A self-disinfecting surface covering for a vehicle is disclosed. The surface covering comprising a pair of electrodes substantially conforms to a vehicle panel. A plurality of printed LEDs suspended in a semiconductor ink are printed between the electrodes and configured to emit a disinfecting emission. An outer layer of the surface covering is disposed proximate one of the electrodes. The outer layer is operable to transmit at least a portion of the disinfecting emission therethrough.

A self-disinfecting surface covering for a vehicle is disclosed. The surface covering comprising a pair of electrodes substantially conforms to a vehicle panel. A plurality of printed LEDs suspended in a semiconductor ink are printed between the electrodes and configured to emit a disinfecting emission. An outer layer of the surface covering is disposed proximate one of the electrodes. The outer layer is operable to transmit at least a portion of the disinfecting emission therethrough.

An illuminated vehicle accessory system that is disposed within an automobile and is operable to provide decorative lighting effects. The illuminated vehicle accessory system includes a controller having a CPU and a user interface operable to control a plurality of lighted accessories. The lighted accessories include a floor mat, trunk mat and mud flaps. The lighted accessories include a body having a perimeter edge operable to mateable engage with an area of a vehicle in which the lighted accessories will be mounted. The lighted accessories include a light channel integrally formed therein wherein the light channel is proximate the perimeter edge of the body. A logo pad is further included having a logo and light ring wherein the logo pad is mounted to the body of the lighted accessories. The controller further includes a transceiver configured to facilitate control of the illuminated vehicle accessory system by an external device.

An illuminated vehicle accessory system that is disposed within an automobile and is operable to provide decorative lighting effects. The illuminated vehicle accessory system includes a controller having a CPU and a user interface operable to control a plurality of lighted accessories. The lighted accessories include a floor mat, trunk mat and mud flaps. The lighted accessories include a body having a perimeter edge operable to mateable engage with an area of a vehicle in which the lighted accessories will be mounted. The lighted accessories include a light channel integrally formed therein wherein the light channel is proximate the perimeter edge of the body. A logo pad is further included having a logo and light ring wherein the logo pad is mounted to the body of the lighted accessories. The controller further includes a transceiver configured to facilitate control of the illuminated vehicle accessory system by an external device.

A storage bin for a motor vehicle includes a storage bin storage compartment and a storage bin lid hingedly connected to the storage compartment. The lid includes a light source disposed to illuminate an interior of the storage compartment. A transmitter and a receiver are provided for providing an electrical current to the hinged storage bin light source. The transmitter is a first coil disposed in a first portion of a pivoting hinge assembly of the storage bin and the receiver is a second coil disposed in a second portion of the pivoting hinge assembly, the second coil electrically communicating with the light source. In use, a current is supplied to the light source when the transmitter and receiver are disposed adjacent to one another by pivoting the storage bin lid to an open configuration.

A storage bin for a motor vehicle includes a storage bin storage compartment and a storage bin lid hingedly connected to the storage compartment. The lid includes a light source disposed to illuminate an interior of the storage compartment. A transmitter and a receiver are provided for providing an electrical current to the hinged storage bin light source. The transmitter is a first coil disposed in a first portion of a pivoting hinge assembly of the storage bin and the receiver is a second coil disposed in a second portion of the pivoting hinge assembly, the second coil electrically communicating with the light source. In use, a current is supplied to the light source when the transmitter and receiver are disposed adjacent to one another by pivoting the storage bin lid to an open configuration.

A vanity mirror assembly for a vehicle visor includes a housing having a support structure and a channel on a top side, a mirror connected to the support structure, and a light source disposed proximate the channel and operative to illuminate visible light. The vanity mirror assembly also includes at least one lens provided on the housing on at least one side of the mirror and operatively coupled to the light source, the at least one lens comprising a transparent optical element configured to refract the visible light from a front face of the at least one lens.

A vanity mirror assembly for a vehicle visor includes a housing having a support structure and a channel on a top side, a mirror connected to the support structure, and a light source disposed proximate the channel and operative to illuminate visible light. The vanity mirror assembly also includes at least one lens provided on the housing on at least one side of the mirror and operatively coupled to the light source, the at least one lens comprising a transparent optical element configured to refract the visible light from a front face of the at least one lens.

One or more environmental control systems of a vehicle are automatically operated. A position of an occupant of the vehicle in their circadian cycle is determined. The operation of one or more of the environmental control systems is controlled to compensate for or adjust the position of the occupant in their circadian cycle.

One or more environmental control systems of a vehicle are automatically operated. A position of an occupant of the vehicle in their circadian cycle is determined. The operation of one or more of the environmental control systems is controlled to compensate for or adjust the position of the occupant in their circadian cycle.