System to assist walking

The invention claimed is: 1. A system to assist walking, comprising: a first orthosis for a user's first leg and a second orthosis for the user's second leg, where the first and second orthoses each comprise: a support for a foot, a lower structure for a calf, an upper structure for a thigh, a lower articulation between the lower structure and the support for the foot, and an upper articulation between the lower structure and the upper structure; a plurality of sensors configured for measuring at least: an angle of inclination (θ) between the lower structure and vertical; an angle of flexion (α_r) between the lower structure and upper structure; and a vertical acceleration (a_z); and an actuator coupled to the upper articulation and configured for setting the angle of flexion (α_r); and a control unit configured for detecting a subsequent leg flexion-extension cycle depending on values measured by the sensors and for applying said flexion-extension cycle by variation of the angle of flexion (α_r) through the actuators of the upper articulations; wherein the control unit is configured for detecting a subsequent leg flexion-extension cycle when the following conditions are complied with: first, the vertical acceleration of the first leg has remained within a standby threshold for a first period of time, then, the vertical acceleration of the first leg increases above a threshold for a second period of time, and the angle of inclination of the first leg is greater than a first preset value, and the angle of inclination of the second leg is less than a second preset value. 2. The system to assist walking according to claim 1 , where the plurality of sensors comprises a uniaxial gyroscope and at least two uniaxial accelerometers. 3. The system to assist walking according to claim 1 where the control unit is configured for detecting a subsequent leg flexion-extension cycle when the vertical acceleration (a_z) of the second leg remains below a threshold for a period of time. 4. The system to assist walking according to claim 1 , where the control unit is configured for detecting a subsequent leg flexion-extension cycle depending on the angular velocity of the second leg. 5. The system to assist walking according to claim 1 , where the actuator associated with the upper articulation is configured for applying a variable angle depending on time during a flexion-extension cycle. 6. Using a system, the system comprising: a first orthosis for a user's first leg and a second orthosis for the user's second leg, where the first and second orthoses each comprise: a support for a foot of the user, a lower structure for a calf of the user, an upper structure for a thigh of the user, a lower articulation between the lower structure and the support for the foot, and an upper articulation between the lower structure and the upper structure; a plurality of sensors configured for measuring at least: an angle of inclination (θ) between the lower structure and vertical; an angle of flexion (α_r) between the lower structure and upper structure; and a vertical acceleration (a_z); and an actuator coupled to the upper articulation and configured for setting the angle of flexion (α_r); and a control unit configured for detecting a subsequent leg flexion-extension cycle depending on values measured by the sensors and for applying said flexion-extension cycle by variation of the angle of flexion (α_r) through the actuators of the upper articulations; wherein the control unit is configured for detecting a subsequent leg flexion-extension cycle when the following conditions are complied with: first, the vertical acceleration of the first leg has remained within a standby threshold for a first period of time, then, the vertical acceleration of the first leg increases above a threshold for a second period of time, and the angle of inclination of the first leg is greater than a first preset value, and the angle of inclination of the second leg is less than a second preset value; the using comprising: securing the first orthosis to the user's first leg and the second orthosis to the user's second leg, each by holding the user's foot with the support, securing the lower structure to the user's calf, and securing the upper structure to the user's thigh; and using the system to assist walking of the user, the user preserving hip flexion capacity and suffering from spinal cord injury, stroke, traumatic brain injury, multiple sclerosis, cerebral palsy or poliomyelitis affecting lower limbs. 7. A system to assist walking in people who preserve hip flexion capacity suffering from spinal cord injury, stroke, traumatic brain injury, multiple sclerosis, cerebral palsy and poliomyelitis affecting lower limbs, the system comprising: a first orthosis for a user's first leg and a second orthosis for the user's second leg, where the first and second orthoses each comprise: a support for a foot, a lower structure for a calf, an upper structure for a thigh, a lower articulation between the lower structure and the support for the foot, and an upper articulation between the lower structure and the upper structure; a plurality of sensors configured for measuring at least: an angle of inclination (θ) between the lower structure and vertical; an angle of flexion (α_r) between the lower structure and upper structure; and a vertical acceleration (a_z); and an actuator coupled to the upper articulation and configured for setting the angle of flexion (α_r); and a control unit configured for detecting a subsequent leg flexion-extension cycle depending on values measured by the sensors and for applying said flexion-extension cycle by variation of the angle of flexion (α_r) through the actuators of the upper articulations; wherein the control unit is configured for detecting a subsequent leg flexion-extension cycle when the following conditions are complied with: first, the vertical acceleration of the first leg has remained within a standby threshold for a first period of time, then, the vertical acceleration of the first leg increases above a threshold for a second period of time, and the angle of inclination of the first leg is greater than a first preset value, and the angle of inclination of the second leg is less than a second preset value.