add first draft for the centroidal_mpc_torque_control

c9422420 · Maximilien Naveau · b5973523 · c9422420
Commit c9422420 authored 2 years ago by Maximilien Naveau
--- a/talos_centroidal_mpc_torque_control.md
+++ b/talos_centroidal_mpc_torque_control.md
+---
+title: "Dynamic Biped Locomotion with Concentrated Structural Compliance"
+subtitle: Submitted to 2022 IEEE-RAS Humanoids - International Conference on Humanoid Robots
+author:
+- Nahuel A. Villa ^1^,
+- Pierre Fernbach ^2^,
+- Maximilien Naveau ^1, 2^,
+- Guilhem Saurel ^1^,
+- <a href="https://www.linkedin.com/in/ewen-dantec-aerospace/?originalSubdomain=fr">Ewen Dantec ^1^,
+- <a href="https://gepettoweb.laas.fr/index.php/Members/NicolasMansard">Nicolas Mansard</a> ^1,3^,
+- <a href="https://homepages.laas.fr/ostasse">Olivier Stasse</a> ^1,3^
+org:
+- ^1^ Gepetto Team, LAAS-CNRS, Université de Toulouse, France
+- ^2^ TOWARD, Toulouse, France
+- ^3^ Artificial and Natural Intelligence Toulouse Institute, France
+# hal: https://hal.archives-ouvertes.fr/hal-03351438v2
+# peertube: https://peertube.laas.fr/videos/embed/56edb26d-e2c3-46ac-909b-61f55d10c569
+# data: https://gepettoweb.laas.fr/data/cosyslam/
+...
+
+## Abstract
+
+While the last two years have seen the rise of many quadruped robots with excellent locomotion capabilities, biped robots are still limited, as they are evolving in a stability zone of reduced size.
+When transferring a locomotion controller from simulation to reality, modeling errors are then difficult to compensate with feedback only.
+This consequently imposes drastic constraints on the hardware design.
+In this paper, we propose to consider the simulation-to-reality gap by designing a robust locomotion controller.
+The robustness is obtained by a quantitative analysis of uncertainties, leading to bounds on its effects.
+As these bounds are compatible with the robot constraints, we propose a robust controller able to produce dynamic walking gaits.
+Feedback is obtained through the robust controller, acting as a balance stabilizer, and through a closed-loop model-predictive controller modeling the centroidal dynamics.
+We apply the proposed scheme to control the locomotion of the humanoid robot Talos, whose hip is 
+unintentionally mechanically flexible. 
+We demonstrate in simulation and on the TALOS humanoid robot the importance of the robustness to handle this mechanical flexibility. 
+
+**This work was supported by the cooperation agreement ROB4FAM.**