Satellite Connectivity

Non-Terrestrial Networks (NTN) are satellite-based communication networks standardized by the 3GPP organization to extend cellular connectivity beyond traditional terrestrial coverage. NTN enables IoT devices to connect directly to satellites using standard cellular technologies such as NB-IoT and LTE-M, allowing businesses to maintain connectivity in remote locations, offshore environments, rural areas, and regions with limited cellular infrastructure. NTN is a key technology for global asset tracking, maritime monitoring, agriculture, mining, and critical infrastructure applications.

Monogoto provides access to multiple satellite connectivity partners, including Skylo, OQ Technology, and Terrestar, enabling global coverage across terrestrial and non-terrestrial networks. By leveraging multiple satellite providers and technologies, organizations can extend IoT connectivity to remote land areas, offshore operations, transportation corridors, and other locations where traditional cellular coverage may be unavailable.

Monogoto’s approach to hybrid cellular and satellite connectivity was recognized with the 2025 Satellite IoT Innovation Award from IoT Evolution World, honoring solutions that help deliver always-on IoT connectivity across terrestrial and non-terrestrial networks.

Cellular-to-satellite failover enables connected devices to automatically switch between terrestrial cellular networks and satellite networks based on coverage availability. When cellular service is available, devices typically use terrestrial connectivity. If coverage is lost, the device can transition to satellite connectivity to maintain communication and data transmission. This helps ensure continuous connectivity for mission-critical IoT applications operating across remote or mobile environments.

Many modern IoT devices equipped with NTN-compatible cellular modules can connect to satellite networks. This includes asset trackers, telematics devices, environmental sensors, industrial monitoring equipment, maritime systems, and remote infrastructure applications. As support for NTN standards continues to expand, device manufacturers are increasingly building satellite-ready capabilities into NB-IoT and LTE-M modules, simplifying deployment across both cellular and satellite networks.

Satellite IoT latency varies depending on the satellite architecture and network technology being used. Low Earth Orbit (LEO) satellite networks typically provide lower latency than traditional geostationary satellites, making them suitable for many IoT applications. For low-bandwidth use cases such as asset tracking, environmental monitoring, equipment telemetry, and remote sensing, satellite IoT latency is generally sufficient to support reliable data transmission and operational visibility.

No. Modern satellite IoT solutions built on 3GPP Non-Terrestrial Network (NTN) standards are designed to work with NTN-capable NB-IoT and LTE-M modules, eliminating the need for large satellite dishes or specialized equipment. Devices can use compact antennas and low-power hardware similar to traditional cellular IoT deployments, making satellite connectivity more practical for asset tracking, remote monitoring, and industrial IoT applications.

Yes. Hybrid connectivity solutions allow a single SIM, eSIM, or iSIM to authenticate across both terrestrial cellular networks and satellite (NTN) networks. This enables organizations to manage devices through a single connectivity platform while maintaining coverage in areas where cellular networks may not be available.

Getting started with satellite IoT typically requires an NTN-compatible device, a connectivity provider that supports satellite networks, and coverage in the regions where devices will operate. Many organizations begin with pilot deployments to test hybrid cellular-satellite connectivity before scaling to production, ensuring devices can maintain connectivity across both covered and remote environments.