The goal is to Improve the robustness of flatness-based control with application to nonholonomic robots and crane control. The jet-scheduling methodology that separates the dynamics into two parts, one with small gains that allow gentle, yet swift, convergence to the equilibrium; another with large aggressive gains that help reject model mismatch such as dry friction appearing on the motor drives. Since it rests on differential flatness, it takes all nonlinear inertial forces into account to compensate for their negative effect on the convergence process. The name “Jet Scheduling” comes from the fact that it incorporates a dynamic exosystem that, instead of generating a full trajectory or path to track, it generates only higher order derivatives in the jet bundle of the flat output.
D. Buccieri, D. Perritaz, P. Mullhaupt, Z. P. Jiang and D. Bonvin. Velocity-Scheduling Control for a Unicycle Mobile Robot: Theory and Experiments,in IEEE Transactions on Robotics and Automation, vol. 25, num. 2, p. 451-458, 2009.
D. Buccieri, C. Salzmann, P. Mullhaupt and D. Bonvin.
Jet-Scheduling Control for SpiderCrane: Experimental Results.
IFAC World Congress, Seoul, 2008.
Detailed record – Full Text
S. Gros, D. Buccieri, P. Mullhaupt and D. Bonvin. A Two-Time-Scale Control Scheme for Fast Systems,
in Springer Lecture Notes in Control and Information Sciences Series (LNCIS), vol. 358, p. 551-563, 2007.
Detailed record
P. Mullhaupt, D. Buccieri and D. Bonvin. A Numerical Sufficiency Test for the Asymptotic Stability of Linear Time-Varying Systems,
in Automatica, vol. 43, num. 4, p. 631-638, 2007.
Detailed record – View at publisher
D. Buccieri, P. Mullhaupt, Z. P. Jiang and D. Bonvin.
Velocity Scheduling Controller for a Nonholonomic Mobile Robot.
Chinese Control Conference, Harbin, 2006.
Detailed record – Full Text
D. Buccieri, D. Perritaz, P. Mullhaupt, Z. P. Jiang and D. Bonvin.
Experimental Results for a Nonholonomic Mobile Robot Controller Enforcing Linear Equivalence Asymptotically.
IEEE Conference on Industrial Electronics and Applications, Singapore, 2006.
Detailed record
S. Gros, D. Buccieri, P. Mullhaupt and D. Bonvin.
A Two-Time-Scale Control Scheme for Fast Systems.
Int. Workshop on Nonlinear Model Predictive Control, Freudenstadt-Lauterbad, 2005.
Detailed record – Full Text
D. Buccieri, J. Sanchez, S. Dormido, P. Mullhaupt and D. Bonvin.
Interactive 3D Simulation of Flat Systems: The SpiderCrane as a Case Study.
CDC/ECC, Seville, 2005.
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D. Buccieri, P. Mullhaupt and D. Bonvin.
SpiderCrane: Model and Properties of a Fast Weight-Handling Equipment.
16th IFAC World Congress, Prague, 2005.
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