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Added collision detection for docking (ros-navigation#4752)
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* Added collision detection for docking

Signed-off-by: Alberto Tudela <[email protected]>

* Minor fixes

Signed-off-by: Alberto Tudela <[email protected]>

* Improve collision  while undocking and test

Signed-off-by: Alberto Tudela <[email protected]>

* Fix smoke testing

Signed-off-by: Alberto Tudela <[email protected]>

* Rename dock_collision_threshold

Signed-off-by: Alberto Tudela <[email protected]>

* Added docs and params

Signed-off-by: Alberto Tudela <[email protected]>

* Minor changes in README

Signed-off-by: Alberto Tudela <[email protected]>

---------

Signed-off-by: Alberto Tudela <[email protected]>
Signed-off-by: Jakubach <[email protected]>
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Jakubach committed Nov 22, 2024
1 parent 2900652 commit 6412d2d
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Showing 8 changed files with 721 additions and 30 deletions.
7 changes: 7 additions & 0 deletions nav2_bringup/params/nav2_params.yaml
Original file line number Diff line number Diff line change
Expand Up @@ -421,6 +421,13 @@ docking_server:
k_delta: 2.0
v_linear_min: 0.15
v_linear_max: 0.15
use_collision_detection: true
costmap_topic: "/local_costmap/costmap_raw"
footprint_topic: "/local_costmap/published_footprint"
transform_tolerance: 0.1
projection_time: 5.0
simulation_step: 0.1
dock_collision_threshold: 0.3

loopback_simulator:
ros__parameters:
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18 changes: 18 additions & 0 deletions nav2_docking/README.md
Original file line number Diff line number Diff line change
Expand Up @@ -209,6 +209,7 @@ For debugging purposes, there are several publishers which can be used with RVIZ
| dock_database | The filepath to the dock database to use for this environment | string | N/A |
| docks | Instead of `dock_database`, the set of docks specified in the params file itself | vector<string> | N/A |
| navigator_bt_xml | BT XML to use for Navigator, if non-default | string | "" |
<<<<<<< HEAD
| controller.k_phi | Ratio of the rate of change of angle relative to distance from the target. Much be > 0. | double | 3.0 |
| controller.k_delta | Higher values result in converging to the target more quickly. | double | 2.0 |
| controller.beta | Parameter to reduce linear velocity proportional to path curvature. Increasing this linearly reduces the velocity (v(t) = v_max / (1 + beta * |curv|^lambda)). | double | 0.4 |
Expand All @@ -218,6 +219,23 @@ For debugging purposes, there are several publishers which can be used with RVIZ
| controller.v_angular_min | Minimum angular velocity for approaching dock. | double | 0.15 |
| controller.v_angular_max | Maximum angular velocity for approaching dock. | double | 0.75 |
| controller.slowdown_radius | Radius to end goal to commense slow down. | double | 0.25 |
=======
| controller.k_phi | Ratio of the rate of change in phi to the rate of change in r. Controls the convergence of the slow subsystem | double | 3.0 |
| controller.k_delta | Constant factor applied to the heading error feedback. Controls the convergence of the fast subsystem | double | 2.0 |
| controller.beta | Constant factor applied to the path curvature. This value must be positive. Determines how fast the velocity drops when the curvature increases | double | 0.4 |
| controller.lambda | Constant factor applied to the path curvature. This value must be greater or equal to 1. Determines the sharpness of the curve: higher lambda implies sharper curves | double | 2.0 |
| controller.v_linear_min | Minimum linear velocity (m/s) | double | 0.1 |
| controller.v_linear_max | Maximum linear velocity (m/s) | double | 0.25 |
| controller.v_angular_max | Maximum angular velocity (rad/s) produced by the control law | double | 0.75 |
| controller.slowdown_radius | Radius (m) around the goal pose in which the robot will start to slow down | double | 0.25 |
| controller.use_collision_detection | Whether to use collision detection to avoid obstacles | bool | true |
| controller.costmap_topic | The topic to use for the costmap | string | "local_costmap/costmap_raw" |
| controller.footprint_topic | The topic to use for the robot's footprint | string | "local_costmap/published_footprint" |
| controller.transform_tolerance | Time with which to post-date the transform that is published, to indicate that this transform is valid into the future. | double | 0.1 |
| controller.projection_time | Time to look ahead for collisions (s). | double | 5.0 |
| controller.simulation_time_step | Time step for projections (s). | double | 0.1 |
| controller.dock_collision_threshold | Distance (m) from the dock pose to ignore collisions. | double | 0.3 |
>>>>>>> 90a6c8d8 (Added collision detection for docking (#4752))
Note: `dock_plugins` and either `docks` or `dock_database` are required.

