Paretic limb rehabilitation methods and systems

What is claimed is: 1. A method of treating a paretic limb of a patient, the method comprising: obtaining a neuromuscular-to-motion decoder using a computing system that includes a memory, a processor, and instructions stored in the memory executable by the processor, the instructions comprising functionality to execute a mapping method that maps first neuromuscular signals to first motion signals during a person performing a predefined exercise with a healthy limb, the mapping of the first neuromuscular signals to the first motion signals is performed using a method selected from the group consisting of a machine learning method, a statistical method, a data mining method and any combination of the machine learning method, statistical method and data mining method, the first neuromuscular signals having been generated by at least first and second neuromuscular sensors situated at first predefined locations on or in agonist and antagonist muscles of the healthy limb of the person during the person performing the predefined exercise, the first motion signals having been generated by a first plurality of motion sensors situated at second predefined locations on the healthy limb during the person performing the predefined exercise; respectively placing at least third and fourth neuromuscular sensors at third predefined locations on or in the agonist and antagonist muscles of a paretic limb of the patient, the agonist and antagonist muscles of the paretic limb corresponding to the agonist and antagonist muscles of the healthy limb, the third predefined locations corresponding to the first predefined locations, the third and fourth neuromuscular sensors configured to produce second neuromuscular signals upon the patient attempting to perform the predefined exercise with the paretic limb; inputting the second neuromuscular signals to the neuromuscular-to-motion decoder for causing the neuromuscular-to-motion decoder to output first motion commands; placing a second plurality of motion sensors at fourth predefined locations on the paretic limb, the fourth predefined locations on the paretic limb corresponding to the second predefined locations of the healthy limb, the second plurality of motion sensors configured to produce second motion signals upon the patient attempting to perform the predefined exercise with the paretic limb; producing trajectory data defining a trajectory to be followed by the paretic limb depending on a deviation between the second motion signals and predefined exercise data defining the predefined exercise; producing second motion commands depending on the trajectory data to be followed by the paretic limb; producing final motion commands depending on the first motion commands and the second motion commands; and sending the final motion commands to a body actuator associated to the paretic limb to cause the body actuator to stimulate the paretic limb to perform the predefined exercise, one or more of the first, second, third and fourth neuromuscular sensors being a sensor selected from the group consisting of an electromyography sensor, an electroneurography sensor, an ultrasound sensor, and an optical sensor, one or more of the first and second plurality of motion sensors being selected from the group consisting of an inertial sensor, a magnetic sensor, and an optical sensor. 2. The method of treating a paretic limb of a patient according to claim 1 , wherein each of the at least third and fourth neuromuscular sensors and each of the at least first and second neuromuscular sensors are a same type of neuromuscular sensor. 3. The method of treating a paretic limb of a patient according to claim 1 , wherein each of the second plurality of motion sensors and each of the first plurality of motion sensors are a same type of motion sensor. 4. The method of treating a paretic limb of a patient according to claim 1 , wherein the final motion commands are produced depending on the first motion commands and the second motion commands by weighting the first motion commands and the second motion commands based on a predefined weighting criterion. 5. The method of treating a paretic limb of a patient according to claim 4 , wherein the first motion commands and the second motion commands are weighted based on the predefined weighting criterion by: comparing the first motion commands to the second motion commands to obtain a first indicator of similarity between the first motion commands and the second motion commands; and determining a first weight for the first motion commands and a second weight for the second motion commands depending on the first indicator of similarity, in such a way that the higher is the first indicator of similarity, the higher is the first weight and the lower is the second weight; the final motion commands being produced based on the first motion commands weighted with the first weight and the second motion commands weighted with the second weight. 6. The method of treating a paretic limb of a patient according to claim 5 , wherein the first motion commands and second motion commands are compared by performing a normalized root-mean-square error method and/or a correlation coefficient method. 7. The method of treating a paretic limb of a patient according to claim 4 , wherein the first motion commands and the second motion commands are weighted based on the predefined weighting criterion by: receiving input from a user that includes an indicator of evolution of the rehabilitation; and weighting the first motion commands and the second motion commands based on the indicator of evolution of the rehabilitation. 8. The method of treating a paretic limb of a patient according to claim 7 , wherein the first motion commands and the second motion commands are weighted based on the indicator of evolution of the rehabilitation by determining a third weight for the first motion commands and a fourth weight for the second motion commands depending on the indicator of evolution of the rehabilitation, in such a way that the higher is the indicator of evolution of the rehabilitation, the higher is the third weight and the lower is the fourth weight; the final motion commands being produced based on the first motion commands weighted with the third weight and the second motion commands weighted with the fourth weight. 9. The method of treating a paretic limb of a patient according to claim 1 , wherein the final motion commands are produced depending on the first motion commands and the second motion commands either by: aggregating the first motion commands and the second motion commands, or by comparing the first motion commands to the second motion commands to obtain a second indicator of similarity between the first motion commands and the second motion commands; transforming the first motion commands based on the second indicator of similarity between the first motion commands and the second motion commands; and determining the final motion commands based on the transformed first motion commands and the second motion commands. 10. The method of treating a paretic limb of a patient according to claim 9 , wherein the first motion commands are transformed based on a projection of the first motion commands on the second motion commands. 11. The method of treating a paretic limb of a patient according to claim 4 , wherein the first motion commands and the second motion commands are weighted based on the predefined weighting criterion by: comparing the second neuromuscular signals to the first neuromuscular signals for obtaining a third indicator of similarity between the second neuromuscular signals and the first neuromuscular signals; and determining a fifth weight fo