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Fork of MAX30100 by
MAX30100_BeatDetector.cpp@0:010b908e2187, 2016-11-25 (annotated)
- Committer:
- AVELARDEV
- Date:
- Fri Nov 25 00:52:54 2016 +0000
- Revision:
- 0:010b908e2187
max30100 example
Who changed what in which revision?
User | Revision | Line number | New contents of line |
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AVELARDEV | 0:010b908e2187 | 1 | /* |
AVELARDEV | 0:010b908e2187 | 2 | Arduino-MAX30100 oximetry / heart rate integrated sensor library |
AVELARDEV | 0:010b908e2187 | 3 | Copyright (C) 2016 OXullo Intersecans <x@brainrapers.org> |
AVELARDEV | 0:010b908e2187 | 4 | This program is free software: you can redistribute it and/or modify |
AVELARDEV | 0:010b908e2187 | 5 | it under the terms of the GNU General Public License as published by |
AVELARDEV | 0:010b908e2187 | 6 | the Free Software Foundation, either version 3 of the License, or |
AVELARDEV | 0:010b908e2187 | 7 | (at your option) any later version. |
AVELARDEV | 0:010b908e2187 | 8 | This program is distributed in the hope that it will be useful, |
AVELARDEV | 0:010b908e2187 | 9 | but WITHOUT ANY WARRANTY; without even the implied warranty of |
AVELARDEV | 0:010b908e2187 | 10 | MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
AVELARDEV | 0:010b908e2187 | 11 | GNU General Public License for more details. |
AVELARDEV | 0:010b908e2187 | 12 | You should have received a copy of the GNU General Public License |
AVELARDEV | 0:010b908e2187 | 13 | along with this program. If not, see <http://www.gnu.org/licenses/>. |
AVELARDEV | 0:010b908e2187 | 14 | */ |
AVELARDEV | 0:010b908e2187 | 15 | |
AVELARDEV | 0:010b908e2187 | 16 | #include "MAX30100_BeatDetector.h" |
AVELARDEV | 0:010b908e2187 | 17 | |
AVELARDEV | 0:010b908e2187 | 18 | BeatDetector::BeatDetector() : |
AVELARDEV | 0:010b908e2187 | 19 | state(BEATDETECTOR_STATE_INIT), |
AVELARDEV | 0:010b908e2187 | 20 | threshold(BEATDETECTOR_MIN_THRESHOLD), |
AVELARDEV | 0:010b908e2187 | 21 | beatPeriod(0), |
AVELARDEV | 0:010b908e2187 | 22 | lastMaxValue(0), |
AVELARDEV | 0:010b908e2187 | 23 | tsLastBeat(0) |
AVELARDEV | 0:010b908e2187 | 24 | { |
AVELARDEV | 0:010b908e2187 | 25 | t.start(); |
AVELARDEV | 0:010b908e2187 | 26 | } |
AVELARDEV | 0:010b908e2187 | 27 | |
AVELARDEV | 0:010b908e2187 | 28 | bool BeatDetector::addSample(float sample) |
AVELARDEV | 0:010b908e2187 | 29 | { |
AVELARDEV | 0:010b908e2187 | 30 | return checkForBeat(sample); |
AVELARDEV | 0:010b908e2187 | 31 | } |
AVELARDEV | 0:010b908e2187 | 32 | |
AVELARDEV | 0:010b908e2187 | 33 | float BeatDetector::getRate() |
