Real Time Entry Prohibition System for Coalmines

Real Time Entry Prohibition System for Coalmines

Urmila Shrawankar (G.H. Raisoni College of Engineering, Nagpur, India), Rahul Neware (G.H. Raisoni College of Engineering, Nagpur, India) and Pranay Mangulkar (G.H. Raisoni College of Engineering, Nagpur, India)
Copyright: © 2020 |Pages: 21
DOI: 10.4018/IJTD.2020040104

Abstract

This article focuses on the hazardous conditions prevailing in underground coal mines and the decision to prohibit entry, when conditions are adverse. Thus, the ongoing observation framework is helpful for ascertaining the conditions for working in underground coal mines and for essential safety and well-being measures. The advancements in WSN lead to advancements in wireless communications. The various sensors are deployed at the location and sense the environment and provide recent activities of the underground coal mines. The sensors transmit the procured information to the base station, principally the A-D transformation. The sensors can be considered a hub to the base station. Wireless transmission is used to send the data to the user. The designed hardware and software systems are used for the identification of the parameters and as per the thresholds, the decision and the prohibition of workers before entering into the mine is decided. The ML system helps in checking the favorable conditions for working in underground mines. While experimenting, real-time sensor generated data is used.
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Literature survey is presented on the basis of the following proposed system architecture and available framework for safety and monitoring in underground coal mines.

2.1. Lightweight Mashup Middleware

In this system, the arrangement of ZigBee remote sensor joined with Controller Area Network (CAN) transport is obtained. ZigBee station is made ready in mine laneways at acceptable interims to realize frequency Identification (RFID) position and gas sensitivities. After that, the data is pressed and transferred to checking focus by CAN transport. Finally, it may be handled, spared and shown in the methods of graphs. The framework has the elements of mineworker’s introduction, administration’s participation and observation of security (Yalin et al., 2015).

The essential objective of this work is to give related organization mashup middleware to fortify the checking of coal pit and computerization of administration robot, which permits the customer to normally construct the exceptionally designated perceptive and motorization benefits. The arrangement incorporates the following 3 stages:

  • To get to the tangible information with OSGi-based uniform gadgets;

  • To receive the distributed supply system to publicize the tactile information.

Execution of light-weight administrations that back on-the-fly change of integrity of assorted administrations to assemble thorough and situational applications; and:

  • To put on remainder standards to characterize associate extensile edge for finished purchasers (Yalin et al., 2015) (Figure 1).

Figure 1.

Lightweight mashup middleware framework

IJTD.2020040104.f01

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