13-04-2017, 10:19 AM
Rail systems around the world are beginning to use GNSS to track the movement of locomotives, rail cars, maintenance vehicles and ground equipment in real time. When combined with other sensors, computers and communications systems, GNSS improves rail safety, safety and operational efficiency. The technology helps reduce accidents, delays and operating costs while increasing tracking capability, customer satisfaction and profitability.
The rail domain could benefit considerably from the implementation of autonomous positioning systems on board. Especially for local and regional rail lines, there are a number of possible applications that could allow for cost-effective modernization and increased efficiency. However, train control poses high positioning requirements with respect to availability, reliability and integrity. These requirements can only be met by integrated positioning systems that combine GNSS with other sensors.
The transport of the train always depends only on the railways. If there is a crack in these rails, it creates an important problem. Most train accidents are caused due to cracks in railroad tracks, which can not be easily identified. More time is also needed to rectify this problem. In order to avoid this problem, we are using the cracking detector robot, which detects the crack in the rails and gives an alarm. A robot is an apparently human automation, intelligent and obedient but impersonal. It is relatively, that robots have begun to employ an AI degree in their work and many robots required human operators, or precise guidance throughout their missions. Slowly, robots are becoming more and more autonomous.
The rail domain could benefit considerably from the implementation of autonomous positioning systems on board. Especially for local and regional rail lines, there are a number of possible applications that could allow for cost-effective modernization and increased efficiency. However, train control poses high positioning requirements with respect to availability, reliability and integrity. These requirements can only be met by integrated positioning systems that combine GNSS with other sensors.
The transport of the train always depends only on the railways. If there is a crack in these rails, it creates an important problem. Most train accidents are caused due to cracks in railroad tracks, which can not be easily identified. More time is also needed to rectify this problem. In order to avoid this problem, we are using the cracking detector robot, which detects the crack in the rails and gives an alarm. A robot is an apparently human automation, intelligent and obedient but impersonal. It is relatively, that robots have begun to employ an AI degree in their work and many robots required human operators, or precise guidance throughout their missions. Slowly, robots are becoming more and more autonomous.