Revolutionized speed enforcement solution using License Plate Recognition technology
ASE-Series is a line of industrial-grade vehicle license plate recognition (LPR) product designed to detect vehicles at two separate points for Average Speed
Enforcement (ASE).
Designed & built to fit industrial LPR application that requires real-time performance on-site and immediate response with third-party application.
Rack-mounted LPR engine server designed and built to fit large-scale applications capable of processing up to 10 channels (real-time) from
one location.
High performance LPR design and in-built onto a mobile camera for on-site license plate reading and various enforcement applications.
Real time license
plate recognition
Support single or
multiple channels
Vehicle
classification
Web-based
management module
Image snapshot
& timestamp
Support ONVIF compliant
cameras
Average speed
calculation
Ready to interface with enforcement systems
Average speed enforcement (ASE), also called section control or point-to-point (P2P) speed enforcement works by measuring the amount of time it takes the vehicle to drive between two points and then calculates the average speed of the vehicle.
The vehicle is identified through their license plate when entering the enforcement section, and again when leaving it. The vehicles plates are then matched and calculated based on the time interval between these two points.
If the vehicle’s average speed exceeded the average speed limit for the length of road, the vehicle will be categorized as overspeeding
Designed to perform in various harsh weather conditions, camera position and to read unique local car plates for higher precision and matching
Utilizing the CCTV at two points, ASE does not require inductive loops to calculate the average speed
With 10 years of optimizing and improving the video algorithm, our LPR has proven itself at numerous sites internationally
ASE is able to capture offenders who avoid offenders who only slow down at speed trap, as it derives the vehicle speed from two distant points.