Abstract This paper analyzes the effective capacity of delay-constrained machine-type communication (MTC) networks operating in the finite blocklength regime. First, we derive a closed-form mathematical approximation for the effective capacity in quasi-static Rayleigh fading channels. We characterize the optimum error probability to maximize the concave effective capacity function with reliability constraint and study the effect of signal-to-interference-plus-noise ratio (SINR) variations for different delay constraints. The trade-off between reliability and effective capacity maximization reveals that we can achieve higher reliability with limited sacrifice in effective capacity specially when the number of machines is small. Our analysis...
Machine-type communication (MTC) networks face the challenges of massive access and diverse quality ...
Massive connections and diverse quality of service (QoS) requirements pose a major challenge for mac...
In this paper, we study delay and rate-constrained transmission of bursty traffic over wireless chan...
Abstract This paper analyzes the effective capacity of delay-constrained machine-type ...
Effective Capacity defines the maximum communication rate subject to a specific delay constraint, wh...
Abstract In this paper, we study the trade-off between reliability and latency in machine type comm...
Upcoming low-latency machine-to-machine (M2M) applications are currently attracting a significant am...
Conference PaperThe fading channels seen in many wireless systems provide a particularly hostile env...
This paper investigates the impact of noise dependence and signal delay on the capacities of network...
Abstract This paper evaluates the performance of reliability and latency in machine type communicat...
We use statistical multiplexing and power control to define a notion of delay limited capacity, vali...
Mobile traffic is expected to grow at an annual compound rate of 57% from 2014 to 2019, while among ...
Fading channels, seen in many wireless systems, provide a hostile environment for reliable communica...
This paper presents the three-fold energy, rate and delay tradeoff in mobile multimedia fading chann...
Motivated by the demand of reliable and finite blocklength communications, we employ tools from info...
Machine-type communication (MTC) networks face the challenges of massive access and diverse quality ...
Massive connections and diverse quality of service (QoS) requirements pose a major challenge for mac...
In this paper, we study delay and rate-constrained transmission of bursty traffic over wireless chan...
Abstract This paper analyzes the effective capacity of delay-constrained machine-type ...
Effective Capacity defines the maximum communication rate subject to a specific delay constraint, wh...
Abstract In this paper, we study the trade-off between reliability and latency in machine type comm...
Upcoming low-latency machine-to-machine (M2M) applications are currently attracting a significant am...
Conference PaperThe fading channels seen in many wireless systems provide a particularly hostile env...
This paper investigates the impact of noise dependence and signal delay on the capacities of network...
Abstract This paper evaluates the performance of reliability and latency in machine type communicat...
We use statistical multiplexing and power control to define a notion of delay limited capacity, vali...
Mobile traffic is expected to grow at an annual compound rate of 57% from 2014 to 2019, while among ...
Fading channels, seen in many wireless systems, provide a hostile environment for reliable communica...
This paper presents the three-fold energy, rate and delay tradeoff in mobile multimedia fading chann...
Motivated by the demand of reliable and finite blocklength communications, we employ tools from info...
Machine-type communication (MTC) networks face the challenges of massive access and diverse quality ...
Massive connections and diverse quality of service (QoS) requirements pose a major challenge for mac...
In this paper, we study delay and rate-constrained transmission of bursty traffic over wireless chan...