aepko/Ardupilot2
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

AP_Proximity: add driver for LD06

Browse Source
This commit is contained in:
Adithya Patil 2022-06-16 23:28:26 -04:00 committed by Peter Barker
parent 8e634f05d9
commit 98d8c94fee
6 changed files with 291 additions and 1 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

10
libraries/AP_Proximity/AP_Proximity.cpp
View File

@ -29,6 +29,7 @@
#include "AP_Proximity_Cygbot_D1.h"
#include "AP_Proximity_DroneCAN.h"
#include "AP_Proximity_Scripting.h"
#include "AP_Proximity_LD06.h"
#include <AP_Logger/AP_Logger.h>
@ -216,6 +217,15 @@ void AP_Proximity::init()
state[instance].instance = instance;
drivers[instance] = new AP_Proximity_AirSimSITL(*this, state[instance], params[instance]);
break;
#endif
#if AP_PROXIMITY_LD06_ENABLED
case Type::LD06:
if (AP_Proximity_LD06::detect(serial_instance)) {
state[instance].instance = instance;
drivers[instance] = new AP_Proximity_LD06(*this, state[instance], params[instance], serial_instance);
serial_instance++;
}
break;
#endif
}

3
libraries/AP_Proximity/AP_Proximity.h
View File

@ -83,6 +83,9 @@ public:
#endif
#if AP_PROXIMITY_SCRIPTING_ENABLED
Scripting = 15,
#endif
#if AP_PROXIMITY_LD06_ENABLED
LD06 = 16,
#endif
};

