TrafficVue

​TrafficVue is a centralized platform for traffic monitoring and control, combining Intelligent Transport Systems (ITS) to enable smart and effective traffic management. It runs 24/7, year-round, ensuring constant oversight. 

Using cutting-edge AI, the platform gathers and analyzes real-time data from highway sensors, radars, cameras, and automated incident detection systems. This interconnected network keeps track of traffic flow, weather conditions, accidents, travel times, and other key factors, instantly detecting emergencies like crashes, traffic jams, or disruptions. 

The platform not only gathers data but also automatically implements traffic management strategies and emergency procedures to address incidents in real time, reducing the impact of accidents or unforeseen disruptions. Drivers receive live updates through multiple channels—such as dynamic message boards, radio alerts, mobile applications, and online platforms—delivering up-to-date and actionable information to enhance road safety.

 

This smart solution streamlines traffic operations, empowering travelers with the necessary tools for safe, efficient journeys and optimized routing. The platform provides continuous oversight of all traffic infrastructure, maintaining seamless system performance. Built with flexibility and growth potential, it effortlessly integrates new and legacy modules into a cohesive framework. This holistic strategy allows for centralized control of transportation networks, removing operational gaps between disparate systems. Through unified management, highway authorities can effectively align control center applications with roadside equipment to optimize traffic movement and boost roadway safety. 

 

As an advanced traffic management system, the platform serves as a vital hub for consolidating and optimizing sophisticated technologies—delivering enhanced benefits for highway operators, governing bodies, and motorists. 

 

AMEXIS specializes in building advanced traffic control centers designed for next-generation mobility solutions. These facilities combine real-time data aggregation and analysis systems with optimized operator workstations to ensure peak operational performance. 

 

Key features of these centers include: 

• Dedicated operator consoles for centralized control 

• High-performance servers and networking infrastructure 

• Video wall displays with live camera and sensor feeds 

• Interactive digital maps for dynamic traffic monitoring 

• Unified communication systems including call center functionality 

Operational capabilities enable: 

• Round-the-clock surveillance and incident detection 

• Immediate emergency response activation 

• Real-time traveler alerts through multiple channels (digital signage, radio, mobile apps, web) 

• Predictive analytics for infrastructure maintenance and traffic flow optimization 

System advantages: 

• Modular architecture for effortless third-party integration 

• Scalable design supporting customizable traffic solutions 

• Future-ready platform for evolving smart city requirements 

 

Centralizing Intelligent Transportation Systems (ITS) management in a dedicated control center offers several strategic advantages: 

 

1. Enhanced Operational Efficiency 

• Unified oversight: Consolidates data from cameras, sensors, and IoT devices into a single interface, eliminating silos. 

• Faster decision-making: Real-time analytics enable quick responses to incidents (accidents, congestion, weather events). 

• Automated protocols: AI-driven systems can trigger dynamic speed limits, lane controls, or detours without manual intervention. 

2. Improved Traffic Flow & Safety 

• Proactive incident management: Early detection of disruptions (e.g., collisions, breakdowns) reduces secondary risks. 

• Coordinated responses: Synchronizes traffic signals, VMS (variable message signs), and emergency services. 

• Predictive capabilities: Uses historical data to anticipate and mitigate recurring bottlenecks. 

3. Cost & Resource Optimization 

• Reduced hardware redundancy: Shared infrastructure (servers, networks) lowers maintenance costs. 

• Staff efficiency: Centralized teams manage wider areas without duplicating efforts across dispersed locations. 

• Scalability: Modular design accommodates future tech upgrades (e.g., connected vehicles, 5G). 

4. Seamless Data Integration 

• Interoperability: Integrates third-party tools (e.g., weather APIs, navigation apps) for holistic insights. 

• Multi-channel communication: Pushes updates to drivers via apps, radio, roadside signs, and CMS (changeable message signs). 

5. Strategic Planning & Compliance 

• Data-driven infrastructure investments: Identifies maintenance priorities based on real usage patterns. 

• Regulatory adherence: Simplifies reporting for safety standards (e.g., incident logs, emission monitoring). 

 

Compatibility and iteroperability with external systems: 

1. Seamless Data Exchange with External Systems 

• Standardized Protocols: 

• Native support for DATEX II (XML/JSON formats) ensures compatibility with EU traffic operators, navigation services (e.g., Google Maps, Waze), and public transport systems. 

• Enables real-time sharing of traffic events (accidents, roadworks), parking availability, and weather alerts. 

• Third-Party Integration: 

• APIs for weather services (e.g., MET Norway), emergency systems (e.g., eCall), and urban mobility platforms (e.g., MaaS apps). 

2. Unified Multi-Source Data Aggregation 

• Fuses inputs from: 

• Roadside sensors (loops, radars) 

• Connected vehicles (V2X data) 

• Public transport fleets (GPS feeds) 

• Social media/crowdsourcing (Waze incident reports) 

• Eliminates data silos, creating a single source of truth for traffic managers. 

3. Dynamic Response Coordination 

• Automated DATEX II Publishing: 

• Auto-generates standardized alerts for variable message signs (VMS), highway agencies, and infotainment systems. 

• Cross-System Syncing: 

• Adjusts traffic signals based on real-time public transport schedules (e.g., prioritizing trams during delays). 

4. Scalability for Future Technologies 

• Ready for emerging standards: 

• Supports SANDAG (U.S.) or TMDD (Traffic Management Data Dictionary) for global interoperability. 

• Compatible with C-ITS (Cooperative ITS) for vehicle-to-infrastructure (V2I) communication. 

5. Compliance & Governance 

• Meets EU Directive 2010/40/EU (DATEX II mandate for ITS deployment). 

• Audit trails for data-sharing compliance (e.g., GDPR for traveler privacy). 

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Pricing Notes: 

• The listed costs apply to standard system deployments. For large-scale implementations, historical data indicates that custom development typically adds ~30% to license fees (calculated in equivalent labor hours). 

• Development and integration estimates are project-specific approximations, derived from our implementation experience. These reflect anticipated effort for: 

• Custom feature development 

• Third-party system integrations 

• Final costs may vary based on: 

• Project complexity 

• Unique technical requirements 

• Scope of external system interoperability

• All prices listed are excluding VAT.