Pre-provisioned cellular connectivity aims to simplify IoT manufacturing, logistics, and device activation at scale emnify, a cloud-native IoT connectivity provider, is introducing a factory-first approach to IoT connectivity that enables devices to connect instantly, reliably, and globally the moment they power on. An award-winning leader in eSIM and IoT connectivity, emnify brings this factory-first approach to CES 2026 to address ...
Pre-provisioned cellular connectivity aims to simplify IoT manufacturing, logistics, and device activation at scale emnify, a cloud-native IoT connectivity provider, is introducing a factory-first approach to IoT connectivity that enables devices to connect instantly, reliably, and globally the moment they power on. An award-winning leader in eSIM and IoT connectivity, emnify brings this factory-first approach to CES 2026 to address ...
Pre-provisioned cellular connectivity aims to simplify IoT manufacturing, logistics, and device activation at scale emnify, a cloud-native IoT connectivity provider, is introducing a factory-first approach to IoT connectivity that enables devices to connect instantly, reliably, and globally the moment they power on. An award-winning leader in eSIM and IoT connectivity, emnify brings this factory-first approach to CES 2026 to address ...
Key Insights (AI-assisted): Validating a mainstream Nordic cellular IoT chipset over a 3GPP-compliant NTN removes a major barrier between terrestrial LPWAN deployments and satellite coverage. It signals that existing NB-IoT device designs can be extended to LEO networks without hardware respins, which accelerates OEM roadmaps and reduces integration risk for operators planning hybrid terrestrial–non-terrestrial footprints. OQ’s fully in-house NTN stack ...
Key Insights (AI-assisted): Validating a mainstream Nordic cellular IoT chipset over a 3GPP-compliant NTN removes a major barrier between terrestrial LPWAN deployments and satellite coverage. It signals that existing NB-IoT device designs can be extended to LEO networks without hardware respins, which accelerates OEM roadmaps and reduces integration risk for operators planning hybrid terrestrial–non-terrestrial footprints. OQ’s fully in-house NTN stack ...
Key Insights (AI-assisted): Validating a mainstream Nordic cellular IoT chipset over a 3GPP-compliant NTN removes a major barrier between terrestrial LPWAN deployments and satellite coverage. It signals that existing NB-IoT device designs can be extended to LEO networks without hardware respins, which accelerates OEM roadmaps and reduces integration risk for operators planning hybrid terrestrial–non-terrestrial footprints. OQ’s fully in-house NTN stack ...
Key Insights (AI-assisted): Validating a mainstream Nordic cellular IoT chipset over a 3GPP-compliant NTN removes a major barrier between terrestrial LPWAN deployments and satellite coverage. It signals that existing NB-IoT device designs can be extended to LEO networks without hardware respins, which accelerates OEM roadmaps and reduces integration risk for operators planning hybrid terrestrial–non-terrestrial footprints. OQ’s fully in-house NTN stack ...
Key Insights (AI-assisted): Validating a mainstream Nordic cellular IoT chipset over a 3GPP-compliant NTN removes a major barrier between terrestrial LPWAN deployments and satellite coverage. It signals that existing NB-IoT device designs can be extended to LEO networks without hardware respins, which accelerates OEM roadmaps and reduces integration risk for operators planning hybrid terrestrial–non-terrestrial footprints. OQ’s fully in-house NTN stack ...
Key Insights (AI-assisted): Validating a mainstream Nordic cellular IoT chipset over a 3GPP-compliant NTN removes a major barrier between terrestrial LPWAN deployments and satellite coverage. It signals that existing NB-IoT device designs can be extended to LEO networks without hardware respins, which accelerates OEM roadmaps and reduces integration risk for operators planning hybrid terrestrial–non-terrestrial footprints. OQ’s fully in-house NTN stack ...
Key Insights (AI-assisted): Validating a mainstream Nordic cellular IoT chipset over a 3GPP-compliant NTN removes a major barrier between terrestrial LPWAN deployments and satellite coverage. It signals that existing NB-IoT device designs can be extended to LEO networks without hardware respins, which accelerates OEM roadmaps and reduces integration risk for operators planning hybrid terrestrial–non-terrestrial footprints. OQ’s fully in-house NTN stack ...