AVELARDEV | 0:010b908e2187 | 34 | { |
AVELARDEV | 0:010b908e2187 | 35 | if (beatPeriod != 0) { |
AVELARDEV | 0:010b908e2187 | 36 | return 1 / beatPeriod * 1000 * 60; |
AVELARDEV | 0:010b908e2187 | 37 | } else { |
AVELARDEV | 0:010b908e2187 | 38 | return 0; |
AVELARDEV | 0:010b908e2187 | 39 | } |
AVELARDEV | 0:010b908e2187 | 40 | } |
AVELARDEV | 0:010b908e2187 | 41 | |
AVELARDEV | 0:010b908e2187 | 42 | float BeatDetector::getCurrentThreshold() |
AVELARDEV | 0:010b908e2187 | 43 | { |
AVELARDEV | 0:010b908e2187 | 44 | return threshold; |
AVELARDEV | 0:010b908e2187 | 45 | } |
AVELARDEV | 0:010b908e2187 | 46 | |
AVELARDEV | 0:010b908e2187 | 47 | bool BeatDetector::checkForBeat(float sample) |
AVELARDEV | 0:010b908e2187 | 48 | { |
AVELARDEV | 0:010b908e2187 | 49 | bool beatDetected = false; |
AVELARDEV | 0:010b908e2187 | 50 | |
AVELARDEV | 0:010b908e2187 | 51 | switch (state) { |
AVELARDEV | 0:010b908e2187 | 52 | case BEATDETECTOR_STATE_INIT: |
AVELARDEV | 0:010b908e2187 | 53 | if (t.read_ms() > BEATDETECTOR_INIT_HOLDOFF) { |
AVELARDEV | 0:010b908e2187 | 54 | state = BEATDETECTOR_STATE_WAITING; |
AVELARDEV | 0:010b908e2187 | 55 | } |
AVELARDEV | 0:010b908e2187 | 56 | break; |
AVELARDEV | 0:010b908e2187 | 57 | |
AVELARDEV | 0:010b908e2187 | 58 | case BEATDETECTOR_STATE_WAITING: |
AVELARDEV | 0:010b908e2187 | 59 | if (sample > threshold) { |
AVELARDEV | 0:010b908e2187 | 60 | threshold = std::min((uint32_t)sample, (uint32_t)BEATDETECTOR_MAX_THRESHOLD); |
AVELARDEV | 0:010b908e2187 | 61 | state = BEATDETECTOR_STATE_FOLLOWING_SLOPE; |
AVELARDEV | 0:010b908e2187 | 62 | } |
AVELARDEV | 0:010b908e2187 | 63 | |
AVELARDEV | 0:010b908e2187 | 64 | // Tracking lost, resetting |
AVELARDEV | 0:010b908e2187 | 65 | if (t.read_ms() > BEATDETECTOR_INVALID_READOUT_DELAY) { |
AVELARDEV | 0:010b908e2187 | 66 | beatPeriod = 0; |
AVELARDEV | 0:010b908e2187 | 67 | lastMaxValue = 0; |
AVELARDEV | 0:010b908e2187 | 68 | } |
AVELARDEV | 0:010b908e2187 | 69 | |
AVELARDEV | 0:010b908e2187 | 70 | decreaseThreshold(); |
AVELARDEV | 0:010b908e2187 | 71 | break; |
AVELARDEV | 0:010b908e2187 | 72 | |
AVELARDEV | 0:010b908e2187 | 73 | case BEATDETECTOR_STATE_FOLLOWING_SLOPE: |
AVELARDEV | 0:010b908e2187 | 74 | if (sample < threshold) { |
AVELARDEV | 0:010b908e2187 | 75 | state = BEATDETECTOR_STATE_MAYBE_DETECTED; |
AVELARDEV | 0:010b908e2187 | 76 | } else { |
AVELARDEV | 0:010b908e2187 | 77 | threshold = std::min((uint32_t)sample, (uint32_t)BEATDETECTOR_MAX_THRESHOLD); |
AVELARDEV | 0:010b908e2187 | 78 | } |
AVELARDEV | 0:010b908e2187 | 79 | break; |
AVELARDEV | 0:010b908e2187 | 80 | |
