Optoelectronics, Photonics and Telecoms Group 1 Optoelectronics, Photonics and Telecoms Group Lab-STICC, UMR CNRS 6285 – Pole MOM (Lab-STICC : Laboratory.

Slides:

Advertisements

Similar presentations

Equipe Systèmes de Communication Christian Rumelhard 1 Equipe Systèmes de Communication ESYCOM EA 2552.

Advertisements

Radio over fiber.

1 Meeting: 20 th January, Rome P. Zakynthinos WP#2: Applications of Silicon-Organic Hybrid (SOH) and Device Specification.

Photoreflectance of Semiconductors Tyler A. Niebuhr.

Data Communications and Networking

Tri-Band RF Transceivers for Dynamic Spectrum Access By Nishant Kumar and Yu-Dong Yao.

Photonics Systems Group

1 Networks and Optical Communications group – NOC WP#2: Simulation plans and progress.

EE 230: Optical Fiber Communication Lecture 16 From the movie Warriors of the Net Active WDM Components and Networks.

Optical Transmission Systems. GOAL of the presentation Overview of Optical Component Technologies Basic understanding of certain key issues in Component.

E&CE 477 Photonic Communications Systems & Devices Winter 2006 Instructor: Hamed Majedi.

Department of Computer Science and Electrical Engineering.

Copyright (c) John Y. Cheung, 2002 ECE Recruiting,ppt Slide 1 What is an Electrical and Computer Engineer?

Digital Systems Emphasis for Electrical Engineering Students Digital Systems skills are very valuable for electrical engineers Digital systems are the.

Microwave Photonics Applications of Stimulated Brillouin Scattering Dr. Avi Zadok, School of Engineering, Bar-Ilan University

Pengantar Teknik Elektro Kuliah I. Topics Introduction Basic Electrical Quantities Circuit Analysis Introduction to Electromagnetism Introduction to Electronics.

1 Improving Chromatic Dispersion Tolerance in Long-Haul Fibre Links using Coherent OOFDM M. A. Jarajreh, Z. Ghassemlooy, and W. P. Ng Optical Communications.

T H E U N I V E R S I T Y O F B R I T I S H C O L U M B I A UBChttp:// 1 The Department of Electrical and Computer Engineering.

University of Kansas A KTEC Center of Excellence 1 Victor S. Frost Director, Information & Telecommunication Technology Center Dan F. Servey Distinguished.

King Fahd University of Petroleum & Minerals Department of Electrical Engineering.

University of Kansas A KTEC Center of Excellence 1 Victor S. Frost Director, Information & Telecommunication Technology Center Dan F. Servey Distinguished.

School of Electrical Engineering & Computer Science National University of Sciences & Technology (NUST), Pakistan Muhammad Bilal.

STUDY OF AMPLIFICATION ON ERBIUM DOPED FIBER AMPLIFIER Lita Rahmasari, Assoc. Prof. Dr. Yusof Munajat, Prof. Dr. Rosly Abdul Rahman Optoelectronics Laboratory,

“Electrical Engineering focuses on the fundamental aspects of the discipline such as network analysis, electronics, electronic system design, signal processing,

Chapter 1: Overview Lecturer: Alias Mohd Telecommunications Department Faculty of Electrical Engineering UTM SET 4573: Data Communication and Switching.

Coherent System in Remote Antenna Application

Department of Electromagnetic Field Faculty of Electrical Engineering Czech Technical University in Prague

MASTER’S PROGRAM ELECTRICAL AND COMPUTER ENGINEERING Dr. Doug Lyon, and Dr. Jerry Sergent Program Co-Directors/ Chairs of CpE and EE Depts.

All Optical Networks Samir Chatterjee & Suzanne Pawlowski Presenter: Pengfei Liu.

Networks and Telecommunications Strategies Dr. Robert Chi Chair and Professor, IS department Chief editor, Journal of Electronic Commerce Research.

Networks and Telecommunications Strategies Dr. Robert Chi Chair and Professor, IS department Chief editor, Journal of Electronic Commerce Research.

