HLR
0.0.1
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CHLR::Kinematics::ConcurrentQueue< T > | A thread safe queue that supports both synchronous pop and asynchronous pop. It's not allowed to use pop and async_pop together |
CHLR::Kinematics::ConcurrentQueue< Event > | |
CHLR::Vision::CupDetection | Collection of detected cups Collection of detected cups where the location of the cups is described in where it's center is located in the depth frame |
CHLR::Kinematics::RV2AJ::Driver | Driver for the Mitsubishi RV2-AJ |
CHLR::Kinematics::EnvironmentObject | Describes an object that is detected in the environment |
▼CHLR::Vision::ICupDetector | Can detect cups using the Kinect color and depth camera. This class allows its user to detect cups in a depth image of the Kinect. It also offers an interface to get the latest frames from the three Camera's the Kinect offers |
CHLR::Vision::CupDetector | Implementation of CupDetector |
CHLR::Vision::MockCupDetector | Mocks a ICupDetector Mocks an ICupDetector by reading frames from files |
▼CHLR::PointCloud::ISensorInterpreter | An abstract class responsible for reading and interpreting the data from a device interpreting the world |
CHLR::PointCloud::LidarInterpreter | A class responsible for reading and interpreting the LiDAR data |
CHLR::Kinematics::Kinematics | Contains the functions to compute the forward and inverse kinematics for the mitsubishi rv-2aj robot arm |
CHLR::Kinematics::Matrix< T, m, n > | Create a matrix with numerical values |
CHLR::Kinematics::Matrix< double, 3, 1 > | |
CHLR::Kinematics::Matrix< double, 5, 1 > | |
CHLR::Kinematics::Matrix< double, 5, 2 > | |
CHLR::PointCloud::Object | A class for mapping the ROS::Object defined in msg/Object.msg |
Cgazebo::Object | Object existing in the world This struct is used to map the objects we recieve from the worldupdate and the gazebo world |
CHLR::PointCloud::ObjectInterpreter | Class responsible for merging the world data from the Kinect and the LiDAR |
CHLR::Kinematics::ObjectMoveHandler | Interface to send commands to the Kinematics component Executes actions on the robotarm based in the incoming messages |
▼CHLR::Kinematics::Planner | Abstract class that forces |
CHLR::Kinematics::InterpolatingAnglePlanner | Abstract class that forces |
CHLR::PointCloud::PointCloudNode | This class is the main class for the PointCloud namespaces |
CHLR::Kinematics::RobotController | This class contains the main logic of the robotic arm. It handles the calculation of robotic path and handles moving the robot arm using the driver |
▼CHLR::Kinematics::RobotDriverHandler | Interface that exposes the interface to the robotarm |
CHLR::Kinematics::RosRobotDriverHandler | Concrete handle on the robot using the ROS interface |
CHLR::Kinematics::RV2AJ::Serial | OO wrapper around POSIX serial devices |
▼CHLR::Simulation::VirtualSerialInterface | Interface the simulate the serial connection to the robot arm |
▼CHLR::Simulation::AbstractController | Creates to ROS topics to listen to the incoming messages |
CHLR::Simulation::MitsubishiController | Implements the virtual functions of AbstractController. Used to parse the messages for the Mitsubishi RV-2AJ and send commands to the Gazebo simulation |
CHLR::Simulation::VirtualServo | VirtualServo is used to simulate realistic movement of the servo |
▼CWorldPlugin | |
Cgazebo::ObjectPlugin | Plugin for loading objects in gazebo using worldupdates This function is not unit tested because it only uses private functions and it's result is written to files which is hard to check |