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PhD Defense of Ali Waqar AZIM

Published on September 10, 2018
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PhD Defense September 18, 2018 | Access map
Thesis defense of Ali Waqar AZIM,  for a doctoral thesis of the University of  Grenoble Alpes , speciality  " OPTICS & RADIOFREQUENCIES ", entitled:
Amphi  Z104 - Building 1st floor/ Phelma/Minatec
3 rue parvis Louis Néel
38016 Grenoble cedex1

« Signal Processing Techniques for optica wireless communications »

Ali Waqar AZIM

Ali Waqar AZIM

Tuesday, September 18th, 2018 at 10:00

The radio-frequency (RF) spectrum is dwindling due to an increase in the demand of wireless applications. Hence, there is substantial demand of alternative spectrum regions for communications to recline the conventional RF spectrum. In this context, optical wireless communications (OWC) is explored as a likely candidate to supplement the RF communications. The current work focuses on impairment mitigation techniques and energy-efficient modulation approaches for OWC. Firstly, the peak-to-average power ratio (PAPR) for optical-orthogonal frequency division multiplexing (O-OFDM) is studied and two decision-directed PAPR reduction techniques are presented. The complexity of these methods is comparatively lower than other PAPR reduction methods, whilst, their performance is likewise analogous with other alternatives. Secondly, an optical-single-carrier frequency division multiple access (O-SCFDMA) approach, referred to as Hermitian symmetry free O-SCFDMA (HSFO-SCFDMA) is pro- posed, that averts Hermitian symmetry which is normally expected for other O-OFDM and O-SCFDMA approaches. The simulation results affirm that HSFO-SCFDMA is more efficient than any other O- SCFDMA approach for OWC and manifests the lowest PAPR among the other alternatives. Thirdly, the performance of precoding is analyzed for layered asymmetrically clipped O-OFDM (LACO-OFDM). Two types of precoding are employed, i.e., Fourier transform precoding and Hartley transform precoding. It is established that Hartley transform precoded LACO-OFDM exhibits the lowest PAPR and is less vulnerable to non-linear distortion introduced by the light emitting diodes (LEDs), howbeit, the signal-to-noise ratio (SNR) increase (both electrical and optical) owing to the layered structure is higher than conventional LACO-OFDM.
Members of jury :
  • Laurent CLAVIER : President of  du Jury
  • Yannis LE GUENNEC : Supervisor
  • Ghislaine MAURY : Co-Supervisor
  • Ali Khalighi : Reviewer
  • Anne JULIEN-VERGONJANNE :  Reviewer
  • Christelle AUPETIT-BERTHELEMOT: Examiner

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Thesis prepared in the laboratory  IMEP-LaHC, supervised by Yannis LE GUENNEC, thesis director  and Ghislaine MAURY, thesis Co-director.

Date of update September 11, 2018

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