Deutsche Telecom has made another historic step in the history of the telecom sector, becoming the first to offer a multi-orbit IoT roaming service in the world, using both GEO and LEO satellites to ensure uninterrupted connectivity by means of NB-IoT. This technology solves the need to have stronger IoT connectivity in at least the remote regions where the traditional networks may fail to abide by the demand, as there are coverage gaps or poor signal coverage.
One of the enablers that have facilitated this success is the roaming testing solution that makes sure that all the orbital networks perform flawlessly by testing every connection point to the maximum level.
How Role of Roaming Testing Solution works in Multi-Orbit Networks
The roaming testing solution is also critical in confirming the interoperability between the satellite systems and the terrestrial networks, and this testing also simulates complex handoff experienced in the actual deployment. Telecommunication companies such as Deutsche Telekom find this roaming testing solution extremely important to simulate transit conditions in the world such as high altitude equipment movement and international signaling.
Through the deployment of a strong roaming testing solution during the early phases of development, they essentially eliminate the threats of signal drops, undue data latency or delay during authentication which is common in the multi-orbit environment. Mobile solutions developer, Telcovas, has played an important role in offering complementary tools to complement these abilities, which enable communication service providers (CSPs) to achieve greater profits by maximizing the roaming receivables.
Telecom Roaming Impact in the Future
With the ongoing growth in travelers and IoT devices all around the world, there has never been a greater need of a holistic roaming testing solution, as the post-pandemic travel booms further increased demands on the continuity of services in a foreign location. This roaming testing product gives telcos the ability to thoroughly test inbound and outbound roaming cases, including voice, data, messaging and even new video services over 5G, 4G and legacy networks.
It also works proactively to spot problems such as billing discrepancies, roaming partnering mismatch and authentication failure before they develop to customer complaints. Telcovas also supplements this ecosystem by providing an SMS-based service that proactively notifies the roamers about local tariffs, which in effect avoid bill shock cases and leads to long term customer loyalty.
In addition, the roaming testing solution will include the state-of-the-art AI-based analytics to track the essential quality of service (QoS) indicators in real-time, e.g. the rate of packet loss and jitter when the network is under load.
This is a data-driven strategy that does not only increase customer satisfaction rates but also reduces operational costs by preventing a high number of network failures with a series of predictive alerts.
In the competitive markets, telcos implementing such a high-level roaming testing solution gain a unique advantage, which allows developing global partnerships and service portfolios in a short time frame. In the future, the multi-orbit IoT roaming program by Deutsche Telekom will set a groundbreaking precedent as it can be used to create new applications in logistics using real-time tracking of cargo, remote sensor networks in agriculture, and monitoring of urban infrastructure where real-time, low-latency connectivity is essential.
Focusing on the state-of-the-art roaming testing solution will not only future-proof the infrastructure to the 6G horizons, but it will also serve as an example to the industry to adopt the new executive solution which will stimulate sustainable revenue growth, higher reliability, and unprecedented retention of customers in the becoming more connected world.