A restraint system for a ride vehicle includes a rigid restraint configured to extend across a passenger to secure the passenger within a seat of the ride vehicle and a soft restraint coupled to the rigid restraint. The soft restraint includes a pliable material configured to conform to a substantial portion of a torso of the passenger and a haptic feedback system integrated with the soft restraint. The haptic feedback system is configured to generate vibrational forces and impart the vibrational forces to the torso of the passenger.

A restraint system for a ride vehicle includes a soft restraint configured to extend across a passenger to secure the passenger within a seat of the ride vehicle. The soft restraint includes a pliable material configured to conform to a substantial portion of a torso of the passenger, and a sensory stimulation system integrated with the soft restraint. The sensory stimulation system is configured to generate sensory effects and impart the sensory forces to the torso of the passenger. The soft restraint also includes an inflatable bladder system integrated with the soft restraint and the inflatable bladder system is configured to inflate with a gas to increase contact between the soft restraint and the torso of the passenger.

A restraint system for a ride vehicle includes a soft restraint configured to extend across a passenger to secure the passenger within a seat of the ride vehicle. The soft restraint includes a pliable material configured to conform to a substantial portion of a torso of the passenger, and a sensory stimulation system integrated with the soft restraint. The sensory stimulation system is configured to generate sensory effects and impart the sensory forces to the torso of the passenger. The soft restraint also includes an inflatable bladder system integrated with the soft restraint and the inflatable bladder system is configured to inflate with a gas to increase contact between the soft restraint and the torso of the passenger.

A restraint system for a ride vehicle includes a rigid restraint configured to extend across a passenger to secure the passenger within a seat of the ride vehicle and a soft restraint coupled to the rigid restraint. The soft restraint includes a pliable material configured to conform to a substantial portion of a torso of the passenger and a haptic feedback system integrated with the soft restraint. The haptic feedback system is configured to generate vibrational forces and impart the vibrational forces to the torso of the passenger.

A pneumatic identification apparatus for the body weight of a seat occupant includes a control unit and at least one sensing apparatus each including a pneumatic sensing apparatus and an auxiliary sensing apparatus; the pneumatic sensing apparatus includes at least one soft elastic hollow structure body and a sensing unit; the soft elastic hollow structure body communicates with a first air pressure sensor, the first air pressure sensor being configured to measure a first air pressure value P.sub.a in the soft elastic hollow structure body; the control unit is configured to compare the first air pressure value P.sub.a with standard set values and correspondingly output a body weight type; and the auxiliary sensing apparatus includes a top pressure-bearing plate and a bottom carrying plate respectively mounted on two end faces of the soft elastic hollow structure body. Further provided is a pneumatic identification seat provided with the pneumatic identification apparatus.

An actuation apparatus includes a module movably tethered to a base member. Each of the module and base member include a plurality of magnetic elements aligned in a plurality of paired magnet sets such that in a non-actuated condition a repulsive magnetic force generated by each paired magnet set causes separation of the module and base member. Application of an actuation force to an actuation surface of the module, in opposition to the magnetic repulsive force, causes movement of the module toward the base member such that contact is made between terminals defined by the magnetic elements of at least one of the paired magnet sets, to generate an output signal. In an illustrative example, the base member is a steering wheel armature of a vehicle and the module is a wheel hub assembly including an air bag and a hub cover defining the actuation surface.

An actuation apparatus includes a module movably tethered to a base member. Each of the module and base member include a plurality of magnetic elements aligned in a plurality of paired magnet sets such that in a non-actuated condition a repulsive magnetic force generated by each paired magnet set causes separation of the module and base member. Application of an actuation force to an actuation surface of the module, in opposition to the magnetic repulsive force, causes movement of the module toward the base member such that contact is made between terminals defined by the magnetic elements of at least one of the paired magnet sets, to generate an output signal. In an illustrative example, the base member is a steering wheel armature of a vehicle and the module is a wheel hub assembly including an air bag and a hub cover defining the actuation surface.