In recent years, with the rise of Internet of Things applications, network communication is not limited to mobile phones and computers. In addition to bringing convenience to human life, the issue of information security has gradually been paid attention to. Therefore, a unique biometric technology is extended. Biometric signature authentication is different from traditional text or image-based account numbers and passwords. Its feature that not easy to be forged also makes the degree of security more reliable. In the past research on the analysis of foot pressure, few studies dis-cussed that subjects carried weights at different positions of the body. There are also few studies in research of subjects with carrying different weights. This thesis is mainly to explore the impact of the plantar-pressure recognition systems’ accuracy and the model training time for the subjects who carry different weights on the right side or the back side under barefoot conditions with machine learning methods analysis the subjects which carrying different weights on the right side and the subjects which carrying different weights on the back under barefoot conditions. The experimental results show that using average gait's data and carrying heavy weights will in-crease the recognition rate of gait's pressure.