In the examples/quadrotor/ example, a custom QuadrotorPlant is specified and its output is passed into QuadrotorGeometry where the QuadrotorPlant state is packaged into FramePoseVector for the SceneGraph to visualize.

The relevant code segment in QuadrotorGeometry that does this:


void QuadrotorGeometry::OutputGeometryPose(
    const systems::Context<double>& context,
    geometry::FramePoseVector<double>* poses) const {

  const auto& state = get_input_port(0).Eval(context);
  math::RigidTransformd pose(

  *poses = {{frame_id_, pose.GetAsIsometry3()}};

In my case, I have a floating based multibody system (think a quadrotor with a pendulum attached) of which I've created a custom plant (LeafSystem). The minimal coordinates for such a system would be 4 (quaternion) + 3 (x,y,z) + 1 (joint angle) = 7. If I were to follow the QuadrotorGeometry example, I believe I would need to specify the full RigidTransformd for the quadrotor and the full RigidTransformd of the pendulum.


Is it possible to set up the visualization / specify the pose such that I only need to specify the 7 (pose of quadrotor + joint angle) state minimal coordinates and have the internal MultibodyPlant handle the computation of each individual body's (quadrotor and pendulum) full RigidTransform which can then be passed to the SceneGraph for visualization?

I believe this was possible with the "attic-ed" (which I take to mean "to be deprecated") RigidBodyTree, which was accomplished in examples/compass_gait

  lcm::DrakeLcm lcm;
  auto publisher = builder.AddSystem<systems::DrakeVisualizer>(*tree, &lcm);


Where get_floating_base_state_output_port() was outputting the CompassGait state with only 7 states (3 rpy + 3 xyz + 1 hip angle).

What is the MultibodyPlant, SceneGraph equivalent of this?


So, there's a lot in here. I have a suspicion there's a simple answer, but we may have to converge on it.

First, my assumptions:

  1. You've got an "internal" MultibodyPlant (MBP). Presumably, you also have a context for it, allowing you to perform meaningful state-dependent calculations.
  2. Furthermore, I presume the MBP was responsible for registering the geometry (probably happened when you parsed it).
  3. Your LeafSystem will directly connect to the SceneGraph to provide poses.
  4. Given your state, you routinely set the state in the MBP's context to do that evaluation.

Option 1:

In your custom LeafSystem, create the FramePoseVector output port, create the calc callback for it, and inside that callback, simply invoke the Eval() method on its output port (providing its context with the updated state and the pointer to a FramePoseVector that your LeafSystem's callback was provided with).

Option 2:

Rather than implementing a LeafSystem that has an internal plant, you could have a Diagram that contains an MBP and exports the MBP's FramePoseVector output directly through the diagram to connect.

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