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Original file line number Diff line number Diff line change
@@ -1,4 +1,5 @@
// Copyright (c) 2024 Open Navigation LLC
// Copyright (c) 2024 Alberto J. Tudela Roldán
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
Expand All @@ -16,11 +17,16 @@
#define OPENNAV_DOCKING__CONTROLLER_HPP_

#include <memory>
#include <string>
#include <vector>

#include "geometry_msgs/msg/pose.hpp"
#include "geometry_msgs/msg/twist.hpp"
#include "nav2_costmap_2d/costmap_subscriber.hpp"
#include "nav2_costmap_2d/footprint_subscriber.hpp"
#include "nav2_costmap_2d/costmap_topic_collision_checker.hpp"
#include "nav2_graceful_controller/smooth_control_law.hpp"
#include "nav_msgs/msg/path.hpp"
#include "nav2_util/lifecycle_node.hpp"

namespace opennav_docking
Expand All @@ -34,27 +40,65 @@ class Controller
public:
/**
* @brief Create a controller instance. Configure ROS 2 parameters.
*
* @param node Lifecycle node
* @param tf tf2_ros TF buffer
* @param fixed_frame Fixed frame
* @param base_frame Robot base frame
*/
explicit Controller(const rclcpp_lifecycle::LifecycleNode::SharedPtr & node);
Controller(
const rclcpp_lifecycle::LifecycleNode::SharedPtr & node, std::shared_ptr<tf2_ros::Buffer> tf,
std::string fixed_frame, std::string base_frame);

/**
* @brief A destructor for opennav_docking::Controller
*/
~Controller();

/**
* @brief Compute a velocity command using control law.
* @param pose Target pose, in robot centric coordinates.
* @param cmd Command velocity.
* @param is_docking If true, robot is docking. If false, robot is undocking.
* @param backward If true, robot will drive backwards to goal.
* @returns True if command is valid, false otherwise.
*/
bool computeVelocityCommand(
const geometry_msgs::msg::Pose & pose,
geometry_msgs::msg::Twist & cmd, bool backward = false);
const geometry_msgs::msg::Pose & pose, geometry_msgs::msg::Twist & cmd, bool is_docking,
bool backward = false);

protected:
/**
* @brief Check if a trajectory is collision free.
*
* @param target_pose Target pose, in robot centric coordinates.
* @param is_docking If true, robot is docking. If false, robot is undocking.
* @param backward If true, robot will drive backwards to goal.
* @return True if trajectory is collision free.
*/
bool isTrajectoryCollisionFree(
const geometry_msgs::msg::Pose & target_pose, bool is_docking, bool backward = false);

/**
* @brief Callback executed when a parameter change is detected
* @brief Callback executed when a parameter change is detected.
*
* @param event ParameterEvent message
*/
rcl_interfaces::msg::SetParametersResult
dynamicParametersCallback(std::vector<rclcpp::Parameter> parameters);

/**
* @brief Configure the collision checker.
*
* @param node Lifecycle node
* @param costmap_topic Costmap topic
* @param footprint_topic Footprint topic
* @param transform_tolerance Transform tolerance
*/
void configureCollisionChecker(
const rclcpp_lifecycle::LifecycleNode::SharedPtr & node,
std::string costmap_topic, std::string footprint_topic, double transform_tolerance);

