Methods and systems for electric vehicle (EV) charging and cloud remote access and user notifications
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02J-007/00
B60L-011/18
B60L-001/00
H04W-004/02
G07F-015/00
G06Q-050/06
G06Q-030/06
G06Q-030/02
G06Q-030/00
G06Q-020/18
G06Q-010/00
G06Q-010/02
H04W-004/20
G01C-021/36
출원번호
US-0657112
(2017-07-22)
등록번호
US-9802500
(2017-10-31)
발명자
/ 주소
Penilla, Angel A.
Penilla, Albert S.
출원인 / 주소
Emerging Automotive, LLC
인용정보
피인용 횟수 :
0인용 특허 :
170
초록▼
Systems and methods for charging an electric battery of a vehicle are provided. The vehicle includes a battery for powering an electric motor of the vehicle. A controller of the vehicle is provided to interface with a battery and to enable control of charging of the battery. The vehicle includes a c
Systems and methods for charging an electric battery of a vehicle are provided. The vehicle includes a battery for powering an electric motor of the vehicle. A controller of the vehicle is provided to interface with a battery and to enable control of charging of the battery. The vehicle includes a communications interface for enabling wireless communication with a server, and the server is configured to manage a plurality of user accounts for users. The server is one of a plurality of servers, and the servers providing access to cloud services regarding vehicle use and metrics.
대표청구항▼
1. A system of a vehicle for charging a battery of the vehicle, comprising, the vehicle having the battery; the vehicle;a controller of the vehicle for interfacing with the battery and controlling an operation of charge transfer to the battery and detecting a level of charge of the battery, the cont
1. A system of a vehicle for charging a battery of the vehicle, comprising, the vehicle having the battery; the vehicle;a controller of the vehicle for interfacing with the battery and controlling an operation of charge transfer to the battery and detecting a level of charge of the battery, the controller is interfaced with electronics of the vehicle; anda communications interface for enabling wireless communication with a server and interfaced with said electronics, the server managing a plurality of user accounts for users;the electronics of the vehicle is configured to use the communications interface to send a request, response to user input on a user interface of the vehicle that communicates with the electronics of the vehicle;the user input being for selection of at least one control of the user interface to identify charge unit install points, the charge unit install points having at least one charge unit for supplying charge to said battery of the vehicle;the electronics of the vehicle configured to identify a geo-location of the vehicle in response to receiving the request;the electronics of the vehicle is configured to receive information regarding charge unit install points having physical addresses within a proximity location of the vehicle using the identified geo-location of the vehicle;the user interface is configured to display a subset of charge unit install points located within the proximity location and based on a filtering of charge unit install points that provide at least one promotion option that is identified from a user account associated the vehicle that is being used in association with the user account, wherein said promotion option includes any discounts in charge at the identified charge unit install points or any goods or services available by businesses located proximate to the identified charge unit install points. 2. The system of claim 1, wherein the user account is managed by the server that is part of a charge cloud service. 3. The system of claim 1, wherein the server manages a database that includes preferences for types of promotions associated with the user account, wherein said filtering uses information regarding the preferences. 4. The system of claim 1, wherein each charge unit install point selected is associated with an identified cost for obtaining charge at a period of time after the request is received and the charge is to be obtained and at least one of the promotion options is available. 5. The system of claim 1, wherein a list of one or more charge unit install points is arranged based on types of promotion options, the list being presented on a display associated with the vehicle or a portable device associated with the vehicle. 6. The system of claim 1, wherein the electronics of the vehicle is configured to enable sending a reservation request to at least one of the charge unit install points. 7. The system of claim 3, wherein one of the preferences for types of promotion options is learned based on historical data regarding one or more of past requests to identify charge unit install points, charge obtained at charge unit install points and discounts used at the charge unit install points. 8. The system of claim 1, wherein the server implements an application programming interface (API) to communicate with charge unit install points. 9. A method for causing execution one or more functions of a system of a vehicle for charging a battery of the vehicle, comprising, the vehicle having the battery;the vehicle having a controller of the vehicle for interfacing with the battery and controlling an operation of charge transfer to the battery and detecting a level of charge of the battery, the controller is interfaced with electronics of the vehicle; andthe vehicle having a communications interface for enabling wireless communication with a server and interfaced with said electronics, the server managing a plurality of user accounts for users;the method uses the electronics of the vehicle to use the communications interface to send a request, in response to user input on a user interface of the vehicle that communicates with the electronics of the vehicle;the method uses the user input selection of at least one control of the user interface to identify charge unit install points, the charge unit install points having at least one charge unit for supplying charge to said battery of the vehicle;the method uses the electronics of the vehicle to identify a geo-location of the vehicle in response to receiving the request;the method uses the electronics of the vehicle to receive information regarding charge unit install points having physical addresses within a proximity location of the vehicle using the identified geo-location of the vehicle;the method uses the user interface to display a subset of charge unit install points located within the proximity location and based on a filtering of charge unit install points that provide at least one promotion option that is identified from a user account associated the vehicle that is being used in association with the user account, wherein said promotion option includes any discounts in charge at the identified charge unit install points or any goods or services available by businesses located proximate to the identified charge unit install points. 