Understanding how the human control system works is of great importance in biomechanical analyses, which is necessary for medical and sports therapies, the construction of functional aids, or the development of the control system of robots. There are different ways of determining the principles of operation of the control system, which is often quite a complicated procedure. This paper presents one of the more straightforward methods of determination and its biomechanical analysis, intending to investigate the impact of the implementation of an exercise program on the postural changes of the subjects to understand the human control system. By applying the bio-tensegrity principles, models of different parts of the body, which have the most significance in functional posture maintenance, are presented, which are also interconnected by neuromyofascial slings. Slings have a specific rest tone, not detectable by EMG, ensuring constant tension in the body and keeping it upright. By introducing tensegrity structures into the conversation about how the human body works, it is possible to show non-linear behaviors on the already mentioned models. Using a pedobarographic platform, measurement was carried out that established the initial state of the subject, in which biomechanical indicators of the resulting locomotor changes can be seen. Then, by carrying out the exercise program, which aims to stimulate changes in the initial condition of the subjects, and after two weeks, another measurement is carried out, according to the results of which it can be inferred that there have been some positive changes. The results showed that a particular training plan could stimulate positive locomotor changes. Still, questions are raised about whether each training type will encourage changes and whether these changes will always be positive, assuming proper execution of the exercises. Also, the results support the bio-tensegrity theory, given that changes in one part managed to trigger changes in another. Finally, results also confirm the fact that the action of the control system is based on the synergy between the locomotor and nervous systems.