Traditionally, the greatest rises tend to precipitate the hardest falls. However, we occasionally encounter a situation where a fall is essential to advancing the greatest of rises.
The case of cellular IoT provides us with such a scenario:
According to recent projections, we can expect to see cellular IoT grow to some 2.4 billion connections by 2025, the majority of which will be in the automotive space, closely followed by security and utilities applications. Indeed, with the ongoing rollout of CAT-M1 networks – to be followed by the first NB-IoT networks later this year – there will be few (if any) IoT markets that LTE does not address.
Impressive though this number is, the increase in cellular IoT connections and applications should not be too surprising, given the recent advances of LTE technologies. Instead, it is the “fall” that LTE has had to take to become the most viable connectivity solution that is intriguing.
LTE has had to shrug off its traditional mantle as a power-hungry and highly expensive broadband technology, to a fallen version in the form of cellular IoT. Fallen in terms of ultra-low power consumption and reduced throughput at the lowest possible cost.
The new generation of LTE technologies – optimized to address the specific power, cost and throughput requirements demanded by these emerging use cases – will continue to address the evolution of IoT connectivity, as chipsets progress in 3GPP Release 14 and beyond, with a Software Defined Radio (SDR) architecture specifically designed to support this evolution.
With support for such advanced features as voice and mobility, CAT-M1 will undeniably support the broadest range of applications. Meanwhile, CAT-NB1 will address those low-throughput and delay-tolerant devices that demand ultra-low power and the most competitive price points.
Thus, the “fall” of 4G LTE will ultimately be the cause of its rise, as it continues to provide cellular connectivity for the vast majority of IoT applications – ranging from wearables, tracking devices and utilities to vehicle telematics, smart city management and security systems. The true differentiator will be a viable dual-mode CAT-M1/NB1 chipset – optimizable for a range of pricing, traffic profiles and RF conditions.