// Dynamic parameters handler
rclcpp::node_interfaces::OnSetParametersCallbackHandle::SharedPtr dyn_params_handler_;
std::mutex dynamic_params_lock_;
Expand All @@ -72,11 +116,29 @@ class Controller
const double & dt);

protected:
std::unique_ptr<nav2_graceful_controller::SmoothControlLaw> control_law_;
rclcpp::Logger logger_{rclcpp::get_logger("Controller")};
rclcpp::Clock::SharedPtr clock_;

// Smooth control law
std::unique_ptr<nav2_graceful_controller::SmoothControlLaw> control_law_;
double k_phi_, k_delta_, beta_, lambda_;
double slowdown_radius_, v_linear_min_, v_linear_max_, v_angular_max_;
double rotate_to_heading_angular_vel_, rotate_to_heading_max_angular_accel_;

// The trajectory of the robot while dock / undock for visualization / debug purposes
rclcpp::Publisher<nav_msgs::msg::Path>::SharedPtr trajectory_pub_;

// Used for collision checking
bool use_collision_detection_;
double projection_time_;
double simulation_time_step_;
double dock_collision_threshold_;
double transform_tolerance_;
std::shared_ptr<tf2_ros::Buffer> tf2_buffer_;
std::unique_ptr<nav2_costmap_2d::CostmapSubscriber> costmap_sub_;
std::unique_ptr<nav2_costmap_2d::FootprintSubscriber> footprint_sub_;
std::shared_ptr<nav2_costmap_2d::CostmapTopicCollisionChecker> collision_checker_;
std::string fixed_frame_, base_frame_;
};

} // namespace opennav_docking
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Original file line number Diff line number Diff line change
Expand Up @@ -118,12 +118,13 @@ class DockingServer : public nav2_util::LifecycleNode
* @param pose The pose to command towards.
* @param linear_tolerance Pose is reached when linear distance is within this tolerance.
* @param angular_tolerance Pose is reached when angular distance is within this tolerance.
* @param is_docking If true, the robot is docking. If false, the robot is undocking.
* @param backward If true, the robot will drive backwards.
* @returns True if pose is reached.
*/
bool getCommandToPose(
geometry_msgs::msg::Twist & cmd, const geometry_msgs::msg::PoseStamped & pose,
double linear_tolerance, double angular_tolerance, bool backward);
double linear_tolerance, double angular_tolerance, bool is_docking, bool backward);

/**
* @brief Get the robot pose (aka base_frame pose) in another frame.
Expand Down
144 changes: 139 additions & 5 deletions nav2_docking/opennav_docking/src/controller.cpp
Original file line number Diff line number Diff line change
@@ -1,4 +1,5 @@
// Copyright (c) 2024 Open Navigation LLC
// Copyright (c) 2024 Alberto J. Tudela Roldán
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
Expand All @@ -16,13 +17,22 @@

#include "rclcpp/rclcpp.hpp"
#include "opennav_docking/controller.hpp"
#include "nav2_util/geometry_utils.hpp"
#include "nav2_util/node_utils.hpp"
#include "nav_2d_utils/conversions.hpp"
#include "tf2/utils.h"

namespace opennav_docking
{

Controller::Controller(const rclcpp_lifecycle::LifecycleNode::SharedPtr & node)
Controller::Controller(
const rclcpp_lifecycle::LifecycleNode::SharedPtr & node, std::shared_ptr<tf2_ros::Buffer> tf,
std::string fixed_frame, std::string base_frame)
: tf2_buffer_(tf), fixed_frame_(fixed_frame), base_frame_(base_frame)
{
logger_ = node->get_logger();
clock_ = node->get_clock();

