Communications between two different land mobile radio systems is referred to as interoperability. Interworking is a term used when a land mobile radio system is communicating with an LTE based system.
Interoperability between different radio systems and different radio frequencies was a problem long before the September 11, 2001 attacks on the United States. However, September 11 galvanized efforts to create radio communications interoperability. Since then, great progress has been made. However, interoperability between systems that matches the capabilities of each individual system has remained elusive.
The US Congress created FirstNet™ as an independent authority within the National Telecommunications and Information Administration in 2012. The purpose of FirstNet™ is to establish, operate, and maintain an interoperable public safety broadband network. Congress allotted seven billion dollars and 20 MHz of valuable radio spectrum to build the network in order to fulfill these objectives.
It quickly became apparent, while the early deliverables of FirstNet™ were focused on data applications, that a primary user application requirement was for Push-To-Talk voice communications. With that realization, it was evident that interworking between existing land mobile radio users and new users on the FirstNet™ LTE network would be required.
Some early innovators created LMR LTE interoperability by patching “over the top” push to talk services with land mobile radio systems. None of these PTT over cellular solutions currently on the market are designed to be used to deliver the mission-critical voice communications traditionally transmitted via LMR systems. In contrast, PTT solutions meeting the 3GPP standard for MCPTT are designed to meet or exceed the performance of public-safety LMR standards like P25 and TETRA when the user device is connected to an LTE network. In addition to meeting or bettering LMR standards for latency and call-setup times, MCPTT-compliant offerings are expected to provide notably better voice quality than LMR technologies because more bandwidth is available in LTE and users are closer to the cell site, so higher-level codecs can be used.
Many organizations, including DHS Science and Technology (S&T) Directorate, recognized that a more comprehensive solution was necessary if FirstNet™ MCPTT were to be adopted by the first responder community. With one of its missions being advocacy for public safety, a DHS S&T Small Business Innovation Research (SBIR) solicitation was issued to investigate the feasibility of solving these challenges. DHS S&T selected, through a competition, two of the companies responding to this solicitation for the Phase 1 research award. Catalyst Communications Technologies, Inc. was one of those companies.
The research award was granted in April 2018 and the results were submitted in November 2018. A paper discussing the goals of the research, results, and design for an LMR LTE Interworking solution has been offered. If you are an organization that wishes to migrate to, or interoperate with, FirstNet™, you can learn more by clicking HERE.
With the announcement in April 2019 that Catalyst had been awarded a $1 million Phase II contract from DHS S&T to develop a prototype based upon the results of the Phase I research, Catalyst has firmly established its position as a leading contributor to the maturation of FirstNet™ and other next generation critical communications services based upon LTE technology. IntelliLink™ Interworking is the first product announced resulting from this initiative.
The compelling requirement for a Standards Compliant Solution
FirstNet™ and the First Responder community are committed to standards-based interfaces for both LMR and LTE networks to enable communications between Mission Critical Push to Talk devices on these networks. Catalyst’s new IntelliLink™ Interworking product is a complete departure from existing “Over the Top” PTT over LTE solutions because:
- We are compliant with the MCPTT Standard, not “almost mission critical”.
- True MCPTT provides the performance and features that Public Safety needs (minimal delay, protecting against lost syllables and words, meta data, and priority).
- True MCPTT can be integrated with the carrier’s broader solution so that, for instance, subscribers can manage their device so that PTT audio is not lost when someone places a telephone call to their cell phone.
The Catalyst approach best meets the needs of Public Safety because:
- Catalyst’s technology protects against dropped syllables and hung channels.
- Catalyst’s Dispatch Console provides a high level of symmetry with what First Responders currently receive, including Unit ID, Alias, and Emergency Indication from users on both networks.
- Catalyst’s radio interface technology supports a wide array of LMR radio systems, not just ISSI.
- Catalyst provides an intuitive User Interface for managing Interworking that does not require a Catalyst console.