최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0624356 (2007-01-18) |
등록번호 | US-7474963 (2009-01-06) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 118 인용 특허 : 543 |
A navigational mirror system for a vehicle includes an interior rearview mirror having a reflective element. A display, optionally a video display, is disposed to the rear of the reflective element and emits light when actuated that passes through the reflective element to be visible to a driver of
A navigational mirror system for a vehicle includes an interior rearview mirror having a reflective element. A display, optionally a video display, is disposed to the rear of the reflective element and emits light when actuated that passes through the reflective element to be visible to a driver of the vehicle viewing a front portion of the reflective mirror element. A user input comprising a destination address is provided from a driver of the vehicle when the vehicle is at an initial geographic location. The display displays driving instructions that provide instructions to the destination address. The driving instructions are viewable by a person viewing the front portion of the reflective element. A particular instruction of the driving instructions is preferably displayed when it is appropriate to display the particular instruction to the driver of the vehicle.
The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. A navigational mirror system for a vehicle, said navigational mirror system comprising: an interior electrochromic rearview mirror assembly mountable at an interior portion of a vehicl
The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. A navigational mirror system for a vehicle, said navigational mirror system comprising: an interior electrochromic rearview mirror assembly mountable at an interior portion of a vehicle, said interior rearview mirror assembly comprising a reflective element, said reflective element having a front portion that faces generally toward a driver of the vehicle when said interior rearview mirror assembly is mounted in the vehicle, and having a rear portion that is generally opposite said front portion; said reflective element comprising a transflective mirror reflector, said reflective element being at least about 15 percent transmitting to visible light incident at said rear portion of said reflective element, and at least about 60 percent reflective to visible light incident at said front portion of said reflective element; a video display disposed to the rear of said rear portion of said reflective element, said video display emitting light when actuated that passes through said reflective element to be visible to a driver of the vehicle viewing said front portion of said reflective element; a user input from a driver of the vehicle when the vehicle is at an initial geographic location, said user input comprising a destination address; said video display displaying driving instructions, said driving instructions providing instructions to said destination address, said driving instructions being viewable by a person viewing said front portion of said reflective element; wherein a particular instruction of said driving instructions is displayed when it is appropriate to display the particular instruction to the driver of the vehicle by actuating said video display disposed behind said reflective element and wherein actuation of said video display ceases once the driver successfully completes the particular instruction displayed; wherein said video display is back lit by at least one of (i) a cold cathode vacuum fluorescent light source and (ii) at least one light emitting diode; and wherein said video display is operable to exhibit a display intensity as viewed by the driver of at least about 200 candelas per square meter when said interior electrochromic rearview mirror assembly is mounted, operated and viewed in the vehicle. 2. The navigational mirror system of claim 1 further comprising a vehicle-based control and a wireless communication between the vehicle and a remote location, said wireless communication being operable to download data useful to said driving instructions from a remote service provider to said vehicle-based control, and wherein said particular instruction is displayed in response to a global positioning system determining that an actual geographic position of the vehicle is at or close to the geographic location associated with the particular instruction, and wherein said particular instruction is not displayed before a global positioning system determines that the actual geographic position of the vehicle is at or close to the geographic location associated with said particular instruction, and wherein said particular instruction is not displayed after a global positioning system determines that the actual geographic position of the vehicle is no longer at or close to the geographic location associated with the particular instruction. 3. The navigational mirror system of claim 1 further comprising at least one of (a) a vehicle-based control and a wireless communication between the vehicle and a remote location, (b) said user input comprising a vocal input from the driver of the vehicle, (c) wherein said driving instructions are further provided as an audible message, and (d) wherein said driving instructions comprise step-by-step driving instructions. 4. The navigational mirror system of claim 1, wherein said video display comprises at least one of (a) a back lit liquid crystal display, said back lit liquid crystal display being back lit by at least one white light emitting high-intensify power light emitting diode, and wherein said at least one white light emitting high-intensity power light emitting diode passes at least about 350 milliamps when operating at its operating voltage, (b) a back lit liquid crystal display and wherein said liquid crystal display is back lit by a plurality of white light emitting high-intensity power light emitting diodes, and wherein said plurality of white light emitting high-intensity power light emitting diodes comprises an array of at least two white light emitting high-intensity power light emitting diodes, and (c) an array of at least four white light emitting light emitting diodes. 5. The navigational mirror system of claim 1, wherein said video display is operable to exhibit a display intensity as viewed by the driver of at least about 400 candelas per square meter when said interior electrochromic rearview mirror assembly is mounted, operated and viewed in the vehicle, and wherein said video display comprises at least one of (i) a back lit liquid crystal display element, (ii) a back lit thin film transistor liquid crystal display element, (iii) a multi-pixel display element and (iv) a back lit liquid crystal display that is back lit by a plurality of white light emitting light emitting diodes. 6. The navigational mirror system of claim 1 further comprising a seat adjustment system, said seat adjustment system being operable to automatically adjust a seat of the vehicle in response to biometric data received via a data input, said biometric data pertaining to the occupant of the seat of the vehicle. 