10. The method of claim 9, wherein the user account is managed by the server that is part of a charge cloud service. 11. The method of claim 9, wherein the server manages a database that includes preferences for types of promotions associated with the user account, wherein said filtering uses information regarding the preferences. 12. The method of claim 9, wherein each charge unit install point selected is associated with an identified cost for obtaining charge at a period of time after the request is received and the charge is to be obtained and at least one of the promotion options is available. 13. The method of claim 9, wherein the method uses the electronics of the vehicle to enable sending a reservation request to at least one of the charge unit install points. 14. The method of claim 11, wherein one of the preferences for types of promotion options is learned based on historical data regarding one or more of past requests to identify charge unit install points, charge obtained at charge unit install points and discounts used at the charge unit install points. 15. The method of claim 9, wherein the server implements an application programming interface (API) to communicate with charge unit install points. 16. Computer readable media having non-transitory program instructions for causing execution one or more functions of a system of a vehicle for charging a battery of the vehicle, comprising, the vehicle having the battery;the vehicle having a controller of the vehicle for interfacing with the battery and controlling an operation of charge transfer to the battery and detecting a level of charge of the battery, the controller is interfaced with electronics of the vehicle; andthe vehicle having a communications interface for enabling wireless communication with a server and interfaced with said electronics, the server managing a plurality of user accounts for users;the program instructions operate with the electronics of the vehicle to use the communications interface to send a request, in response to user input on a user interface of the vehicle that communicates with the electronics of the vehicle;the program instructions operate with the user input selection of at least one control of the user interface to identify charge unit install points, the charge unit install points having at least one charge unit for supplying charge to said battery of the vehicle;the program instructions operate with the electronics of the vehicle to identify a geo-location of the vehicle in response to receiving the request;the program instructions operate with the electronics of the vehicle to receive information regarding charge unit install points having physical addresses within a proximity location of the vehicle using the identified geo-location of the vehicle;the program instructions operate with the user interface to display a subset of charge unit install points located within the proximity location and based on a filtering of charge unit install points that provide at least one promotion option that is identified from a user account associated the vehicle that is being used in association with the user account, wherein said promotion option includes any discounts in charge at the identified charge unit install points or any goods or services available by businesses located proximate to the identified charge unit install points. 17. The computer readable media of claim 16, wherein the user account is managed by the server that is part of a charge cloud service and the server implements an application programming interface (API) to communicate with charge unit install points. 18. The computer readable media of claim 16, wherein each charge unit install point selected is associated with an identified cost for obtaining charge at a period of time after the request is received and the charge is to be obtained and at least one of the promotion options is available. 19. The computer readable media of claim 16, wherein the method uses the electronics of the vehicle to enable sending a reservation request to at least one of the charge unit install points. 20. The computer readable media of claim 16, wherein the server manages a database that includes preferences for types of promotions associated with the user account, wherein said filtering uses information regarding the preferences;wherein one of the preferences for types of promotion options is learned based on historical data regarding one or more of past requests to identify charge unit install points, charge obtained at charge unit install points and discounts used at the charge unit install points.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (170)
David S. Breed ; Wilbur E. Duvall ; Wendell C. Johnson, Accident avoidance system.
Matsuoka, Yoky; Fisher, Evan J.; Malhotra, Mark; Stefanski, Mark D.; Sharan, Rangoli; Astier, Frank E., Automated presence detection and presence-related control within an intelligent controller.
Rivers, Jr., Cecil; Narel, Radoslaw; Green, Marvin Herville, Charging system, kiosk, and method of reserving a power charging device and supplying current to a power storage device.
Stefik, Mark Jeffrey; Bell, Alan G.; Eldershaw, Craig; Good, Lance E.; Greene, Daniel H.; Torres, Francisco Eduardo; Uckun, Serdar; Cummins, David Preston, Computer-implemented system and method for managing motor vehicle parking reservations.
Stefik, Mark Jeffrey; Bell, Alan G.; Eldershaw, Craig; Good, Lance E.; Greene, Daniel H.; Torres, Francisco Eduardo; Uckun, Serdar; Cummins, David Preston, Computer-implemented system and method for offering commercial parking reservations.
Buck Michael (Winennden DEX) Boll Wolf (Weinstadt DEX) Knorzer Gunther (Sachsenheim DEX), Consumption-oriented driving-power limitation of a vehicle drive.
Ambrosio, Ronald; Ferro, Erica Haefner; Hafner, James L.; Harrison, Colin G.; O'Mara, Melissa W.; Schurr, Allan J.; Trekell, Mark W.; Williamson, Paul S., Electric vehicle charging transaction interface for managing electric vehicle charging transactions.
Ambrosio, Ronald; Ferro, Erica Haefner; Hafner, James Lee; Harrison, Colin George; O'Mara, Melissa Wiltsey; Schurr, Allan James; Trekell, Mark William; Williamson, Paul Stuart, Electric vehicle charging transaction interface for managing electric vehicle charging transactions.
