Mine vehicles are a leading cause of mining fatalities. A reliable anti-collision system is needed to prevent vehicle-personnel collisions. The proposed collision detection system uses the fusion of a three-dimensional (3D) sensor and thermal infrared camera for human detection and tracking. In addition to a thermal camera, a distance sensor will provide depth information and allow the calculation of the vehicle and pedestrian velocities. The results of subsystem tests show that a simple temperature range is sufficient for segmentation and a neural network shows the best classification results in terms of speed and accuracy. Results of initial tests performed on two different 3D sensors show a significant disadvantage to the use of time of flight cameras in a mine environment.
Reference:
Dickens, JS, Van Wyk, MA and Green, JJ. 2011. Pedestrian detection for underground mine vehicles using thermal images. IEEE Africon, Livingstone Zambia, 13-15 September 2011
Dickens, J., Van Wyk, M., & Green, J. (2011). Pedestrian detection for underground mine vehicles using thermal images. IEEE Africon 2011. http://hdl.handle.net/10204/5273
Dickens, JS, MA Van Wyk, and JJ Green. "Pedestrian detection for underground mine vehicles using thermal images." (2011): http://hdl.handle.net/10204/5273
Dickens J, Van Wyk M, Green J, Pedestrian detection for underground mine vehicles using thermal images; IEEE Africon 2011; 2011. http://hdl.handle.net/10204/5273 .
