Head worn display integrity monitor system and methods
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G09G-005/377
G02B-027/01
G06F-003/01
G02B-027/00
G06F-003/0346
G06F-011/16
출원번호
US-0038597
(2013-09-26)
등록번호
US-9785231
(2017-10-10)
발명자
/ 주소
Zimmerman, Kenneth A.
Tiana, Carlo L.
Barber, Sarah
출원인 / 주소
Rockwell Collins, Inc.
대리인 / 주소
Suchy, Donna P.
인용정보
피인용 횟수 :
2인용 특허 :
27
초록▼
A head worn display system (e.g., helmet mounted (HMD) display system, and an eye wear mounted display system,) can include a combiner, a head position sensor and a computer. The computer provides symbology in response to first sensor input values associated with the head position. The symbology can
A head worn display system (e.g., helmet mounted (HMD) display system, and an eye wear mounted display system,) can include a combiner, a head position sensor and a computer. The computer provides symbology in response to first sensor input values associated with the head position. The symbology can be conformal with a real world scene. A monitoring system includes a redundant head position sensor for providing second sensor input values associated with head position. The computer monitors for positional accuracy of the symbology by comparing symbology calculated using the first and second input sensor values or by using an inverse function to compare sensor values.
대표청구항▼
1. In a head worn display system comprising a display, a first head position sensor for providing a plurality of first sensor input values and a computer, the display comprising a combiner, the computer comprising a display generation processor and a display monitor processor, the display generation
1. In a head worn display system comprising a display, a first head position sensor for providing a plurality of first sensor input values and a computer, the display comprising a combiner, the computer comprising a display generation processor and a display monitor processor, the display generation processor causes a plurality of display symbology to be displayed on the combiner in response to the first sensor input values associated with head position, the display symbology being conformal with a real world scene and being located at a plurality of first symbology positions on the combiner, a monitoring system comprising: the display monitor processor, wherein the display monitor processor is independent of the display generation processor, the display monitor processor calculating a plurality of second symbology positions associated with locations on the combiner calculated in response to a plurality of second sensor input values; anda redundant head position sensor for providing the second sensor input values associated with the head position, the redundant head position sensor being a separate device from the first head position sensor, wherein a comparator of the computer compares the first symbology positions of the display symbology calculated using first independent hardware components of the display generation processor responding to the first sensor input values with the second symbology positions associated with the locations on the combiner calculated using second independent hardware components of the display monitor processor responding to the second sensor input values to determine if the first symbology positions and the second symbology positions are within a tolerance, and the comparator disabling the display of the display if the first symbology positions and the second symbology positions are not within the tolerance. 2. The monitoring system of claim 1 wherein the redundant head position sensor uses different head tracking technology than the first head position sensor. 3. The monitoring system of claim 1 wherein the computer uses an inverse algorithm and compares a plurality of third sensor input values with the first sensor input values, the third sensor input values being calculated from data associated with the display symbology using the inverse algorithm. 4. The monitoring system of claim 1 wherein the computer uses an inverse algorithm and compares a plurality of third sensor input values with the second sensor input values, the third sensor input values being calculated from data associated with the display symbology using the inverse algorithm. 5. The monitoring system of claim 1 wherein the computer uses an inverse algorithm and compares a plurality of third sensor input values with the first sensor input values and the second input sensor values to determine whether the third sensor input values are within a tolerance of the second sensor input values and the first sensor input values, the third sensor input values being calculated from data associated with the symbology using the inverse algorithm. 6. The monitoring system of claim 1 wherein an inverse algorithm is performed on a plurality of third independent hardware components. 7. The monitoring system of claim 1 wherein the first sensor input values comprise head yaw, pitch, and roll values. 8. The monitoring system of claim 7 wherein the head yaw, pitch, and roll values are combined with aircraft yaw, pitch, and roll values provided by an INS or AHRS to cause the combiner to provide the display symbology conformal with the real world scene. 9. The monitoring system of claim 8 wherein the head yaw, pitch, and roll values and aircraft yaw, pitch, and roll values are combined using an Euler transformation matrix and referenced to a ground frame. 