Abstract: Methods, systems, and computing platforms for mobile data communication are disclosed. The processor(s) may be configured to receive a plurality of user mobile parking beacon data and storing the user mobile parking beacon data in a computer readable database for a mobile device. The processor(s) may be configured to process the user mobile parking beacon data with a machine learning processor as to output at least one most probable lane location vector associated with the mobile device. The processor(s) may be configured to electronically output the at least one most probable lane location vector to a parking processing module.
Abstract: Methods, systems, and computing platforms for mobile data communication are disclosed. The processor(s) may be configured to receive a plurality of user mobile parking beacon data and storing the user mobile parking beacon data in a computer readable database for a mobile device. The processor(s) may be configured to process the user mobile parking beacon data with a machine learning processor as to output at least one most probable lane location vector associated with the mobile device. The processor(s) may be configured to electronically output the at least one most probable lane location vector to a parking processing module.
Abstract: A parking garage system includes a plurality of parking garages. Each parking garage has a plurality of parking sectors and each parking sector has a plurality of parking spaces. A digital system tracks an occupancy level of each parking sector and an anticipated departure time of vehicles parked in each parking space. The digital system further directs vehicles to a particular parking sector based on the driver's anticipated departure time. The digital system also advises potential customers of occupancy level and parking rates and communicates information regarding occupancy level and parking rates to other parking garages.
Abstract: A parking garage system includes a plurality of parking garages. Each parking garage has a plurality of parking sectors and each parking sector has a plurality of parking spaces. A digital system tracks an occupancy level of each parking sector and an anticipated departure time of vehicles parked in each parking space. The digital system further directs vehicles to a particular parking sector based on the driver's anticipated departure time. The digital system also advises potential customers of occupancy level and parking rates and communicates information regarding occupancy level and parking rates to other parking garages.