Abstract: An auto-balancing transportation device having a wheel structure and foot platforms that pivot between an in-use and a stowed position. The pivot axis for each platform is provided within the wheel structure so that the force exerted by a rider when stepping on a foot platform is applied to the wheel structure at a point within the wheel structure, as opposed to external to it, which is unstable and may cause the device to tip over.

Abstract: An auto-balancing transportation device having a compact form. Left and right foot platform sections are coupled for fore-aft tilt angle movement relative to one another. Left and right wheels are provided under the respective foot platforms. With a rider's weight directed primarily downward onto the wheels and not onto the coupling structure, the coupling structure may have sufficient space to house the battery. In addition, more efficient and lighter weight supports and bearing arrangements may be used in the coupling structure. Various embodiments are disclosed.

Abstract: A two-wheel, self-balancing transportation device having a foot platform zone associated with each wheel. Various sensor or control arrangements are disclosed. In one embodiment, torsion sensing is used to determine a rider's fore-aft weight distribution on one foot platform zone relative to the other. The torsion-based sensing is preferably combined with fore-aft platform position sensing to achieve a driving and turning of the device. In another embodiment, pressure sensors are used to determine a rider's fore-aft weight distribution on one foot platform zone relative to the other. In yet another embodiment, a relative position sensor is used to determine the relative position of movable platforms sections. Other features and embodiments are also disclosed.

Abstract: A two-wheel, self-balancing transportation device having a foot platform zone associated with each wheel. Various sensor or control arrangements are disclosed. In one embodiment, torsion sensing is used to determine a rider's fore-aft weight distribution on one foot platform zone relative to the other. The torsion-based sensing is preferably combined with fore-aft platform position sensing to achieve a driving and turning of the device. In another embodiment, pressure sensors are used to determine a rider's fore-aft weight distribution on one foot platform zone relative to the other. In yet another embodiment, a relative position sensor is used to determine the relative position of movable platforms sections. Other features and embodiments are also disclosed.

Abstract: An auto-balancing transportation device configured for being ridden in a foot forward or sideways standing position. The rider platform has front and rear foot platform areas and two connecting members, located on opposite lateral sides of the device, that couple the front and rear platform areas. Two drive wheels are located under or through the platform. The front and/or rear platform areas are movable or twistable so as to alter the fore-aft tilt of one or more of the connecting members. Position sensors associated with each connecting member are used to drive a corresponding drive wheel. In this manner, differences in fore-aft tilt angle of the two connecting members achieves a turning of the device.

Abstract: An auto-balancing transportation device having a compact form. Left and right foot platform sections are coupled for fore-aft tilt angle movement relative to one another. Left and right wheels are provided under the respective foot platforms. With a rider's weight directed primarily downward onto the wheels and not onto the coupling structure, the coupling structure may have sufficient space to house the battery. In addition, more efficient and lighter weight supports and bearing arrangements may be used in the coupling structure. Various embodiments are disclosed.

Abstract: An auto-balancing transportation device having a wheel structure and foot platforms that pivot between an in-use and a stowed position. The pivot axis for each platform is provided within the wheel structure so that the force exerted by a rider when stepping on a foot platform is applied to the wheel structure at a point within the wheel structure, as opposed to external to it, which is unstable and may cause the device to tip over.

Abstract: A two-wheel, self-balancing transportation device having a foot platform zone associated with each wheel. Various sensor or control arrangements are disclosed. In one embodiment, torsion sensing is used to determine a rider's fore-aft weight distribution on one foot platform zone relative to the other. The torsion-based sensing is preferably combined with fore-aft platform position sensing to achieve a driving and turning of the device. In another embodiment, pressure sensors are used to determine a rider's fore-aft weight distribution on one foot platform zone relative to the other. In yet another embodiment, a relative position sensor is used to determine the relative position of movable platforms sections. Other features and embodiments are also disclosed.

Abstract: A two-wheel, self-balancing transportation device having a foot platform zone associated with each wheel. Various sensor or control arrangements are disclosed. In one embodiment, torsion sensing is used to determine a rider's fore-aft weight distribution on one foot platform zone relative to the other. The torsion-based sensing is preferably combined with fore-aft platform position sensing to achieve a driving and turning of the device. In another embodiment, pressure sensors are used to determine a rider's fore-aft weight distribution on one foot platform zone relative to the other. In yet another embodiment, a relative position sensor is used to determine the relative position of movable platforms sections. Other features and embodiments are also disclosed.

Abstract: A spoon head device that may be readily picked up and set down by a pair of chopsticks, to permit a user to use chopsticks to eat solid food and readily engage the spoon head to fashion a spoon for consuming liquid, such as soup. Various embodiments are disclosed that afford hygienic storage between use while eating, various chopstick tip engaging structures, flotation and other benefits and features of the present invention.