In this blog we will explore the power of GPS and vehicle tracking system. GPS (Global Positioning System) revolutionized navigation by providing precise location and time data worldwide. GPRS (General Packet Radio Service) transformed mobile connectivity with faster and cost-effective data transfer. Vehicle tracking system leverage GPS to monitor vehicles in real-time, optimizing fleet operations, enhancing security, and providing detailed insights into performance and fuel consumption.
Quick Insights: The Short Version of This Blog
- GPS revolutionized navigation with precise global location and time data.
- GPRS transformed mobile connectivity with faster and cost-effective data transfer.
- Vehicle tracking system leverage GPS to optimize fleet operations and enhance security.
- GPS systems find applications in aviation, mobile phones, vehicle tracking, and navigation systems.
- Vehicle tracking system enable real-time and historical tracking of vehicle parameters for comprehensive monitoring.
What is GPS?
GPS (Global Positioning System) is a satellite-based navigation system used worldwide to provide location and time data in any weather. It employs at least four satellites to determine the GPS receiver's position. Initially developed for military purposes, GPS became accessible to civilians after a 1983 incident involving a passenger airplane that deviated significantly from its intended route, resulting in its availability for civil use. Today, GPS system find applications in various domains such as aviation, mobile phones, vehicle tracking, navigation system, and mapping.
Multiple global positioning system have been developed by different countries:
1. GPS (USA): This project began after the launch of the first satellite in 1978 and reached completion in 1994 with a fleet of 24 satellites.
2. GLONASS (Russia): Development commenced in 1979 following the launch of the first satellite and concluded in 2011 with 24 satellites.
3. GALILEO (European Space Agency, ESA): Initiated in 1999, GALILEO will encompass a total of 30 satellites and become available for civil aviation by 2020.
4. COMPASS-BEIDOU-2 (China): Derived from the COMPASS-BEIDOU-1 system deployed in 2000 with three satellites, COMPASS-BEIDOU-2 will become operational in 2020 with 35 satellites.
5. IRNSS (India): Approved by the Indian government in 2006, IRNSS was designed as a local positioning system and inaugurated in 2016 with nine satellites.
What is GPRS?
GPRS (General Packet Radio Service) is a mobile phone technology that enables internet connectivity. Compared to traditional connection modes, GPRS offers faster and more cost-effective data transfer through its packet-based services. Unlike circuit-switched services, GPRS charges based on the amount of data transferred rather than connection time. This innovation paved the way for today's smartphones by facilitating data exchange between mobile devices. With the advancement of GPRS, data transfer speed has improved, resulting in faster and more affordable execution of vehicle tracking system, mobile applications, and other system. The terms GPRS, E, 2G, 3G, 4G, and 5G represent different signal power levels corresponding to specific data transmission values.
What is Vehicle tracking system?
A vehicle tracking system refers to a technology that enables the tracking and monitoring of vehicles using online devices such as computers, smartphones, or tablets, utilizing GPS satellites. By employing vehicle tracking system, real-time and historical tracking of various vehicle parameters, including speed, routes, stopping points, and idle times, can be achieved. These systems provide detailed reports and maps, creating a comprehensive record and checkpoint for past and present vehicle activities on a 24/7 basis.
How does the Vehicle Tracking System work?
The Vehicle Tracking System operates through a loop of GPS, GSM/GPRS, digital maps, and specialized software. Mobile data devices on vehicles transmit two types of information obtained from satellites: real-time satellite transmission details and satellite position in orbit during transmission. Additionally, they transmit telemetric data, including temperature, to control and communication centers via the GSM/GPRS network. The received information is compiled using specialized software and stored in a server-based database.
To Conclude
Users can track vehicles, access real-time and historical records, visualize vehicle information, and modify alarms and program statuses through dedicated software on computers or mobile devices. This structure forms the fundamental functioning of vehicle tracking system.