System and method for providing an integrated user interface system at a seat
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64D-011/06
B64D-011/00
B60N-003/00
G06F-001/18
H04N-007/18
B60R-011/02
G06F-003/0484
G06F-003/0488
B60N-002/879
B60R-011/00
출원번호
US-0691531
(2015-04-20)
등록번호
US-10011357
(2018-07-03)
발명자
/ 주소
Margis, Paul Anthony
Izadyar, Mehdi
Perlman, Marshal H.
Tomita, Kaname
Araki, Yasuhiro
Yamada, Taku
Lopez, Omar
Depner, Craig Allan
Tong, Sheng
출원인 / 주소
PANASONIC AVIONICS CORPORATION
대리인 / 주소
Orrick, Herrington & Sutcliffe LLP
인용정보
피인용 횟수 :
0인용 특허 :
225
초록▼
A light-weight and low-power integrated system module suitable for installation at a passenger seat disposed aboard a passenger vehicle and methods for manufacturing and using same. By integrating selected interface system components with the associated interconnections, the integrated system module
A light-weight and low-power integrated system module suitable for installation at a passenger seat disposed aboard a passenger vehicle and methods for manufacturing and using same. By integrating selected interface system components with the associated interconnections, the integrated system module provides an intuitive user interface system for interacting with a passenger entertainment system. The integrated system module can be installed within a seatback of the passenger seat that compliments the look and feel of the user interface system, creating an immersive entertainment experience during travel.
대표청구항▼
1. A user interface system, comprising: an interface housing being mounted at a seat and having a transparent face panel and a port panel region disposed at a selected port panel region angle relative to said transparent face panel and forming a plurality of port openings, said interface housing bei
1. A user interface system, comprising: an interface housing being mounted at a seat and having a transparent face panel and a port panel region disposed at a selected port panel region angle relative to said transparent face panel and forming a plurality of port openings, said interface housing being coupled with a shroud having a central shroud region being planar and an angled shroud portion being sloped adjacent to the central shroud region, defining a module opening and forming a pocket; anda plurality of user interface system components including a video interface system having a touchscreen display for presenting control indicia and a touch point for activating the control indicia and a plurality of communication ports, said touchscreen display being disposed adjacent to said transparent face panel, said communication ports each being disposed adjacent to a respective port opening of said port panel region,wherein said port panel region is disposed within the module opening that forms the pocket, thereby defining a channel, andwherein a selected communication port enables said video interface system to couple with a user peripheral device via a selected port opening of the port panel region defining the channel. 2. The user interface system of claim 1, wherein the channel is provided with suitable dimensions for receiving at least one of the user peripheral device, a communication cable for supporting communication between the user peripheral device and said selected communication port, a module communication connector for coupling the communication cable with the selected communication port, and a strain relief associated with the module communication connector. 3. The user interface system of claim 1, wherein said touchscreen display is divided into a plurality of viewing regions, including a first viewing region for presenting viewing content and a second viewing region for presenting the control indicia. 4. The user interface system of claim 1, wherein the video interface system is provided with a negative monitor tilt. 5. The user interface system of claim 4, wherein the negative monitor tilt comprises an adjustable tilt angle within a tilt angle range between one degree and thirty degrees back of vertical. 6. The user interface system of claim 5, wherein the adjustable tilt angle comprises a tilt angle that is six degrees back of vertical. 7. The user interface system of claim 1, wherein the port panel region angle comprises a predetermined port panel region angle within a port panel region angle range between forty degrees and fifty degrees. 8. The user interface system of claim 1, wherein the video interface system is associated with an information system and communicates with a headend system for providing overall system control functions for the information system via a distribution system. 9. A method for providing a user interface system, comprising: forming an integrated system module by disposing a video interface system having a touchscreen display and a plurality of communication ports within an interface housing being mounted at a seat and having a transparent face panel and a port panel region disposed at a predetermined port panel region angle relative to said transparent face panel, said transparent face panel being disposed adjacent to said touchscreen display, said port panel region forming a plurality of openings associated with said plurality of communication ports;disposing said transparent face panel and said port panel region of said integrated system module within a module opening defined by a central shroud region and an angled shroud portion of a shroud, the central shroud region being planar and the angled shroud portion being sloped adjacent to the central shroud region and thereby forming a pocket;coupling said module housing with said shroud; andforming a channel with said port panel region and the angled shroud portion that forms the pocket, wherein a selected communication port enables said video interface system to couple with a user peripheral device via a selected opening of the port panel region defining the channel. 