Steering wheel light bar

What is claimed is: 1. A light bar system for a steering wheel of a vehicle, the display system comprising: a light guide having an outer surface and an inner surface that extend between a first end and a second end of the light guide, the outer and inner surfaces of the light guide being arcuate-shaped between the ends of the light guide and spaced apart and opposite each other relative to a plane that extends through the first and second ends of the light guide and is parallel to the outer and inner surfaces of the light guide; at least one light source disposed adjacent the first end of the light guide, the light source configured for emitting light into the first end of the light guide, wherein the light guide is configured for transmitting light from the light source through at least a portion of the outer surface of the light guide an outer lens having an outer surface and an inner surface that extend between a first end and a second end of the outer lens, the outer and inner surfaces of the outer lens being arcuate-shaped between the ends of the outer lens and spaced apart and opposite each other relative to a plane that extends through the first and second ends of the outer lens and is parallel to the outer and inner surfaces of the outer lens, wherein the inner surface of the outer lens is disposed adjacent the outer surface of the light guide; and a liquid crystal display (LCD) having an outer surface and an inner surface that extend between a first end and a second end of the LCD, the outer and inner surfaces of the LCD being arcuate-shaped between the ends of the LCD and spaced apart and opposite each other relative to a plane that extends through the first and second ends of the LCD and is parallel to the outer and inner surfaces of the LCD, wherein the LCD is disposed between the outer surface of the light guide and the inner surface of the outer lens. 2. The light bar system of claim 1 , wherein the LCD is an improved black nematic (IBN) display. 3. The light bar system of claim 1 , wherein the light source is a light emitting diode (LED). 4. The light bar system of claim 3 , wherein the LED is a top-firing LED. 5. The light bar system of claim 4 , further comprising a printed circuit board (PCB), the PCB having a surface on which the LED is disposed, and the surface being arranged at an angle of about 90° to the outer and inner surfaces of the light guide. 6. The light bar system of claim 5 , further comprising a computer processor configured for electrically communicating with a driver of the LCD, the computer processor being disposed on a rotatable portion of the steering wheel. 7. The light bar system of claim 6 , wherein the computer processor is disposed adjacent the LCD. 8. The light bar system of claim 5 , wherein the PCB is directly coupled to a frame of the steering wheel. 9. The light bar system of claim 5 , further comprising a frame coupling member, the frame coupling member being directly coupled to the PCB and the frame, wherein at least a portion of the heat generated by the PCB is transferred through the frame coupling member to the frame. 10. The light bar system of claim 1 , further comprising a computer processor configured for electrically communicating with a driver of the LCD, the computer processor being disposed on a rotatable portion of the steering wheel. 11. The light bar system of claim 10 , wherein the computer processor is disposed adjacent the LCD. 12. The light bar system of claim 1 , wherein the light source is a first light source, and further comprising a second light source disposed adjacent the second end of the light guide, the second light source configured for emitting light into the second end of the light guide. 13. The light bar system of claim 1 , further comprising a tray disposed adjacent the inner surface of the light guide, the tray comprising a reflective surface that is configured for reflecting light into the light guide. 14. The light bar system of claim 13 , wherein the tray comprises an arcuate-shaped floor and two side surfaces that extend orthogonally away from the floor of the tray, the floor of the tray being disposed adjacent the inner surface of the light guide. 15. The light bar system of claim 14 , wherein the LCD is disposed between the two side surfaces of the tray. 16. The light bar system of claim 1 , wherein the outer surface of the light guide comprises a plurality of micro-lenses configured for guiding light exiting the outer surface of the light guide to exit at an angle of about 90° from the outer surface. 17. The light bar system of claim 1 , wherein the outer lens. 18. The light bar system of claim 1 , wherein: the inner and outer surfaces of the LCD and light guide have a radius of curvature that corresponds to a radius of curvature of an arcuate shaped portion of a frame of the steering wheel, and the LCD and light guide are configured for being coupled to the arcuate shaped portion of the frame such that the inner and outer surfaces of the LCD and light guide follow the arcuate-shaped portion of the frame. 19. The light bar system of claim 18 , wherein the LCD and light guide are disposed within an arcuate shaped tray, and the arcuate shaped tray is coupled to the arcuate shaped portion of the frame. 20. The light bar system of claim 19 , further comprising a frame coupling member, wherein the tray is coupled directly to the frame coupling member, and the frame coupling member is coupled directly to the arcuate shaped portion of the frame. 21. A light bar system for a steering wheel of a vehicle, the display system comprising: a light guide having an outer surface and an inner surface that extend between a first end and a second end of the light guide, the outer and inner surfaces of the light guide being arcuate-shaped between the ends and spaced apart and opposite each other relative to a plane that extends through the first and second ends of the light guide and is parallel to the outer and inner surfaces of the light guide; at least one light source disposed adjacent the first end of the light guide, the light source configured for emitting light into the first end of the light guide, wherein the light guide is configured for transmitting light from the light source through at least a portion of the outer surface of the light guide; an outer lens having an outer surface and an inner surface that extend between a first end and a second end of the outer lens, the outer and inner surfaces of the outer lens being arcuate-shaped between the ends of the outer lens and spaced apart and opposite each other relative to a plane that extends through the first and second ends of the outer lens and is parallel to the outer and inner surfaces of the outer lens, wherein the inner surface of the outer lens is disposed adjacent the outer surface of the light guide; and an outer cap having an outer surface and an inner surface that extend between a first end and a second end of the outer cap, the outer and inner surfaces of the outer cap being arcuate-shaped between the ends of the outer cap and spaced apart and opposite each other, wherein the inner surface of the outer cap is disposed adjacent the outer surface of the light guide, and wherein the outer cap defines an arcuate shaped opening, and the outer lens is coupled to the outer cap adjacent the opening. 22. The light bar system of claim 21 , further comprising one or more light directing films disposed between the outer surface of the light guide