ardupilot/APMrover2/sensors.pde

// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-

static void init_sonar(void)
{
#if CONFIG_HAL_BOARD == HAL_BOARD_APM1
    sonar.Init(&adc);
    sonar2.Init(&adc);
#else
    sonar.Init(NULL);
    sonar2.Init(NULL);
#endif
}

/*
  read and update the battery
 */
static void read_battery(void)
{
	if(g.battery_monitoring == 0) {
		battery_voltage1 = 0;
		return;
	}
	
    if(g.battery_monitoring == 3 || g.battery_monitoring == 4) {
        // this copes with changing the pin at runtime
        batt_volt_pin->set_pin(g.battery_volt_pin);
        battery_voltage1 = BATTERY_VOLTAGE(batt_volt_pin);
    }

    if (g.battery_monitoring == 4) {
        static uint32_t last_time_ms;
        uint32_t tnow = hal.scheduler->millis();
        float dt = tnow - last_time_ms;
        if (last_time_ms != 0 && dt < 2000) {
            // this copes with changing the pin at runtime
            batt_curr_pin->set_pin(g.battery_curr_pin);
            current_amps1    = CURRENT_AMPS(batt_curr_pin);
            // .0002778 is 1/3600 (conversion to hours)
            current_total1   += current_amps1 * dt * 0.0002778; 
        }
        last_time_ms = tnow;
    }
}


// read the receiver RSSI as an 8 bit number for MAVLink
// RC_CHANNELS_SCALED message
void read_receiver_rssi(void)
{
    rssi_analog_source->set_pin(g.rssi_pin);
    float ret = rssi_analog_source->voltage_average() * 50;
    receiver_rssi = constrain_int16(ret, 0, 255);
}

// read the sonars
static void read_sonars(void)
{
    if (!sonar.enabled()) {
        // this makes it possible to disable sonar at runtime
        return;
    }

    if (sonar2.enabled()) {
        // we have two sonars
        obstacle.sonar1_distance_cm = sonar.distance_cm();
        obstacle.sonar2_distance_cm = sonar2.distance_cm();
        if (obstacle.sonar1_distance_cm <= (uint16_t)g.sonar_trigger_cm &&
            obstacle.sonar2_distance_cm <= (uint16_t)obstacle.sonar2_distance_cm)  {
            // we have an object on the left
            if (obstacle.detected_count < 127) {
                obstacle.detected_count++;
            }
            if (obstacle.detected_count == g.sonar_debounce) {
                gcs_send_text_fmt(PSTR("Sonar1 obstacle %u cm"),
                                  (unsigned)obstacle.sonar1_distance_cm);
            }
            obstacle.detected_time_ms = hal.scheduler->millis();
            obstacle.turn_angle = g.sonar_turn_angle;
        } else if (obstacle.sonar2_distance_cm <= (uint16_t)g.sonar_trigger_cm) {
            // we have an object on the right
            if (obstacle.detected_count < 127) {
                obstacle.detected_count++;
            }
            if (obstacle.detected_count == g.sonar_debounce) {
                gcs_send_text_fmt(PSTR("Sonar2 obstacle %u cm"),
                                  (unsigned)obstacle.sonar2_distance_cm);
            }
            obstacle.detected_time_ms = hal.scheduler->millis();
            obstacle.turn_angle = -g.sonar_turn_angle;
        }
    } else {
        // we have a single sonar
        obstacle.sonar1_distance_cm = sonar.distance_cm();
        obstacle.sonar2_distance_cm = 0;
        if (obstacle.sonar1_distance_cm <= (uint16_t)g.sonar_trigger_cm)  {
            // obstacle detected in front 
            if (obstacle.detected_count < 127) {
                obstacle.detected_count++;
            }
            if (obstacle.detected_count == g.sonar_debounce) {
                gcs_send_text_fmt(PSTR("Sonar obstacle %u cm"),
                                  (unsigned)obstacle.sonar1_distance_cm);
            }
            obstacle.detected_time_ms = hal.scheduler->millis();
            obstacle.turn_angle = g.sonar_turn_angle;
        }
    }

