Take-Home Messages • A stepped-frequency continuous-wave (SFCW) radar system with adequate pulse repetition frequency (PRF) is used to provide a 2-D data matrix from moving subjects for human gait analysis purposes using a developed state-space method- (SSM-) based signal processing technique: 1-D block processing technique with 2-D data set. • 1-D block processing technique with 2-D data input can track each body component accurately and can capture the dynamics and nonlinearity of the weak scatterers due to the high smoothness of the enhanced Hankel matrix formed from 2-D data matrix. • The targeted biological and medical applications of this work are diagnosis of health issues and abnormalities, elderly care and health monitoring, and treatment of joint problems.

A stepped-frequency continuous-wave (SFCW) radar system with adequate pulse repetition frequency (PRF) is developed to track relatively fast motions from various parts of the human body, separately. Robust signal processing technique is utilized, where a 1-D block processing technique, based on state-space method (SSM) is developed in two dimensions to form an enhanced Hankel matrix to track human motions from two-dimensional (2-D) data collected using the developed SFCW radar system in single- or multi-subject motion scenarios. Experimental datasets are used to track body parts' motions and velocities with high accuracy. The significant improvement, besides de-noising the data, is due to the fact that applying the 1-D block processing technique to 2-D dataset matrix accounts for the correlation between motion's estimates from consecutive frames. Results agree well with our reference, the human Boulic model.