Computer-implemented system and method for providing multi-locational curbside valet parking services
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06Q-010/00
G08B-025/12
G06Q-010/02
G07B-015/00
G07F-017/00
G07F-017/24
G08G-001/14
G07B-015/02
G06Q-050/30
G06Q-050/26
H04N-007/18
출원번호
US-0094669
(2013-12-02)
등록번호
US-9183734
(2015-11-10)
발명자
/ 주소
Stefik, Mark Jeffrey
Bell, Alan G.
Eldershaw, Craig
Good, Lance E.
Greene, Daniel H.
Torres, Francisco Eduardo
Uckun, Serdar
Cummins, David Preston
Partridge, Kurt
출원인 / 주소
Xerox Corporation
대리인 / 주소
Inouye, Patrick J. S.
인용정보
피인용 횟수 :
0인용 특허 :
80
초록▼
A computer-implemented system and method for providing multi-locational curbside valet parking service is provided. A multiplicity of motor vehicle parking spaces are managed by a server. A plurality of smart parking devices and vehicle occupancy sensors are interfaced with the server. Use of a plur
A computer-implemented system and method for providing multi-locational curbside valet parking service is provided. A multiplicity of motor vehicle parking spaces are managed by a server. A plurality of smart parking devices and vehicle occupancy sensors are interfaced with the server. Use of a plurality of the parking spaces is reserved for a valet service. A reservation request for the use of the plurality of the parking spaces is accepted for use by the valet service for a period of time. Occupancy of the reserved parking spaces by a motor vehicle is sensed through the vehicle occupancy sensor. A valet drop-off location of at least one of the parking spaces that is reserved for the use of the valet service and is not occupied by a motor vehicle is identified. The valet drop-off location and a location of a lock box are provided to the motorist through a user interface.
대표청구항▼
1. A computer-implemented system for providing multi-locational curbside valet parking service through centrally-managed parking services, comprising: a server configured to manage a multiplicity of motor vehicle parking spaces disbursed over a plurality of physically-separate and openly-disbursed p
1. A computer-implemented system for providing multi-locational curbside valet parking service through centrally-managed parking services, comprising: a server configured to manage a multiplicity of motor vehicle parking spaces disbursed over a plurality of physically-separate and openly-disbursed parking locations through a centrally-located server, the server configured to interface over a computer network and comprising a memory and a computer processor, the computer processor operatively coupled to the memory and configured to execute computer executable program modules;a plurality of smart parking devices that are each located proximate to and which correspond to at least one of the parking spaces, each of the smart parking devices interfaced with the server via the computer network;a plurality of vehicle occupancy sensors that are also each located proximate to and which correspond to at least one of the parking spaces, each of the vehicle occupancy sensors interfaced with the server via the computer network;a reservations module executed by the server and configured to reserve through the server use of a plurality of the parking spaces for a valet service, comprising: a request module configured to accept a reservation request for the use of the plurality of the parking spaces that are specified by their locations, through the server, for use by the valet service for a period of time; andan occupancy module configured to sense occupancy of the parking spaces that are reserved for the use of the valet service by a motor vehicle, through the vehicle occupancy sensor that corresponds to each of the parking spaces that are reserved for the use of the valet service, during the time period, and to provide the occupancy to the server via the network;an availability module executed by the server and configured to identify a valet drop-off location of at least one of the parking spaces that is reserved for the use of the valet service and is not occupied by a motor vehicle; anda notification module executed by the server and configured to provide the valet drop-off location and a location of a lock box to a motorist through a user interface, the lock box being adapted to hold a key of a motor vehicle of the motorist. 2. A system according to claim 1, wherein the lock box is adapted to being unlocked by a token that is provided to the motorist when the motor vehicle of the motorist is left with the valet service. 3. A system according to claim 1, further comprising: a valet drop-off service request module executed by the server and configured to receive a request from the motorist for the valet drop-off location. 4. A system according to claim 1, further comprising: a valet drop-off module executed by the server and configured to record, through the smart parking device that corresponds to the identified valet drop-off location, a time when the motorist is likely to return for the motor vehicle left with the valet service, and to notify, through the corresponding smart parking device, the valet service to park the motor vehicle of the motorist to the valet drop-off location before the time of the likely return of the motorist as provided to the corresponding smart parking device from the server via the network. 5. A system according to claim 1, further comprising: a vehicle tracking module executed by the server and configured to track each location of the motor vehicle parked by the valet during the time period based on identification of each motor vehicle; anda valet control module executed by the server and configured to notify the location of the motor vehicle for the valet service. 6. A system according to claim 1, wherein the lock box is located at least one of close to the valet drop-off location, at a valet parking station, or at a location where the motor vehicle is left with the valet service. 7. A system according to claim 1, wherein the key of the motor vehicle is at least one of a metal key, transistorized key, electronic key, limited-use key, and infrared key. 8. A computer-implemented method for providing multi-locational curbside valet parking service through centrally-managed parking services, comprising: providing a centrally-located server configured to interface over a computer network and comprising a memory and a computer processor, the computer processor operatively coupled to the memory and configured to execute computer execute modules, wherein the server manages a multiplicity of motor vehicle parking spaces disbursed over a plurality of physically-separate and openly-disbursed parking locations;interfacing, by the computer processor via the computer network, a plurality of smart parking devices that are each located proximate to and which correspond to at least one of the parking spaces;interfacing, by the computer processor via the computer network, a plurality of vehicle occupancy sensors that are also each located proximate to and which correspond to at least one of the parking spaces;reserving, by the server, use of a plurality of the parking spaces for a valet service, comprising: accepting, by the server, a reservation request for the use of the plurality of the parking spaces that are specified by their locations for use by the valet service for a period of time; andsensing occupancy of the parking spaces that are reserved for the use of the valet service by a motor vehicle, through the vehicle occupancy sensor that corresponds to each of the parking spaces that are reserved for the use of the valet service, during the time period, and providing the occupancy to the server via the network; andidentifying, by the server, a valet drop-off location of at least one of the parking spaces that is reserved for the use of the valet service and is not occupied by a motor vehicle; andproviding, by the server, the valet drop-off location and a location of a lock box to a motorist through a user interface, the lock box being adapted to hold a key of the motor vehicle of the motorist. 