    Log_Write_Sonar();

    // no object detected - reset after the turn time
    if (obstacle.detected_count >= g.sonar_debounce &&
        hal.scheduler->millis() > obstacle.detected_time_ms + g.sonar_turn_time*1000) { 
        gcs_send_text_fmt(PSTR("Obstacle passed"));
        obstacle.detected_count = 0;
        obstacle.turn_angle = 0;
    }
}
APMrover v2.0 - tested on Traxxas Monster Jam Grinder XL-5 3602 Signed-off-by: Jean-Louis Naudin <jlnaudin@gmail.com> 2012-04-30 04:17:14 -03:00			`// -- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil --`
Rover: use new AP_RangeFinder_analog class 2013-02-28 21:00:48 -04:00
APMrover v2.1.3 : Added option (hold roll to full right + SW7 ON/OFF) to init_home during the wp_list reset Add ROV_SONAR_TRIG (default = 200 cm) - tested by Franco Restart_nav() added and heading bug correction, tested OK in the field RTL then stop update - Tested OK in the field Added SONAR detection for obstacle avoidance Signed-off-by: Jean-Louis Naudin <jlnaudin@gmail.com> 2012-05-14 12:47:08 -03:00			`static void init_sonar(void)`
			`{`
Rover: use new AP_RangeFinder_analog class 2013-02-28 21:00:48 -04:00			`#if CONFIG_HAL_BOARD == HAL_BOARD_APM1`
			`sonar.Init(&adc);`
Rover: added dual sonar support 2013-03-21 18:49:51 -03:00			`sonar2.Init(&adc);`
Rover: use new AP_RangeFinder_analog class 2013-02-28 21:00:48 -04:00			`#else`
			`sonar.Init(NULL);`
Rover: added dual sonar support 2013-03-21 18:49:51 -03:00			`sonar2.Init(NULL);`
Rover: use new AP_RangeFinder_analog class 2013-02-28 21:00:48 -04:00			`#endif`
APMrover v2.1.3 : Added option (hold roll to full right + SW7 ON/OFF) to init_home during the wp_list reset Add ROV_SONAR_TRIG (default = 200 cm) - tested by Franco Restart_nav() added and heading bug correction, tested OK in the field RTL then stop update - Tested OK in the field Added SONAR detection for obstacle avoidance Signed-off-by: Jean-Louis Naudin <jlnaudin@gmail.com> 2012-05-14 12:47:08 -03:00			`}`

Rover: convert to use AP_Scheduler this gives us better timing information and scheduling, while also making the code easier to read 2013-06-03 21:37:05 -03:00			`/*`
			`read and update the battery`
			`*/`
APMrover v2.0 - tested on Traxxas Monster Jam Grinder XL-5 3602 Signed-off-by: Jean-Louis Naudin <jlnaudin@gmail.com> 2012-04-30 04:17:14 -03:00			`static void read_battery(void)`
			`{`
			`if(g.battery_monitoring == 0) {`
			`battery_voltage1 = 0;`
			`return;`
			`}`