nav2_util::declare_parameter_if_not_declared(
node, "controller.k_phi", rclcpp::ParameterValue(3.0));
nav2_util::declare_parameter_if_not_declared(
Expand All @@ -35,8 +45,6 @@ Controller::Controller(const rclcpp_lifecycle::LifecycleNode::SharedPtr & node)
node, "controller.v_linear_min", rclcpp::ParameterValue(0.1));
nav2_util::declare_parameter_if_not_declared(
node, "controller.v_linear_max", rclcpp::ParameterValue(0.25));
nav2_util::declare_parameter_if_not_declared(
node, "controller.v_angular_min", rclcpp::ParameterValue(0.15));
nav2_util::declare_parameter_if_not_declared(
node, "controller.v_angular_max", rclcpp::ParameterValue(0.75));
nav2_util::declare_parameter_if_not_declared(
Expand All @@ -45,6 +53,22 @@ Controller::Controller(const rclcpp_lifecycle::LifecycleNode::SharedPtr & node)
node, "controller.rotate_to_heading_angular_vel", rclcpp::ParameterValue(1.0));
nav2_util::declare_parameter_if_not_declared(
node, "controller.rotate_to_heading_max_angular_accel", rclcpp::ParameterValue(3.2));
nav2_util::declare_parameter_if_not_declared(
node, "controller.use_collision_detection", rclcpp::ParameterValue(true));
nav2_util::declare_parameter_if_not_declared(
node, "controller.costmap_topic",
rclcpp::ParameterValue(std::string("local_costmap/costmap_raw")));
nav2_util::declare_parameter_if_not_declared(
node, "controller.footprint_topic", rclcpp::ParameterValue(
std::string("local_costmap/published_footprint")));
nav2_util::declare_parameter_if_not_declared(
node, "controller.transform_tolerance", rclcpp::ParameterValue(0.1));
nav2_util::declare_parameter_if_not_declared(
node, "controller.projection_time", rclcpp::ParameterValue(5.0));
nav2_util::declare_parameter_if_not_declared(
node, "controller.simulation_time_step", rclcpp::ParameterValue(0.1));
nav2_util::declare_parameter_if_not_declared(
node, "controller.dock_collision_threshold", rclcpp::ParameterValue(0.3));

node->get_parameter("controller.k_phi", k_phi_);
node->get_parameter("controller.k_delta", k_delta_);
Expand All @@ -63,17 +87,120 @@ Controller::Controller(const rclcpp_lifecycle::LifecycleNode::SharedPtr & node)
// Add callback for dynamic parameters
dyn_params_handler_ = node->add_on_set_parameters_callback(
std::bind(&Controller::dynamicParametersCallback, this, std::placeholders::_1));

node->get_parameter("controller.use_collision_detection", use_collision_detection_);
node->get_parameter("controller.projection_time", projection_time_);
node->get_parameter("controller.simulation_time_step", simulation_time_step_);
node->get_parameter("controller.transform_tolerance", transform_tolerance_);

if (use_collision_detection_) {
std::string costmap_topic, footprint_topic;
node->get_parameter("controller.costmap_topic", costmap_topic);
node->get_parameter("controller.footprint_topic", footprint_topic);
node->get_parameter("controller.dock_collision_threshold", dock_collision_threshold_);
configureCollisionChecker(node, costmap_topic, footprint_topic, transform_tolerance_);
}

trajectory_pub_ =
node->create_publisher<nav_msgs::msg::Path>("docking_trajectory", 1);
}

Controller::~Controller()
{
control_law_.reset();
trajectory_pub_.reset();
collision_checker_.reset();
costmap_sub_.reset();
footprint_sub_.reset();
}

bool Controller::computeVelocityCommand(
const geometry_msgs::msg::Pose & pose,
geometry_msgs::msg::Twist & cmd, bool backward)
const geometry_msgs::msg::Pose & pose, geometry_msgs::msg::Twist & cmd, bool is_docking,
bool backward)
{
std::lock_guard<std::mutex> lock(dynamic_params_lock_);
cmd = control_law_->calculateRegularVelocity(pose, backward);
return isTrajectoryCollisionFree(pose, is_docking, backward);
}

bool Controller::isTrajectoryCollisionFree(
const geometry_msgs::msg::Pose & target_pose, bool is_docking, bool backward)
{
// Visualization of the trajectory
nav_msgs::msg::Path trajectory;
trajectory.header.frame_id = base_frame_;
trajectory.header.stamp = clock_->now();