1 Chapter Two Electrical & Computer Engineering Specialization.

Fiber Optic Communications TE-504 Department of TE&CE IIU Islamabd Instructor :Engr. Muhammad Ashraf Bhutta.

 What is fiber-optic communication?  Method of transmitting information from one place to another  Sending pulses of light through optical fiber 

Presentation by Maria Rangoussi, Dean, Faculty of Engineering ( ( ) “SENS-ERA” Project Kick-off Meeting Georgian Technical.

McGill Photonic Systems Group Andrew Kirk Micro and nano-optics Optical interconnects Applications of MEMS Lawrence Chen Optical.

Laboratory of Integrated Systems Polytechnic School University of São Paulo Polytechnic School University of São Paulo.

EE16.468/16.568Lecture 7Electro-optical Integrated Circuits Principles of CDMA.

Implementation at UVM UVM had a recently implemented a communication systems laboratory course but provided students with no device-level experience. To.

Electronical-Biomedical Cooperation (El-BiK) About the laboratory complex at VŠPJ April 24, 2014.

Design of Lightwave Communication Systems and Networks

Lecture Title Name. Boston University Slideshow Title Goes Here 2 10/16/2015 Boston University.

Lab Group L2Bx EECE 380 – Electrical Engineering Design Studio (Spring 2014) 1 Spectrum Analyzer Michael Halpenny-Mason, Presenter 2, Presenter 3, Presenter.

Lecture Title Name. Boston University Slideshow Title Goes Here 2 5/26/2016 Boston University.

Optical telecommunication networks.  Introduction  Multiplexing  Optical Multiplexing  Components of Optical Mux  Application  Advantages  Shortcomings/Future.

Indian Institute of Technology Bombay 1 EE Department, I.I.T Bombay Communication Group Activities & Strengths.

June 22, 2002 Research Activities: Girish P. Saraph Microwave, RF/ Wireless, & Optical Communication Microwave Engineering: - High power microwave amplifiers.

1 Basic MOS Device Physics. 2 Why Analog Circuits? DSP algorithms were predicted to replace all analog blocks with the flexibility in silicon implementation.

TO FILE OR NOT TO FILE? NAVAL RESEARCH LABORATORY RITA C. MANAK, Ph.D. HEAD, TECHNOLOGY TRANSFER OFFICE MIDATLANTIC REGIONAL MEETING SEPTEMBER 16, 2008.

What is Electrical Engineering?

Center for Excellence in Engineering Education Photonic Generation of Millimeter Wave Signals for Wireless Applications Mehdi Shadaram Department of Electrical.

CONTROL SYSTEMS and INSTRUMENTATION Laboratory Department of Electrical Engineering Computer, Control and Elelectronic Engineering Sub-Study Program Head:

The University of Kansas / ITTC Lightwave System Modeling at the Lightwave Communication Systems Laboratory Information and Telecommunications Technology.

Optical Amplifiers By: Ryan Galloway.

Generation of Spurious Signals in Nonlinear Frequency Conversion Tyler Brewer, Russell Barbour, Zeb Barber.

Presented by: Gurpreet Singh Assistant Professor Department of School of Computing and Engineering Galgotias University Cellular Communication.

Design of Lightwave Communication Systems and Networks

WISDOM meeting 29/01/07 Photonic Systems Group Tyndall National Institute R.J. Manning R.P. Webb, X.Yang, R. Giller Tyndall National Institute/University.

Photonic Components Rob Johnson Standards Engineering Manager 10th July 2002 Rob Johnson Standards Engineering Manager 10th July 2002.

Partner : 14/06/2016 FOTON and its implication in MEUST Joint lab. (UMR) of Univ.-Rennes1, INSA-Rennes and CNRS since 2000.

Date of download: 6/25/2016 Copyright © 2016 SPIE. All rights reserved. Photograph (top) and structure (bottom) of the transmitter module. Figure Legend:

Department of Electrical Engineering, National Taiwan University of Science and Technology EURASIP Journal on Wireless Communications and Networking.