7. A navigational mirror system for a vehicle, said navigational mirror system comprising: an interior electrochromic rearview mirror assembly mountable at an interior portion of a vehicle, said interior rearview mirror assembly comprising a reflective element, said reflective element having a front portion that faces generally toward a driver of the vehicle when said interior rearview mirror assembly is mounted in the vehicle, and having a rear portion that is generally opposite said front portion; a display disposed to the rear of said rear portion of said reflective element, said display emitting light when actuated that passes through said reflective element to be visible to a driver of the vehicle viewing said front portion of said reflective element; a user input from a driver of the vehicle when the vehicle is at an initial geographic location, said user input comprising a destination address; said display displaying driving instructions, said driving instructions providing instructions to said destination address, said driving instructions being viewable by a person viewing said front portion of said reflective element; wherein a particular instruction of said driving instructions is displayed when it is appropriate to display the particular instruction to the driver of the vehicle by actuating said display disposed behind said reflective element and wherein actuation of said display ceases once the driver successfully completes the particular instruction displayed; wherein said particular instruction is displayed in response to a global positioning system determining that an actual geographic position of the vehicle is at or close to the geographic location associated with the particular instruction; and wherein said particular instruction is not displayed before said global positioning system determines that the actual geographic position of the vehicle is at or close to the geographic location associated with said particular instruction, and said particular instruction is not displayed after said global positioning system determines that the actual geographic position of the vehicle is no longer at or close to the geographic location associated with the particular instruction. 8. The navigational mirror system of claim 7, wherein said display comprises a video display and wherein said video display is operable to exhibit a display intensity as viewed by the driver of at least about 400 candelas per square meter when said interior electrochromic rearview mirror assembly is mounted, operated and viewed in the vehicle, and wherein said video display comprises at least one of (i) a back lit liquid crystal display element, (ii) a back lit thin film transistor liquid crystal display element, (iii) a multi-pixel display element and (iv) a back lit liquid crystal display that is back lit by a plurality of white light emitting light emitting diodes. 9. The navigational mirror system of claim 7, wherein said reflective element comprises a transflective mirror reflector, said reflective element being at least about 15 percent transmitting to visible light incident at said rear portion of said reflective element. 10. A navigational mirror system for a vehicle, said navigational mirror system comprising: an interior electrochromic rearview mirror assembly mountable at an interior portion of a vehicle, said interior rearview mirror assembly comprising a reflective element, said reflective element having a front portion that faces generally toward a driver of the vehicle when said interior rearview mirror assembly is mounted in the vehicle, and having a rear portion that is generally opposite said front portion; said reflective element comprising a transflective mirror reflector; a display disposed to the rear of said rear portion of said reflective element, said display emitting light when actuated that passes through said reflective element to be visible to a driver of the vehicle viewing said front portion of said reflective element; a user input from a driver of the vehicle when the vehicle is at an initial geographic location, said user input comprising a destination address; said display displaying driving instructions, said driving instructions providing instructions to said destination address, said driving instructions being viewable by a person viewing said front portion of said reflective element; and wherein a particular instruction of said driving instructions is displayed when it is appropriate to display the particular instruction to the driver of the vehicle by actuating said display disposed behind said reflective element and wherein actuation of said display ceases once the driver successfully completes the particular instruction displayed. 11. The navigational mirror system of claim 10, wherein said display comprises a video display and wherein said video display is operable to exhibit a display intensity as viewed by the driver of at least about 400 candelas per square meter when said interior electrochromic rearview mirror assembly is mounted, operated and viewed in the vehicle, and wherein said video display comprises at least one of (i) a back lit liquid crystal display element, (ii) a back lit thin film transistor liquid crystal display element, (iii) a multi-pixel display element and (iv) a back lit liquid crystal display that is back lit by a plurality of white light emitting light emitting diodes. 12. The navigational mirror system of claim 10, further comprising a vehicle-based control and a wireless communication between the vehicle and a remote location, said wireless communication being operable to download data useful to said driving instructions from a remote service provider to said vehicle-based control, and wherein said vehicle-based control is operable to tag or code each of said driving instructions with a respective geographic location and is operable to only provide a particular one of said driving instructions when the geographic location tagged or coded to the particular instruction at least generally corresponds to the then current actual geographic location of the vehicle, and wherein said particular instruction is displayed in response to a global positioning system determining that an actual geographic position of the vehicle is at or close to the geographic location associated with the particular instruction, and wherein said particular instruction is not displayed before said global positioning system determines that the actual geographic position of the vehicle is at or close to the geographic location associated with said particular instruction, and said particular instruction is not displayed after said global positioning system determines that the actual geographic position of the vehicle is no longer at or close to the geographic location associated with the particular instruction. 13. The navigational mirror system of claim 10, wherein said display comprises a video display and wherein said video display comprises at least one of (a) a back lit liquid crystal display, said back lit liquid crystal display being back lit by at least one white light emitting high-intensity power light emitting diode, and wherein said at least one white light emitting high-intensity power light emitting diode passes at least about 350 milliamps when operating at its operating voltage, (b) a back lit liquid crystal display and wherein said liquid crystal display is back lit by a plurality of white light emitting high-intensity power light emitting diodes, and wherein said plurality of white light emitting high-intensity power light emitting diodes comprises an array of at least two white light emitting high-intensity power light emitting diodes, and (c) an array of at least four white light emitting light emitting diodes. 