Abstract: A system and method for offering customer priority parking reservations. Motor vehicle parking spaces are provided through a server. The server respectively interfaces with smart parking devices, vehicle occupancy sensors, and parking availability indicators that are each associated with the parking spaces. The parking spaces are reserved by accepting a request for a customer priority parking reservation from a merchant for a reservation period. Use of the parking space is managed through the server by activating the parking availability indicators associated with the reserved parking spaces, sensing occupancy of the parking spaces by a motor vehicle through the vehicle occupancy sensor, and retrieving and providing an identity of the driver of the motor vehicle through the nearest smart parking device to the server. The use of the parking space is validated from the merchant through the server.

Abstract: A computer-implemented system and method for providing information through a display of parking devices is provided. A multiplicity of motor vehicle parking spaces is managed through a server. Smart parking devices, vehicle occupancy sensors, and parking availability indicators are associated with at least one of the parking spaces. Use of the parking spaces is managed through the server. The parking availability indicators associated with the parking spaces are activated. Occupancy of at least one of the parking spaces by a motor vehicle is sensed through the nearest vehicle occupancy sensor and the location of the parking space is provided to the server. An identity of the driver of the motor vehicle is determined through the nearest smart parking device and the identity of the driver is provided to the server. Information associated with the identity of the driver is displayed on the smart parking device.

Abstract: A computer-implemented system and method for offering commercial parking reservations through flexible loading zones is provided. Motor vehicle parking spaces located in a business district are managed through a server. Smart parking devices, vehicle occupancy sensors, and parking availability indicators are interfaced to the server. Use of the parking spaces as a loading zone is reserved. A reservation request from a business is accepted. The business is confirmed as eligible. The request is granted, provided the requested parking space is available over any other reservations. Use of the loading zone is managed. The parking availability indicator is activated contemporaneous to the reservation period. Occupancy of the requested parking space is sensed through the nearest vehicle occupancy sensor. An identity of a driver is verified through the nearest smart parking device. The use of the reserved parking space is permitted upon matching the driver's identity to the business.

Abstract: A computer-implemented system and method for providing gun shot detection through a centralized parking services server is provided. Smart parking devices are physically proximate parking spaces. Acoustic sensors are deployed with at least one acoustic sensor in a smart parking device. Vehicle occupancy sensors and parking availability indicators are associated with the parking spaces. Parking space occupancy is sensed through the nearest vehicle occupancy sensor. Use of the parking space is processed based on an identity of a driver. Potential gunshots are detected by aurally monitoring ambient sounds in the service region through the acoustic sensors. The potential gunshots are identified by evaluating the ambient sounds for sound characteristics of gunfire and triangulating the ambient sounds relative to the locations of the acoustic sensor comprised in one of the smart parking devices and at least one other of the acoustic sensors. Finally, an alert is generated for the potential gunshot.

Abstract: 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.

Abstract: A computer-implemented system and method for providing recurring residential parking reservations is provided. Motor vehicle parking spaces located in a residential area are managed through a server. Smart parking devices, vehicle occupancy sensors, and parking availability indicators are interfaced to the server. Use of the parking spaces by a resident is reserved on a recurring basis throughout a subscription period. A parking reservation, including recurring times and dates, is requested. The request is granted provided the parking space is available over any other reservations stored in the server. Use of the reserved parking space is managed throughout the subscription period. Occupancy of the requested parking space is sensed through the nearest vehicle occupancy sensor. A motorist's identity is verified through the nearest smart parking device. The use of the reserved parking space is denied if not by the resident and parking non-availability is indicated during each recurring time and date.

Abstract: A computer-implemented system and method for offering merchant and shopper-friendly parking reservations through validated parking is provided. Motor vehicle parking spaces are managed through a server. Smart parking devices and vehicle occupancy sensors are interfaced to the server. Use of the parking space is managed. Occupancy of one of the parking spaces by a motor vehicle is sensed through the nearest vehicle occupancy sensor and the location of the parking space is provided to the server. An identity of the driver of the motor vehicle is determined through the nearest smart parking device and the identity of the driver is provided to the server. Use of the parking space is validated. The parking space's location and the driver's identity are retrieved at the location of a merchant. Payment for at least part of the use of the parking space from the merchant is provided through the server.

Abstract: A computer-implemented system and method for tagging a parking space for a motor vehicle through a gesture is provided. Motor vehicle parking spaces are managed through a server. Smart parking devices physically proximate to the parking spaces are interfaced. Vehicle occupancy sensors also physically proximate the parking spaces are interfaced. Parking availability indicators associated with the parking spaces are interfaced. Those parking spaces that are unoccupied based on their respective vehicle occupancy sensors and currently available over any other reservations stored in the server are identified to a driver of a motor vehicle. One of the unoccupied parking spaces is reserved upon a gesture provided by the driver. Occupancy of the reserved unoccupied parking space is sensed through the nearest vehicle occupancy sensor following parking of the motor vehicle. The identity of the motorist is verified against the reservation through the nearest smart parking device.

Abstract: A computer-implemented system and method for providing basic valet parking through centrally-managed parking services is provided. Motor vehicle parking spaces are managed through a server. Smart parking devices physically proximate to the parking spaces are interfaced to the server. Vehicle occupancy sensors also physically proximate to the parking spaces are interfaced to the server. Parking availability indicators associated with the parking spaces are interfaced to the server. Use the parking spaces is reserved for a valet service. A reservation request for the parking spaces is accepted through the server for use by the valet service for a period of time. Occupancy of the reserved parking spaces by a motor vehicle through the nearest vehicle occupancy sensor is sensed during the time period. Availability of each parking space is indicated through the nearest parking availability indicator throughout the time period based upon the current time and use by the valet service.