CONTROL SYSTEMS and INSTRUMENTATION Laboratory Department of Electrical Engineering Computer, Control and Elelectronic Engineering Sub-Study Program Head:

Outlook Overview Departments and research groups

Main Research Areas Signal Processing and Communications

HDO4000 /HDO4000-MS Series Manufacturers Test Equipment Components

WaveJet 300A Series Manufacturers Test Equipment Components Trade-ins

Research Institute of Optoelectronic Information

S OPTICAL COMMUNICATIONS AND INSTRUMENTS

Device test stations Multi-probe electrical DC injection and optical input/output Near-field measurement Analogue characteristics 1) 50GHz Network analyzer,

Presentation transcript:

Optoelectronics, Photonics and Telecoms Group 1 Optoelectronics, Photonics and Telecoms Group Lab-STICC, UMR CNRS 6285 – Pole MOM (Lab-STICC : Laboratory for Knowledge, Communication, and Information Science and Technology) (MOM : Microwave, Optoelectronics, and Materials) Contact ENIB: Ammar Sharaiha,

Optoelectronics, Photonics and Telecoms Group 2 ENIB  ENIB : Graduate School for Engineering Sciences in Electronics, Computer Sciences and Mecatronics  700 students, 20 Phd students  100 people  Two research Laboratories :  Lab-STICC : Two research teams from ENIB associated to either Lab-STICC Pole MOM (Telecoms, Optoelectronics and Photonics) or Lab-STICC Pole CID (Virtual Reality, Image Processing)  LBMS : research activities in shape memory alloys and adaptif Systems

Optoelectronics, Photonics and Telecoms Group 3 Lab-STICC  3 Graduate Schools for Engineering Sciences (ENIB, Télécom Bretagne, ENSTA Bretagne) & 2 Universities (UBO, UBS)  450 people (faculty, staff and graduate students)  3 research poles : MOM (Microwave, Optoelectronics, and Materials) CACS (Communication, Algorithms, Circuits and Systems) CID (Knowledge, Information, and Decision)

Optoelectronics, Photonics and Telecoms Group 4 ENIB Télécom-Bretagne ENSTA -Bretagne UBO UBS Lab-STICC: geographic situation

Optoelectronics, Photonics and Telecoms Group 5 Optoelectronics, Photonics and Telecoms Group in ENIB Optoelectronics, Photonics and Telecoms Group Full ProfessorsAssociate Professors Temporary researchers position Secretary + Technicians PHD Students ENIB Staff in Lab-STICC Pole MOM

Optoelectronics, Photonics and Telecoms Group 6 I.Optoelectronics and Photonics for Telecommunications (OPTEL) II.Photonics and Optical Transmission for Sensor Applications (PHOTCAP) Research Axis

Optoelectronics, Photonics and Telecoms Group 7 OPTEL Images and Networks Center PHOTCAP Brittany Maritime Cluster Topics Functions and systems based on semiconductor optical amplifiers Functions and systems based on acousto- optic interactions Structural properties of components Power over fiber Sea floor observatory

Optoelectronics, Photonics and Telecoms Group 8 OPTEL : Functions and systems based on semiconductor optical amplifiers(1/3) Modelling Large optical bandwidth SOA Amplification of advanced modulation formats, CO-OFDM Up & down mixing (all-optical, electro-optical) Direct modulation using OFDM

Optoelectronics, Photonics and Telecoms Group 9 OPTEL : Functions and systems based on acousto- optic interactions(2/3) Characterization of acousto-optic cells Development of RF command 2x2 switches Wideband deflectors Tunable filters

Optoelectronics, Photonics and Telecoms Group 10 OPTEL : Structural properties of components (3/3) Analytical and numerical modelling of photonic structures Magneto-photonic crystals, nonlinear photonic crystals Modelling of interfacial stress in photonic crystals Modeling of photopolymer-based DFB lasers,…

Optoelectronics, Photonics and Telecoms Group 11 PHOTCAP : Power over Fiber (1/2) Power transmission over fiber to supply energy to sensors for sea-floor observatories Modelling and characterizations of the Raman effect Simultaneous transmission in co & contra directions of data and CW power