9. A method according to claim 8, wherein the lock box is adapted to being unlocked by a token that is provided to the motorist when the motor vehicle of the motorist is left with the valet service. 10. A method according to claim 8, further comprising: receiving, by the server, a request for the valet drop-off location from the motorist. 11. A method according to claim 8, further comprising: recording, by the server, through the smart parking device that corresponds to the identified valet drop-off location, a time when the motorist is likely to return for the motor vehicle left with the valet service, and notifying, by the server, through the corresponding smart parking device, the valet service to park the motor vehicle of the motorist to the valet drop-off location before the time of the likely return of the motorist as provided to the corresponding smart parking device from the server via the network. 12. A method according to claim 8, further comprising: tracking, by the server, each location of the motor vehicle parked by the valet during the time period based on identification of each motor vehicle; andnotifying, by the server, the location of the motor vehicle for the valet service. 13. A method according to claim 8, wherein the lock box is located at least one of close to the valet drop-off location, at a valet parking station, or at a location where the motor vehicle is left with the valet service. 14. A method according to claim 8, wherein the key of the motor vehicle is at least one of a metal key, transistorized key, electronic key, limited-use key, and infrared key. 15. A computer-implemented system for providing multi-locational curbside valet parking service with customer-designated locations through centrally-managed parking services, comprising: a server configured to manage a multiplicity of motor vehicle parking spaces disbursed over a plurality of physically-separate and openly-disbursed parking locations through a centrally-located server, the server configured to interface over a computer network and comprising a memory and a computer processor, the computer processor operatively coupled to the memory and configured to execute computer executable program modules;a plurality of smart parking devices that are each located proximate to and which correspond to at least one of the parking spaces, each of the smart parking devices interfaced with the server via the computer network;a plurality of vehicle occupancy sensors that are also each located proximate to and which correspond to at least one of the parking spaces, each of the vehicle occupancy sensors interfaced with the server via the computer network;a valet pick-up service request module executed by the server and configured to receive from a motorist a request for a valet pick-up service of a motor vehicle at a pick-up location specified by the motorist;a valet drop-off service request module executed by the server and configured to receive from the motorist a request for a valet drop-off service of the motor vehicle at a drop-off location specified by the motorist;an occupancy module configured to sense occupancy of the parking spaces by a motor vehicle, through the vehicle occupancy sensor that corresponds to each of the parking spaces, and to provide the occupancy to the server via the network;a drop-off reservation module to identify at least one of the parking spaces that is not occupied by a motor vehicle and is close to the motorist-specified drop-off location and to reserve the identified parking space for parking of the motor vehicle by the valet drop-off service; anda notification module executed by the server and configured to provide the location of the motor vehicle parked by the valet drop-off service and a location of a lock box to the motorist through a user interface, the lock box being adapted to hold a key of the motor vehicle. 16. A system according to claim 15, wherein the lock box is adapted to being unlocked by a token that is provided to the motorist when the motor vehicle of the motorist is left with the valet pick-up service. 17. A system according to claim 15, further comprising: a plurality of parking availability indicators that are each associated with each one of the parking spaces, each of the parking availability indicators interfaced with the server via the computer network;a parking reservation module executed by the server and configured to reserve through the server use of a plurality of the parking spaces for a valet parking service; andan availability module executed by the server and configured to indicate, through the parking availability indicators that correspond to each of the parking spaces that are reserved for use of the valet parking service, reserved use only of each of the parking spaces that are reserved for the use of the valet parking service as provided to the corresponding parking availability indicators from the server via the network, throughout a time period, based upon the current time and the use of the corresponding parking space by the valet parking service. 18. A system according to claim 17, further comprising: a vehicle tracking module executed by the server and configured to track each location of the motor vehicle parked by the valet parking service during the time period based on identification of each motor vehicle; anda valet control module executed by the server and configured to notify the location of the motor vehicle for the valet drop-off parking service. 19. A system according to claim 15, further comprising: the vehicle occupancy sensor that corresponds to the valet pick-up location further configured to sense occupancy of the valet pick-up location by a motor vehicle and to provide the occupancy of the valet pick-up location by the motor vehicle to the server from the corresponding vehicle occupancy sensor via the network; andthe server further configured to notify the valet service of the occupancy of the valet pick-up location by the motor vehicle through the smart parking device that corresponds to the valet pick-up location, as provided to the corresponding smart parking device from the server via the network. 20. A system according to claim 15, further comprising: a reschedule module executed by the server and configured to receive from the motorist a change regarding the valet pick-up request; andan update module executed by the server and configured to provide an update of the valet pick-up request to the valet pick-up service.
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