The powerful functions of our TETRA radio system ACCESSNET-T IP are easy to access due to the ACCESSNET-T Common Application Programming Interface (A-CAPI). With the help of A-CAPI, the applications become a core part of the communication system, acting just like a radio subscriber with the ability to call up critical functions. Discover our range of TETRA applications, and see some examples where these applications may benefit you below.
Control and dispatch rooms
Dispatch consoles are an essential component of a professional radio solution. Controlling and conducting the radio subscribers and their communication across the network, consoles are critical for user logistics and emergency response.
The console manages data, call groups and radio subscribers, overseeing the operational communications. It will use a PC workstation with the dispatcher software, corresponding audio accessories and optional expansions such as a foot-operated PTT button or headset. Dispatch consoles can be customized to meet the varying user requirements of availability, scalability and network size.
Voice and message recording
Proof of communication may be a legal requirement when operating radios in a public safety system. The use of voice and data recording helps to reconstruct sequences and procedures, and to clarify circumstances and response. The Voice Recorder is a professional multi-channel voice and data recording system that is specifically tailored to manage and archive digital audio data and short messages (SDS). Digital audio data from a TETRA network is efficiently coded, ensuring the longest possible recording duration is achieved. Recorded audio data can be played back directly via the voice recorder or exported to downstream IT applications.
Automatic Vehicle Location (AVL)
Using AVL-expansions, you can display the current position of your subscribers on a map. GPS determines the position of the radios at defined intervals, and the radio automatically send this data via SDS to the dispatcher where it is displayed on a digital map. Motion profiles can be created for each radio on the system. The AVL system can be used as a dispatch and operations control center for vehicle fleet management, or as an alarm center for monitoring alarm and control functions. This enables you to record a large amount of operational vehicle data, e.g., the level of sand left in sand-spreading truck. The information is constantly refreshed, so vehicle fleet operators and dispatchers can plan and control the operations of their vehicles with ease.
Supervisory control and data acquisition (SCADA) refers to the concept of monitoring and controlling diverse technical processes, generally the control and monitoring of systems that are located at a distance from the control room (remote monitoring and telecontrol).
Data acquisition usually starts at a local control system, combining measuring instruments and status information. The data is then forwarded to the parent element of the SCADA system, where it is presented in a user-friendly format. To operate a SCADA system, data transmission between the components of the SCADA system must be carried out quickly and reliably. This ensures the remote control of technical sequences can be delivered reliably and automatically via control sequences.
Many countries already have legislation in place to control the cost of power and gas consumption for the consumer, providing daily updates on request. Our TETRA systems offer a cost-efficient solution for small and regional utility providers, providing a reliable transmission platform to transmit the data recorded by the intelligent counters to the operations center.