Kim Bruil
/
EMG_Input
EMG input library biorobortics 31-10-2016
Fork of EMG by
EMG_input.cpp
- Committer:
- kbruil
- Date:
- 2016-10-31
- Revision:
- 29:98406a20a42b
- Parent:
- 28:ceed9f02b815
File content as of revision 29:98406a20a42b:
#include "EMG_input.h" /* ** ============================================================================= ** EMG_input ** ============================================================================= ** Function: ** Constructor ** ============================================================================= */ EMG_input::EMG_input(PinName pin) : emg0(pin), bq1(9.755715E-01, -1.951143E+00, 9.755715E-01, 1.000000E+00, -1.949216E+00, 9.530699E-01), // High pass 10 Hz (4th order) bq2(9.442373E-01, -1.888475E+00, 9.442373E-01, 1.000000E+00, -1.886610E+00, 8.903397E-01), bq3(9.955670E-01, -1.893718E+00, 9.955670E-01, 1.000000E+00, -1.890851E+00, 9.910331E-01), // Notch (stop band) 49 - 51 Hz (4th order) bq4(9.955670E-01, -1.893718E+00, 9.955670E-01, 1.000000E+00, -1.896548E+00, 9.912741E-01), bq5(4.798613E-01, 9.597225E-01, 4.798613E-01, 1.000000E+00, 4.531195E-01, 4.663256E-01), // Low pass 300 Hz (4th order) bq6(3.483908E-01, 6.967817E-01, 3.483908E-01, 1.000000E+00, 3.289757E-01, 6.458765E-02), bq7(8.818771E-05, 1.763754E-04, 8.818771E-05, 1.000000E+00, -1.985325E+00, 9.856773E-01), // Low pass 3Hz on rectified signal (4th order) bq8(8.730353E-05, 1.746071E-04, 8.730353E-05, 1.000000E+00, -1.965420E+00, 9.657687E-01), maxsig(0) { bqc1.add(&bq1).add(&bq2).add(&bq3).add(&bq4).add(&bq5).add(&bq6); // Add filters to filter chain bqc2.add(&bq7).add(&bq8); // Add filters to filter chain } /* ** ============================================================================= ** tick ** ============================================================================= ** Function: ** Reads and filters the raw EMG signal. ** Has to be called 1000 times per second from a (dereferenced) ticker function. ** ============================================================================= */ void EMG_input::tick(void){ e0 = emg0.read(); // Read emg signal e0f = fabs(bqc1.step(e0)); // Filter signal, rectify e0flow = bqc2.step(e0f); // Low pass filter rectified emg signal if (e0flow>maxsig){ maxsig = e0flow;} // Remember maximum peak (used for calibrating signal) discrete = floor((e0flow/maxsig)*10.0)/10.0; // Discretise signal non linearly (low muscle activity means higher gain on the input signal, sqrt used as envelope) } /* ** ============================================================================= ** read ** ============================================================================= ** Function: ** Returns true if muscle is active, false if muscle is inactive. ** Threshold value is set in .h file. ** ============================================================================= */ bool EMG_input::read(void){ //return (discrete>=EMG_THRESHOLD); return false; } EMG_input::~EMG_input(){ }