The sot-dynamic package is a bridge between the stack of tasks framework and the dynamicsJRLJapan library.
It provides an inverse dynamic model of the robot through dynamic-graph entities.
More precisely it wraps the newton euler algorithm implemented by the dynamicsJRLJapan library
to make it accessible for the stack of tasks controllers
(in the Stack of Tasks Framework as defined in \ref Mansard2007.)
This package depends on the following packages:
\li dynamicsJRLJapan
\li sot-core
\li dynamic-graph
\li dynamic-graph-python
Optional packages (for specific support of the hrp2-N robots)
\li hrp210optimized
\li hrp2-dynamics
See the JRL umi3218's page on github for instructions on how to download and
install these packages at https://github.com/jrl-umi3218.
\section python_bindings Python bindings
As most packages based on the dynamic-graph framework (see https://github.com/jrl-umi3218/dynamic-graph),
the functionnality is exposed through entities. Hence python sub-modules of dynamic_graph are generated. See <a href="../sphinx-html/index.html">sphinx documentation</a> for more details.
The following entities are created by this package:\n
(all entites are placed in the namespace sot::)
\li sot::ZmprefFromCom
\li sot::ForceCompensation
\li sot::IntegratorForceExact
\li sot::MassApparent
\li sot::IntegratorForceRk4
\li sot::IntegratorForce
\li sot::AngleEstimator
\li sot::WaistAttitudeFromSensor
\li sot::Dynamic - provides the inverse dynamics computations for of a humanoid robot
Optionally, if the packages in brackets are installed, the following entities
are made available:
\li sot::DynamicHrp2 - same as sot::Dynamic, but specialized for hrp2 robots [needs hrp2-dynamics]
\li sot::DynamicHrp2_10 - same as previous, optimized for the hrp2-10 robot [needs hrp210optimized]
