US2019192905A1PendingUtilityA1
Systems and methods for sensing balanced-action for improving mammal work-track efficiency
Est. expiryFeb 25, 2030(~3.6 yrs left)· nominal 20-yr term from priority
Inventors:James C. Solinsky
G01L 19/0092A63B 24/0006A63B 2220/40A61B 5/0488A61B 5/0482G09B 19/0038A63B 69/00A63B 71/0622A63B 2220/836G01C 21/16G01R 33/06A61B 2562/0219A63B 2209/00G01C 21/005G01L 9/0073A61B 2562/0223A61B 2562/0247A61B 2503/10A63B 69/0028A63B 2220/89A63B 2220/56A61B 5/112A61B 5/375
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Abstract
An example system includes one or more sleeves, each configured for attachment to a leg and comprising a pressure sensor, an accelerometer and a magnetometer. A processor processes sensor signals from the pressure sensor, the accelerometer and the magnetometer to estimate action (A) and work (W) using event detections of peak stance and valley swing events associated with leg movement, for optimizing energy efficiency for maintaining a balance of the body leaning forward in a gravity pull-down force, with the periodic upward force of the sequential foot-thrusts with the toes.
Claims
exact text as granted — not AI-modifiedI claim:
1 . A system comprising:
one or more sleeves, each configured for attachment to a leg and comprising a pressure sensor, an accelerometer and a magnetometer; a processor for processing sensor signals from the pressure sensor, the accelerometer and the magnetometer to estimate action (A) and work (W) using event detections of peak stance and valley swing events associated with leg movement, wherein the processor detects small changes during swing from brain feedback of proprioception sensing of the lower body component locations and movement dynamics to adjust the swing reversal behavior with feedback for a minimum off-unbalance and use of friction in stepping forward with each stance step.Cited by (0)
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