169
libraries/AP_Proximity/AP_Proximity_LD06.cpp Normal file
View File

@ -0,0 +1,169 @@
/*
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*
* ArduPilot device driver for Inno-Maker LD06 LiDAR
*
* ALL INFORMATION REGARDING PROTOCOL WAS DERIVED FROM InnoMaker DATASHEET:
*
* http://wiki.inno-maker.com/display/HOMEPAGE/LD06?preview=/6949506/6949511/LDROBOT_LD06_Development%20manual_v1.0_en.pdf
*
* Author: Adithya Patil, Georgia Institute of Technology
* Based on the SLAMTEC RPLiDAR code written by Steven Josefs, IAV GmbH and CYGBOT D1 LiDAR code
*
*/
#include "AP_Proximity_LD06.h"
#if HAL_PROXIMITY_ENABLED && AP_PROXIMITY_LD06_ENABLED
// Update the sensor readings
void AP_Proximity_LD06::update(void)
{
// Escape if no connection detected/supported while running
if (_uart == nullptr) {
return;
}
// Begin getting sensor readings
// Calls method that repeatedly reads through UART channel
get_readings();
// Check if the data is being received correctly and sets Proximity Status
if (_last_distance_received_ms == 0 || (AP_HAL::millis() - _last_distance_received_ms > PROXIMITY_LD06_TIMEOUT_MS)) {
set_status(AP_Proximity::Status::NoData);
} else {
set_status(AP_Proximity::Status::Good);
}
}
// Called repeatedly to get the readings at the current instant
void AP_Proximity_LD06::get_readings()
{
if (_uart == nullptr) {
return;
}
// Store the number of bytes available on the UART input
uint32_t nbytes = MIN((uint16_t) 4000, _uart->available());
// Loops through all bytes that were received
while (nbytes-- > 0) {
// Gets and logs the current byte being read
const uint8_t c = _uart->read();
// Stores the byte in an array if the byte is a start byte or we have already read a start byte
if (c == LD_START_CHAR || _response_data) {
// Sets to true if a start byte has been read, default false otherwise
_response_data = true;
// Stores the next byte in an array
_response[_byte_count] = c;
_byte_count++;
if (_byte_count == _response[START_DATA_LENGTH] + 3) {
set_status(AP_Proximity::Status::Good);
uint32_t current_ms = AP_HAL::millis();
// Stores the last distance taken, used to reduce number of readings taken
if (_last_distance_received_ms != current_ms) {
_last_distance_received_ms = current_ms;
}
// Updates the temporary boundary and passes off the completed data
parse_response_data();
_temp_boundary.update_3D_boundary(state.instance, frontend.boundary);
_temp_boundary.reset();
// Resets the bytes read and whether or not we are reading data to accept a new payload
_byte_count = 0;
_response_data = false;
}
}
}
}
// Parses the data packet received from the LiDAR
void AP_Proximity_LD06::parse_response_data()
{
// Data interpretation based on:
// http://wiki.inno-maker.com/display/HOMEPAGE/LD06?preview=/6949506/6949511/LDROBOT_LD06_Development%20manual_v1.0_en.pdf
// Second byte in array stores length of data - not used but stored for debugging
// const uint8_t data_length = _response[START_DATA_LENGTH];
// Respective bits store the radar speed, start/end angles
// Use bitwise operations to correctly obtain correct angles
// Divide angles by 100 as per manual
const float start_angle = float(UINT16_VALUE(_response[START_BEGIN_ANGLE + 1], _response[START_BEGIN_ANGLE])) * 0.01;
const float end_angle = float(UINT16_VALUE(_response[START_END_ANGLE + 1], _response[START_END_ANGLE])) * 0.01;
// Verify the checksum that is stored in the last element of the response array
// Return if checksum is incorrect - i.e. bad data, bad readings, etc.
const uint8_t check_sum = _response[START_CHECK_SUM];
if (check_sum != crc8_generic(&_response[0], sizeof(_response) / sizeof(_response[0]) - 1, 0x4D)) {
return;
}
// Calculates the angle that this point was sampled at
float sampled_counts = 0;
const float angle_step = (end_angle - start_angle) / (PAYLOAD_COUNT - 1);
float uncorrected_angle = start_angle + (end_angle - start_angle) * 0.5;
// Handles the case that the angles read went from 360 to 0 (jumped)
if (angle_step < 0) {
uncorrected_angle = wrap_360(start_angle + (end_angle + 360 - start_angle) * 0.5);
}
// Takes the angle in the middle of the readings to be pushed to the database
const float push_angle = correct_angle_for_orientation(uncorrected_angle);
float distance_avg = 0.0;
// Each recording point is three bytes long, goes through all of that and updates database
for (uint16_t i = START_PAYLOAD; i < START_PAYLOAD + MEASUREMENT_PAYLOAD_LENGTH * PAYLOAD_COUNT; i += MEASUREMENT_PAYLOAD_LENGTH) {
// Gets the distance recorded and converts to meters
const float distance_meas = UINT16_VALUE(_response[i + 1], _response[i]) * 0.001;
// Validates data and checks if it should be included
if (distance_meas > distance_min() && distance_meas < distance_max()) {
if (ignore_reading(push_angle, distance_meas)) {
continue;
}
sampled_counts ++;
distance_avg += distance_meas;
}
}
// Convert angle to appropriate face and adds to database
// Since angle increments are only about 3 degrees, ignore readings if there were only 1 or 2 measurements
// (likely outliers) recorded in the range
if (sampled_counts > 2) {
// Gets the average distance read
distance_avg /= sampled_counts;
// Pushes the average distance and angle to the obstacle avoidance database
const AP_Proximity_Boundary_3D::Face face = frontend.boundary.get_face(push_angle);
_temp_boundary.add_distance(face, push_angle, distance_avg);
database_push(push_angle, distance_avg);
}
}
#endif // HAL_PROXIMITY_ENABLED && AP_PROXIMITY_LD06_ENABLED

