Terrestrial Trunked Radio: Emerging as the Global Standard for Mission Critical Communications

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Terrestrial Trunked Radio, digital communication, analog radio systems, transportation systems, militaries, utility companies, analog radio systems

Evolution of Land Mobile Radio Communication

Over the years, land mobile radio (LMR) communication systems have evolved significantly to meet the growing needs of public safety, transportation, utilities and other industries that require critical communications. Two-way radio technologies like analog radio systems were first introduced in the 1950s allowing mobile voice communication. However, these early analog systems had limitations in terms of voice quality, capacity and functionality. Starting in the 1980s, agencies began adopting digital mobile radio (DMR) systems promising better spectral efficiency and enhanced features. While DMR addressed some limitations of analog, the technology still lacked trunking capabilities and was not fully interoperable.

The Advent of TETRA Standard

In the 1990s, the Telecommunications Standards Institute developed The Terrestrial Trunked Radio (TETRA) standard to provide a comprehensive, open digital mobile radio solution supporting both voice and data applications. TETRA integrates trunking functionality allowing dynamic allocation of discrete radio frequencies in a pool for improved spectral efficiency. It also enhances features like encryption, push-to-talk group calls, data services, location tracking and interoperability between networks. The TETRA standard was approved in 1996 and has been continually upgraded to keep pace with technological advancements. It is now established as the dominant standard adopted globally for mission critical voice and broadband data communication across industries.

Key Benefits of TETRA over Legacy Systems

Some of the key advantages of TETRA networks over legacy LMR systems include:

- Trunking Functionality: TETRA enables dynamic sharing of a limited pool of radio frequencies between multiple users through trunking. This improves spectral efficiency up to four times compared to conventional systems.

- Encryption: Built-in encryption capabilities in TETRA ensure secure communication of critical voice/data transmissions from eavesdropping and interference.

- Interoperability: TETRA defines standardized protocol enabling seamless communication between different manufacturers' equipment and across networks. This is vital for incidence response requiring coordination.

- Quality of Service: The TETRA standard provides specified levels of priority, security, reliability and availability for different classes of service to meet mission requirements.

- Advanced Data Services: TETRA supports various narrowband and broadband IP-based data applications along with location services and SMS-like messaging.

Widespread Adoption in Critical Sectors

Reliable and secure communication is a necessity for critical operations in industries like public safety, transportation, utilities and mining. Recognizing its benefits, TETRA has been adopted by several military and government organizations globally for command and control. Transportation agencies have also standardized on TETRA networks for rail, metro, tunnel and road operations. Utilities leverage TETRA to coordinate maintenance, response and ensure employee safety. Its superior functionality has led to large scale rollouts across Europe, Asia and other regions worldwide making it the de facto standard replacing legacy systems.

Future Evolution of TETRA with Long Term Architecture

As mission requirements evolve with advancements in broadband technologies, the TETRA community is working on the long term architecture (LTE) standard to integrate IP-based multimedia and data services while retaining the highly reliable dedicated voice capabilities. LTE aims to support scalable bandwidth from narrowband to broadband, interworking with commercial networks and migration from TETRA over multi-stage upgrades. Early LTE-TETRA integration trials showcasing Push-to-X services are encouraging for its long term roadmap. Together with profile enhancements, LTE will allow TETRA to continue addressing new use cases with its time-tested features of security, reliability and interoperability into the future.

Conclusion

Over the last 25 years, terrestrial trunked radio has emerged as the leading global standard for mission critical communication systems. Its open standard architecture along with focused capabilities have made it the preferred solution for operations requiring robust, real-time group or point-to-point communication under all conditions. With over 30 million devices deployed worldwide, TETRA will remain the technology of choice for public safety, transportation and industrial organizations needing dependable connectivity in critical work environments for years to come.

 

 

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