To adapt to technology innovations and potential cybersecurity attacks, including from quantum computers, the ETSI technical committee TCCE has completed work on new algorithms designed to secure TETRA networks for at least the next 20 years. These new specifications, ETSI TS 100 392-7 and ETSI TS 100 396-6 have been developed in close collaboration with experts from the ETSI quantum safe cryptography group.
This work was carried out with the support of TCCA, the global representative organization responsible for the enhancement of the TETRA standard. Demand for TETRA technology will continue to increase at a CAGR of 4.7% in the 2021-2026 forecast period, according to Omdia.
TETRA is widely used by public safety agencies around the world as, in addition to secure and resilient network communications it also offers direct peer-to-peer critical communications without the need for a supporting network in situations such as natural disasters and emergencies. Nations want to deploy networks shared by all public safety organizations and first responders to fully interoperate with other services during emergency situations and disasters. The transportation market is also a large market for TETRA, especially for Mass Rapid Transport systems, such as the London Underground network, and the Parisian metro network managed by RATP, and many major airports.
Technical details
TETRA is a digital Private Mobile Radio (PMR) and Public Access Mobile Radio (PAMR) technology for critical communications with a specific set of communication requirements. These include high reliability, single and group calling capabilities, PTT (Push-To-Talk), and the possibility for direct peer-to-peer communications. TETRA is optimised for medium to high capacity applications by utilising Time Division Multiple Access (TDMA) technology.
Some unique PMR services of TETRA include:
Supporting quotes
“It is vital to keep the TETRA cryptography updated with the latest cybersecurity algorithms when you realise the variety of sensitive organizations and applications TETRA systems serve. The EU Parliament and Commission for instance use a secure TETRA system to protect their building and communication networks, a scenario where failure or security compromise is unthinkable,” said Brian Murgatroyd, Chair of ETSI TCCE committee.
“This upgrade of the TETRA standard confirms and reinforces the efforts of the TETRA industry community to support TETRA as the optimal mission critical communication technology for the long-term future,” said Francesco Pasquali, Chair of TCCA’s TETRA Industry Group (TIG) and TCCA Board Member. “Our commitment to maintaining TETRA’s outstanding and unrivalled level of security is essential, especially in a continuously evolving and challenging context where new cyber threats are coming not only from isolated cybercrime actors, but from organised hostile countries.”
“These new air interface encryption algorithms will support TETRA into the foreseeable future. They are designed to withstand brute force attack beyond the year 2040 even if quantum computers become a viable means of attack, with new over-the-air key management algorithms and authentication keys to further strengthen the security of the standard,” said Dave Chater-Lea, Vice Chair of the ETSI TCCE committee.
“It is also important to note that TETRA meets the requirements of the military, and now more than ever, as there is both an increase in modern warfare technologies and a growing need for real-time information in operations. At the same time, TETRA is key for peace keeping for the United Nations to improve the security of strategic and tactical communications,” said Jukka Vialen, Vice Chair of the ETSI TCCE committee.
