The present invention provides an intelligent interactive-rhythmic neuromuscular rehabilitation system, comprising: a surface electromyography sensor configured to collect a users electromyographic signal a signal transmitter configured to receive and transmit the electromyographic signal a rhythmic interaction module configured to generate and provide a specific rhythm to the user and receive the electromyographic signal, such that when the electromyographic signal matches the specific rhythm, a positive feedback is provided otherwise, a negative feedback is provided. The intelligent interactive-rhythmic neuromuscular rehabilitation system enables a user to constantly strengthen a target muscle or muscle group by a rhythmic interaction module, and to be familiar with the voluntary control of target muscle by motor nerve control and suppressing improper muscle contraction, thereby achieving muscle balance The system is characterized by its high interactivity, intelligence, and entertainment. It enhances the users adherence to the long-term treatment, and makes users self-treatment possible.
