Automated Vehicle Control (AVC) revolutionizes vehicle control processes by integrating cutting-edge technologies, ushering in a new era of automation. Leveraging innovative techniques such as Image Processing, AVC extracts essential vehicle data including origin country, vehicle number, and manufacturer. This data, along with the location of vehicle control, is accurately provided through map services.
Key Features:
- Image Processing Technology: AVC utilizes advanced Image Processing algorithms to capture and analyze vehicle data efficiently.
- Automated Data Extraction: Essential vehicle information such as country of origin, vehicle number, and manufacturer is extracted seamlessly.
- Location Tracking: The address of vehicle control locations is precisely determined through map services, ensuring accuracy in monitoring.
- Violation Fine Proposal: Refined algorithms propose fines for violations, which can be reviewed and accepted or rejected by controllers. Upon acceptance, fines are printed onsite along with corresponding QR codes for easy access to detailed information.
- Digitized and Optimized Processes: The entire vehicle control process is digitized and optimized, streamlining operations and reducing manual effort.
- Electronic Documentation: All data and images captured during vehicle controls are stored electronically, providing comprehensive evidence for auditing purposes.
Cloud-Based Server Application:
The AVC system is supported by a cloud-based server application that facilitates both pre- and post-processing of vehicle controls. Key functionalities include:
- Order Management: End-customers can access an overview of their orders and track the status of ongoing activities.
- Real-Time Monitoring: Team leaders and group supervisors can generate orders, assign tasks to controllers, and monitor activities in real-time on the map interface.
- Synchronization: All data and images collected during vehicle controls are synchronized automatically to the server, ensuring seamless integration and accessibility.
Benefits:
- Enhanced Efficiency: Automation of vehicle control processes improves efficiency and reduces manual errors.
- Improved Accuracy: Advanced technologies ensure accurate extraction of vehicle data and precise location tracking.
- Streamlined Operations: Digitization and optimization of processes lead to streamlined operations and faster response times.
- Comprehensive Documentation: Electronic documentation provides comprehensive evidence for compliance and auditing purposes.
Conclusion:
Automated Vehicle Control (AVC) represents a significant advancement in vehicle control systems, combining state-of-the-art technologies with optimized processes to deliver efficient, accurate, and streamlined operations. By automating data extraction, location tracking, and fine proposal processes, AVC enhances efficiency, accuracy, and transparency in vehicle control operations, ultimately contributing to safer and more compliant roadways.