Abstract: A computer-implemented system and method for providing gun shot detection through a centralized parking services server is provided. Smart parking devices are physically proximate parking spaces. Acoustic sensors are deployed with at least one acoustic sensor in a smart parking device. Vehicle occupancy sensors and parking availability indicators are associated with the parking spaces. Parking space occupancy is sensed through the nearest vehicle occupancy sensor. Use of the parking space is processed based on an identity of a driver. Potential gunshots are detected by aurally monitoring ambient sounds in the service region through the acoustic sensors. The potential gunshots are identified by evaluating the ambient sounds for sound characteristics of gunfire and triangulating the ambient sounds relative to the locations of the acoustic sensor comprised in one of the smart parking devices and at least one other of the acoustic sensors. Finally, an alert is generated for the potential gunshot.

Abstract: A computer-implemented system and method for tagging a parking space for a motor vehicle through a gesture is provided. Motor vehicle parking spaces are managed through a server. Smart parking devices physically proximate to the parking spaces are interfaced. Vehicle occupancy sensors also physically proximate the parking spaces are interfaced. Parking availability indicators associated with the parking spaces are interfaced. Those parking spaces that are unoccupied based on their respective vehicle occupancy sensors and currently available over any other reservations stored in the server are identified to a driver of a motor vehicle. One of the unoccupied parking spaces is reserved upon a gesture provided by the driver. Occupancy of the reserved unoccupied parking space is sensed through the nearest vehicle occupancy sensor following parking of the motor vehicle. The identity of the motorist is verified against the reservation through the nearest smart parking device.

Abstract: A computer-implemented system and method for offering merchant and shopper-friendly parking reservations through validated parking is provided. Motor vehicle parking spaces are managed through a server. Smart parking devices and vehicle occupancy sensors are interfaced to the server. Use of the parking space is managed. Occupancy of one of the parking spaces by a motor vehicle is sensed through the nearest vehicle occupancy sensor and the location of the parking space is provided to the server. An identity of the driver of the motor vehicle is determined through the nearest smart parking device and the identity of the driver is provided to the server. Use of the parking space is validated. The parking space's location and the driver's identity are retrieved at the location of a merchant. Payment for at least part of the use of the parking space from the merchant is provided through the server.

Abstract: A computer-implemented system and method for offering commercial parking reservations through flexible loading zones is provided. Motor vehicle parking spaces located in a business district are managed through a server. Smart parking devices, vehicle occupancy sensors, and parking availability indicators are interfaced to the server. Use of the parking spaces as a loading zone is reserved. A reservation request from a business is accepted. The business is confirmed as eligible. The request is granted, provided the requested parking space is available over any other reservations. Use of the loading zone is managed. The parking availability indicator is activated contemporaneous to the reservation period. Occupancy of the requested parking space is sensed through the nearest vehicle occupancy sensor. An identity of a driver is verified through the nearest smart parking device. The use of the reserved parking space is permitted upon matching the driver's identity to the business.

Abstract: A computer-implemented system and method for managing motor vehicle parking reservations is provided. Motor vehicle parking spaces are managed through a server. Smart parking devices physically proximate to the parking spaces are interfaced with the server. Vehicle occupancy sensors physically proximate to the parking spaces are interfaced with the server. Parking availability indicators associated with the parking spaces are interfaced with the server. A motorist reserves a parking space. A reservation request for the parking space is accepted. The request is granted if available over any other reservations. Occupancy of the requested parking space is sensed through the nearest vehicle occupancy sensor. The motorist's or the motor vehicle's identity are verified against the reservation through the nearest smart parking device.

Abstract: A computer-implemented system and method for providing recurring residential parking reservations is provided. Motor vehicle parking spaces located in a residential area are managed through a server. Smart parking devices, vehicle occupancy sensors, and parking availability indicators are interfaced to the server. Use of the parking spaces by a resident is reserved on a recurring basis throughout a subscription period. A parking reservation, including recurring times and dates, is requested. The request is granted provided the parking space is available over any other reservations stored in the server. Use of the reserved parking space is managed throughout the subscription period. Occupancy of the requested parking space is sensed through the nearest vehicle occupancy sensor. A motorist's identity is verified through the nearest smart parking device. The use of the reserved parking space is denied if not by the resident and parking non-availability is indicated during each recurring time and date.

Abstract: A computer-implemented system and method for providing basic valet parking through centrally-managed parking services is provided. Motor vehicle parking spaces are managed through a server. Smart parking devices physically proximate to the parking spaces are interfaced to the server. Vehicle occupancy sensors also physically proximate to the parking spaces are interfaced to the server. Parking availability indicators associated with the parking spaces are interfaced to the server. Use the parking spaces is reserved for a valet service. A reservation request for the parking spaces is accepted through the server for use by the valet service for a period of time. Occupancy of the reserved parking spaces by a motor vehicle through the nearest vehicle occupancy sensor is sensed during the time period. Availability of each parking space is indicated through the nearest parking availability indicator throughout the time period based upon the current time and use by the valet service.