Your search keyword '"Brante, Glauber"' showing total 2 results

1. Energy-Efficient Distributed Power Allocation With Multiple Relays and Antenna Selection.

Author

Peron, Guilherme de Santi, Brante, Glauber, and Souza, Richard Demo

Subjects

*DISTRIBUTED power generation, *RADIO relay systems, *MIMO systems, *ITERATIVE methods (Mathematics), *ENERGY consumption, *WIRELESS sensor networks

Abstract

This paper proposes an iterative power allocation algorithm that maximizes the energy efficiency of a multiple-relay cooperative multiple antenna (MIMO) network. Energy efficiency is defined as the achievable spectral efficiency normalized by the total power consumption, which also accounts for the RF circuitry consumption, modeled in a wireless sensor network. Moreover, relay selection is performed using the distributed opportunistic selection protocol, while we derive closed-form expressions for outage probability and energy efficiency for a single antenna (SISO) and two MIMO scenarios: 1) based on antenna selection (AS) and 2) based on single value decomposition (SVD) beamforming. In order to evaluate the performance of the proposed algorithm, we compare it to an exhaustive search optimal power allocation method. Results show that the proposed algorithm performs very close to an exhaustive search approach and that, although MIMO SVD has the best outage performance, AS has the best energy efficiency for low and moderate source-destination distances and spectral efficiencies. [ABSTRACT FROM AUTHOR]

Published

2015

2. Energy Efficiency Analysis of Some Cooperative and Non-Cooperative Transmission Schemes in Wireless Sensor Networks.

Author

de Oliveira Brante, Glauber Gomes, Kakitani, Marcos Tomio, and Souza, Richard Demo

Subjects

*WIRELESS sensor networks, *ENERGY consumption, *DECODERS & decoding, *COMPUTER network protocols, *RADIO frequency integrated circuits, *ELECTRIC relays

Abstract

We compare the energy efficiency of some transmission schemes in wireless sensor networks. By constraining the system to end-to-end throughput requirements, we assume that the nodes in multi-hop and cooperative schemes operate at a spectral efficiency which is twice that of the single-hop transmission. By taking into account the energy consumption of the RF circuitry, we show that cooperation may be considerably more energy efficient than non-cooperative schemes even in small transmission ranges, specially if a feedback channel is available. [ABSTRACT FROM AUTHOR]

Published

2011