10. The method of claim 9, further comprising providing the video interface system with an adjustable monitor tilt. 11. The method of claim 9, further comprising enabling at least one of the control indicia to be activated and said selected communication port to be illuminated without requiring actual contact with said touch point. 12. A user interface system, comprising: an interface housing being mounted at a seat and having a transparent face panel and a port panel region being disposed at a port panel region angle relative to said transparent face panel and forming a plurality of port openings;a plurality of user interface system components being disposed within said interface housing and including a video interface system having a touchscreen display for presenting control indicia and a plurality of communication ports, said touchscreen display being disposed adjacent to said transparent face panel, said communication ports each being disposed adjacent to a respective port opening of said port panel region; anda shroud having a central shroud region being planar and an angled shroud portion being sloped adjacent to the central shroud region, defining a module opening, forming a pocket, and being coupled with said interface housing,wherein said port panel region is disposed within the module opening that forms the pocket. 13. The user interface system of claim 12, wherein said port panel region being disposed within the module opening and being coplanar with said angled shroud portion thereby defines a channel, and a selected communication port enables said video interface system to couple with a user peripheral device via a selected port opening of the port panel region defining the channel. 14. The user interface system of claim 13, wherein the channel inhibits interference between the user peripheral device and a tray table of the seat in a stowed position, in a deployed position, and during transitions between the stowed position and the deployed position. 15. The user interface system of claim 13, wherein the channel is provided with suitable dimensions for receiving at least one of the user peripheral-device, a communication cable assembly for supporting communication between the user peripheral device and said selected communication port, a module communication connector for coupling the communication cable assembly with the selected communication port, and a strain relief associated with the module communication connector. 16. The user interface system of claim 12, wherein the video interface system is provided with an adjustable monitor tilt. 17. The user interface system of claim 12, wherein said selected communication port is selected from a group consisting of an audio connector for coupling a peripheral audio device with said video interface system of the user interface system and an access point for coupling a personal media device with said video interface system. 18. The user interface system of claim 12, further comprising a card reader disposed within said interface housing, wherein said interface housing defines an aperture at a junction between said transparent face panel and said port panel region and adjacent to a card slot of said card reader such that said card slot receives a user card via the aperture. 19. The user interface system of claim 12, wherein the video interface system is associated with an information system and communicates with a headend system for providing overall system control functions for the information system via a distribution system. 20. The user interface system of claim 19, wherein said vehicle information system is coupled to a fuselage of an aircraft and includes said user interface system disposed within a seatback of a passenger seat disposed within said fuselage.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (225)
D'Annunzio,Michael A.; Skahan, Jr.,Vincent D., Airborne IP address structure.
Ziarno,James J.; Gallagher,Shawn, Aircraft communications system and related method for communicating between portable wireless communications device and ground.
Galipeau Steven R. ; Wade John G. ; Briski Rory G. ; Peabody Mark A. ; Mowry Michael M. ; Armstrong Gregg D. ; Burgess Craig L. ; Gray Kenneth L. ; Spears Garrett R., Aircraft data management system.
Le, Gary Tien; DeLaney, Wade Franklin; Dobrusin, Elijah; Krikorian, Aram Aris; Lloyd, Thomas Zachary; Pearson, Luke Neil; Carpenter, Nicholas Stanley Borg; Hoang, Matthew Vu; Eaton, Thomas Randolph, Aircraft seating assembly.
Crowley Robert J. (37 Castle Gate Rd. Wayland MA 01778) Halgren Donald N. (35 Central St. Manchester MA 01944), Antenna transmission coupling arrangement.
Klotzbach David (Carpentersville IL) Pecen Mark (Naperville IL) Favreau Keith (Wheeling IL) Knueven Michael (Glen Ellyn IL), Bi-directional wire-line to local area network interface and method.
Wakai Bruce Minoru ; Troxel Robert ; Booth Marc ; Takata Kaz ; Evensen Karen ; Ninh Loi, Combined digital audio/video on demand and broadcast distribution system.
Scott Ed (Anaheim Hills CA) Sagey Richard (Laguna Niguel CA) Booth Marc (La Habra CA) Schuberth Pierre (Corona Del Mar CA), Device for interfacing a CD-ROM player to an entertainment or information network and a network including such device.
Scott Ed ; Sagey Richard ; Booth Marc ; Schuberth Pierre, Device for interfacing a CD-ROM player to an entertainment or information network and a network including such device.
Sklar Richard E. ; Girard Lawrence E. ; Phillipp Ralph P., Distribution of a large number of live television programs to individual passengers in an aircraft.
Sklar Richard E. ; Girard Lawrence E., Distribution of satellite television programs to passengers in an aircraft when it is out of range of the satellites.
Takanabe Kazunori (Kasugai JPX) Yamamoto Masaki (Nagoya JPX) Ito Kenzo (Okazaki JPX) Fujinami Hiroshi (Anjo JPX), Electronic map display system for use on vehicle.
