Satellites for a better Deutsche Telekom IoT GmbH (T IoT) is currently working with two specialists to integrate satellite services into the IoT network: Intelsat and Skylo. Together they presented initial use cases at the MWC mobile communications trade fair in Barcelona: the networking of wind turbines in remote regions and the recording of water levels and weather data at risk locations in AI quality. In the future global IoT network, according to Telekom, there will be high-performance broadband connections even on the high seas.
T IoT: simple, global, convergent
In the future, companies should be able to communicate securely and reliably across oceans and continents with their IoT devices. There are now no longer any limits to global applications in the Saudi Arabia Phone Number List Internet of Things. Areas with poor mobile phone coverage, data transmissions across large bodies of water or in the air: communication via satellite is the answer to these last hurdles that still stood in the way of the global IoT network. And, according to Telekom, this is now affordable too. Telekom will launch an offer for convergent connectivity in the second quarter: the interface is the T IoT Hub . It offers customers the opportunity to put together their connectivity as they wish. The appropriate hardware, e.g. satellite terminals or routers , can be booked as an option . There is also help with installation.
Collaboration with Intelsat and Sky lo
T IoT currently relies on two partners: Intelsat stands for cell phone number listing more broadband applications, Skylo covers the needs for narrowband devices (NB-IoT) via satellite. Intelsat, a provider of satellite services with global coverage, enables Telekom’s IoT customers to directly use a worldwide satellite infrastructure. With Skylo, companies can use convergent end devices for their IoT applications for the first time. In the future, NB-IoT-capable devices or modules will also be able to connect to the satellite network. This is where the new “direct-to-device” standard of 5G -NTN technology (3GPP Rel. 17) comes into play. The devices would then switch autonomously and seamlessly between terrestrial and non-terrestrial networks. Relevant use cases include, for example, the tracking of goods or transparency of supply chains around the globe.
T-IoT satellite communication under test
Companies from various industries are currently testing this offer. Initial application scenarios were presented at the MWC, such as the networking of wind turbines from Lanthan GmbH. Remote areas in particular are not yet adequately covered by mobile communications. The safety of flight operations is the top priority here. To achieve this, the systems would have to send their light signals in a fail-safe manner and the network would have to be permanently available for the very frequent transmission of data. In addition, the light pollution caused by the operation of the systems would have to be as low as possible.
The data specialist Divirod helps municipalities and Bulk Database companies with water risks. To provide quick information, digital sensors record water levels in reservoirs and rivers or monitor coasts. The solutions have already been tested: sensors collect water data in risk areas such as Florida to prepare for storms and protect cultural heritage in Venice.
The Federal Waterways and Shipping Administration (WSV) is now testing this service. The aim is to collect valuable data on water levels, flow rates, wave heights and quality in AI quality in order to make inland shipping safer on the one hand and to protect flora and fauna on the other. For example, pollution from agriculture or industry could be closely monitored. The basis for this is a constant flow of data over several weeks.
