Human assist system using gravity compensation control system and method using multiple feasibility parameters
First Claim
1. A method for obtaining an assist torque to be applied to a human joint, in a human assist system for applying an assist torque to the human joint, comprising the steps of:
- determining a gravity compensation control torque value for a first joint;
identifying said gravity compensation control torque as being feasible if the relative angular velocity between first and second segment of said first joint is substantially zero; and
identifying a gravity compensation control torque feasibility value when said relative angular velocity between said first and second segments of said first joint is not substantially zero, including the steps of;
determining a mechanical energy feasibility value of said gravity compensation control torque,determining a metabolic energy feasibility value of said gravity compensation control torque, the metabolic energy feasibility value based on metabolic efficiencies associated with concentric work and eccentric work, andcalculating said gravity compensation control torque feasibility value based upon said mechanical energy feasibility value and said metabolic energy feasibility value.
1 Assignment
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Accused Products
Abstract
A method for obtaining an assist torque to be applied to a human joint, in a human assist system in order to reduce the load on muscles, according to the present invention comprises the step of obtaining a moment due to gravity, acting on a joint of each human segment, based on equations of force and moment balance on each segment. The method further comprises the step of obtaining an assist torque to be applied to the joint to compensate for the moment due to gravity, acting on the joint. In one embodiment of the present invention, various criteria are used such as mechanical energy, metabolic energy and/or a stability/equilibrium factor. In addition, the present invention can account for the situation where there is substantially no relative motion between segments of a given joint and thus, where the mechanical energy component of gravity compensation is approximately zero.
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Citations
20 Claims
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1. A method for obtaining an assist torque to be applied to a human joint, in a human assist system for applying an assist torque to the human joint, comprising the steps of:
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determining a gravity compensation control torque value for a first joint; identifying said gravity compensation control torque as being feasible if the relative angular velocity between first and second segment of said first joint is substantially zero; and identifying a gravity compensation control torque feasibility value when said relative angular velocity between said first and second segments of said first joint is not substantially zero, including the steps of; determining a mechanical energy feasibility value of said gravity compensation control torque, determining a metabolic energy feasibility value of said gravity compensation control torque, the metabolic energy feasibility value based on metabolic efficiencies associated with concentric work and eccentric work, and calculating said gravity compensation control torque feasibility value based upon said mechanical energy feasibility value and said metabolic energy feasibility value. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method for obtaining an assist torque to be applied to a human joint, in a human assist system for applying an assist torque to the human joint, comprising the steps of:
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determining a gravity compensation control torque value for a first joint; identifying said gravity compensation control torque as being feasible if the relative angular velocity between first and second segments of the said first joint is substantially zero; and identifying a gravity compensation control torque feasibility value when the relative angular velocity between said first and second segments of the said first joint is not substantially zero, including the steps of; determining a mechanical energy feasibility value of said gravity compensation control torque, the mechanical energy feasibility value based on determining whether the assist torque is mechanically feasible, determining a stability feasibility factor for said gravity compensation control torque, and calculating said gravity compensation control torque feasibility value based upon said mechanical energy feasibility value and said stability feasibility factor. - View Dependent Claims (9)
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10. A method for obtaining an assist torque to be applied to a human joint, in a human assist system for applying an assist torque to the human joint, comprising the steps of:
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determining a gravity compensation control torque value for a first joint; identifying said gravity compensation control torque as being feasible if the relative angular velocity between first and second segments of the said first joint is substantially zero; and identifying a gravity compensation control torque feasibility value when said angular velocity between said first and second segments of the said first joint is not substantially zero, including the steps of; determining a metabolic energy feasibility value of said gravity compensation control torque, the metabolic energy feasibility value based on metabolic efficiencies associated with concentric work and eccentric work, determining a stability feasibility factor for said gravity compensation control torque, and calculating said gravity compensation control torque feasibility value based upon said metabolic energy feasibility value and said stability feasibility factor.
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11. A system for obtaining an assist torque to be applied to a human joint, in a human assist system for applying an assist torque to the human joint, comprising:
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means for determining a gravity compensation control torque value for a first joint; first identifying means for identifying said gravity compensation control torque as being feasible if the relative angular velocity between first and second segments of said first joint is substantially zero; and second identifying means for identifying a gravity compensation control torque feasibility value when the said angular velocity between said first and second segments of the said first joint is not substantially zero, including; mechanical feasibility means for determining a mechanical energy feasibility value of said gravity compensation control torque, metabolic feasibility means for determining a metabolic energy feasibility value of said gravity compensation control torque, the metabolic energy feasibility value based on metabolic efficiencies associated with concentric work and eccentric work, and first calculating means for calculating said gravity compensation control torque feasibility value based upon said mechanical energy feasibility value and said metabolic energy feasibility value. - View Dependent Claims (12, 13, 14, 15, 16, 17)
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18. A system for obtaining an assist torque to be applied to a human joint, in a human assist system for applying an assist torque to the human joint, comprising:
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means for determining a gravity compensation control torque value for a first joint;
first identifying means for identifying said gravity compensation control torque as being feasible if the angular velocity of between first and second segments of the said first joint is substantially zero; andsecond identifying means for identifying a gravity compensation control torque feasibility value when said angular velocity between first and second segments of said first joint is not substantially zero, including; mechanical feasibility means for determining a mechanical energy feasibility value of said gravity compensation control torque, the mechanical energy feasibility value based on determining whether the assist torque is mechanically feasible, stability feasibility means for determining a stability feasibility factor for said gravity compensation control torque, and first calculating means for calculating said gravity compensation control torque feasibility value based upon said mechanical energy feasibility value and said stability feasibility factor. - View Dependent Claims (19)
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20. A system for obtaining an assist torque to be applied to a human joint, in a human assist system for applying an assist torque to the human joint, comprising:
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means for determining a gravity compensation control torque value for a first joint; first identifying means for identifying said gravity compensation control torque as being feasible if the said relative angular velocity between the first and second segments connecting the said first joint is substantially zero; and second identifying means for identifying a gravity compensation control torque feasibility value when the said relative angular velocity between said first and second segments connecting the said first joint is not substantially zero, including; metabolic feasibility means for determining a metabolic energy feasibility value of said gravity compensation control torque, the metabolic energy feasibility value based on metabolic efficiencies associated with concentric work and eccentric work, stability feasibility means for determining a stability feasibility factor for said gravity compensation control torque, and first calculating means for calculating said gravity compensation control torque feasibility value based upon said metabolic energy feasibility value and said stability feasibility factor.
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Specification