Optoelectronics, Photonics and Telecoms Group 12 PHOTCAP : Optoelectronic interfaces design with sensor(2/2) Definition and implementation of communication protocols, modulation formats… Design of digital and optoelectronic circuits with low power consumption

Optoelectronics, Photonics and Telecoms Group 13 Partners A CADEMIC AND INDUSTRIAL PARTNERS IN F RANCE : UBO, Télécom Bretagne, ENSSAT, Ifremer Thales, Alcatel-Lucent Bell Labs, Orange Lab, III-V Lab,… I NTERNATIONAL PARTNERS : University College London (UK) University of Algarve (Portugal) University of Limerick (Ireland) AUL (Lebanon) University of Tichrine (Syria) Polytechnic University of Hong Kong (China) Radboud University (Nijmegen, The Netherlands) National Academy of Sciences (Donetsk, Ukraine) COPL – Université Laval (Québec, Canada) Hanyang University (Seoul, Korea),…

Optoelectronics, Photonics and Telecoms Group Gb/s advanced formats modulation transmitter and PDM coherent receiver platform 2.High bit rate Radio over Fiber platform (RoF) at 60 GHz 3.Power over Fiber platform 4.Static and dynamic optical characterization platform Optical characterization: Optical array analysis, tunable laser sources (1460 nm nm), ray scanner, programmable attenuators, programmable optical filters, EDFA optical amplifiers, 200 mW pump lasers, 20 mW lasers covering the 1510 nm – 1590 nm band System characterization: Optical modulation analyzer (100 Gb/s applications), error bit rate analysis (2.5 Gb/s and 12.5 Gb/s), signal and pseudo-random signal generators (1, 3, 4 & 20 GHz), rapid photodiodes (12 GHz and 32 GHz), rapid oscilloscopes (28 GHz), optical modulators (12 GHz), spectrum analyzer (26.5 Ghz, 60 GHz) and network analyzers (6 GHz) (electric), broadband electrical amplifiers, I and Q signal generators, vector signal analyzer (optical and RF), arbitrary waveform generator (AWG, 4 Gsa/s) Specific optical components: SOAs, Reflective SOA, acousto-optical cells, photodetectors (12 GHz, 20 GHz and 70 GHZ), modulators 40GHz, 10 & 40 GHz, 60 GHz) Computational methods and softwares: ADS (Agilent Technologies), OptiSystem, VPIphotonics, Matlab, Mathematica, Labview, Visilog, Langages C, C++, Gb/s advanced formats modulation transmitter and PDM coherent receiver platform 2.High bit rate Radio over Fiber platform (RoF) at 60 GHz 3.Power over Fiber platform 4.Static and dynamic optical characterization platform Optical characterization: Optical array analysis, tunable laser sources (1460 nm nm), ray scanner, programmable attenuators, programmable optical filters, EDFA optical amplifiers, 200 mW pump lasers, 20 mW lasers covering the 1510 nm – 1590 nm band System characterization: Optical modulation analyzer (100 Gb/s applications), error bit rate analysis (2.5 Gb/s and 12.5 Gb/s), signal and pseudo-random signal generators (1, 3, 4 & 20 GHz), rapid photodiodes (12 GHz and 32 GHz), rapid oscilloscopes (28 GHz), optical modulators (12 GHz), spectrum analyzer (26.5 Ghz, 60 GHz) and network analyzers (6 GHz) (electric), broadband electrical amplifiers, I and Q signal generators, vector signal analyzer (optical and RF), arbitrary waveform generator (AWG, 4 Gsa/s) Specific optical components: SOAs, Reflective SOA, acousto-optical cells, photodetectors (12 GHz, 20 GHz and 70 GHZ), modulators 40GHz, 10 & 40 GHz, 60 GHz) Computational methods and softwares: ADS (Agilent Technologies), OptiSystem, VPIphotonics, Matlab, Mathematica, Labview, Visilog, Langages C, C++,... Equipment