Authors :
Shubham M Chengta; Shrijeet B. Gatkul; Tanmay V Jagtap; Lokesh D Patil; Y. A. Kadam
Volume/Issue :
Volume 8 - 2023, Issue 6 - June
Google Scholar :
https://bit.ly/3TmGbDi
Scribd :
https://tinyurl.com/3n495mpc
DOI :
https://doi.org/10.5281/zenodo.8050654
Abstract :
The automation of vehicles has made
significant strides in recent years, making it possible for
sophisticated robots to undertake a few risky and vital
counterterrorism missions. These machines are not only
more effective than humans, but they have also saved a
few lives. Our Ammunition Detection & Border
Surveillance Vehicle is designed to carry out tasks like
border surveillance and active combat both as a
standalone metal detection unit that can also be used for
bomb detection (automatic) and in coordination with
human soldiers (manual) wirelessly.
It is a model showcasing the constantly growing
demand for advanced technology and precision-driven
vehicles to meet the needs of a first line of defence in the
present. The robot's movement can be easily controlled
wirelessly by a person in a distant location, and the
vehicle can arrive at its pre-programmed destination on
its own when manual control is not sensible. This robot
would be equipped with a metal detection sensor that
would automatically detect bombs, and a remote
operator would receive a live video feed from the camera
to assist in manually controlling both rover’s modules.
The automation of vehicles has made
significant strides in recent years, making it possible for
sophisticated robots to undertake a few risky and vital
counterterrorism missions. These machines are not only
more effective than humans, but they have also saved a
few lives. Our Ammunition Detection & Border
Surveillance Vehicle is designed to carry out tasks like
border surveillance and active combat both as a
standalone metal detection unit that can also be used for
bomb detection (automatic) and in coordination with
human soldiers (manual) wirelessly.
It is a model showcasing the constantly growing
demand for advanced technology and precision-driven
vehicles to meet the needs of a first line of defence in the
present. The robot's movement can be easily controlled
wirelessly by a person in a distant location, and the
vehicle can arrive at its pre-programmed destination on
its own when manual control is not sensible. This robot
would be equipped with a metal detection sensor that
would automatically detect bombs, and a remote
operator would receive a live video feed from the camera
to assist in manually controlling both rover’s modules.