Reimers Eberhart (8807 Strause Ct. Springfield VA 22153) Moyer Elmo E. (7 Fenlon St. West Saratoga Springs NY 12866), Electric vehicle controller adapted for charge station connection.
Asakawa Shiro,JPX ; Tsutsui Hiroshi,JPX ; Taketomi Yoshinao,JPX ; Okuda Eiichiro,JPX, Head up display unit, liquid crystal display panel, and method of fabricating the liquid crystal display panel.
Alofs Cornell W. (Petoskey MI) Drenth Ronald R. (Petoskey MI), Method and apparatus for guiding a driverless vehicle using a sensor tracking a cable emitting an electromagnetic field.
Smith, Harry F., Methods for providing information, messages and advertisements to a user of a fuel pump that is coupled to remote computers through a data communications network.
Meese William G. (Bloomfield Hills MI) Pratt Robert G. (Farmington Hills MI) Charneski Mitchell D. (Southfield MI) Brokenshire Robert E. (Troy MI) Whitney Bruce F. (South Lyon MI), Microprocessor electric vehicle charging and parking meter system structure and method.
Prosser, Ronald; Burchett, Stephen M., Overhead mobile charger system for reaching and charging electric vehicles parked in a pair of adjacent and spaced-part rows of side-by-side parking spaces.
Lowrey, Larkin H.; Borrego, Diego A.; Wettig, Alan; Lightner, Bruce Davis; Banet, Matthew J.; Washicko, Paul; Berkobin, Eric C.; Link, II, Charles M., Peripheral access devices and sensors for use with vehicle telematics devices and systems.
Benayad-Cherif Faycal E. K. (66 Highland Ave. ; #4 Somerville MA 02143) Maddox James F. (55 Hillside Ave. Arlington MA 02174) George ; II Robert W. (2 Karen Rd. Windham NH 03087), Position locating system for a vehicle.
Rodkey, Ryan Scott; Rodkey, John Frank; Ledder, Mark Stephen; Hickey, David Lynn; Ross, Darren Lynn; Ramsey, Ronald F., Power management system for a plurality of at least partially rechargeable vehicles.
Hoshina, Masaki, Service providing system, second connecting part, service providing device, second connecting part control program and service providing device control program.
Pierson Mark V. (65 Hospital Hill Rd. Binghamton NY 13901) Lin How T. (1200 Hartwick La. Binghamton NY 13903), Solar recharge station for electric vehicles.
Joanne T. Woestman ; Prabhakar B. Patil ; Ross M. Stunz ; Thomas E. Pilutti, Strategy to use an on-board navigation system for electric and hybrid electric vehicle energy management.
Chou Paul Bao-Luo ; Iyer Bhavani S. ; Lai Jennifer ; Levas Anthony ; Lieberman Lawrence Isaac ; Liu Te-Kai ; Moskowitz Paul Andrew ; Tang Jung-Mu ; Williams Rose Marie ; Wong Danny Chan-Yong ; Chakra, System and method for vehicle diagnostics and health monitoring.
Ferro, Erica Haefner; Trekell, Mark William; Williamson, Paul Stuart, System for detecting interrupt conditions during an electric vehicle charging process.
Jackson, Dean Kenneth; Klein, Daniel Victor, Systems and methods for updating vehicle behavior and settings based on the locations of vehicle passengers.
Wallace, Charles L.; Basin, Ernest; DeWall, Eric G.; van Gool, Sjef; Somla, Rajendra K.; Deninger, Daniel A.; Woody, Douglas C., Systems and methods for vehicle monitoring with processing interruption tolerance.
Yoshikawa, Kazutaka; Nakamura, Masaki; Mutsuga, Katsuhiko; Ishikawa, Hiroki, Traffic information retrieval method, traffic information retrieval system, mobile communication device, and network navigation center.
Dahl Ernest A. (3247 Breaker Dr. Ventura CA 93003) Barry George H. (21225 Saratoga Hills Saratoga CA 95070), Transformerless battery controlled battery charger.
Kreysler William (363 El Faisan Dr. San Rafael CA 94903) Labesque Serge (2300 Warm Springs Rd. Glen Ellen CA 95442) Jordan Kurt (242 B. Evergreen Ave. Mill Valley CA 94941) Luzaich Mark (925 Birkdale, Underground service bay for vehicles and process for constructing same.
Pollack, Seth B.; Bridges, Seth W.; Kaplan, David L., User interface and user control in a power aggregation system for distributed electric resources.
Dougherty Thomas J. (Waukesha WI) Wruck William J. (Shorewood WI) Johnson Richard J. (Hubertus WI), Vehicle battery system providing battery back-up and opportunity charging.
Murakami, Hiroshi; Yano, Shunji; Nakamura, Kazuhiro; Barth, Matthew James; Todd, Michael Donovan, Vehicle sharing system and method for allocating vehicles based on state of charge.
Obata, Kijuro, Vehicle-to-vehicle communication apparatus, vehicle-to-vehicle communication system, and method of determining applicability of moving image information to an application program.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.