Realtime spectrum analyzer. Using FFT, linear prediction, or cepstrum smoothing. Version using MEMS microphone and CODEC, named "F746_RealtimeSpectrumAnalyzer_MEMS_Mic" is registered. リアルタイム スペクトル解析器.解析の手法:FFT,線形予測法,ケプストラムによる平滑化の3種類.このプログラムの説明は,CQ出版社のインターフェース誌,2016年4月号に掲載.外付けのマイクまたは他の信号源等を A0 に接続する.線形予測法,ケプストラムは,スペクトル解析の対象を音声信号に想定してパラメータを設定している.MEMS マイクと CODEC を使ったバージョンを "F746_RealtimeSpectrumAnalyzer_MEMS_Mic" として登録.
Dependencies: BSP_DISCO_F746NG BUTTON_GROUP LCD_DISCO_F746NG TS_DISCO_F746NG UIT_FFT_Real mbed
main.cpp@4:99d4d5ea06a2, 2015-12-15 (annotated)
- Committer:
- MikamiUitOpen
- Date:
- Tue Dec 15 02:39:31 2015 +0000
- Revision:
- 4:99d4d5ea06a2
- Parent:
- 3:7c26b701f363
- Child:
- 5:98ec9dd54144
5
Who changed what in which revision?
User | Revision | Line number | New contents of line |
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MikamiUitOpen | 0:5c237fdcba23 | 1 | //----------------------------------------------------------- |
MikamiUitOpen | 0:5c237fdcba23 | 2 | // Realtime spectrum analyzer |
MikamiUitOpen | 0:5c237fdcba23 | 3 | // Input: A0 (CN5) |
MikamiUitOpen | 0:5c237fdcba23 | 4 | // |
MikamiUitOpen | 4:99d4d5ea06a2 | 5 | // 2015/12/15, Copyright (c) 2015 MIKAMI, Naoki |
MikamiUitOpen | 0:5c237fdcba23 | 6 | //----------------------------------------------------------- |
MikamiUitOpen | 0:5c237fdcba23 | 7 | |
MikamiUitOpen | 0:5c237fdcba23 | 8 | #include "button_group.hpp" |
MikamiUitOpen | 1:1656f55c2d5c | 9 | #include "Sampler.hpp" |
MikamiUitOpen | 1:1656f55c2d5c | 10 | #include "WaveformDisplay.hpp" |
MikamiUitOpen | 0:5c237fdcba23 | 11 | #include "AnalysisSelector.hpp" |
MikamiUitOpen | 0:5c237fdcba23 | 12 | using namespace Mikami; |
MikamiUitOpen | 0:5c237fdcba23 | 13 | |
MikamiUitOpen | 0:5c237fdcba23 | 14 | int main() |
MikamiUitOpen | 0:5c237fdcba23 | 15 | { |
MikamiUitOpen | 2:095b360e0f54 | 16 | const int N_DATA = 260; // number of data to be analyzed |
MikamiUitOpen | 2:095b360e0f54 | 17 | const int N_FFT = 512; // number of date for FFT |
MikamiUitOpen | 2:095b360e0f54 | 18 | const int X_WAV = 44; // Origin for waveform of x axis |
MikamiUitOpen | 2:095b360e0f54 | 19 | const int Y_WAV = 36; // Origin for waveform of y axis |
MikamiUitOpen | 2:095b360e0f54 | 20 | const int X0 = 40; // Origin for spectrum of x axis |
MikamiUitOpen | 2:095b360e0f54 | 21 | const int Y0 = 234; // Origin for spectrum of y axis |
MikamiUitOpen | 2:095b360e0f54 | 22 | const float DB1 = 2.4f; // Pixels for 1 dB |
MikamiUitOpen | 2:095b360e0f54 | 23 | const int BIN = 1; // Pixels per bin |
MikamiUitOpen | 2:095b360e0f54 | 24 | const int W_DB = 60; // Width in dB to be displayed |
MikamiUitOpen | 2:095b360e0f54 | 25 | const int X0_BTN = 340; // Origin for button of x axis |
MikamiUitOpen | 0:5c237fdcba23 | 26 | |
MikamiUitOpen | 2:095b360e0f54 | 27 | const int FS = 10000; // Sampling frequency: 10 kHz |
MikamiUitOpen | 0:5c237fdcba23 | 28 | |
MikamiUitOpen | 0:5c237fdcba23 | 29 | const uint32_t BACK_COLOR = 0xFF006A6C; // teal green |
MikamiUitOpen | 0:5c237fdcba23 | 30 | const uint32_t INACTIVE_COLOR = BACK_COLOR & 0xD0FFFFFF; |
