MOTION-ASSIST SYSTEM OF WEARABLE MOTION-ASSIST DEVICE, WEARABLE MOTION-ASSIST DEVICE, AND MOTION-ASSIST METHOD OF WEARABLE MOTION-ASSIST DEVICE
First Claim
1. A motion-assist system of a wearable motion-assist device, the wearable motion-assist device comprising:
- a biological signal detecting unit configured to detect a biological signal generated in accordance with a motion of a wearer of a motion-assist tool included in the wearable motion-assist device;
a physical phenomenon detecting unit configured to detect a detection signal corresponding to a physical phenomenon in accordance with the motion of the wearer;
a driving unit configured to apply assistance power to the motion-assist tool worn by the wearer; and
a control unit configured to control the driving unit to generate the assistance power, by performing a calculation process based on the detection signal detected by the physical phenomenon detecting unit, the motion-assist system comprising;
a communications unit configured to connect together a plurality of the control units of a plurality of the wearable motion-assist devices such that communications can be performed therebetween; and
a data transfer unit configured to transfer data corresponding to at least one of the signals acquired in one of the wearable motion-assist devices, to another one of the wearable motion-assist devices via the communications unit, wherein;
the control unit of the other one of the wearable motion-assist devices controls the driving unit based on the data transferred by the data transfer unit, such that a motion of the other one of the wearable motion-assist devices corresponds to a motion of the one of the wearable motion-assist devices.
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0 Petitions
Accused Products
Abstract
In the present invention, the motion state of the wearable motion-assist device 10-1 of the doctor 1 is sent to the wearable motion-assist device 10-2 of the patient 2 via a network. Then, this motion state is applied to the wearable motion-assist device 10-2 of the patient 2, so that rehabilitation is conducted for the patient 2. Furthermore, the motion state of the wearable motion-assist device 10-2 of the patient 2 is sent from the wearable motion-assist device 10-2 to the wearable motion-assist device 10-1. Then, the motion state of the wearable motion-assist device 10-2 is applied to the wearable motion-assist device 10-1. Accordingly, the doctor 1 can objectively sense the state of the patient 2.
74 Citations
22 Claims
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1. A motion-assist system of a wearable motion-assist device, the wearable motion-assist device comprising:
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a biological signal detecting unit configured to detect a biological signal generated in accordance with a motion of a wearer of a motion-assist tool included in the wearable motion-assist device; a physical phenomenon detecting unit configured to detect a detection signal corresponding to a physical phenomenon in accordance with the motion of the wearer; a driving unit configured to apply assistance power to the motion-assist tool worn by the wearer; and a control unit configured to control the driving unit to generate the assistance power, by performing a calculation process based on the detection signal detected by the physical phenomenon detecting unit, the motion-assist system comprising; a communications unit configured to connect together a plurality of the control units of a plurality of the wearable motion-assist devices such that communications can be performed therebetween; and a data transfer unit configured to transfer data corresponding to at least one of the signals acquired in one of the wearable motion-assist devices, to another one of the wearable motion-assist devices via the communications unit, wherein; the control unit of the other one of the wearable motion-assist devices controls the driving unit based on the data transferred by the data transfer unit, such that a motion of the other one of the wearable motion-assist devices corresponds to a motion of the one of the wearable motion-assist devices. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A motion-assist system of wearable motion-assist devices, for performing communications between a first wearable motion-assist device of a first wearer and a second wearable motion-assist device of a second wearer to perform motion assistance for the second wearer, the first wearable motion-assist device comprising:
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a first angle control output torque calculating unit configured to receive a second joint angle of the second wearable motion-assist device sent from the second wearable motion-assist device, and to calculate a first angle control output torque for the second wearable motion-assist device, based on the received second joint angle and a first joint angle of the first wearable motion-assist device corresponding to the received second joint angle; a first force control output torque calculating unit configured to receive an output torque of the second wearable motion-assist device sent from the second wearable motion-assist device, and to calculate a first force control output torque for the second wearable motion-assist device based on the received output torque; a first assist control output torque calculating unit configured to calculate a first assist control output torque based on an output torque of an actuator unit of the first wearable motion-assist device, the first joint angle of the first wearable motion-assist device, a first bioelectrical signal corresponding to a muscle force generated by the first wearer, and a first relative force applied to a frame of the first wearable motion-assist device; a first output torque calculating unit configured to calculate a first output torque for the second wearable motion-assist device, based on at least one of the calculated first angle control output torque and the calculated first force control output torque, and the calculated first assist control output torque; and a first sending unit configured to send the calculated first output torque and the first joint angle of the first wearable motion-assist device to the second wearable motion-assist device, the second wearable motion-assist device comprising; a second angle control output torque calculating unit configured to receive the first joint angle of the first wearable motion-assist device sent from the first wearable motion-assist device, and to calculate a second angle control output torque for the first wearable motion-assist device, based on the received first joint angle and the second joint angle of the second wearable motion-assist device corresponding to the received first joint angle; a second force control output torque calculating unit configured to receive the first output torque sent from the first wearable motion-assist device, and to calculate a second force control output torque for the second wearable motion-assist device based on the received first output torque; a second assist control output torque calculating unit configured to calculate a second assist control output torque based on an output torque of an actuator unit of the second wearable motion-assist device, the second joint angle of the second wearable motion-assist device, a second bioelectrical signal corresponding to a muscle force generated by the second wearer, and a second relative force applied to a frame of the second wearable motion-assist device; a second output torque calculating unit configured to calculate a second output torque for the first wearable motion-assist device, based on at least one of the calculated second angle control output torque and the calculated second force control output torque, and the calculated second assist control output torque; and a second control unit configured to control the actuator unit of the second wearable motion-assist device in accordance with the calculated second output torque. - View Dependent Claims (13, 14, 15, 16)
