Your search keyword '"SINR-aware mode selection"' showing total 2 results

1. An SINR-Aware Joint Mode Selection, Scheduling, and Resource Allocation Scheme for D2D Communications.

Author

Bithas, Petros S., Maliatsos, Konstantinos, and Foukalas, Fotis

Subjects

*MULTIUSER detection (Telecommunication), *MARKOV processes, *SIGNAL-to-noise ratio, *QUALITY of service, *CELL phone systems

Abstract

In this paper, a new mode selection (MS) scheme for device-to-device (D2D) enabled cellular networks is proposed. The MS is carried out using a predefined signal-to-interference plus noise ratio (SINR) threshold and it aims to guarantee a minimum level of quality of service. With the new scheme, interfering effects are taken into consideration, while realistic assumptions for the acquisition of the channel information are made. Assuming a single-user case, an analytical framework is developed, which is based on the Markov-chain theory, and is used to study the system's performance. The various performance results obtained reveal that with the proposed MS, the probability of mode switching can be reduced (as compared to other systems), and thus, an increase on the overhead and signal processing is avoided. Moreover, a new approach is applied in a multi-user communication scenario, where a joint MS, resource allocation (RA), and scheduling optimization problem is formulated. The solution to this problem is based on a greedy heuristic algorithm that properly assigns the available resources among cellular users and D2D pairs. The joint MS, RA, and scheduling algorithm considers limited SINR awareness and it provides significant performance improvement in terms of sum-rate. [ABSTRACT FROM AUTHOR]

Published

2019

2. An SINR-Aware Joint Mode Selection, Scheduling, and Resource Allocation Scheme for D2D Communications

Author

Petros S. Bithas, Fotis Foukalas, and Konstantinos Maliatsos

Subjects

Multi-user, Mathematical optimization, Optimization problem, Scheduling, Computer Networks and Communications, Computer science, Mode selection, Quality of service, Markov chain, Performance analysis, Aerospace Engineering, Scheduling (computing), Sum-rate, Automotive Engineering, Cellular network, Resource allocation, Resource management, SINR-aware mode selection, Electrical and Electronic Engineering, Greedy algorithm, Device-to-device communication, Communication channel

Abstract

In this paper, a new mode selection (MS) scheme for device-to-device (D2D) enabled cellular networks is proposed. The MS is carried out using a predefined signal-to-interference plus noise ratio threshold and it aims to guarantee a minimum level of quality of service.With the new scheme, interfering effects are taken into consideration, while realistic assumptions for the acquisition of the channel information are made. Assuming a single-user case, an analytical framework is developed, which is based on the Markov-chain theory, and is used to study the system's performance. The various performance results that have been obtained reveal that with the proposed MS, the probability of mode switching can be reduced (as compared to other systems) and thus, an increase on the overhead and signal processing is avoided. Moreover, the new approach is applied in a multi-user communication scenario, where a joint MS, resource allocation (RA), and scheduling optimization problem is formulated. The solution to this problem is based on a greedy heuristic algorithm that properly assigns the available resources among cellular users and D2D pairs. The joint MS, RA, and scheduling algorithm considers limited SINR awareness and it provides significant performance improvement in terms of sum-rate.

Published

2019