10. A method of monitoring a plurality of symbology provided on a combiner of a display, the symbology being conformal with a scene viewable through the combiner and being provided in response to a plurality of first sensor input values using a display generation processor, the first sensor input values being associated with head position and being provided from a first head tracker sensor, the method comprising: calculating using a display monitor processor a plurality of second sensor input values associated with the head position from a plurality of first symbol position data associated with the symbology using an inverse algorithm, the display monitor processor being independent from the display generation processor;calculating using the display monitor processor a plurality of second symbol position data using a plurality of third sensor input values associated with the head position from a second head tracker sensor;comparing the first sensor input values with the second sensor input values and the second symbol position data and the first symbol position data to determine if an error exists; anddisabling the display in response to the error. 11. The method of claim 10 wherein the display is disabled by a comparator. 12. The method of claim 10 wherein the display monitor processor uses a different software routine than the display generation processor to calculate the second symbol position data using a plurality of second independent hardware components separate from a plurality of first independent hardware components associated with the display generation processor. 13. The method of claim 12 wherein the first sensor input values and the second sensor input values comprise a head yaw, pitch, and roll values. 14. The method of claim 13 wherein the second sensor input values are provided using the second head tracker sensor operating according to a different technology than the first head tracker sensor providing the first sensor input values. 15. The method of claim 14 wherein the head yaw, pitch, and roll values and aircraft yaw, pitch, and roll values are combined using an Euler transformation matrix and referenced to a ground frame to determine the symbology. 16. In a head worn display system for providing a plurality of symbology on a combiner of a display in response to a plurality of first sensor input values according to a first processing operation, the first sensor input values associated with head position, the symbology being conformal with a scene viewable through the combiner, an error detection method comprising: receiving a plurality of second sensor input values associated with the head position, the second sensor input values being from a source different than the first sensor input values;receiving a plurality of first symbol positions associated with the symbology provided on the combiner;processing the first symbol positions in accordance with a second processing operation representing an inverse function of the first processing operation to provide calculated sensor values;processing using the second sensor input values to determine a plurality of second symbol positions;comparing the calculated sensor values to the first sensor input values or to the second sensor input values and comparing the first symbol positions and the second symbol positions to determine an error; anddisabling the display in response to the error. 17. The method of claim 16 wherein the first and second sensor input values comprise a head yaw, pitch, and roll values and wherein the calculated sensor values are compared to the first sensor input values and the second sensor input values. 18. The method of claim 16 wherein the source for the first sensor input values uses a different sensing technology than the source for the second sensor input values. 19. The method of claim 16 wherein the second symbol positions are calculated from the second sensor input values using a third processing operation on hardware independent from hardware used for the first processing operation. 20. The method of claim 19 wherein the first and second sensor input values are used in the first and third processing operations, respectively.
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이 특허에 인용된 특허 (27)
Lovering Peter (Dayton OH), Aircraft landing display system.
Blanchard Clark E. (1396 Mapleview SE. Kentwood MI 49508), Automatic closed loop scaling and drift correcting system and method particularly for aircraft head up displays.
Spero Robert E. (201B South Trail Stratford CT 06497) Hamilton Bruce E. (28088 Wildwind Rd. Canyon Country CA 91531) Harper Howard P. (325 Navajo Loop Huntington CT 06484) Wright Thomas E. (36 Puttin, Contact-analog headup display method and apparatus.
Mallinson Richard B. (Binghamton NY) Mecklenborg Richard A. (Binghamton NY) Peters David L. (Whitney Point NY) Lakshminarayanasetty Kadam S. (Binghamton NY), Eye line-of-sight responsive wide angle visual system.
Rallison Richard Dennis ; Amadon C. Gregory ; Mack ; Jr. Wolfgang Adam ; Nikora Leo ; Tseo Eric ; Donaldson Douglas ; Etter Robert T., Head-mounted personal visual display apparatus with image generator and holder.
Foxlin Eric M. (Cambridge MA), Inertial orientation tracker apparatus having automatic drift compensation for tracking human head and other similarly s.
Desmond John P. (1954 SE. Quail Cir. Hillsboro OR 97124) Ford Douglas W. (283 NE. 34th Pl. Hillsboro OR 97124) Fossey Michael E. (2320 22nd Ave. Forest Grove OR 97116) Stanbro Michael (7850 SW. Hemlo, Method and apparatus for detecting control system data processing errors.
Harvey James F. (Maitland FL) Chambers Walter S. (Orlando FL) Kulik John J. (Longwood FL), Pilot helmet mounted CIG display with eye coupled area of interest.
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