Leveraging recent results in finite-blocklength information theory, we investigate the problem of designing a control channel in a 5G system. The setup involves the transmission, under stringent latency and reliability constraints, of a short data packet containing a small information payload, over a propagation channel that offers limited frequency diversity and no time diversity. We present an achievability bound, built upon the random-coding union bound with parameter s (Martinez & Guillen i Fabregas, 2011), which relies on quadrature phase-shift keying modulation, pilot-assisted transmission to estimate the fading channel, and scaled nearest-neighbor decoding at the receiver. Using our achievability bound, we determine how many pilo...
We propose a numerically efficient method for evaluating the random-coding union bound with paramete...
We consider the optimal design of pilot-symbolassisted modulation (PSAM) in time-varying flat-fadin...
Machine-type communications (MTC), in both the massive (mMTC) and ultra-reliable (uMTC) variety, wil...
Leveraging recent results in finite-blocklength information theory, we investigate the problem of de...
Motivated by the current interest in ultra-reliable, low-latency, machine-type communication systems...
Most of the recent advances in the design of high-speed wireless systems are based on information-th...
Motivated by the current interest in ultra-reliable, low-latency, machine-type communication systems...
The paradigm shift from 4G to 5G communications, anticipated to enable ultra-reliable low-latency co...
Most of the recent advances in the design of highspeed wireless systems are based on information-the...
We investigate the probability that the peak age of information in a point-to-point communication sy...
Abstract—We consider the optimal design of pilot-symbol-assisted modulation (PSAM) in time-varying f...
Future autonomous systems require wireless connectivity able to support extremely stringent requirem...
The paradigm shift from 4G to 5G communications, predicted to enable new use cases such as ultra-rel...
Information-theoretic studies on the fundamental limits of communication over wireless fading channe...
Most of the recent advances in the design of high-speed wireless systems are based on information-th...
We propose a numerically efficient method for evaluating the random-coding union bound with paramete...
We consider the optimal design of pilot-symbolassisted modulation (PSAM) in time-varying flat-fadin...
Machine-type communications (MTC), in both the massive (mMTC) and ultra-reliable (uMTC) variety, wil...
Leveraging recent results in finite-blocklength information theory, we investigate the problem of de...
Motivated by the current interest in ultra-reliable, low-latency, machine-type communication systems...
Most of the recent advances in the design of high-speed wireless systems are based on information-th...
Motivated by the current interest in ultra-reliable, low-latency, machine-type communication systems...
The paradigm shift from 4G to 5G communications, anticipated to enable ultra-reliable low-latency co...
Most of the recent advances in the design of highspeed wireless systems are based on information-the...
We investigate the probability that the peak age of information in a point-to-point communication sy...
Abstract—We consider the optimal design of pilot-symbol-assisted modulation (PSAM) in time-varying f...
Future autonomous systems require wireless connectivity able to support extremely stringent requirem...
The paradigm shift from 4G to 5G communications, predicted to enable new use cases such as ultra-rel...
Information-theoretic studies on the fundamental limits of communication over wireless fading channe...
Most of the recent advances in the design of high-speed wireless systems are based on information-th...
We propose a numerically efficient method for evaluating the random-coding union bound with paramete...
We consider the optimal design of pilot-symbolassisted modulation (PSAM) in time-varying flat-fadin...
Machine-type communications (MTC), in both the massive (mMTC) and ultra-reliable (uMTC) variety, wil...