Control of Nonholonomic Systems

When the generalized velo city of a mechanical system satis es an equality condition that cannot b e written as an equivalent condition on the generalized p osition  the system is called a nonholonomic system. Nonholonomic condition may arise from constraints such as pure rolling of a wheel or from physical conservation laws such as the conservation of angular momentum of a free  floating body
Nonholonomic systems p ose a particular challenge from the control p oint of view  as any one who has tried to parallel park a car in a tight space can attest  The basic problem involves  finding a path that connects an initial configuration to the final configuration and satis es all the holonomic and nonholonomic conditions for the system  Both op en lo op and closed lo op solutions are of interest  open loop solution is useful for online path generation  closed loop solution is needed for the real time control