Many network applications, eg, industrial control, demand ultra-low latency (ULL). However,
traditional packet networks can only reduce the end-to-end latencies to the order of tens of …

While the current generation of mobile and fixed communication networks has been
standardized for mobile broadband services, the next generation is driven by the vision of …

The extreme traffic load that future wireless networks are expected to accommodate requires
a rethinking of the system design. The initial estimations indicate that, unlike the evolutionary …

Motivated by the increasing variance of suggested Internet of Things (IoT) applications and
the lack of suitability of current wireless technologies in scalable, long range deployments, a …

Previous survey articles on Low-Powered Wide-Area Networks (LPWANs) lack a systematic
analysis of the design goals of LPWAN and the design decisions adopted by various …

The exponential growth and availability of data in all forms is the main booster to the
continuing evolution in the communications industry. The popularization of traffic-intensive …

Mobile networking to achieve the ultra-low latency goal of 1 msec enables massive
operation of autonomous vehicles and other intelligent mobile machines, and emerges as …

The rapid emergence of low-power embedded devices and modern machine learning (ML)
algorithms has created a new Internet of Things (IoT) era where lightweight ML frameworks …

We are on the entry of the exponential advancement of the internet-of-things (IoT) due to the
quick development of internet-connected smart-objects. As the number of connected smart …

The IoT domain is characterized by many applications that require low-bandwidth
communications over a long range, at a low cost and at low power. Low power wide area …