Powered artificial knee with agonist-antagonist actuation

1. A powered artificial knee comprising, in combination:

• a knee joint, the knee joint being rotatable and coupleable to a first artificial upper leg member and a second artificial lower leg member;
  
  an agonist-antagonist actuator, comprisinga series-elastic flexion actuator, connected to the knee joint in parallel with the first leg member, for applying a force to cause rotation of the knee joint, resulting in flexion of the first leg member, the flexion actuator comprising a series combination of a flexion motor and a flexion elastic element, and further comprising a flexion motor shaft;
  
  a series-elastic extension actuator, connected to the knee joint in parallel with the first leg member, in opposition to the flexion actuator, for applying a force to cause rotation of the knee joint, resulting in extension of the first leg member, the extension actuator comprising a series combination of an extension motor and an extension elastic element, and further comprising an extension motor shaft; and
  
  a controller configured for independently energizing the flexion motor and the extension motor at different times to control position, impedance, and nonconservative torque of the knee joint; and
  
  at least one sensor configured to provide feedback to the controller;
  
  wherein;
  
  the controller is responsive to sensor feedback indicating three states of a levelground walking gait cycle, Early Stance, Pre-Swing, and Swing, and is configured to employ quasi-passive equilibrium point control during the Early Stance state and the PreSwing state and variable-damping control during the Swing state;
  
  the knee joint defines a knee joint angle between the first and second leg members, which knee joint angle may vary;
  
  the extension elastic element has an extension equilibrium angle that may vary;
  
  the flexion elastic element has a flexion equilibrium angle that may vary; and
  
  the controller is configured such that;
  
  during Early Stance,the extension motor shaft is locked,the extension elastic element is engaged with the extension equilibrium angle equal to the knee joint angle at Heel Strike,during Early Stance knee flexion, the extension elastic element stores energy,the flexion equilibrium angle is position-controlled, andthe flexion motor shaft is locked when the knee joint is maximally flexed and begins to extend,after which the flexion elastic element is engaged with the flexion equilibrium angle equal to the knee joint angle at maximum knee flexion, so that energy is then released from the extension elastic element to be stored in the flexion elastic element;
  
  during Pre-Swing,the extension elastic element equilibrium angle is position-controlled under zero load,the flexion elastic element maintains the flexion equilibrium angle equal to the knee joint angle at maximum knee flexion, andthe flexion motor shaft remains locked, and the energy stored in the flexion elastic element is released; and
  
  during Swing,the extension equilibrium angle remains position-controlled under zero load,the flexion equilibrium angle is set under zero load to a knee joint angle minimum threshold,the extension elastic element is engaged when the knee joint flexes past a knee joint angle maximum threshold,a low gain damping control on the extension motor shaft causes the extension motor to act as a variable damper to reduce hyper-flexion of the knee joint,when the knee extends and has an angle of less than the knee joint angle maximum threshold, the extension equilibrium angle tracks the knee joint angle under zero load,as the knee extends past a knee joint angle minimum threshold, the flexion elastic element is engaged,a low gain damping control on the flexion motor shaft causes the flexion motor to act as a variable damper to decelerate the second artificial lower leg member until the flexion equilibrium angle isat a flexion equilibrium angle minimum threshold, andthe extension equilibrium angle is set to an extension equilibrium angle minimum threshold in preparation for a subsequent gait cycle.