// First pose
geometry_msgs::msg::PoseStamped next_pose;
next_pose.header.frame_id = base_frame_;
trajectory.poses.push_back(next_pose);

// Get the transform from base_frame to fixed_frame
geometry_msgs::msg::TransformStamped base_to_fixed_transform;
try {
base_to_fixed_transform = tf2_buffer_->lookupTransform(
fixed_frame_, base_frame_, trajectory.header.stamp,
tf2::durationFromSec(transform_tolerance_));
} catch (tf2::TransformException & ex) {
RCLCPP_ERROR(
logger_, "Could not get transform from %s to %s: %s",
base_frame_.c_str(), fixed_frame_.c_str(), ex.what());
return false;
}

// Generate path
for (double t = 0; t < projection_time_; t += simulation_time_step_) {
// Apply velocities to calculate next pose
next_pose.pose = control_law_->calculateNextPose(
simulation_time_step_, target_pose, next_pose.pose, backward);

// Add the pose to the trajectory for visualization
trajectory.poses.push_back(next_pose);

// Transform pose from base_frame into fixed_frame
geometry_msgs::msg::PoseStamped local_pose = next_pose;
local_pose.header.stamp = trajectory.header.stamp;
tf2::doTransform(local_pose, local_pose, base_to_fixed_transform);

// Determine the distance at which to check for collisions
// Skip the final segment of the trajectory for docking
// and the initial segment for undocking
// This avoids false positives when the robot is at the dock
double dock_collision_distance = is_docking ?
nav2_util::geometry_utils::euclidean_distance(target_pose, next_pose.pose) :
std::hypot(next_pose.pose.position.x, next_pose.pose.position.y);

// If this distance is greater than the dock_collision_threshold, check for collisions
if (use_collision_detection_ &&
dock_collision_distance > dock_collision_threshold_ &&
!collision_checker_->isCollisionFree(nav_2d_utils::poseToPose2D(local_pose.pose)))
{
RCLCPP_WARN(
logger_, "Collision detected at pose: (%.2f, %.2f, %.2f) in frame %s",
local_pose.pose.position.x, local_pose.pose.position.y, local_pose.pose.position.z,
local_pose.header.frame_id.c_str());
trajectory_pub_->publish(trajectory);
return false;
}
}

trajectory_pub_->publish(trajectory);

return true;
}

void Controller::configureCollisionChecker(
const rclcpp_lifecycle::LifecycleNode::SharedPtr & node,
std::string costmap_topic, std::string footprint_topic, double transform_tolerance)
{
costmap_sub_ = std::make_unique<nav2_costmap_2d::CostmapSubscriber>(node, costmap_topic);
footprint_sub_ = std::make_unique<nav2_costmap_2d::FootprintSubscriber>(
node, footprint_topic, *tf2_buffer_, base_frame_, transform_tolerance);
collision_checker_ = std::make_shared<nav2_costmap_2d::CostmapTopicCollisionChecker>(
*costmap_sub_, *footprint_sub_, node->get_name());
}

rcl_interfaces::msg::SetParametersResult
Controller::dynamicParametersCallback(std::vector<rclcpp::Parameter> parameters)
{
Expand Down Expand Up @@ -105,6 +232,13 @@ Controller::dynamicParametersCallback(std::vector<rclcpp::Parameter> parameters)
rotate_to_heading_angular_vel_ = parameter.as_double();
} else if (name == "controller.rotate_to_heading_max_angular_accel") {
rotate_to_heading_max_angular_accel_ = parameter.as_double();
} else if (name == "controller.projection_time") {
projection_time_ = parameter.as_double();
} else if (name == "controller.simulation_time_step") {
simulation_time_step_ = parameter.as_double();
} else if (name == "controller.dock_collision_threshold") {
dock_collision_threshold_ = parameter.as_double();
}

// Update the smooth control law with the new params
control_law_->setCurvatureConstants(k_phi_, k_delta_, beta_, lambda_);
Expand Down
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