LTE-M: Optimizing LTE for the Internet of Things (Nokia Networks WP) LTE-M: Optimizing LTE for the Internet of Things Numerous services are envisioned for cellular IoT, including utility meters, vending machines, automotive (fleet management, smart traffic, real time traffic information to the vehicle, security monitoring and reporting), medical metering and alerting. In addition, different devices such as e-book readers, GPS navigation aids and digital cameras are already connected to the Internet. The key requirements for cellular IoT to enable these services and to compete with non-cellular technologies are: • Long battery life • Low device…
Ten key rules of 5G deployment Enabling 1 Tbit/s/km2 in 2030 By 2030 there is likely to be as much as 10,000 times more wireless data traffic criss-crossing networks than there was in 2010, according to Nokia estimates. The growth will be driven by the use of ultra-high resolution video streaming, the ubiquity of cloud-based applications, entertainment and greater use of high resolution screens at form factors we may not even guess at today. As well as more of the same, we will see new use cases, applications and devices stemming from the powerful trend…
Nokia – LTE M2M: Optimizing LTE for the Internet of Things
LTE M2M: Optimizing LTE for the Internet of Things Nokia white paper Executive Summary The Internet of Things (IoT) is expected to be the next big thing in the mobile ecosystem, with IoT services being a key driver for further growth in cellular. Numerous services are envisioned for IoT over cellular networks, including utility meters, vending machines and automotive applications. The latter has many categories such as fleet management, smart traffic, real time traffic information to the vehicle, security alerts and reporting, medical metering and alerts. Different connected devices such as E-book readers, GPS navigation…
5G Radio Access System Design Aspects Nokia Networks white paper Summary 5G will be an ultra-fast and ultra-flexible communication network including different technologies, but will be transparent for the end user and easy to manage for the operator. Additionally, 5G needs to address the predicted large increase in data traffic and will have to fulfil the capacity, data rate and latency requirements of next- generation devices. To enable the capacity and data rate requirements for 5G, new spectrum bands are required, along with the massive densification of small cells. Ultra dense small cells will be…