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This Concept Map, created with IHMC CmapTools, has information related to: ATT_stateMachine_v2, decrease Yes -> No 0.9*stepSize sequence = 1 seriesNum++ update transitionTorq = currentStimuli averagedTransitionTorq = averagedTransitionTorq + (transitionTorq - averagedTransitionTorq) /seriesNum deviationTerm = abs(averagedTransitionTorq - transitionTorq) Terminate condition: deviationTerm < setThreshold, Terminate condition: deviationTerm < setThreshold if any of these would finish first then whichever finshed first keeps the last value for ths stimuli until the other ends., flexion calculate the magnitude of torque zeroing_state Here: decide which direction to go next randomly apply the torque, decrease Yes -> No 0.9*stepSize sequence = 1 seriesNum++ update transitionTorq = currentStimuli averagedTransitionTorq = averagedTransitionTorq + (transitionTorq - averagedTransitionTorq) /seriesNum deviationTerm = abs(averagedTransitionTorq - transitionTorq) increase, increase No -> Yes 0.9*stepSize sequence = 1 seriesNum++ update transitionTorq = currentStimuli averagedTransitionTorq = averagedTransitionTorq + (transitionTorq - averagedTransitionTorq)/seriesNum deviationTerm = abs(averagedTransitionTorq - transitionTorq ) Terminate condition: deviationTerm < setThreshold, 4. APPLYandListen(1) start collecting user response: if flx, response = response_flx if ext, response = response_ext 1. set torque = 0 finish collecting all the respnoses (filter the wrong answers) 2. CALCULATE(0) based on the response, calculate the torque reset the responses, increase No -> Yes 0.9*stepSize sequence = 1 seriesNum++ update transitionTorq = currentStimuli averagedTransitionTorq = averagedTransitionTorq + (transitionTorq - averagedTransitionTorq)/seriesNum deviationTerm = abs(averagedTransitionTorq - transitionTorq ) Terminate condition: deviationTerm < setThreshold and stepSize < set another Threshold, increase No -> Yes 0.9*stepSize sequence = 1 seriesNum++ update transitionTorq = currentStimuli averagedTransitionTorq = averagedTransitionTorq + (transitionTorq - averagedTransitionTorq)/seriesNum deviationTerm = abs(averagedTransitionTorq - transitionTorq ) decrease, decrease Yes -> No 0.9*stepSize sequence = 1 seriesNum++ update transitionTorq = currentStimuli averagedTransitionTorq = averagedTransitionTorq + (transitionTorq - averagedTransitionTorq) /seriesNum deviationTerm = abs(averagedTransitionTorq - transitionTorq) Terminate condition: deviationTerm < setThreshold and stepSize < set another Threshold, flexion calculate the magnitude of torque zeroing_state extension calculate the magnitude of torque, Terminate condition: deviationTerm < setThreshold and stepSize < set another Threshold if any of these would finish first then whichever finshed first keeps the last value for ths stimuli until the other ends., increase No -> Yes 0.9*stepSize sequence = 1 seriesNum++ update transitionTorq = currentStimuli averagedTransitionTorq = averagedTransitionTorq + (transitionTorq - averagedTransitionTorq)/seriesNum deviationTerm = abs(averagedTransitionTorq - transitionTorq ) decrease, 2. CALCULATE(0) based on the response, calculate the torque reset the responses 3. apply torque, prev_torq = current torq 4. APPLYandListen(1) start collecting user response: if flx, response = response_flx if ext, response = response_ext, decrease Yes -> No 0.9*stepSize sequence = 1 seriesNum++ update transitionTorq = currentStimuli averagedTransitionTorq = averagedTransitionTorq + (transitionTorq - averagedTransitionTorq) /seriesNum deviationTerm = abs(averagedTransitionTorq - transitionTorq) increase