Rover: first cut at porting rover to AP_HAL 2012-12-18 07:44:12 -04:00			`if(g.battery_monitoring == 3 \|\| g.battery_monitoring == 4) {`
			`// this copes with changing the pin at runtime`
			`batt_volt_pin->set_pin(g.battery_volt_pin);`
Rover: use voltage_average() interface 2013-03-03 01:15:38 -04:00			`battery_voltage1 = BATTERY_VOLTAGE(batt_volt_pin);`
Rover: first cut at porting rover to AP_HAL 2012-12-18 07:44:12 -04:00			`}`
Rover: convert to use AP_Scheduler this gives us better timing information and scheduling, while also making the code easier to read 2013-06-03 21:37:05 -03:00
			`if (g.battery_monitoring == 4) {`
			`static uint32_t last_time_ms;`
			`uint32_t tnow = hal.scheduler->millis();`
			`float dt = tnow - last_time_ms;`
			`if (last_time_ms != 0 && dt < 2000) {`
			`// this copes with changing the pin at runtime`
			`batt_curr_pin->set_pin(g.battery_curr_pin);`
			`current_amps1 = CURRENT_AMPS(batt_curr_pin);`
			`// .0002778 is 1/3600 (conversion to hours)`
			`current_total1 += current_amps1 * dt * 0.0002778;`
			`}`
			`last_time_ms = tnow;`
AnalogSource: convert analogRead() calls to the new API this should give us much better analog values, plus save a bunch of CPU time 2012-06-29 08:51:05 -03:00			`}`
APMrover v2.0 - tested on Traxxas Monster Jam Grinder XL-5 3602 Signed-off-by: Jean-Louis Naudin <jlnaudin@gmail.com> 2012-04-30 04:17:14 -03:00			`}`

Rover: implement RSSI_PIN route RSSI value from receiver to MAVLink 2013-03-14 18:08:35 -03:00
			`// read the receiver RSSI as an 8 bit number for MAVLink`
			`// RC_CHANNELS_SCALED message`
			`void read_receiver_rssi(void)`
			`{`
			`rssi_analog_source->set_pin(g.rssi_pin);`
Rover: use voltage_average() for RSSI this allows it to work on PX4 2013-05-13 02:14:23 -03:00			`float ret = rssi_analog_source->voltage_average() * 50;`
Rover: implement RSSI_PIN route RSSI value from receiver to MAVLink 2013-03-14 18:08:35 -03:00			`receiver_rssi = constrain_int16(ret, 0, 255);`
			`}`
Rover: added dual sonar support 2013-03-21 18:49:51 -03:00
			`// read the sonars`
			`static void read_sonars(void)`
			`{`
			`if (!sonar.enabled()) {`
			`// this makes it possible to disable sonar at runtime`
			`return;`
			`}`

