103 research outputs found
Dynamic Trajectory-Tracking Control of an Omnidirectional Mobile Robot Based on a Passive Approach
Phase synchronization of autonomous AC grid system with passivity-based control
This paper discusses a ring‐coupled buck‐type inverter system to harness energy from direct current (DC) sources of electricity. The DC‐DC buck converter circuit is modified with an H‐bridge to convert the DC input voltage to a usable alternating current (AC) output voltage. Passivity‐based control (PBC) with port‐controlled Hamiltonian modelling (PCHM) is a method where the system is controlled by considering not only the energy properties of the system but also the inherent physical structure. PBC is applied to achieve stabilization of the AC output voltage to a desired amplitude and frequency. Unsynchronized output voltages in terms of phase angle or frequency can cause detrimental effects on the system. Phase‐locked loop (PLL) is employed in the ring structure to maintain synchronization of the AC output voltage of all inverter units in the ring‐coupled system
Adaptive sliding-mode observer for second order discrete-time MIMO nonlinear systems based on recurrent neural-networks
Continuous dynamic sliding mode control of converter-fed DC motor system with high order mismatched disturbance compensation
Load Torque Estimation and Passivity-based Control of a Boost-Converter/DC-Motor combination
Consensus for linear agents with unknown parameters
We solve consensus problems for networks of identical linear agents whose dynamics is unknown except for the order. We estimate the unknown dynamics via an “extended state-observer”, and cancel it with a suitably designed control. The agent dynamics is thus approximated by that of an n-integrator, and standard protocols for networks of such type can then be used to achieve consensus for the network of original unknown agents
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