104
libraries/AP_Proximity/AP_Proximity_LD06.h Normal file
View File

@ -0,0 +1,104 @@
/*
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*
* ArduPilot device driver for Inno-Maker LD06 LiDAR
*
* ALL INFORMATION REGARDING PROTOCOL WAS DERIVED FROM LD06 DATASHEET:
*
* http://wiki.inno-maker.com/display/HOMEPAGE/LD06?preview=/6949506/6949511/LDROBOT_LD06_Development%20manual_v1.0_en.pdf
*
* Author: Adithya Patil, Georgia Institute of Technology
* Based on the SLAMTEC RPLiDAR code written by Steven Josefs, IAV GmbH
*
*/
#pragma once
#include "AP_Proximity.h"
#ifndef AP_PROXIMITY_LD06_ENABLED
#define AP_PROXIMITY_LD06_ENABLED HAL_PROXIMITY_ENABLED
#endif
#if HAL_PROXIMITY_ENABLED && AP_PROXIMITY_LD06_ENABLED
#include "AP_Proximity_Backend_Serial.h"
#define MESSAGE_LENGTH 47
#define LD_START_CHAR 0x54
#define PROXIMITY_LD06_TIMEOUT_MS 50
// Indices in data array where each value starts being recorded
// See comment below about data payload for more info about formatting
#define START_BEGIN_CHARACTER 0
#define START_DATA_LENGTH 1
#define START_RADAR_SPEED 2
#define START_BEGIN_ANGLE 4
#define START_PAYLOAD 6
#define START_END_ANGLE 42
#define START_CHECK_SUM 46
#define MEASUREMENT_PAYLOAD_LENGTH 3
#define PAYLOAD_COUNT 12
// Minimum and maximum distance that the sensor can read in meters
#define MAX_READ_DISTANCE 12.0f
#define MIN_READ_DISTANCE 0.02f
class AP_Proximity_LD06 : public AP_Proximity_Backend_Serial
{
public:
using AP_Proximity_Backend_Serial::AP_Proximity_Backend_Serial;
// Update the state of the sensor
void update(void) override;
// Get the max and min distances for the sensor being used
float distance_max() const override { return MAX_READ_DISTANCE; }
float distance_min() const override { return MIN_READ_DISTANCE; }
private:
// Get and parse the sensor data
void parse_response_data();
void get_readings();
/* ------------------------------------------
Data Packet Structure:
Start Character : 1 Byte
Data Length : 1 Byte
Radar Speed : 2 Bytes
Start Angle : 2 Bytes
Data Measurements : 36 Bytes
Contains 12 measurements of 3 Bytes each
Each measurement has 2 Bytes for distance to closest object
Each measuremnt has the 3rd Byte as measurement Confidence
End Angle : 2 Bytes
Timestamp : 2 Bytes
Checksum : 1 Byte
------------------------------------------ */
// ----> 47 data bytes in total for one packet
// Store and keep track of the bytes being read from the sensor
uint8_t _response[MESSAGE_LENGTH];
bool _response_data;
uint16_t _byte_count;
// Store for error-tracking purposes
uint32_t _last_distance_received_ms;
// Boundary to store the measurements
AP_Proximity_Temp_Boundary _temp_boundary;
};
#endif // HAL_PROXIMITY_ENABLED && AP_PROXIMITY_LD06_ENABLED

2
libraries/AP_Proximity/AP_Proximity_Params.cpp
View File

@ -8,7 +8,7 @@ const AP_Param::GroupInfo AP_Proximity_Params::var_info[] = {
// @Param: _TYPE
// @DisplayName: Proximity type
// @Description: What type of proximity sensor is connected
// @Values: 0:None,7:LightwareSF40c,2:MAVLink,3:TeraRangerTower,4:RangeFinder,5:RPLidarA2,6:TeraRangerTowerEvo,8:LightwareSF45B,10:SITL,12:AirSimSITL,13:CygbotD1, 14:DroneCAN, 15:Scripting
// @Values: 0:None,7:LightwareSF40c,2:MAVLink,3:TeraRangerTower,4:RangeFinder,5:RPLidarA2,6:TeraRangerTowerEvo,8:LightwareSF45B,10:SITL,12:AirSimSITL,13:CygbotD1, 14:DroneCAN, 15:Scripting, 16:LD06
// @RebootRequired: True
// @User: Standard
AP_GROUPINFO_FLAGS("_TYPE", 1, AP_Proximity_Params, type, 0, AP_PARAM_FLAG_ENABLE),

4
libraries/AP_Proximity/AP_Proximity_config.h
View File

@ -59,3 +59,7 @@
#ifndef AP_PROXIMITY_TERARANGERTOWEREVO_ENABLED
#define AP_PROXIMITY_TERARANGERTOWEREVO_ENABLED AP_PROXIMITY_BACKEND_DEFAULT_ENABLED
#endif
#ifndef AP_PROXIMITY_LD06_ENABLED
#define AP_PROXIMITY_LD06_ENABLED AP_PROXIMITY_BACKEND_DEFAULT_ENABLED
#endif