초록 ▼

A remote control is described that with at least two faces that have at least one touch-based input. The remote control also includes an orientation sensor that determines the orientation of the remote control. A processor on the remote ignores signals from inputs on certain faces of the remote base

A remote control is described that with at least two faces that have at least one touch-based input. The remote control also includes an orientation sensor that determines the orientation of the remote control. A processor on the remote ignores signals from inputs on certain faces of the remote based upon the orientation of the remote control.

대표청구항 ▼

1. A remote control for controlling a display device comprising: a) a plurality of input components that receive user input;b) a transmitter for transmitting signals to a remote display device; andc) a processor that: i) receives the user input from the plurality of input components,ii) determines t

1. A remote control for controlling a display device comprising: a) a plurality of input components that receive user input;b) a transmitter for transmitting signals to a remote display device; andc) a processor that: i) receives the user input from the plurality of input components,ii) determines the signals based on the user input,iii) instructs the transmitter to transmit the signals,iv) determines whether particular input received from a particular input component is a repeating input by comparing the particular input against previously received inputs, andv) prevents the repeating input from being transmitted to the remote display device. 2. The remote control of claim 1, further comprising: d) a sensor sensitive to movement;and wherein the processor further determines whether the particular input received from the particular input component is repeating input by determining a lack of movement of the remote control by analyzing the sensor. 3. The remote control of claim 2, wherein after repeating inputs are received for a time period after a last movement of the remote control that exceeds a preset limit, the processor powers down the remote control. 4. The remote control of claim 3, wherein the remote control provides a warning to a user that the remote control will soon power down before the processor powers down the remote control. 5. The remote control of claim 1, further comprising: d) a clock,wherein the processor determines whether the particular input received is repeating by waiting for the particular input to repeat for a predetermined time as determined by the clock. 6. The remote control of claim 5, wherein the processor determines whether the particular input received is repeating by determining that repeating inputs from at least two input components are alternating. 7. The remote control of claim 1, wherein the input components are physical push buttons that move physically with respect to other components of the remote control. 8. The remote control of claim 1, wherein the input components are locations on a touch screen. 9. A method for operating a remote control comprising: a) receiving commands from a plurality of input components on the remote control;b) determining whether each command is an accidental command by i) determining whether the command is a repeating command, andii) determining whether the repeating command has been repeating for longer than a predetermined time period, andc) transmitting signals from the remote control in response to commands that are not accidental commands; andd) blocking the transmission of signals from the remote control in response to accidental commands. 10. The method of claim 9, wherein commands are repeating commands when a single command is repeatedly received from one input component. 11. The method of claim 9, further comprising: e) powering down the remote control when accidental commands are received. 12. The method of claim 9, wherein the determining whether each command is an accidental command further comprises determining that the remote control has not undergone significant movement during the predetermined time period by analyzing a motion sensitive sensor on the remote control. 13. A remote control for controlling a display device comprising: a) a first face being generally upwardly facing when the remote control is in a first position, the first face comprising: i) a generally planar surface, andii) a plurality of physical push buttons that receive input by moving physically with respect to the planar surface of the first face;b) a second face located on the remote control opposite the first face, the second face being generally upwardly facing when the remote control is in a second position, the second face comprising: i) a display screen, andii) no physical push buttons that receive input by moving physically;c) an orientation sensor able to distinguish when the remote control is held in the first and second positions;d) a transmitter for transmitting signals; ande) a processor that: i) examines the orientation sensor to determine whether the remote control is in the first position or the second position,ii) when the remote control is in the first position: (1) transmits signals through the transmitter based on inputs received from the plurality of physical push buttons, and(2) powers down the display screen, andiii) when the remote control is in the second position: (1) ignores inputs received from the plurality of physical push buttons, and(2) powers the display screen to present information to a user. 14. The remote control of claim 13, wherein the generally planar surface of the first face is rectangular, wherein the plurality of physical push buttons extend by no more than a first distance above the generally planar surface of the first face, wherein the first face further comprises: iii) four separate corner stand elements, each located proximal to a corner of the rectangular planar surface, the corner stand elements extending above the planar surface at a second distance greater than the first distance, such that, when the first face is laid down on a flat surface only the corner stand elements contact the flat surface and the plurality of physical push buttons does not contact the flat surface. 15. The remote control of claim 13, wherein the display screen is a touchscreen that receives a touchscreen input, wherein the processor ignores touchscreen inputs when the remote control is held in the first position and transmits signals through the transmitter based on the touchscreen inputs when the remote control is in the second position. 16. The remote control of claim 15, wherein the display screen shows an electronic program guide when the remote control is in the second position. 17. The remote control of claim 16, further comprising: f) a Wi-Fi interface for communicating with a data network;wherein the remote control receives electronic program guide information over the data network, further wherein touchscreen inputs relating to electronic program guide commands are transmitted by the transmitter to a video device. 18. The remote control of claim 13, further comprising a receiver for receiving a live video signal from a video device that receives signals from the transmitter, wherein the live video signal is programming available on the video device that is not currently displayed on the video device. 19. The remote control of claim 15, wherein the display screen shows a keyboard comprising twenty-six letters of the English Latin alphabet. 20. The remote control of claim 15, wherein the plurality of physical push buttons comprise a simplified interface without any advanced buttons selected from an advanced button set comprising picture-in-picture buttons, color modification buttons, and audio modification buttons; and wherein the touchscreen displays advanced buttons selected from the advanced button set.