Berry Dickey J. (La Verne CA) Bertagna Richard A. (San Dimas CA), Entertainment and data management system for passenger vehicle including individual seat interactive video terminals.
Wils, Joris Johannes Maria; Hiscock, James Scott; Heiner, Jr., Edward A., High-speed trunk cluster reliable load sharing system using temporary port down.
Chan Tsiu Chiu ; Sagarwala Pervez Hassan, Integrated circuit having selective bias of transistors for low voltage and low standby current and related methods.
Booth Marc ; Kobayashi Hironori ; Wicks James E. ; Williams ; Jr. Howard Allen, Integrated electronic system utilizing a universal interface to support telephony and other communication services.
Wakai Bruce M. (Cypress CA) Lemmer John E. (Laguna Hills CA) Frost ; Jr. William A. (San Juan Capistrano CA), Integrated video and audio signal distribution system and method for use on commercial aircraft and other vehicles.
Wakai Bruce M. (Cypress CA) Lemmer John E. (Laguna Hills CA) Frost ; Jr. William A. (San Juan Capistrano CA), Integrated video and audio signal distribution system and method for use on commercial aircraft and other vehicles.
Wakai Bruce M. ; Lemmer John E. ; Frost ; Jr. William Arlington, Integrated video and audio signal distribution system and method for use on commercial aircraft and other vehicles.
Hildebrandt Fred (Buchholz DEX) Reitmann Joerg (Harsefeld DEX) Sprenger Wilfried (Issendorf DEX) Roessner Bernd (Rosengarten DEX), Method and apparatus for carrying out passenger-related and flight attendant-related functions in an airplane.
Sklar Richard E. ; Phillipp Ralph ; Walzer Robert U. ; Zimmerman Mark R. ; Decuir Tracy L., Method and apparatus for receiving broadcast entertainment transmissions at a moving receiver station.
Frey Richard L. (Duanesburg NY) Gaus ; Jr. Richard C. (Burnt Hills NY) George ; II Robert L. (Plano TX) Hladik Stephen M. (Albany NY) Lester Howard L. (Auplaus NY) Puckette Charles M. (Scotia NY) Ray, Method and apparatus for reducing interference among cellular telephone signals.
Henderson Gordon J. (Plymouth MI) Carew Evan L. (Dearborn MI) Theisen Todd A. (Grosse Lle MI) Ehn Michael W. (Dexter MI), Method and apparatus for the control of local area network multi-station access units.
Brady, Jr., Kenneth A.; Yi, Jason Kyong-min; Weimholt, Andrew W.; Tsaur, Jyh-Fong; Norton, Lyle K., Method and system for configuration and download in a restricted architecture network.
Wharton Cathleen S. ; Robertson Scott P. ; Ashworth Catherine A. ; Franzke Marita, Method and system for synchronizing data between at least one mobile interface device and an interactive terminal.
Horrer Matthias, Method for setting up a telecommunication link to persons in closed facilities, such as passenger transport means, as well as a telecommunication system and network.
Kolls, H. Brock, Method of transacting an electronic mail, an electronic commerce, and an electronic business transaction by an electronic commerce terminal operated on a transportation vehicle.
Thomson, Deane A.; Lee, David R.; Brinkley, Roger R.; Price, Jerry L.; Mitchell, Timothy M., Methods and apparatus for transportation vehicle security monitoring.
Ray Jimmy C. (Denison TX) George ; II Robert L. (Plano TX) Levine Richard C. (Richardson TX), Mobile telecommunications for aircraft and land based vehicles.
Bowman Donald J. (135 Grayson Ct. Colorado Springs CO 80906) Crane Jerry D. (29335 Nole Hace Boerne TX 78006) Edwards Scott G. (17 Edith La. Wilton CT 06895) Edwards Kathryn M. (17 Edith La. Wilton C, Modular digital telephone system with fully distributed local switching and control.
Francis, Robert C.; McGee, James P.; Sainati, Robert A.; Sheehan, Jr., Richard L.; Tong, Sai-Kit K., Object tracking and management system and method using radio-frequency identification tags.
Miller, Scott D.; Phillipp, Ralph; Larson, Curtis J.; Bartlett, James L., Passenger entertainment system having downconverter control signals and power supplied over output cables.
Miller, Scott D.; Phillipp, Ralph; Walzer, Robert; Fidel, Fredrick; Larson, Curtis J.; Bartlett, James L.; Landenberger, Jay E., Passenger entertainment system providing live video/audio programming derived from satellite broadcasts.
Weinberger, Alan J.; Infiesto, Douglas C.; Renton, Joseph J.; Neugaubauer, Rick, Passenger entertainment system, method and article of manufacture employing object oriented system software.