			`if (sonar2.enabled()) {`
			`// we have two sonars`
Rover: fixed dataflash logs to be useful added sonar and fixed other messages 2013-04-18 21:23:57 -03:00			`obstacle.sonar1_distance_cm = sonar.distance_cm();`
			`obstacle.sonar2_distance_cm = sonar2.distance_cm();`
Rover: cleanup build warnings 2013-04-19 18:29:57 -03:00			`if (obstacle.sonar1_distance_cm <= (uint16_t)g.sonar_trigger_cm &&`
			`obstacle.sonar2_distance_cm <= (uint16_t)obstacle.sonar2_distance_cm) {`
Rover: added dual sonar support 2013-03-21 18:49:51 -03:00			`// we have an object on the left`
Rover: added SONAR_DEBOUNCE option this allows us to debounce the sonar triggering, which will make it handle noise better 2013-03-28 20:49:08 -03:00			`if (obstacle.detected_count < 127) {`
			`obstacle.detected_count++;`
			`}`
			`if (obstacle.detected_count == g.sonar_debounce) {`
Rover: fixed logging of sonar distance 2013-05-28 20:59:21 -03:00			`gcs_send_text_fmt(PSTR("Sonar1 obstacle %u cm"),`
			`(unsigned)obstacle.sonar1_distance_cm);`
Rover: log obstacle events 2013-03-28 18:53:02 -03:00			`}`
Rover: fixed timeout for obstacle detection 2013-03-28 19:36:54 -03:00			`obstacle.detected_time_ms = hal.scheduler->millis();`
Rover: added dual sonar support 2013-03-21 18:49:51 -03:00			`obstacle.turn_angle = g.sonar_turn_angle;`
Rover: cleanup build warnings 2013-04-19 18:29:57 -03:00			`} else if (obstacle.sonar2_distance_cm <= (uint16_t)g.sonar_trigger_cm) {`
Rover: added dual sonar support 2013-03-21 18:49:51 -03:00			`// we have an object on the right`
Rover: added SONAR_DEBOUNCE option this allows us to debounce the sonar triggering, which will make it handle noise better 2013-03-28 20:49:08 -03:00			`if (obstacle.detected_count < 127) {`
			`obstacle.detected_count++;`
			`}`
			`if (obstacle.detected_count == g.sonar_debounce) {`
Rover: fixed logging of sonar distance 2013-05-28 20:59:21 -03:00			`gcs_send_text_fmt(PSTR("Sonar2 obstacle %u cm"),`
			`(unsigned)obstacle.sonar2_distance_cm);`
Rover: log obstacle events 2013-03-28 18:53:02 -03:00			`}`
Rover: fixed timeout for obstacle detection 2013-03-28 19:36:54 -03:00			`obstacle.detected_time_ms = hal.scheduler->millis();`
Rover: added dual sonar support 2013-03-21 18:49:51 -03:00			`obstacle.turn_angle = -g.sonar_turn_angle;`
			`}`
Rover: fixed sonar reset after the turn time thanks to Tom for finding this 2013-03-28 18:08:14 -03:00			`} else {`
			`// we have a single sonar`
Rover: fixed dataflash logs to be useful added sonar and fixed other messages 2013-04-18 21:23:57 -03:00			`obstacle.sonar1_distance_cm = sonar.distance_cm();`
			`obstacle.sonar2_distance_cm = 0;`
Rover: cleanup build warnings 2013-04-19 18:29:57 -03:00			`if (obstacle.sonar1_distance_cm <= (uint16_t)g.sonar_trigger_cm) {`
Rover: fixed sonar reset after the turn time thanks to Tom for finding this 2013-03-28 18:08:14 -03:00			`// obstacle detected in front`
Rover: added SONAR_DEBOUNCE option this allows us to debounce the sonar triggering, which will make it handle noise better 2013-03-28 20:49:08 -03:00			`if (obstacle.detected_count < 127) {`
			`obstacle.detected_count++;`
			`}`
			`if (obstacle.detected_count == g.sonar_debounce) {`
Rover: fixed logging of sonar distance 2013-05-28 20:59:21 -03:00			`gcs_send_text_fmt(PSTR("Sonar obstacle %u cm"),`
			`(unsigned)obstacle.sonar1_distance_cm);`
Rover: log obstacle events 2013-03-28 18:53:02 -03:00			`}`
Rover: fixed sonar reset after the turn time thanks to Tom for finding this 2013-03-28 18:08:14 -03:00			`obstacle.detected_time_ms = hal.scheduler->millis();`
			`obstacle.turn_angle = g.sonar_turn_angle;`
			`}`
Rover: added dual sonar support 2013-03-21 18:49:51 -03:00			`}`

Rover: fixed dataflash logs to be useful added sonar and fixed other messages 2013-04-18 21:23:57 -03:00			`Log_Write_Sonar();`

Rover: added dual sonar support 2013-03-21 18:49:51 -03:00			`// no object detected - reset after the turn time`
Rover: added SONAR_DEBOUNCE option this allows us to debounce the sonar triggering, which will make it handle noise better 2013-03-28 20:49:08 -03:00			`if (obstacle.detected_count >= g.sonar_debounce &&`
Rover: log obstacle events 2013-03-28 18:53:02 -03:00			`hal.scheduler->millis() > obstacle.detected_time_ms + g.sonar_turn_time*1000) {`
			`gcs_send_text_fmt(PSTR("Obstacle passed"));`
Rover: added SONAR_DEBOUNCE option this allows us to debounce the sonar triggering, which will make it handle noise better 2013-03-28 20:49:08 -03:00			`obstacle.detected_count = 0;`
			`obstacle.turn_angle = 0;`
Rover: added dual sonar support 2013-03-21 18:49:51 -03:00			`}`
			`}`