Joaquín Cortez scite author profile

The localization of nodes plays a fundamental role in Wireless Sensor and Actors Networks (WSAN) identifying geographically where an event occurred, which facilitates timely response to this action. This article presents a performance evaluation of multi-hop localization range-free algorithms used in WSAN, such as Distance Vector Hop (DV-Hop), Improved DV-Hop (IDV-Hop), and the Weighted DV-Hop (WDV-Hop). In addition, we propose a new localization algorithm, merging WDV-Hop, with the weighted hyperbolic localization algorithm (WH), which includes weights to the correlation matrix of the estimated distances between the node of interest (NOI) and the reference nodes (RN) in order to improve accuracy and precision. As performance metrics, the accuracy, precision, and computational complexity are evaluated. The algorithms are evaluated in three scenarios where all nodes are randomly distributed in a given area, varying the number of RNs, the density of nodes in the network, and radio coverage of the nodes. The results show that in networks with 100 nodes, WDV-Hop outperforms the DV-Hop and IDV-Hop even if the number of RNs is reduced to 10. Moreover, our proposal shows an improvement in terms of accuracy and precision at the cost of increased computational complexity, specifically in the algorithm execution time, but without affecting the hardware cost or power consumption.

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Extended quadrature spatial modulation for MIMO wireless communications

Castillo-Soria

Cortez

Gutiérrez

et al. 2019

Physical Communication

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Generalized Quadrature Spatial Modulation Scheme Using Antenna Grouping

Castillo-Soria¹,

Cortez²,

Ramirez-Gutierrez³

et al. 2017

ETRI Journal

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This paper presents a novel generalized quadrature spatial modulation (GQSM) transmission scheme using antenna grouping. The proposed GQSM scheme combines QSM and conventional spatial multiplexing (SMux) techniques in order to improve the spectral efficiency (SE) of the system. Analytical and simulation results show that the proposed transmission scheme has minimal losses in terms of the average bit error probability along with the advantage of an increased SE compared with previous SM and QSM schemes. For the case studies, this advantage represents a reduction of up to 81% in terms of the number of required transmit antennas compared with QSM. In addition, a detection architecture based on the ordered successive interference cancellation scheme and the QR decomposition is presented. The proposed QRD-M adaptive algorithm showed a near-maximumlikelihood performance with a complexity reduction of approximately 90%.

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Sliding subspace design based on linear matrix inequalities

Tapia¹,

Marquez²,

Bernal³

et al. 2014

Kybernetika

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Joaquín Cortez

Design and implementation of a distributed IoT system for the monitoring of water quality in aquaculture

Weighted Hyperbolic DV-Hop Positioning Node Localization Algorithm in WSNs

Extended quadrature spatial modulation for MIMO wireless communications

Generalized Quadrature Spatial Modulation Scheme Using Antenna Grouping

Sliding subspace design based on linear matrix inequalities

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