation controlling parameters can be monitered by a substation app which is developed by MIT app developer and Node MCU is a wi-fi module used for monitoring and controlling of current and voltage in the current transformer and voltage transformer respectively and temperature across the transformer.

8 citations