Blackbox device type 'file' (SITL) considered working when file handler is available
[inav.git] / src / main / sensors / irlock.c
blob8484a78386a40d6d58fb007962f8a8061a5c1610
1 /*
2 * This file is part of INAV.
4 * INAV is free software: you can redistribute it and/or modify
5 * it under the terms of the GNU General Public License as published by
6 * the Free Software Foundation, either version 3 of the License, or
7 * (at your option) any later version.
9 * INAV is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 * GNU General Public License for more details.
14 * You should have received a copy of the GNU General Public License
15 * along with INAV. If not, see <http://www.gnu.org/licenses/>.
18 #include "stdbool.h"
19 #include "stdint.h"
20 #include <string.h>
21 #include <math.h>
23 #include "platform.h"
25 #include "build/debug.h"
27 #include "common/maths.h"
28 #include "common/log.h"
29 #include "common/printf.h"
31 #include "drivers/irlock.h"
32 #include "drivers/time.h"
34 #include "fc/runtime_config.h"
36 #include "flight/imu.h"
38 #include "navigation/navigation.h"
40 #include "sensors/sensors.h"
41 #include "sensors/barometer.h"
42 #include "sensors/irlock.h"
45 #define IRLOCK_TIMEOUT 100
47 #if defined(USE_IRLOCK)
49 static irlockDev_t irlockDev;
50 static bool irlockDetected = false;
51 static bool measurementValid = false;
52 static irlockData_t irlockData;
53 static timeMs_t lastUpdateMs = 0;
55 void irlockInit(void)
57 irlockDetected = irlockDetect(&irlockDev);
60 bool irlockHasBeenDetected(void)
62 return irlockDetected;
65 bool irlockMeasurementIsValid(void) {
66 return measurementValid;
69 void irlockUpdate(void)
71 if (irlockDetected && irlockDev.read(&irlockDev, &irlockData)) lastUpdateMs = millis();
72 measurementValid = millis() - lastUpdateMs < IRLOCK_TIMEOUT;
75 #define X_TO_DISTANCE_FACTOR -0.0029387573f
76 #define X_TO_DISTANCE_OFFSET 0.4702011635f
77 #define Y_TO_DISTANCE_FACTOR -0.0030568431f
78 #define Y_TO_DISTANCE_OFFSET 0.3056843086f
80 #define LENS_X_CORRECTION 4.4301355e-6f
81 #define LENS_Y_CORRECTION 4.7933139e-6f
83 // calculate distance relative to center at 1 meter distance from absolute object coordinates and taking into account lens distortion
84 static void irlockCoordinatesToDistance(uint16_t pixX, uint16_t pixY, float *distX, float *distY)
86 int16_t xCenterOffset = pixX - IRLOCK_RES_X / 2;
87 int16_t yCenterOffset = pixY - IRLOCK_RES_Y / 2;
88 float lensDistortionCorrectionFactor = LENS_X_CORRECTION * xCenterOffset * xCenterOffset + LENS_Y_CORRECTION * yCenterOffset * yCenterOffset - 1.0f;
89 *distX = (X_TO_DISTANCE_FACTOR * pixX + X_TO_DISTANCE_OFFSET) / lensDistortionCorrectionFactor;
90 *distY = (Y_TO_DISTANCE_FACTOR * pixY + Y_TO_DISTANCE_OFFSET) / lensDistortionCorrectionFactor;
93 bool irlockGetPosition(float *distX, float *distY)
95 if (!measurementValid) return false;
97 // calculate edges of the object
98 int16_t corner1X = irlockData.posX - irlockData.sizeX / 2;
99 int16_t corner1Y = irlockData.posY - irlockData.sizeY / 2;
100 int16_t corner2X = irlockData.posX + irlockData.sizeX / 2;
101 int16_t corner2Y = irlockData.posY + irlockData.sizeY / 2;
103 // convert pixel position to distance
104 float corner1DistX, corner1DistY, corner2DistX, corner2DistY;
105 irlockCoordinatesToDistance(corner1X, corner1Y, &corner1DistX, &corner1DistY);
106 irlockCoordinatesToDistance(corner2X, corner2Y, &corner2DistX, &corner2DistY);
108 // return center of object
109 float uDistX = (corner1DistX + corner2DistX) / 2.0f; // lateral movement, positive means the aircraft is to the left of the beacon
110 float uDistY = (corner1DistY + corner2DistY) / 2.0f; // longitudinal movement, positive means the aircraft is in front of the beacon
112 // compensate for altitude and attitude
113 float altitude = CENTIMETERS_TO_METERS(getEstimatedActualPosition(Z));
114 *distX = altitude * tan_approx(atan2_approx(uDistX, 1.0f) - DECIDEGREES_TO_RADIANS(attitude.values.roll));
115 *distY = altitude * tan_approx(atan2_approx(uDistY, 1.0f) + DECIDEGREES_TO_RADIANS(attitude.values.pitch));
117 return true;
120 #endif /* USE_IRLOCK */