Xiang Zhou scite author profile

For wireless sensor networks (WSNs), many factors, such as mutual interference of wireless links, battlefield applications and nodes exposed to the environment without good physical protection, result in the sensor nodes being more vulnerable to be attacked and compromised. In order to address this network security problem, a novel trust evaluation algorithm defined as NBBTE (Node Behavioral Strategies Banding Belief Theory of the Trust Evaluation Algorithm) is proposed, which integrates the approach of nodes behavioral strategies and modified evidence theory. According to the behaviors of sensor nodes, a variety of trust factors and coefficients related to the network application are established to obtain direct and indirect trust values through calculating weighted average of trust factors. Meanwhile, the fuzzy set method is applied to form the basic input vector of evidence. On this basis, the evidence difference is calculated between the indirect and direct trust values, which link the revised D-S evidence combination rule to finally synthesize integrated trust value of nodes. The simulation results show that NBBTE can effectively identify malicious nodes and reflects the characteristic of trust value that ‘hard to acquire and easy to lose’. Furthermore, it is obvious that the proposed scheme has an outstanding advantage in terms of illustrating the real contribution of different nodes to trust evaluation.

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Joint Digital Signal Processing Receivers for Spatial Superchannels

Feuer

Nelson

Zhou

et al. 2012

IEEE Photon. Technol. Lett.

115

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Spatial Superchannel Routing in a Two-Span ROADM System for Space Division Multiplexing

Nelson

Feuer

Abedin³

et al. 2014

J. Lightwave Technol.

109

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Supermodes for optical transmission

Xia¹,

Bai²,

Özdür³

et al. 2011

Opt. Express

162

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In this paper, the concept of supermode is introduced for long-distance optical transmission systems. The supermodes exploit coupling between the cores of a multi-core fiber, in which the core-to-core distance is much shorter than that in conventional multi-core fiber. The use of supermodes leads to a larger mode effective area and higher mode density than the conventional multi-core fiber. Through simulations, we show that the proposed coupled multi-core fiber allows lower modal dependent loss, mode coupling and differential modal group delay than few-mode fibers. These properties suggest that the coupled multi-core fiber could be a good candidate for both spatial division multiplexing and single-mode operation.

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Code for spectral amplitude coding optical CDMA systems

Zhou

Shalaby

et al. 2000

Electron. Lett.

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Self-assembly of dendritic-lamellar MXene/Carbon nanotube conductive films for wearable tactile sensors and artificial skin

Chen

et al. 2020

Carbon

100

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64-Tb/s, 8 b/s/Hz, PDM-36QAM Transmission Over 320 km Using Both Pre- and Post-Transmission Digital Signal Processing

Zhou

Huang³

et al. 2011

J. Lightwave Technol.

124

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An Improved Feed-Forward Carrier Recovery Algorithm for Coherent Receivers With $M$-QAM Modulation Format

Zhou

2010

IEEE Photon. Technol. Lett.

157

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Xiang Zhou

A Trust Evaluation Algorithm for Wireless Sensor Networks Based on Node Behaviors and D-S Evidence Theory

Joint Digital Signal Processing Receivers for Spatial Superchannels

Spatial Superchannel Routing in a Two-Span ROADM System for Space Division Multiplexing

Supermodes for optical transmission

Code for spectral amplitude coding optical CDMA systems

Self-assembly of dendritic-lamellar MXene/Carbon nanotube conductive films for wearable tactile sensors and artificial skin

64-Tb/s, 8 b/s/Hz, PDM-36QAM Transmission Over 320 km Using Both Pre- and Post-Transmission Digital Signal Processing

An Improved Feed-Forward Carrier Recovery Algorithm for Coherent Receivers With $M$-QAM Modulation Format

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