Vulnerability of Bluetooth receiver to impulsive noise has been assessed in this paper. Impulsive noise environment of an Electricity transmission substation environment is modelled as a Symmetric Alpha Stable process...
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ISBN:
(纸本)9781849192392
Vulnerability of Bluetooth receiver to impulsive noise has been assessed in this paper. Impulsive noise environment of an Electricity transmission substation environment is modelled as a Symmetric Alpha Stable process. Parameters of the model are estimated from the measurements carried out in control room of an electricity transmission substation.
Vulnerability of Bluetooth receiver to impulsive noise has been assessed in this *** noise environment of an Electricity transmission substation environment is modelled as a Symmetric Alpha Stable *** of the model are...
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Vulnerability of Bluetooth receiver to impulsive noise has been assessed in this *** noise environment of an Electricity transmission substation environment is modelled as a Symmetric Alpha Stable *** of the model are estimated from the measurements carried out in control room of an electricity transmission substation.
作者:
Marco Di RenzoHarald HaasL2S
UMR 8506 CNRS-SUPELEC-Univ Paris-Sud Laboratory of Signals and Systems (L2S) French National Center of Scientific Research (CNRS) École Supérieure d'Électricite (SUPÉLEC) University of Paris Sud-XI Gif-sur-Yvette France L2S
University of Paris-Sud XI (UPS) France The University of Edinburgh
College of Science and Engineering Joint Research Institute for Signal and Image Processing Edinburgh United Kingdom (UK)
In this paper, we propose a framework for analyzing the performance of multiple-antenna wireless systems using the recently proposed Spatial Modulation (SM). More specifically, we derive upper bounds for computing the...
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In this paper, we propose a framework for analyzing the performance of multiple-antenna wireless systems using the recently proposed Spatial Modulation (SM). More specifically, we derive upper bounds for computing the Average Bit Error Probability (ABEP) of Multiple-Input-Single-Output (MISO) systems over general fading channels. The framework accounts for arbitrary modulation schemes, and can handle both independent and correlated channels with arbitrary fading parameters. Monte Carlo simulations are shown to substantiate the proposed analytical derivation. Furthermore, the performance of SM is compared to Multilevel Phase Shift Keying (M-PSK) modulation, and it is shown that SM can offer the same spectral efficiency with a smaller bit error probability.
The paper describes a novel deformable data registration algorithm. The proposed method can be seen as a tradeoff between the landmark and intensity driven data registration techniques. The algorithm is fast, robust a...
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