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Human activity sensing is a crucial component of health monitoring and smart environment applications. Frequency-modulated continuous-wave (FMCW) radars can be used for target tracking, but their collected data are usually accompanied by a significant amount of interference, especially in indoor environments hosting multiple human subjects, leading to a decrease in accuracy. In this article, we propose a method that compensates that interference and can detect individual activities of multiple humans, overcoming existing methods' limitation of detecting single human activities. To this end, a range-Doppler map of the data is extracted with an FWCW radar, and the interference effect of this map is mitigated by a convolutional autoencoder (CAE). The CAE network learns to attenuate false-positive regions to strengthen the target areas. This is followed by a Gaussian filter, and then the targets are revealed by applying derivatives on both dimensions of the map. Evaluation results show that our method reaches activity recognition accuracies of 97.13% and 73.37% in the cases of one and two humans, respectively.