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17. A wearable motion-assist device worn by a wearer for performing communications with another wearable motion-assist device worn by another wearer, to instruct the other wearable motion-assist device to perform motion assistance or to perform motion assistance based on instructions from the other wearable motion-assist device, the wearable motion-assist device comprising:
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an angle control output torque calculating unit configured to receive a joint angle of the other wearer of the other wearable motion-assist device sent from the other wearable motion-assist device, and to calculate an angle control output torque for the other wearable motion-assist device, based on the received joint angle of the other wearer and a joint angle corresponding to the received joint angle of the other wearer of the other wearable motion-assist device; a force control output torque calculating unit configured to receive an output torque of the other wearable motion-assist device sent from the other wearable motion-assist device, and to calculate a force control output torque for the other wearable motion-assist device based on the received output torque; an assist control output torque calculating unit configured to calculate an assist control output torque based on an output torque of an actuator unit of the wearable motion-assist device, the joint angle of the wearable motion-assist device, a bioelectrical signal corresponding to a muscle force generated by the wearer, and a relative force applied to a frame of the wearable motion-assist device; an output torque calculating unit configured to calculate an output torque for the other wearable motion-assist device of the other wearer, based on at least one of the calculated angle control output torque and the calculated force control output torque, and the calculated assist control output torque; and a control unit configured to control the actuator unit of the wearable motion-assist device in accordance with the calculated output torque. - View Dependent Claims (18, 19, 20)
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21. A motion-assist method of a wearable motion-assist device, for performing communications between a first wearable motion-assist device worn by a first wearer and a second wearable motion-assist device worn by a second wearer to perform motion assistance for the second wearer, the motion-assist method comprising the steps performed by the first wearable motion-assist device of:
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receiving a second joint angle of the second wearable motion-assist device sent from the second wearable motion-assist device, and calculating a first angle control output torque for the second wearable motion-assist device, based on the received second joint angle and a first joint angle of the first wearable motion-assist device corresponding to the received second joint angle; receiving an output torque of the second wearable motion-assist device sent from the second wearable motion-assist device, and calculating a first force control output torque for the second wearable motion-assist device based on the received output torque; calculating a first assist control output torque based on an output torque of an actuator unit of the first wearable motion-assist device, the first joint angle of the first wearable motion-assist device, a first bioelectrical signal corresponding to a muscle force generated by the first wearer, and a first relative force applied to a frame of the first wearable motion-assist device; calculating a first output torque for the second wearable motion-assist device, based on at least one of the calculated first angle control output torque and the calculated first force control output torque, and the calculated first assist control output torque; and sending the calculated first output torque and the first joint angle of the first wearable motion-assist device to the second wearable motion-assist device, the motion-assist method further comprising the steps performed by the second wearable motion-assist device of; receiving the first joint angle of the first wearable motion-assist device sent from the first wearable motion-assist device, and calculating a second angle control output torque for the first wearable motion-assist device, based on the received first joint angle and the second joint angle of the second wearable motion-assist device corresponding to the received first joint angle; receiving the first output torque sent from the first wearable motion-assist device, and calculating a second force control output torque for the second wearable motion-assist device based on the received first output torque; calculating a second assist control output torque based on an output torque of an actuator unit of the second wearable motion-assist device, the second joint angle of the second wearable motion-assist device, a second bioelectrical signal corresponding to a muscle force generated by the second wearer, and a second relative force applied to a frame of the second wearable motion-assist device; calculating a second output torque for the first wearable motion-assist device, based on at least one of the calculated second angle control output torque and the calculated second force control output torque, and the calculated second assist control output torque; and controlling the actuator unit of the second wearable motion-assist device in accordance with the calculated second output torque.
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22. A motion-assist method of a wearable motion-assist device, for performing communications with another wearable motion-assist device worn by another wearer, to instruct the other wearable motion-assist device to perform motion assistance or to perform motion assistance based on instructions from the other wearable motion-assist device, the wearable motion-assist device comprising the steps of:
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receiving a joint angle of the other wearer of the other wearable motion-assist device sent from the other wearable motion-assist device, and calculating an angle control output torque for the other wearable motion-assist device, based on the received joint angle of the other wearer and a joint angle corresponding to the received joint angle of the other wearer of the other wearable motion-assist device; receiving an output torque of the other wearable motion-assist device sent from the other wearable motion-assist device, and calculating a force control output torque for the other wearable motion-assist device based on the received output torque; calculating an assist control output torque based on an output torque of an actuator unit of the wearable motion-assist device, the joint angle of the wearable motion-assist device, a bioelectrical signal corresponding to a muscle force generated by the wearer, and a relative force applied to a frame of the wearable motion-assist device; calculating an output torque for the other wearable motion-assist device, based on at least one of the calculated angle control output torque and the calculated force control output torque, and the calculated assist control output torque; and controlling the actuator unit of the wearable motion-assist device in accordance with the calculated output torque.
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Specification