Motivated by the current interest in ultra-reliable, low-latency, machine-type communication
systems, we investigate the tradeoff between reliability, throughput, and latency in the …

We derive the performance limits of a radio system consisting of a transmitter with t antennas
and a receiver with r antennas, a block-fading channel with additive white Gaussian noise …

Recent advancements in iterative processing of channel codes and the development of
turbo codes have allowed the communications industry to achieve near-capacity on a single …

We analyze a mobile wireless link comprising M transmitter and N receiver antennas
operating in a Rayleigh flat-fading environment. The propagation coefficients between pairs …

The concept of effective capacity offers a novel methodology to investigate the impact that
design decisions at the physical layer may have on system performance at the link layer …

This paper investigates the maximal achievable rate for a given blocklength and error
probability over quasi-static multiple-input multiple-output fading channels, with and without …

We present nonasymptotic upper and lower bounds on the maximum coding rate achievable
when transmitting short packets over a Rician memoryless block-fading channel for a given …

A technique is proposed for the derivation of upper bounds on channel capacity. It is based
on a dual expression for channel capacity where the maximization (of mutual information) …

Performance of reliable communication over a coherent slow-fading multiple-input multiple-
output (MIMO) channel at high signal-to-noise ratio (SNR) is succinctly captured as a …

Upcoming low-latency machine-to-machine (M2M) applications are currently attracting a
significant amount of interest from the wireless networking research community. The design …