Integration brings LoRaWAN® connected intelligence to battery-powered industrial IoT EMASS, a Nanoveu subsidiary specializing in next-generation semiconductor technology, today announced a strategic collaboration with Semtech to bring low-power edge AI solutions integrated with LoRaWAN® connectivity to market. EMASS’s ECS-DoT AI-enabled system-on-chips (SoCs) integrate Semtech’s LoRa® transceivers, enabling long-range, battery-efficient intelligence for industrial, IoT, and other connected applications. The integration enables ...
Integration brings LoRaWAN® connected intelligence to battery-powered industrial IoT EMASS, a Nanoveu subsidiary specializing in next-generation semiconductor technology, today announced a strategic collaboration with Semtech to bring low-power edge AI solutions integrated with LoRaWAN® connectivity to market. EMASS’s ECS-DoT AI-enabled system-on-chips (SoCs) integrate Semtech’s LoRa® transceivers, enabling long-range, battery-efficient intelligence for industrial, IoT, and other connected applications. The integration enables ...
The IoT world is expanding fast, but the ground beneath it is far from stable. Platforms shut down, companies pivot, and once reliable ecosystems can vanish overnight, turning working hardware into stranded assets. The idea of a “forever platform” no longer holds. Modern IoT architects must now build systems that can detach as easily as they connect. In a landscape ...
The IoT world is expanding fast, but the ground beneath it is far from stable. Platforms shut down, companies pivot, and once reliable ecosystems can vanish overnight, turning working hardware into stranded assets. The idea of a “forever platform” no longer holds. Modern IoT architects must now build systems that can detach as easily as they connect. In a landscape ...
The IoT world is expanding fast, but the ground beneath it is far from stable. Platforms shut down, companies pivot, and once reliable ecosystems can vanish overnight, turning working hardware into stranded assets. The idea of a “forever platform” no longer holds. Modern IoT architects must now build systems that can detach as easily as they connect. In a landscape ...
The IoT world is expanding fast, but the ground beneath it is far from stable. Platforms shut down, companies pivot, and once reliable ecosystems can vanish overnight, turning working hardware into stranded assets. The idea of a “forever platform” no longer holds. Modern IoT architects must now build systems that can detach as easily as they connect. In a landscape ...
The IoT world is expanding fast, but the ground beneath it is far from stable. Platforms shut down, companies pivot, and once reliable ecosystems can vanish overnight, turning working hardware into stranded assets. The idea of a “forever platform” no longer holds. Modern IoT architects must now build systems that can detach as easily as they connect. In a landscape ...
The IoT world is expanding fast, but the ground beneath it is far from stable. Platforms shut down, companies pivot, and once reliable ecosystems can vanish overnight, turning working hardware into stranded assets. The idea of a “forever platform” no longer holds. Modern IoT architects must now build systems that can detach as easily as they connect. In a landscape ...
The IoT world is expanding fast, but the ground beneath it is far from stable. Platforms shut down, companies pivot, and once reliable ecosystems can vanish overnight, turning working hardware into stranded assets. The idea of a “forever platform” no longer holds. Modern IoT architects must now build systems that can detach as easily as they connect. In a landscape ...
The IoT world is expanding fast, but the ground beneath it is far from stable. Platforms shut down, companies pivot, and once reliable ecosystems can vanish overnight, turning working hardware into stranded assets. The idea of a “forever platform” no longer holds. Modern IoT architects must now build systems that can detach as easily as they connect. In a landscape ...