Deep temporal detection - A machine learning approach to multiple-dwell target detection
Abstract
Detecting small targets, such as an Unmanned Aerial Vehicle (UAV) in high clutter and non-homogeneous environments is challenging for a radar system. Traditional Constant False Alarm Rate (CFAR) detectors have suboptimal performance in many scenarios. In this paper, we attempt a new approach to radar detection, based on machine learning, to increase the P D while retaining a low F FA . We propose two approaches, using a Convolutional Neural Network (CNN) on the range-Doppler images and stacking multiple range-Doppler images as layers, called the Temporal CNN detector. The models are trained and tested solely on measured radar data by using the estimated position and velocity from a collaborative target UAV. It is shown that training a model based solely on measured data is achievable and performance metrics calculated from the testing data shows that both models outperform the Cell-Averaging Constant False Alarm Rate (CA-CFAR) by having higher P D with the same P FA . The current test results indicate that the temporal CNN is able to increase the detection distance close to 30%, while retaining the same P FA as the CA-CFAR.
Description
Gusland, Daniel; Rolfsjord, Sigmund Johannes Ljosvoll; Torvik, Børge.
Deep temporal detection - A machine learning approach to multiple-dwell target detection. IEEE International Conference on Radar 2020