AVELARDEV | 0:010b908e2187 | 81 | case BEATDETECTOR_STATE_MAYBE_DETECTED: |
AVELARDEV | 0:010b908e2187 | 82 | if (sample + BEATDETECTOR_STEP_RESILIENCY < threshold) { |
AVELARDEV | 0:010b908e2187 | 83 | // Found a beat |
AVELARDEV | 0:010b908e2187 | 84 | beatDetected = true; |
AVELARDEV | 0:010b908e2187 | 85 | lastMaxValue = sample; |
AVELARDEV | 0:010b908e2187 | 86 | state = BEATDETECTOR_STATE_MASKING; |
AVELARDEV | 0:010b908e2187 | 87 | float delta = t.read_ms(); |
AVELARDEV | 0:010b908e2187 | 88 | if (delta) { |
AVELARDEV | 0:010b908e2187 | 89 | beatPeriod = BEATDETECTOR_BPFILTER_ALPHA * delta + |
AVELARDEV | 0:010b908e2187 | 90 | (1 - BEATDETECTOR_BPFILTER_ALPHA) * beatPeriod; |
AVELARDEV | 0:010b908e2187 | 91 | } |
AVELARDEV | 0:010b908e2187 | 92 | |
AVELARDEV | 0:010b908e2187 | 93 | t.reset(); |
AVELARDEV | 0:010b908e2187 | 94 | } else { |
AVELARDEV | 0:010b908e2187 | 95 | state = BEATDETECTOR_STATE_FOLLOWING_SLOPE; |
AVELARDEV | 0:010b908e2187 | 96 | } |
AVELARDEV | 0:010b908e2187 | 97 | break; |
AVELARDEV | 0:010b908e2187 | 98 | |
AVELARDEV | 0:010b908e2187 | 99 | case BEATDETECTOR_STATE_MASKING: |
AVELARDEV | 0:010b908e2187 | 100 | if (t.read_ms() > BEATDETECTOR_MASKING_HOLDOFF) { |
AVELARDEV | 0:010b908e2187 | 101 | state = BEATDETECTOR_STATE_WAITING; |
AVELARDEV | 0:010b908e2187 | 102 | } |
AVELARDEV | 0:010b908e2187 | 103 | decreaseThreshold(); |
AVELARDEV | 0:010b908e2187 | 104 | break; |
AVELARDEV | 0:010b908e2187 | 105 | } |
AVELARDEV | 0:010b908e2187 | 106 | |
AVELARDEV | 0:010b908e2187 | 107 | return beatDetected; |
AVELARDEV | 0:010b908e2187 | 108 | } |
AVELARDEV | 0:010b908e2187 | 109 | |
AVELARDEV | 0:010b908e2187 | 110 | void BeatDetector::decreaseThreshold() |
AVELARDEV | 0:010b908e2187 | 111 | { |
AVELARDEV | 0:010b908e2187 | 112 | // When a valid beat rate readout is present, target the |
AVELARDEV | 0:010b908e2187 | 113 | if (lastMaxValue > 0 && beatPeriod > 0) { |
AVELARDEV | 0:010b908e2187 | 114 | threshold -= lastMaxValue * (1 - BEATDETECTOR_THRESHOLD_FALLOFF_TARGET) / |
AVELARDEV | 0:010b908e2187 | 115 | (beatPeriod / BEATDETECTOR_SAMPLES_PERIOD); |
AVELARDEV | 0:010b908e2187 | 116 | } else { |
AVELARDEV | 0:010b908e2187 | 117 | // Asymptotic decay |
AVELARDEV | 0:010b908e2187 | 118 | threshold *= BEATDETECTOR_THRESHOLD_DECAY_FACTOR; |
AVELARDEV | 0:010b908e2187 | 119 | } |
AVELARDEV | 0:010b908e2187 | 120 | |
AVELARDEV | 0:010b908e2187 | 121 | if (threshold < BEATDETECTOR_MIN_THRESHOLD) { |
AVELARDEV | 0:010b908e2187 | 122 | threshold = BEATDETECTOR_MIN_THRESHOLD; |
AVELARDEV | 0:010b908e2187 | 123 | } |
AVELARDEV | 0:010b908e2187 | 124 | } |