Attachable device with flexible electronic display orientation detection
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G09G-005/37
G06F-003/046
G09G-005/00
G09G-005/38
G06F-001/16
G06F-003/041
출원번호
US-0233932
(2016-08-10)
등록번호
US-10121455
(2018-11-06)
발명자
/ 주소
Inagaki, Philippe
Huitema, Hjalmar Edzer Ayco
출원인 / 주소
FLEXTERRA, INC.
대리인 / 주소
Marshall, Gerstein & Borun LLP
인용정보
피인용 횟수 :
0인용 특허 :
98
초록▼
An attachable article includes a flexible electronic display disposed thereon in a manner so that the display is bendable or conformable to a user's wrist or other curved surface thus enabling various images to be displayed on the electronic display in a manner that makes these images easily viewabl
An attachable article includes a flexible electronic display disposed thereon in a manner so that the display is bendable or conformable to a user's wrist or other curved surface thus enabling various images to be displayed on the electronic display in a manner that makes these images easily viewable to the user. The attachable article includes an adjustable band that can be fit to different sized wrists, for example, and includes a band orientation detection and calibration routine that enables messages or display screens to be placed at particular locations on the band with respect to a user's wrist. For example, the routine may be used to determine the portions or positions of the display that are at the top of the user's wrist and at the bottom of the user's wrist, and may thereafter calibrate the display to center display screens on the display at these particular locations.
대표청구항▼
1. A system, comprising: a flexible band having a flexible substrate and a flexible electronic display, the flexible substrate having first and second ends, and the flexible display disposed over a portion of the flexible substrate between the first and second ends;a display driver electronically co
1. A system, comprising: a flexible band having a flexible substrate and a flexible electronic display, the flexible substrate having first and second ends, and the flexible display disposed over a portion of the flexible substrate between the first and second ends;a display driver electronically connected to the flexible electronic display for providing public and private image content to the flexible electronic display;a position detection element disposed on or near the flexible band;one or more processors coupled to the display driver; anda memory that stores an orientation detection routine that, when executed by the one or more processors, operates to:instruct a user to take one or more detection initiation actions to activate the position detection element to determine a point on the flexible band using a signal from the position detection element, wherein the determined point on the flexible band is disposed adjacent to a particular point on an exterior object when the flexible band is disposed around the exterior object, andcalibrate the flexible electronic display so that the display driver displays the public image content via the flexible electronic display at one or more positions and displays the private image content via the flexible electronic display at one or more other positions based on the location of the determined point on the band,wherein the orientation detection routine operates to calibrate the flexible electronic display based on an amount of overlap of the first and second ends of the flexible substrate. 2. The system of claim 1, wherein the position detection element comprises one or more pressure sensors, one or more magnetic sensors, a touchscreen disposed on or near the flexible electronic display, and/or a gyroscopic element. 3. The system of claim 1, wherein the orientation detection routine, when executed by the one or more processors, operates to determine the point on the flexible band by: using the signal from the position detection element by determining the amount of overlap of the first and second ends of the flexible ban; orusing the signal from the position detection element indicative of a touch event applied to the flexible band; orpresenting a message to a user via the flexible electronic display to touch the flexible band at a position adjacent the particular point on the exterior object; orpresenting a message to a user via the flexible electronic display to touch the flexible band at a position adjacent the bottom of the user's wrist. 4. The system of claim 1, wherein the orientation detection routine, when executed by the one or more processors, either: operates to calibrate the flexible electronic display so that the display driver displays the public image content and the private image content on the flexible electronic display using a display screen having a fixed reference point determined based on the determined point on the flexible band; oroperates to calibrate the flexible electronic display so that the display driver displays the public image content and the private image content on the flexible electronic display using a display screen centered on the determined point on the flexible band; oroperates to calibrate the flexible electronic display so that the display driver sizes a display screen based on the distance from the determined point to a fixed position on the flexible band. 5. The system of claim 1, wherein the flexible band and the position detection element are included in an attachable article. 6. The system of claim 5, wherein the memory that stores the orientation detection routine is included in one or more other devices in communicative connection with the attachable article. 7. A method of calibrating a flexible electronic display disposed on a flexible substrate, the flexible substrate having first and second ends, that is adjustably attachable around an exterior object, comprising: detecting, using one or more processors, a point on the flexible substrate that is disposed adjacent to a particular point on an exterior object when the flexible substrate is disposed at least partially around the exterior object;calibrating, using the one or more processors, the flexible electronic display based on the detected point and on an amount of overlap of the first and second ends of the flexible substrate;displaying public image content on the flexible electronic display at one or more positions on the flexible electronic display using the flexible electronic display calibrated based on the detected point on the flexible substrate, anddisplaying private image content on the flexible electronic display at one or more other positions on the flexible electronic display using the flexible electronic display calibrated based on the detected point on the flexible substrate. 