Abstract: A parking space monitoring system, with multiple microprocessors for handling various parking space management conditions, including at least one of the following conditions: (1) Space Occupancy (vehicle detection); (2) Parking Meter Status; (3) Display of Parking Policy to Motorists; (3) Motorist User Interactions; (4) Maintenance User Interactions; (5) Radio Communications with a Central management system and Network; and (6) Coordination of the operation between various ones of the microprocessors.
Type:
Grant
Filed:
April 6, 2015
Date of Patent:
November 17, 2020
Assignee:
fybr, LLC
Inventors:
Scott Keller, Chris Krstanovic, Tom Swiedler, David Fasciano, Eric Groft
Abstract: A remote meterless parking monitoring system including a plurality of individual parking spaces, a plurality of vehicle detector/RFID units for monitoring the status of the individual parking spaces; at least one Gateway device responsive to the plurality of vehicle detector/RFID units; a Command and Control Server for employing numerous security provisions at least including encryption of data, Virtual Privacy Networks, firewalls and authenticated connections and responsive to data from said Cellular gateway via the internet; and the Command and Control Server uses the status of each space and the ID from the motorist's RFID tag to cross reference data according to a Policy database and identifying the motorist through a Motorist Database including information about the motorist's mailing address, vehicle payment account balance or other information.
Abstract: A meterless remote parking monitoring system, incorporating a plurality of vehicle detector and Radio Frequency Identification Reader (RFID) units deployed in individual parking spaces; a plurality of Cellular Gateway Radios, each Cellular Gateway Radio being connected to one of said plurality of vehicle detector and Radio Frequency Identification Units; a Command and Control Server; the plurality of Cellular Gateway Radios being connected to said Command and Control Server via the internet.
Abstract: A remote meterless parking monitoring system including a plurality of individual parking spaces, a plurality of vehicle detector/RFID units for monitoring the status of the individual parking spaces; at least one Gateway device responsive to the plurality of vehicle detector/RFID units; a Command and Control Server for employing numerous security provisions at least including encryption of data, Virtual Privacy Networks, firewalls and authenticated connections and responsive to data from said Cellular gateway via the internet; and the Command and Control Server uses the status of each space and the ID from the motorist's RFID tag to cross reference data according to a Policy database and identifying the motorist through a Motorist Database including information about the motorist's mailing address, vehicle payment account balance or other information.