MikamiUitOpen | 0:5c237fdcba23 | 31 | const uint32_t TOUCHED_COLOR = 0xFF7F7FFF; |
MikamiUitOpen | 0:5c237fdcba23 | 32 | const uint32_t ORIGINAL_COLOR = 0xFF0068B7; |
MikamiUitOpen | 0:5c237fdcba23 | 33 | const uint32_t INACTIVE_TEXT_COLOR = LCD_COLOR_GRAY; |
MikamiUitOpen | 0:5c237fdcba23 | 34 | const uint32_t AXIS_COLOR = 0xFFCCFFFF; |
MikamiUitOpen | 0:5c237fdcba23 | 35 | const uint32_t LINE_COLOR = LCD_COLOR_CYAN; |
MikamiUitOpen | 0:5c237fdcba23 | 36 | |
MikamiUitOpen | 2:095b360e0f54 | 37 | LCD_DISCO_F746NG lcd; // Object for LCD display |
MikamiUitOpen | 2:095b360e0f54 | 38 | TS_DISCO_F746NG ts; // Object for touch pannel |
MikamiUitOpen | 2:095b360e0f54 | 39 | Sampler input(A0, FS, N_DATA); // Object for sampling |
MikamiUitOpen | 0:5c237fdcba23 | 40 | |
MikamiUitOpen | 0:5c237fdcba23 | 41 | lcd.Clear(BACK_COLOR); |
MikamiUitOpen | 0:5c237fdcba23 | 42 | |
MikamiUitOpen | 0:5c237fdcba23 | 43 | // Setting of button group |
MikamiUitOpen | 0:5c237fdcba23 | 44 | const string RUN_STOP[2] = {"RUN", "STOP"}; |
MikamiUitOpen | 2:095b360e0f54 | 45 | ButtonGroup runStop(lcd, ts, X0_BTN, 10, 60, 40, |
MikamiUitOpen | 0:5c237fdcba23 | 46 | ORIGINAL_COLOR, BACK_COLOR, |
MikamiUitOpen | 0:5c237fdcba23 | 47 | 2, RUN_STOP, 5, 0, 2); |
MikamiUitOpen | 0:5c237fdcba23 | 48 | runStop.Draw(1, INACTIVE_COLOR, INACTIVE_TEXT_COLOR); |
MikamiUitOpen | 0:5c237fdcba23 | 49 | |
MikamiUitOpen | 0:5c237fdcba23 | 50 | const string NORM_INV[2] = {"NORM", "INV"}; |
MikamiUitOpen | 2:095b360e0f54 | 51 | ButtonGroup normInv(lcd, ts, X0_BTN, 65, 60, 40, |
MikamiUitOpen | 0:5c237fdcba23 | 52 | ORIGINAL_COLOR, BACK_COLOR, |
MikamiUitOpen | 0:5c237fdcba23 | 53 | 2, NORM_INV, 5, 0, 2); |
MikamiUitOpen | 0:5c237fdcba23 | 54 | normInv.DrawAll(INACTIVE_COLOR, INACTIVE_TEXT_COLOR); |
MikamiUitOpen | 0:5c237fdcba23 | 55 | |
MikamiUitOpen | 0:5c237fdcba23 | 56 | const string METHOD[3] = {"FFT", "Linear Pred.", "Cepstrum"}; |
MikamiUitOpen | 2:095b360e0f54 | 57 | ButtonGroup method(lcd, ts, X0_BTN, 120, 125, 40, |
MikamiUitOpen | 0:5c237fdcba23 | 58 | ORIGINAL_COLOR, BACK_COLOR, |
MikamiUitOpen | 0:5c237fdcba23 | 59 | 3, METHOD, 0, 5, 1); |
MikamiUitOpen | 0:5c237fdcba23 | 60 | method.DrawAll(INACTIVE_COLOR, INACTIVE_TEXT_COLOR); |
MikamiUitOpen | 0:5c237fdcba23 | 61 | // End of button group setting |
MikamiUitOpen | 0:5c237fdcba23 | 62 | |
MikamiUitOpen | 2:095b360e0f54 | 63 | WaveformDisplay waveDisp(lcd, X_WAV, Y_WAV, N_DATA, 10, |
MikamiUitOpen | 2:095b360e0f54 | 64 | AXIS_COLOR, LINE_COLOR, BACK_COLOR); |
MikamiUitOpen | 2:095b360e0f54 | 65 | |
MikamiUitOpen | 0:5c237fdcba23 | 66 | SpectrumDisplay disp(lcd, N_FFT, X0, Y0, DB1, BIN, W_DB, FS, |
MikamiUitOpen | 0:5c237fdcba23 | 67 | AXIS_COLOR, LINE_COLOR, BACK_COLOR); |
MikamiUitOpen | 0:5c237fdcba23 | 68 | // Linear prediction: order = 14 |
MikamiUitOpen | 0:5c237fdcba23 | 69 | // Cepstral smoothing: lifter length = 50 |
MikamiUitOpen | 2:095b360e0f54 | 70 | Selector selector(disp, method, N_DATA, N_FFT, 14, 50, |
MikamiUitOpen | 2:095b360e0f54 | 71 | TOUCHED_COLOR); |
MikamiUitOpen | 0:5c237fdcba23 | 72 | |
MikamiUitOpen | 2:095b360e0f54 | 73 | // Wait for "RUN" button touched |