8. The method of claim 7, wherein detecting, using the one or more processors, the point on the flexible substrate that is disposed adjacent to the particular point on the exterior object includes: detecting the point on the flexible substrate when the first and second ends of the flexible substrate are disposed in an overlapping manner around the exterior object; and/orusing one or more pressure sensors to detect the point on the flexible substrate;and/or using one or more magnetic sensors to detect the point on the flexible substrate;and/or using a touchscreen input device to detect the point on the flexible substrate; and/ordetermining the amount of overlap of first and second ends of the flexible substrate; and/ordetermining the point based on a location of a touch event applied to the flexible electronic display; and/orpresenting a message to a user via the flexible electronic display to touch the flexible substrate at a position adjacent the particular point on the exterior object. 9. The method of claim 7, wherein calibrating, using the one or more processors, the flexible electronic display based on the detected point includes configuring the flexible electronic display to display the public image content and the private image content via a display screen having a fixed reference point determined based on the detected point on the flexible substrate. 10. The method of claim 7, wherein calibrating, using of the one or more processors, the flexible electronic display includes centering the public image content and/or the private image content, via an electronics module, on the flexible electronic display based on the detected point on the flexible substrate. 11. A system, comprising: a flexible band having a flexible substrate and a flexible electronic display disposed over a portion of the flexible substrate, the flexible band having first and second ends;a clasping mechanism coupled to the flexible band that is adjustable so as to enable overlap of the first and second ends of the flexible band by differing amounts;an electronics module electronically connected to the flexible electronic display and attached onto the flexible band at one or more fixed locations for providing public and private image content to the flexible electronic display, the electronics module including a processor, a display driver and a memory;one or more sensors disposed within the flexible band, the clasping mechanism or the electronics module; andan orientation detection and calibration routine stored in one or more memories that, when executed by one or more processors, operates to:instruct a user to take one or more detection initiation actions with respect to the flexible band;determine a point on the flexible band using a signal from the one or more sensors in response to the one or more detection initiation actions; andcalibrate the flexible electronic display so that the display driver displays public image content via the flexible electronic display at one or more positions on the flexible electronic display and displays private image content via the flexible electronic display at one or more other positions based on the determined point on the flexible band, wherein the orientation detection routine operates to calibrate the flexible electronic display based on an amount of overlap of the first and second ends of the flexible band. 12. The system of claim 11, wherein the flexible band, the flexible electronic display, the clasping mechanism, the electronics module, and the one or more sensors are included in an adjustable flexible electronic display device. 13. The system of claim 12, wherein at least one of the one or more processors is included in one or more other devices in communicative connection with the adjustable flexible electronic display device, and wherein the at least one of the one or more processors of the one or more other devices executes at least a respective portion of the orientation detection and calibration routine. 14. The system of claim 11, wherein the processor of the electronics module attached onto the flexible band executes at least a respective portion of the orientation detection and calibration routine. 15. The system of claim 11, wherein the one or more sensors includes one or more pressure sensors, one or more magnetic sensors, a touchscreen interface disposed on or near the flexible electronic display, and/or a gyroscopic sensor. 16. The system of claim 11, wherein the orientation detection and calibration routine, when executed by the one or more processors, operates to determine the point on the flexible band by: using the signal from the one or more sensors by determining the amount of overlap of the first and second ends of the flexible band; orusing the signal from the one or more sensors by determining a location of a touch event applied to the flexible electronic display. 17. The system of claim 11, wherein the orientation detection and calibration routine, when executed by the one or more processors, instructs the user to take the one or more detection initiation actions with respect to the flexible band by instructing the user to: touch the flexible band either at a position adjacent to a particular point on an exterior object or at a position adjacent the bottom of the user's wrist; ormove the flexible band in a particular manner; ororient the flexible band in a particular manner. 18. The system of claim 11, wherein the orientation detection and calibration routine, when executed by the one or more processors, calibrates the flexible electronic display so that the display driver displays the public image content and the private image content via a display screen on the flexible electronic display having a fixed reference point determined based on the location of the determined point on the flexible band. 19. The system of claim 11, wherein the orientation detection and calibration routine, when executed by the one or more processors, calibrates the flexible electronic display so that: the display driver displays the public image content and/or the private image content via a display screen centered at the determined point on the flexible band; orthe display driver sizes a display screen based on the distance from the determined point to a fixed position on the flexible band. 20. The system of claim 1, wherein the orientation detection routine determines the one or more positions at which the public image content is displayed and determines the one or more positions at which the private image content is displayed. 21. The system of claim 11, wherein the one or more sensors is disposed in the clasping mechanism.
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