Tagawa Koichi (Tokyo JPX) Matsuzaki Atsushi (Kanagawa JPX) Toyoshima Masakatsu (Kanagawa JPX) Kondo Yoshiyuki (Tokyo JPX), Passenger service and entertainment system for supplying frequency-multiplexed video, audio, and television game softwar.
Matsuzaki Atsushi (Kanagawa JPX) Tagawa Koichi (Tokyo JPX) Yamashita Masami (Kanagawa JPX) Kondo Yoshiyuki (Tokyo JPX), Passenger vehicle polling system having a central unit for polling passenger seat terminal units.
Ruppert Jonathan Paul (17147 Heatherwood Way Morgan Hill CA 95037) Fish Ronald Craig (16590 Oak View Cir. Morgan Hill CA 95037) Yap Thomas Allan (1069 Summerwind Ct. San Jose CA 95132) Ames Ronald Me, Portable RF ID tag and barcode reader.
Parkman, David S.; Stephenson, Gary V; Hellman, Richard A., Precoordination of return link for hand-off between coverage areas being traversed by a mobile transceiver platform.
Yee David Moon ; Bickley Robert Henry ; Zucarelli Philip John ; Keller Theodore W. ; Osman Jeff S. ; Derr Randall K., Satellite based high bandwidth data broadcast.
Jochim, Kenneth J.; Polson, Jerry H., Signal translating repeater for enabling a terrestrial mobile subscriber station to be operable in a non-terrestrial environment.
Jochim, Kenneth J.; Polson, Jerry H., Signal translating repeater for enabling a terrestrial mobile subscriber station to be operable in a non-terrestrial environment.
Conrad, Adam P.; Norin, John L.; Pontual, Rômulo; Smith, Peter W.; Wales, Jeffrey M., System and method for distribution and delivery of media context and other data to aircraft passengers.
Margis, Paul Anthony; Izadyar, Mehdi; Perlman, Marshal H.; Tomita, Kaname; Araki, Yasuhiro; Yamada, Taku; Lopez, Omar; Depner, Craig Allan; Tong, Sheng, System and method for providing an integrated user interface system at a seat.
Polivka Alan L. (Palm Bay FL) Zahm Charles (Indialantic FL), System for conducting video communications over satellite communication link with aircraft having physically compact, ef.
McKenna,Daniel Bernard; Cruz,Joseph; Jochim,Kenneth Joseph; Varadachari,Anand K.; Saroka,Harold Grant; Liu,Dandan, System for integrating an airborne wireless cellular network with terrestrial wireless cellular networks and the public switched telephone network.
Weinberger, Alan J.; Infiesto, Douglas C.; Ackland, Mark, System software architecture for a passenger entertainment system, method and article of manufacture.
Klosterman Brian L. ; O'Brien Sean A. ; Milnes Kenneth A. ; Schein Steven M. ; Metzger Donald ; Blake Todd ; Chang Gordon ; Warden David, Television schedule system with enhanced features.
Kupnicki Richard A. (584 Farewell Street Oshawa ; Ontario CAX L1H 6M8) Moote Stanley R. (9 Gervais Drive Brampton ; Ontario CAX L6Y 2V3), Television transmission network with scrambling and descrambling.
Gould, Eric J.; West, Nick; McCaskill, Donald; Cark, Alice; Trisnadi, Paulus, User interface for simultaneous management of owned and unowned inventory.
Douglas C. Infiesto ; David Frankenbach ; Joseph Winston, Vehicle entertainment system having seat controller cards programmed to operate as both browser and server.
Scribner Paul (Elkhart IN) Semple Dan (Glen Arbor MI), Vehicular audio/visual system having distribution box for connecting individual passenger monitors to multiple program s.
Eto Masahiro (Mobara JPX) Urata Hiroyuki (Yokohama JPX) Inoue Fumio (Yokohama JPX) Ogino Masanori (Yokohama JPX) Maruyama Atsushi (Fujisawa JPX) Yamamoto Kiyoshi (Yokohama JPX), Video display apparatus for displaying a plurality of video signals having different scanning frequencies and a multi-sc.
Wright Thomas H. ; Salati Bruce D., Wireless spread spectrum ground link-based aircraft data communication system with approach data messaging download.
Wright Thomas H. ; Ziarno James J., Wireless, frequency-agile spread spectrum ground like-based aircraft data communication system with remote flight operations control center.
Wright, Thomas H.; Ziarno, James J., Wireless, frequency-agile spread spectrum ground link-based aircraft data communication system with wireless unit in communication therewith.
Wright, Thomas H.; Ziarno, James J., Wireless, frequency-agile spread spectrum ground link-based aircraft data communication system with wireless unit in communication therewith.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.