14. The navigational mirror system of claim 10, wherein said display is operable to exhibit a display intensity as viewed by the driver of at least about 400 candelas per square meter when said interior electrochromic rearview mirror assembly is mounted, operated and viewed in the vehicle, and wherein said display comprises at least one of (i) a back lit liquid crystal display element, (ii) a back lit thin film transistor liquid crystal display element, (iii) a multi-pixel display element and (iv) a back lit liquid crystal display that is back lit by a plurality of white light emitting light emitting diodes. 15. The navigational mirror system of claim 10 further comprising a seat adjustment system, said seat adjustment system being operable to automatically adjust a seat of the vehicle in response to biometric data received via a data input, said biometric data pertaining to the occupant of the seat of the vehicle. 16. The navigational mirror system of claim 15, wherein said data input comprises at least one of (i) a memory device, (ii) a remote source, (iii) an input device, (iv) a communication link, and (v) a portable device. 17. A navigational mirror system for a vehicle, said navigational mirror system comprising: an interior electrochromic rearview mirror assembly mountable at an interior portion of a vehicle, said interior rearview mirror assembly comprising a reflective element, said reflective element having a front portion that faces generally toward a driver of the vehicle when said interior rearview mirror assembly is mounted in the vehicle, and having a rear portion that is generally opposite said front portion; a video display disposed to the rear of said rear portion of said reflective element, said video display emitting light when actuated that passes through said reflective element to be visible to a driver of the vehicle viewing said front portion of said reflective element; a user input from a driver of the vehicle when the vehicle is at an initial geographic location, said user input comprising a destination address; said video display displaying driving instructions, said driving instructions providing instructions to said destination address, said driving instructions being viewable by a person viewing said front portion of said reflective element; and wherein said video display is operable to exhibit a display intensity as viewed by the driver of at least about 400 candelas per square meter when said interior electrochromic rearview minor assembly is mounted, operated and viewed in the vehicle, and wherein said video display comprises a liquid crystal display element back lit by a plurality of white light emitting light emitting diodes. 18. The navigational mirror system of claim 17, wherein a particular instruction of said driving instructions is displayed when it is appropriate to display a particular instruction to the driver of the vehicle by actuating said display disposed behind said reflective element and wherein actuation of said display ceases once the driver successfully completes the particular instruction displayed, and wherein said particular instruction is displayed in response to a global positioning system determining that an actual geographic position of the vehicle is at or close to the geographic location associated with the particular instruction, and wherein said particular instruction is not displayed before said global positioning system determines that the actual geographic position of the vehicle is at or close to the geographic location associated with said particular instruction, and said particular instruction is not displayed after said global positioning system determines that the actual geographic position of the vehicle is no longer at or close to the geographic location associated with the particular instruction. 19. The navigational mirror system of claim 18, wherein said reflective element comprises a transflective mirror reflector, said reflective element being at least about 15 percent transmitting to visible light incident at said rear portion of said reflective element. 20. A navigational mirror system for a vehicle, said navigational mirror system comprising: an interior electrochromic rearview mirror assembly mountable at an interior portion of a vehicle, said interior rearview mirror assembly comprising a reflective element, said reflective element having a front portion that faces generally toward a driver of the vehicle when said interior rearview mirror assembly is mounted in the vehicle, and having a rear portion that is generally opposite said front portion; a video display disposed to the rear of said rear portion of said reflective element, said video display emitting tight when actuated that passes through said reflective element to be visible to a driver of the vehicle viewing said front portion of said reflective element; a user input from a driver of the vehicle when the vehicle is at an initial geographic location, said user input comprising a destination address; said video display displaying driving instructions, said driving instructions providing instructions to said destination address, said driving instructions being viewable by a person viewing said front portion of said reflective element; wherein said video display is operable to exhibit a display intensity as viewed by the driver of at least about 400 candelas per square meter when said interior electrochromic rearview mirror assembly is mounted, operated and viewed in the vehicle, and wherein said video display comprises a liquid crystal display element back lit by a plurality of white light emitting light emitting diodes; and wherein said reflective element comprises a transflective mirror reflector, said reflective element being at least about 15 percent transmitting to visible light incident at said rear portion of said reflective element. 21. The navigational mirror system of claim 20, wherein said video display comprises a liquid crystal display element back lit by an array of at least four white light emitting light emitting diodes. 22. The navigational mirror system of claim 20, wherein said video display comprises a liquid crystal display element back lit by an array of at least four white light emitting high-intensity power light emitting diodes. 23. The navigational mirror system of claim 20, wherein said user input comprises at least one of (i) a vocal input from the driver of the vehicle and (ii) an actuation of a button by the driver of the vehicle. 24. The navigational mirror system of claim 20, wherein said user input comprises a push button that is part of said interior electrochromic rearview mirror assembly. 25. The navigational mirror system of claim 20, wherein said reflective element is at least about 60 percent reflective to visible light incident at said front portion of said reflective element.
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