I'm interested in the kind of information that the scanning system can obtain. The image looks like a monochrome (green) image of the scene. Obviously this could be useful if the tracks had been sabotaged or suffered gross damage such as the bed being washed out by a flood, missing rail spikes, or severe physical damage to the rail. Does this technology have any value in detecting progressive material failures? Which of the failure modes that require repair can it detect?
@prabhakar_deosthali: "...This practice is followed only for select trains running in sensitive areas where the incidents of manual disruption of rail tracks have happend in the past..."
Okay I understand the context which you described earlier. I did not know that such arrangement was made due to unfortunate miscreants caused by anti-socials. Good to know that this practice saves many lives, for which the cost of running an extra engine for certain trains in certain areas is insignificant.
This practice is followed only for select trains running in sensitive areas where the incidents of manual disruption of rail tracks have happend in the past.
Just last month a major train accident was averted by such a pilot engine . A section of the track had been blown aprt by explosives and the pilot engine completely derailed while going over it. But it averted a major accident for the train which was to run on that track an hour later.
What you have seen in your childhod is right - those small inspection carts can do this job but they are slow speed and can hinder the high speed train trafiic.
With the kind of laser scanning talked about in this blog a simplified light weight but high spped tracking by an unmanned light vehicle can be a possible solution.
@prabhakar_deosthali: "...a pilot engine runs ahead of the train to ensure that there is no track fault or any other obstruction.."
Is that what followed in India? I do not have much idea, but I think that would be a costly affair as an engine per one high speed train would be engaged all that time just to monitor cracks. I have seen a small four wheeled cart carrying people and pushed by a couple of persons slowly on the tracks in my childhood. I believe that was used earlier to monitor the tracks manually long time back. It was done for each sections of every division...can't imagine the number of people engaged into this. Now a days I believe a specialized track monitoring car is used as shown in the link below:
With this laser based device mounted on the engines (may not be for all) of regular trains for scanning the tracks it would be possible to get rid of those special monitoring vehicles or manual effort. Also the scanning could be done much more frequently that it is currently done. Great piece of equipment.
What are the engineering and design challenges in creating successful IoT devices? These devices are usually small, resource-constrained electronics designed to sense, collect, send, and/or interpret data. Some of the devices need to be smart enough to act upon data in real time, 24/7. Are the design challenges the same as with embedded systems, but with a little developer- and IT-skills added in? What do engineers need to know? Rick Merritt talks with two experts about the tools and best options for designing IoT devices in 2016. Specifically the guests will discuss sensors, security, and lessons from IoT deployments.