A system and method for managing a multiplicity of motor vehicle parking spaces through a server is provided. Smart parking devices and vehicle occupancy sensors that are each physically proximate to and which correspond to at least one of the parking spaces is interfaced with the server. Parking availability indicators that are each associated with at least one of the parking spaces is interfaced with the server. Street sweeping activity affecting the parking spaces is planned and comprising times and dates over which street sweeping of the parking spaces will occur. Any requests for reserving the use of the parking spaces during the street sweeping activity is denied. The parking availability indicators are activated associated with the parking spaces affected by the street sweeping activity. Occupancy of each of the parking spaces by a motor vehicle is sensed through the nearest vehicle occupancy sensor.

Automated parking lot digital map generation and use thereof is disclosed. Imagery of a parking lot is received from a video camera, the imagery depicting lines that define a plurality of parking spots. A parking lot digital map comprising data that defines a location and dimensions of each parking spot is generated. The parking lot digital map is stored in a memory.

One or more non-transitory computer-readable storage media having instructions stored thereon that, when executed by one or more processors, cause the one or more processors to detect a vehicle that enters into a parking lot, identify an individual associated with the vehicle, retrieve context information corresponding to the individual, dynamically determine a first parking space based on the context information and available parking spaces, and provide the individual with directions to the first parking space.

The present invention relates to a stopper-type charging device and a driving method thereof, wherein the stopper-type charging device includes an emergency bell unit that is provided on a main body part of a stopper for a vehicle installed on a floor of a parking lot and operates to prevent crime in a surveillance blind spot in the parking lot, a light emitting unit that guides a vehicle parked in the parking lot to be parked in a parking section for charging, and operates as a flash to illuminate a periphery of the vehicle, and a sensor unit that detects a fire by detecting a flame of the vehicle being charged.

A vehicle presence detection system for determining whether a parking space is vacant or occupied and utilizing this information to guide vehicles to available parking spaces. generally includes a LIDAR device, a cloud-based processing unit, a database, and a guidance light. The LIDAR device generally includes a light emitter, a light sensor, a CPU, a memory unit, and a communications device. The LIDAR device determines the distance between itself and a parking spot or a vehicle parked in that parking spot using an algorithm that accounts for variances in the ambient conditions. This status information can be communicated to a cloud-based processing unit, which can store this information in a database and/or use this information to send parking status indications to an autonomous vehicle dynamic sign, mobile device, or guidance light.

To manage a plurality of parking spaces, one or more images are acquired, with each parking space appearing in at least one image. Periodically acquired images of occupancy and identity are used in directing a customer to a parked vehicle. Periodically acquired images of just occupancy are used in controlling respective environmental aspects, such as illumination and ventilation, of the parking spaces. For these purposes, the images are classified automatically as “vacant” or “occupied”, and are displayed along with their classifications so that the classifications can be corrected manually.

The present disclosure relates to a device. The device includes a first camera which is rotatable around a first axis and a second camera which is rotatable around a second axis. The first axis is in a direction of the second axis.

Lighting fixture data hubs and systems and methods for use. An example of a data hub may include an annunciator configured to generate first and second indications; a sensor configured to detect a zone including one or more parking spaces, pedestrians, or other activity areas in a vicinity of the data hub and to determine whether or not one or more vehicles, pedestrians, and/or activities occurring in the activity areas are present within the zone, the sensor further configured to emit signals corresponding to said detection; and a gateway in communication with an on-board processor and the annunciator, the on-board processor configured for EDGE computing and processing to receive and analyze the signals from the sensor, communicate said signals to the gateway, and operable to allow the gateway to direct the annunciator to generate the first indication or the second indication in response to the signals.

A vehicle control device includes a remote operation control unit that approves a remote operation right (a right to perform a remote operation of a vehicle) and an operation control unit that controls an operation of the vehicle according to a remote operation performed in response to an instruction by an information processing device to which the remote operation right is granted to another vehicle to move. The information processing device includes a vehicle detection unit that detects a first vehicle and a vehicle control unit that requests a remote operation right that is a right to remotely operate the first vehicle and remotely operates the first vehicle in response to an instruction to move a second vehicle in a case where the remote operation right is granted. The present technology is applied to, for example, a vehicle that performs automatic driving or a control device of a parking lot.

A parking management system and a parking management method are disclosed. The parking management system includes a control device and a parking space boundary indicating device. The control device is configured to acquire size information of a vehicle to be parked and information of the vacant area where no vehicle is parked in a parking lot, determine parking area information of the vehicle to be parked according to the size information and the information of the vacant area, and send the parking area information to the parking space boundary indicating device; the parking space boundary indicating device is configured to form parking space boundary lines by shedding light on a parking area according to the parking area information.