The rc_dynamics interface¶

The rc_dynamics interface offers continuous, real-time data-stream access to rc_visard’s several dynamic state estimates as continuous, real-time data streams. It allows state estimates of all offered types to be configured to be streamed to any host in the network. The Data-stream protocol used is agnostic w.r.t. operating system and programming language.

Starting/stopping dynamic-state estimation¶

The rc_visard’s dynamic-state estimates are only available if the respective module, i.e., the sensor dynamics module, is turned on. This can be done either in the Web GUI - a respective switch is offered on the Dynamics page - or via the REST-API by using the module’s service calls. A sample curl request to start dynamic-state estimation would look like:

curl -X PUT --header 'Content-Type: application/json' -d '{}' 'http://<host>/api/v1/nodes/rc_dynamics/services/start'

Note

To save computational resources, it is recommended to stop dynamic-state estimation when not needed any longer.

Configuring data streams¶

Available data streams, i.e., dynamic-state estimates, can be listed and configured by the rc_visard’s REST-API, e.g., a list of all available data streams can be requested with GET /datastreams. For a detailed description of the following data streams, please refer to Available state estimates.

Table 62 Available data streams via the rc_dynamics interface¶
Name	Protocol	Protobuf	Description
`dynamics`	UDP	Dynamics	Dynamics of sensor (pose, velocity, acceleration) from INS or SLAM (best effort depending on availability) at realtime frequency (IMU rate)
`dynamics_ins`	UDP	Dynamics	Dynamics of sensor (pose, velocity, acceleration) from stereo INS at realtime frequency (IMU rate)
`imu`	UDP	Imu	Raw IMU (Inertial Measurement Unit) values at realtime frequency (IMU rate)
`pose`	UDP	Frame	Pose of left camera from INS or SLAM (best effort depending on availability) at maximum camera frequency (fps)
`pose_ins`	UDP	Frame	Pose of left camera from stereo INS at maximum camera frequency (fps)
`pose_rt`	UDP	Frame	Pose of left camera from INS or SLAM (best effort depending on availability) at realtime frequency (IMU rate)
`pose_rt_ins`	UDP	Frame	Pose of left camera from stereo INS at realtime frequency (IMU rate)

The general procedure for working with the rc_dynamics interface is the following:

Request a data stream via REST-API.
The following sample curl command issues a PUT /datastreams/{stream} request to initiate a stream of type pose_rt from the rc_visard to client host 10.0.1.14 at port 30000:
curl -X PUT --header 'Content-Type: application/x-www-form-urlencoded' --header 'Accept: application/json' -d 'destination=10.0.1.14:30000' 'http://<host>/api/v1/datastreams/pose_rt'
Receive and deserialize data.

With a successful request, the stream is initiated and data of the specified stream type is continuously sent to the client host. According to the Data-stream protocol, the client needs to receive, deserialize and process the data.
Stop a requested data stream via REST-API.
The following sample curl command issues a DELETE /datastreams/{stream} request to delete, i.e., stop, the previously requested stream of type pose_rt with destination 10.0.1.14:30000:
curl -X DELETE --header 'Accept: application/json' 'http://<host>/api/v1/datastreams/pose_rt?destination=10.0.1.14:30000'
To remove all destinations for a stream, simply omit the destination parameter.

Warning

Data streams can not be deleted automatically, i.e., the rc_visard keeps streaming data even if the client-side is disconnected or has stopped consuming the sent datagrams. A maximum of 10 destinations per stream are allowed. It is therefore strongly recommended to stop data streams via the REST-API when they are or no longer used.

Data-stream protocol¶

Once a data stream is established, data is continuously sent to the specified client host and port (destination) via the following protocol:

Network protocol:

The only currently supported network protocol is UDP, i.e., data is sent as UDP datagrams.

Data serialization:

The data being sent is serialized via Google protocol buffers. The following message type definitions are used.

The camera-pose streams and real-time camera-pose streams are serialized using the Frame message type:

message Frame
{
  optional PoseStamped pose  = 1;
  optional string parent     = 2; // Name of the parent frame
  optional string name       = 3; // Name of the frame
  optional string producer   = 4; // Name of the producer of this data
}

The producer field can take the values ins, slam, rt_ins, and rt_slam, indicating whether the data was computed by SLAM or Stereo INS, and is real-time (rt) or not.

The real-time dynamics stream is serialized using the Dynamics message type:

message Dynamics
{
  optional Time timestamp                     = 1; // Time when the data was captured
  optional Pose pose                          = 2;
  optional string pose_frame                  = 3; // Name of the frame that the pose is given in
  optional Vector3d linear_velocity           = 4; // Linear velocity in m/s
  optional string linear_velocity_frame       = 5; // Name of the frame that the linear_velocity is given in
  optional Vector3d angular_velocity          = 6; // Angular velocity in rad/s
  optional string angular_velocity_frame      = 7; // Name of the frame that the angular_velocity is given in
  optional Vector3d linear_acceleration       = 8; // Gravity compensated linear acceleration in m/s²
  optional string linear_acceleration_frame   = 9; // Name of the frame that the acceleration is given in
  repeated double covariance                  = 10 [packed=true]; // Row-major representation of the 15x15 covariance matrix
  optional Frame cam2imu_transform            = 11; // pose of the left camera wrt. the IMU frame
  optional bool possible_jump                 = 12; // True if there possibly was a jump in the pose estimation
  optional string producer                    = 13; // Name of the producer of this data
}

The producer field can take the values rt_ins and rt_slam, indicating whether the data was computed by SLAM or Stereo INS.

The IMU stream is serialized using the Imu message type:

message Imu
{
  optional Time timestamp                     = 1; // Time when the data was captured
  optional Vector3d linear_acceleration       = 2; // Linear acceleration in m/s² measured by the IMU
  optional Vector3d angular_velocity          = 3; // Angular velocity in rad/s measured by the IMU
}

The nested types PoseStamped, Pose, Time, Quaternion, and Vector3D are defined as follows:

message PoseStamped
{
  optional Time timestamp  = 1; // Time when the data was captured
  optional Pose pose       = 2;
}

message Pose
{
  optional Vector3d position      = 1; // Position in meters
  optional Quaternion orientation = 2; // Orientation as unit quaternion
  repeated double covariance      = 3 [packed=true]; // Row-major representation of the 6x6 covariance matrix (x, y, z, rotation about X axis, rotation about Y axis, rotation about Z axis)
}

message Time
{
  /// \brief Seconds
  optional int64 sec = 1;

  /// \brief Nanoseconds
  optional int32 nsec = 2;
}

message Quaternion
{
  optional double x = 2;
  optional double y = 3;
  optional double z = 4;
  optional double w = 5;
}

message Vector3d
{
  optional double x = 1;
  optional double y = 2;
  optional double z = 3;
}

rc_dynamics_api¶

The open-source rc_dynamics_api package provides a simple, convenient C++ wrapper to request and parse rc_dynamics streams, see http://www.roboception.com/download.