Engineers from the National Institute of Standards and Technology (NIST) have built cheap computer system , which connects older public safety radios to the latest wireless communications networks, showing how first responders can easily take advantage of broadband technology, offering voice, text, instant messaging, video and data capabilities.
NIST’s prototype system can help overcome a major barrier to upgrading public safety communications. Many of the 4.6 million U.S. public safety officials still use traditional analog radios because of the high cost of switching to digital cell phones and the slow switching on of these systems to older push-to-talk features that are both familiar and critical. for the first responders.
“This NIST project aims to develop a prototype infrastructure that can be used by retailers to create a low-cost solution for public safety users that allows them to connect their radio systems to broadband networks,” said the NIST engineer. Jordan O’Dell.
“There is no commercial option that can be compared to what we are developing. The goal here is to create a prototype and accelerate the development of technology in the industry, which will fill a significant gap. “
The NIST prototype connects analog mobile phones and Land Mobile Radio (LMR) towers with Long-Term Evolution (LTE) – the most common wireless standard – a server that manages broadband operations. The LTE system is known as Mission Critical Push-to-Talk, which addresses essential aspects of public safety radios such as high availability and reliability, speaker identification, emergency calls and clear sound quality.
As described in a recent report, the NIST system has three main parts:
- Software-defined radio – using software instead of hardware to allow flexible frequency selection and interface design – that interacts with LMR signaling interfaces and feeds this data to the next device;
- An open source software environment for controlling a software radio that deals with digital signal processing; and
- LTE headset user interface that allows LMR radio users to talk to LTE network users as if they were both on the same push-to-talk network, with calls initiated by both parties.
NIST’s project objectives include stability, low cost and close compliance with existing and future standards. Physical equipment includes computer hardware that performs all three components, appropriate software, and an antenna. The computer must have an Internet connection to the LTE system. The whole setup is the size of a video game console plus a laptop or desktop computer.
The NIST system costs less than existing industry and government efforts to connect radio and mobile networks. Such an activity requires a radio system that supports the interface of the Project 25 radio frequency subsystem, which few public safety agencies have or can afford to purchase or upgrade. Another effort to connect existing headphones to a “box” that connects to the broadband network requires special radios and “donor” interfaces, also expensive.
“We want public safety agencies to have a very cheap option that can interact with old technology when other options are not available,” O’Dell said.
NIST researchers continue to work on the prototype with plans to improve the interface to the broadband network and connect to additional types of radio stations. To encourage technology transfer, they intend to publicly release all open source capabilities for use by everyone.
This work was made possible by Public Safety Trust Fund, which provides funding to organizations throughout NIST, using NIST’s expertise in communications, cybersecurity, manufacturing, and sensors to research critical, life-saving first responders.
(Visited 76 times, 7 visits today)