A vehicle driver control input assembly includes a seat with a steering wheel structure configured to provide non-mechanical steering signals to a steer-by-wire system. The steering wheel structure is collapsible underneath the seat for storage. First and second movable arm structures are connected to opposing sides of the seat and are movable between an upright position for use and a lowered position for storage. The movable arm structures include control input members to provide non-mechanical steering signals to the steer-by-wire system. A plurality of selectable driver control input devices may be interchangeably connected with the vehicle to provide steering, braking and/or acceleration signals to the vehicle as desired.
The invention concerns a control assembly, in particular for motor vehicle steering column top portion (1), comprising several switching modules (7; 9; 13; 15) and a microcontroller (19) mounted on a motherboard (17) for interpreting a switching state based on the identifier of the module to deliver an appropriate control signal, the motherboard (17) having several connecting locations (E1, E2, E3, E4), and each module (7; 9; 13; 15) having an identical number N of predetermined tracks (L1, L2, L3, L4, L5, ID1, ID2; CS1; CS2; CS3; CS4) to be connected to tracks associated with the motherboard (17). The corresponding exit tracks (L1, L2, L3, L4, L5, ID1, ID2) of each switching module (7; 9; 13; 15) are interconnected and connected together on the same input of the microcontroller (19), and the control assembly comprises for each location (E1, E2, E3, E4) means for activating reading of a switching state of a module connected at said location, said activating means being monitored by the microcontroller (19).
