Capital one services, llc (20240255601). AUTOMATED SYSTEM FOR VEHICLE TRACKING simplified abstract
AUTOMATED SYSTEM FOR VEHICLE TRACKING
Organization Name
Inventor(s)
Qiaochu Tang of Frisco TX (US)
Micah Price of The Colony TX (US)
Jason Hoover of Grapevine TX (US)
Geoffrey Dagley of McKinney TX (US)
Avid Ghamsari of Carrollton TX (US)
AUTOMATED SYSTEM FOR VEHICLE TRACKING - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240255601 titled 'AUTOMATED SYSTEM FOR VEHICLE TRACKING
The abstract describes a patent application for a system that allows vehicles to automatically detect the presence of physical markers at parking spaces, enabling vehicle tracking.
- The system processes an image of the physical marker to determine the location of the vehicle.
- The location information can be stored and displayed for tracking purposes.
- This innovation simplifies the process of tracking vehicles in parking spaces.
- The technology enhances the efficiency of vehicle tracking systems.
- The system can be integrated into existing vehicle tracking solutions for improved accuracy.
Potential Applications: - Parking management systems - Fleet tracking and management - Smart city initiatives for efficient parking utilization
Problems Solved: - Difficulty in accurately tracking vehicles in parking spaces - Inefficient parking management systems - Lack of real-time location information for vehicles
Benefits: - Improved accuracy in vehicle tracking - Enhanced efficiency in parking management - Real-time location updates for better fleet management
Commercial Applications: Title: Enhanced Vehicle Tracking System for Parking Management This technology can be utilized by parking operators, fleet management companies, and smart city initiatives to optimize parking utilization and improve overall efficiency.
Questions about the technology: 1. How does the system process images of physical markers to determine vehicle location? 2. What are the potential challenges in implementing this technology in real-world parking environments?
Original Abstract Submitted
aspects described herein may allow for vehicle tracking. systems and methods described herein may allow a vehicle to automatically detect the presence of a physical marker at a parking space. an image of the physical marker may be processed to determine the location of the vehicle, which may be stored and/or output for display.