publication . Conference object . 2017

Measurement and analysis of radiated emissions from coupled UAV and smart RFIC objects

Sidina Wane; Damienne Bajon; Johannes Russer; Peter Russer; Jean Baptiste Gros; Jean-Marc Moschetta; David Thomas; Yury Kuznetsov;
English
  • Published: 20 Jan 2017
  • Publisher: IEEE
Abstract
In this paper, we present experimental characterization and analysis of radiated emissions from coupled UAV and smart RFIC Objects (smartphones) in presence of noisy interferers. Spectral and spatial Near-Field responses of radiated emissions from coupled Motor (UAV) and Circuit (smartphones) are extracted. Analysis of radiated emissions based on Energy density and Entropy considerations are proposed. Wavelet Multi-Resolution approach is introduced for the simultaneous Time-Frequency identification and localization of stochastic noisy sources.
Subjects
ACM Computing Classification System: ComputerApplications_COMPUTERSINOTHERSYSTEMS
free text keywords: Wavelet, Electronic engineering, Internet of Things, business.industry, business, Electrical engineering, EMI, Energy density, Engineering, RFIC
Funded by
EC| NEMF21
Project
NEMF21
Noisy Electromagnetic Fields - A Technological Platform for Chip-to-Chip Communication in the 21st Century
  • Funder: European Commission (EC)
  • Project Code: 664828
  • Funding stream: H2020 | RIA
Communities
FET H2020FET OPEN: FET-Open research projects
FET H2020FET OPEN: Noisy Electromagnetic Fields - A Technological Platform for Chip-to-Chip Communication in the 21st Century
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publication . Conference object . 2017

Measurement and analysis of radiated emissions from coupled UAV and smart RFIC objects

Sidina Wane; Damienne Bajon; Johannes Russer; Peter Russer; Jean Baptiste Gros; Jean-Marc Moschetta; David Thomas; Yury Kuznetsov;