MikamiUitOpen | 2:095b360e0f54 | 74 | while (!runStop.Touched(0)) {} |
MikamiUitOpen | 2:095b360e0f54 | 75 | |
MikamiUitOpen | 2:095b360e0f54 | 76 | // Start spectrum analyzing |
MikamiUitOpen | 2:095b360e0f54 | 77 | int inv = 0; // 0: "NORM", 1: "INV" |
MikamiUitOpen | 2:095b360e0f54 | 78 | int select = -1; |
MikamiUitOpen | 0:5c237fdcba23 | 79 | while (true) |
MikamiUitOpen | 0:5c237fdcba23 | 80 | { |
MikamiUitOpen | 2:095b360e0f54 | 81 | int16_t* sn; // pointer of data to be analyzed |
MikamiUitOpen | 2:095b360e0f54 | 82 | |
MikamiUitOpen | 2:095b360e0f54 | 83 | if (runStop.GetCurrentColor(0) != TOUCHED_COLOR) |
MikamiUitOpen | 0:5c237fdcba23 | 84 | { |
MikamiUitOpen | 0:5c237fdcba23 | 85 | if (runStop.Touched(0, TOUCHED_COLOR)) |
MikamiUitOpen | 0:5c237fdcba23 | 86 | { |
MikamiUitOpen | 2:095b360e0f54 | 87 | input.IntrEnable(); |
MikamiUitOpen | 0:5c237fdcba23 | 88 | for (int n=0; n<3; n++) |
MikamiUitOpen | 2:095b360e0f54 | 89 | if (n != select) method.Redraw(n); |
MikamiUitOpen | 2:095b360e0f54 | 90 | normInv.Draw(inv, TOUCHED_COLOR); |
MikamiUitOpen | 2:095b360e0f54 | 91 | normInv.Redraw(1-inv); |
MikamiUitOpen | 0:5c237fdcba23 | 92 | } |
MikamiUitOpen | 2:095b360e0f54 | 93 | if (method.GetTouchedNumber(select, TOUCHED_COLOR)) |
MikamiUitOpen | 2:095b360e0f54 | 94 | selector.Execute(sn, select); |
MikamiUitOpen | 0:5c237fdcba23 | 95 | } |
MikamiUitOpen | 0:5c237fdcba23 | 96 | |
MikamiUitOpen | 2:095b360e0f54 | 97 | if (runStop.GetCurrentColor(0) == TOUCHED_COLOR) |
MikamiUitOpen | 0:5c237fdcba23 | 98 | { |
MikamiUitOpen | 2:095b360e0f54 | 99 | normInv.GetTouchedNumber(inv, TOUCHED_COLOR); |
MikamiUitOpen | 2:095b360e0f54 | 100 | |
MikamiUitOpen | 2:095b360e0f54 | 101 | if (input.Filled()) |
MikamiUitOpen | 0:5c237fdcba23 | 102 | { |
MikamiUitOpen | 2:095b360e0f54 | 103 | sn = input.Get(); |
MikamiUitOpen | 0:5c237fdcba23 | 104 | waveDisp.Execute(sn); |
MikamiUitOpen | 0:5c237fdcba23 | 105 | |
MikamiUitOpen | 1:1656f55c2d5c | 106 | // spectrum analysis and display |
MikamiUitOpen | 2:095b360e0f54 | 107 | selector.Execute(sn, select); |
MikamiUitOpen | 0:5c237fdcba23 | 108 | |
MikamiUitOpen | 0:5c237fdcba23 | 109 | // Check "STOP" button touched |
MikamiUitOpen | 0:5c237fdcba23 | 110 | if (runStop.Touched(1, TOUCHED_COLOR)) |
MikamiUitOpen | 2:095b360e0f54 | 111 | normInv.DrawAll(INACTIVE_COLOR, |
MikamiUitOpen | 2:095b360e0f54 | 112 | INACTIVE_TEXT_COLOR); |
MikamiUitOpen | 2:095b360e0f54 | 113 | else // Restart sampling |
MikamiUitOpen | 0:5c237fdcba23 | 114 | { |
MikamiUitOpen | 2:095b360e0f54 | 115 | input.InvertEnable(inv == 1); |
MikamiUitOpen | 2:095b360e0f54 | 116 | input.Restart(); |
MikamiUitOpen | 2:095b360e0f54 | 117 | input.IntrEnable(); |
MikamiUitOpen | 0:5c237fdcba23 | 118 | } |
MikamiUitOpen | 0:5c237fdcba23 | 119 | } |
MikamiUitOpen | 2:095b360e0f54 | 120 | else |
MikamiUitOpen | 2:095b360e0f54 | 121 | if (method.GetTouchedNumber(select, TOUCHED_COLOR)) |
MikamiUitOpen | 2:095b360e0f54 | 122 | selector.Execute(sn, select); |
MikamiUitOpen | 0:5c237fdcba23 | 123 | } |
MikamiUitOpen | 0:5c237fdcba23 | 124 | } |
MikamiUitOpen | 0:5c237fdcba23 | 125 | } |
MikamiUitOpen | 3:7c26b701f363 | 126 |