Growth forecasts for the booming Internet of Things (IoT) vary widely depending on how experts define the IoT; however, all agree on the incredible growth in the coming years. The latest estimate from IHS predicts more than 75 billion smart devices in use by 2025 representing a 400% increase over the roughly 15 billion devices in use today. This prediction ups the ante on IDC’s earlier estimate of 31 billion by 2020. Whatever the rate, the fact is the marketplace is transitioning from “growth potential” to many billions of realized new connections and cellular Mobile Network Operators are investing heavily in technologies that can support billions of new customers.
Until recently, less than 10 percent of all IoT connections were supported by cellular networks. This is partly because the vast majority of IoT connections are industrial IoT (IIoT) solutions that are best served with low bandwidth, highly efficient connectivity that supports extended battery life. Traditional 4G wireless networks offer more horsepower than these use cases require. In addition, IIoT applications require seamless coverage in remote environments where staying connected can draw down battery power and shorten device lifespan. However, the ratio of cellular to non-cellular connectivity is set to change dramatically with the advent of 5G and NB-IoT, which is simply described as a fast growing cellular technology offering low power, highly efficient and cost effective connectivity using only a fraction the 4G LTE frequency band.
What is Narrowband IoT (NB-IoT)?
Narrowband IoT (NB-IoT) is a new fast growing wireless technology 3GPP cellular technology standard introduced in Release 13 that addresses the LPWA requirements of the IoT. that was Classified as a 5G technology, istandardized by 3GPP in 2016. It is fast emerging as the best in classa leading LPWAN technology to enable a wide range of new IIoT devices including smart parking, utilities, wearables, and industrial solutions. It is characterized by excellent indoor coverage, support of a massive number of connections, cost efficiency, low device power consumption and optimized network architecture. It can This is due to its ability to efficiently connect large fleets of devices, - up to 50,000 per NB-IoT network cell - , while minimizing power consumption and increasing coverage range in locations not served by conventional cellular technologies.
How does NB-IoT better serve IIoT solutions?
NB-IoT greatly improves network efficiency, increasing the capacity to support a massive number of new connections using only a portion of the available spectrum. This efficiency in turn, minimizes power consumption enabling a battery life of more than 10 years. In addition, NB-IoT penetrates deep underground and into enclosed spaces providing 20+dB coverage indoors.
Is NB-IoT secure?
The underlying technology is less complex than traditional cellular modules, which simplifies design, development, and deployment for OEMs. At the same time, it offers the same tried and true security and privacy features of LTE mobile networks including support for user identity confidentiality, entity authentication, data integrity, and mobile device identification.
When will NB-IoT connectivity modules be commercially available?
Gemalto and Huawei are leading the drive to accelerate NB-IoT and expand the marketplace by combining their core strengths in a strategic cooperation to develop connectivity modules. By leveraging Gemalto’s expertise in cellular connectivity and digital security with Huawei’s high-performance NB-IoT chipsets, a new breed of highly efficient LPWA IoT modules is helping IoT device manufacturers reduce the cost, size and efficiency of their devices. This comes just in time to meet surging demand for NB-IoT modules, which are forecast to account for 20 percent of all cellular shipments by 2021 according to ABI Research. The first NB-IoT commercial launches were completed in 2017 with global rollouts expected throughout 2018 and beyond.
How is NB-IoT different than other LPWAN technologies such as LTE-M?
LTE-M, industry shorthand for “Long-Term Evolution (LTE) machine-type communications (MTC),” is a LPWA technology standard introduced by 3GPP in Release 13. As described by the GSMA, it is a 5G technology that supports simplified device complexity, massive connection density, low device power consumption, low latency and it provides extended coverage, while allowing the reuse of the LTE installed base. LTE-M deployment can be done “in-band” within a normal LTE carrier, or “standalone” in a dedicated spectrum. It leverages LTE spread spectrum technology, which is free. It serves a broad set of use cases providing an attractive option for device manufacturers looking to deploy on current cellular networks.
Narrowband IoT (NB-IoT) leverages DSSS modulation technology vs. LTE spread technology for connectivity. NB-IoT is very flexible and can operate in 2G, 3G and 4G band and it eliminates the need for a gateway, which saves cost in the long run. It is characterized by improved indoor coverage, support of a massive number of low throughput devices, low delay sensitivity, low device power consumption, optimized network architecture and it is ultra-cost efficient. Like LTE-M, NB-IoT can be deployed
“in-band” within a normal LTE carrier, or “standalone” for deployments in dedicated spectrum. Additionally, NB-IoT can also be deployed in an LTE carrier’s guard-band. Dual mode modules will be offered in the future that support both NB-IoT and LTE-M.
Huawei and Gemalto team up to accelerate NarrowBand IoT deployments