Sneller, slimmer, digitaler: hoe technologie de meldkamer van de toekomst vormgeeft

Branche

Onderwerp

Industrial Electronics Design & Embedded Embedded Systems (architecture, software, operating systems)

Anyone who calls 112 expects immediate assistance. What happens behind the scenes is less visible. Over the past twenty years, the emergency dispatch center has evolved from a telephone intake to a high-tech operations center that combines embedded systems, real-time data processing, and mission-critical communication.

During the Design Automation & Embedded Systems event on April 14th at Congrescentrum 1931 in 's-Hertogenbosch, Erno Hartsuiker, emergency dispatch specialist at the Dutch National Police, will demonstrate how essential well-functioning embedded systems are in this environment. Hartsuiker: "When people call 112, you're often their last resort." FHI spoke with Hartsuiker about his presentation at the event.

Mission-critical design in the control room

“A control room places different demands on embedded systems than a commercial organization. Availability, reliability, and low latency are strict prerequisites. Systems run 24/7 and must continue to function under peak load. Redundancy, failover mechanisms, and secure data connections are essential to ensure continuity.

Ten operational centers work with a single, integrated control room system in which police, ambulance, fire, and military police share real-time information. This collaboration requires standardized interfaces, secure networks, and tight system integration. Interoperability is essential, as are performance and scalability controls.

At the same time, the control room is shifting from reactive to predictive. Where dispatchers used to wait for a report, embedded systems now continuously analyze data streams from various sources. Technology not only supports incident follow-up but also helps identify and interpret incidents earlier.

From sensing to image control: real-time data processing in practice

Data-driven work takes shape through digital twinning and sensing. In the control room, a digital representation of operational reality is created, displaying incidents, vehicles, and capacity in real time. Sensors continuously provide information from cameras, Automatic Number Plate Recognition (APR), geographic information systems, and vehicle telemetry.

Embedded systems collect, filter, and integrate this data into a single, up-to-date operational picture. Edge computing limits latency and ensures that only relevant information is forwarded. Architectures must be scalable, yet stable enough to handle large volumes of simultaneous data streams. This is where performance, reliability, and extensibility converge into a single design challenge.

Imagery plays an increasingly important role in this. Live video streams support dispatchers' situational awareness. The challenge lies not only in making imagery technically available, but primarily in keeping the information flow manageable. Video data is intelligently routed and linked to incident information, with prioritization based on urgency and context. Embedded video processing, data compression, and network optimization ensure that images are available with low latency, even during peak periods.

European communications, drones and AI: building a predictive control room

The communications infrastructure is also evolving. The C2000 system is being updated within a broader European system of uniform mission-critical communications. While communication traditionally revolved around voice, the focus is shifting to integrated data and image exchange.

Drones are also playing an increasingly important role in operational practice. Drones are essentially flying embedded platforms that combine sensors, communication modules, positioning, and real-time image processing. Integration with the control room system requires stable wireless connections and direct connection to existing data streams. As soon as a report is received, aerial imagery can be immediately used to assess the situation. This requires reliable hardware and secure data transmission within the existing ecosystem.

Artificial intelligence supports the control room in structuring and exchanging information. AI can help analyze data streams and predict where information is most relevant. However, humans remain the primary decision-maker. The control room must be able to explain and justify every decision. Therefore, the use of AI should never be a black box. Transparency and explainability are essential, especially within the framework of the Police Data Act (WPG), which imposes strict requirements on the processing and sharing of police data.”

The common thread in Erno Hartsuiker's story is clear: technology enables the transition from a reactive to a predictive control room. Embedded systems connect sensing, communication, image processing, and AI into a single, integrated infrastructure focused on reliability and safety. During the Design Automation & Embedded Systems event, Erno Hartsuiker will share how these architectures are created and the key technical choices. This offers engineers unique insight into system design under extreme pressure.

Want to know more? Register for the lecture.
Would you like to attend Erno Hartsuiker's lecture? real time Attend? Then come to the 1931 Congress Center in Den Bosch on April 14th. View the program on the website and register for the event for free.