Design and Development of NavIC and GPS based Geolocation System for CO2 Monitoring

2021 International Conference on Innovative Practices in Technology and Management (ICIPTM) Pub Date : 2021-02-17 DOI:10.1109/iciptm52218.2021.9388326

Sreecharan Chama, Satyanarayana Katukojwala, S. R. Ammana, Shivank Agarwal, K. K. Reddy, D. S. Achanta

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Abstract

With the development and implementation of NavIC, India has joined the league of very few countries having its own satellite navigation system. NavIC when used together with GPS, provides improved positioning accuracy. Therefore, the design and development of indigenous $\text{NavIC} +\text{GPS}$ based geolocation systems for mobiles, automotive, IoT services, tracking and monitoring systems, etc. have been gaining significance. In this paper, a $\text{NavIC}+\text{GPS}$ based geolocation system for CO2level monitoring is designed using a low-cost $\text{NavIC}+\text{GAGAN}/$ GPS receiver module, Microcontrollers, and a CO2Sensor. This system measures the CO2level with respect to $\text{NavIC} + \text{GPS}$-based location and time. The proposed system is economical and is a step towards the adoption of NavIC in monitoring systems. Also, such systems carry significance in view of the increasing air pollution in major Indian cities. Further, this system can be extended to monitor major air pollutants such as PM10, PM2.5, dust etc.

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基于NavIC和GPS的CO2监测地理定位系统的设计与开发

随着NavIC的发展和实施，印度加入了拥有自己卫星导航系统的少数国家的行列。当与GPS一起使用时，NavIC提供了更高的定位精度。因此，为手机、汽车、物联网服务、跟踪和监控系统等设计和开发基于本土$\text{NavIC} +\text{GPS}$的地理定位系统具有越来越重要的意义。本文采用低成本的$\text{NavIC}+\text{GAGAN}/$ GPS接收机模块、微控制器和co2传感器，设计了基于$\text{NavIC}+\text{GPS}$的co2浓度监测地理定位系统。本系统测量二氧化碳浓度相对于$\text{NavIC} + \text{GPS}$的位置和时间。所提出的系统是经济的，是朝着在监测系统中采用NavIC迈出的一步。此外，鉴于印度主要城市日益严重的空气污染，这种系统具有重要意义。此外，该系统可以扩展到监测主要空气污染物，如PM10, PM2.5，粉尘等。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 International Conference on Innovative Practices in Technology and Management (ICIPTM)

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