SP for telecommunications and Multimedia

yokeenchantingBiotechnology

Sep 29, 2013 (3 years and 10 months ago)

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Université Paris sud
Presentation of ICT activities
Overview

30000 students

> 100 labs (most joint with CNRS or other
public resarch institutions)

4000 researchers and faculty

Main location in Orsay. Other sites in
Chatenay, Kremlin Bicètre, Sceaux
...

In the center of the large scientific complex
« Plateau de Saclay »

Many collaborations with other institutions in
the surrounding: CEA (Atomic Energy
Agency), INRIA (CS research agency),
Ecole polytechnique, Supelec, etc

Research clusters « Digiteo » (EE, CS) and
« Triangle de la physique »

Cooperative cluster research/industries
« system@TIC
Paris Region » (200+
corporate or research members)
ICT at UPS

5 labs

IEF (EE, nanosciences, systems)

LGEP (EE, power systems)

LIMSI (CS)

LRI (CS)

LSS (EE, signal processing, control
systems)

400 researchers, 500 PhD
Institut d'Elctronique Fondamentale

Joint lab with CNRS

130 faculty, researchers and technical staff

100 PhD and post-docs

Main activities

Nanotechnology

Microsystems

Complex systems, embedded systems

Main industrial parners:
Thalès, ST-Microelectronics, Altis, Alcatel,
EADS, France Telecom, Philips, Motorola, Siemens, Pirelli, Hitachi, Sony,
Peugeot, Renault,…

Technological facilities 1000 m
2
of white rooms,
4” and 8”, nanometric

Planned fusion to create a center of nanosciences and nanotechnology

Contact claude.chappert@ief.u-psud.fr
Spin Electronics and Si nano-
électronics à l’IEF
Optoélectronique
Quantique et Circuits
ultra-rapides
P. Boucaud
8 Groupes
De
Recherche
Composants pour la
Microélectronique et
l’Optoélectronique
P. Dollfus
Microsystèmes et
procédés
technologiquesl
A. Bosseboeuf
Micro- Nano-Struc-
tures magnétiques
P. Beauvillain
Architecture,
Conception &
Contrôle de Systèmes
H. Mounier
Nano-Electronique
de spin
C. Chappert
Lasers à Cascade
Quantique et Opto-
électronique GaN
F. Julien
Nanostructures
SiGeC & Si
D. Bouchier
"Beyond CMOS", nano-devices and nano-architectures
25 nm
Magnétorésistance de parois de
domaine dans les nano-dispositifs LSMO
(PRB 2007)
RF Vortex oscillations in magnétic
nano-contacts
(PRL 2008)
Ultra fast Commutation of
magnetic tunnel jonctions with
spin transfert (PRL 2008)
Qui ck Ti meھ et un
dژcompresseur TIFF (non compressژ)
sont requi s pour v i si onner cette i mage.
Nano-architectures for magnetic
logique (Phys.Stat. Sol. 2008)
Silicon can be supraconductor
(Nature 2006)
germanium over silicium withoyt
dislocations (J. Crystal Growth 2007)
Quantum Transport in Nano-MosFETs
(IEEE Trans. El. Dev. 2007)
SiGe Bipolar Transistors
above 0.5 THz
(IEEE J. Sol. Stat. Circ.
2005)
Optoélectronics and Photonics at IEF
Nanophotonics on silicon, III-V optoélectronics III-V, plasmonics, metamaterials
Multiplexors with superprismes
with a photoic cristal
(Opt. Express 2008)
Photodetector germnium
on SI at
42 GHz
(Opt. Express 2008)
Magnéto-optic insulators
(APL 2004)
Magnéto-
Photonic crystals (IQEC 2006)
Infrared Spectroscopyof unique
quantum boxes PRL 2007)
Infrared Métamatérials (Optics
Express 2008)
Laser à Cascade Quantique
THz (Nature 2008)
Détecteur à Cascade Quantique à
λ=1.55 µm dans le système GaN (APL 2008)
Optoélectronique
Quantique et Circuits
ultra-rapides
P. Boucaud
8 Groupes
De
Recherche
Composants pour la
Microélectronique et
l’Optoélectronique
P. Dollfus
Microsystèmes et
procédés
technologiquesl
A. Bosseboeuf
Micro- Nano-Struc-
tures magnétiques
P. Beauvillain
Architecture,
Conception &
Contrôle de Systèmes
H. Mounier
Nano-Electronique
de spin
C. Chappert
Lasers à Cascade
Quantique et Opto-
électronique GaN
F. Julien
Nanostructures
SiGeC & Si
D. Bouchier
Micro-Nano-systems and systems at IEF
micro-systems, fabrication and tests, bio applications, autonomous and embedded systems
Microsensors for RMN
(Sensor Actuators 2007)
High-Q Microresonators on Silicon
(J. Micromech. Microeng. 2006)
Electronc Microscopyfor the
dynmaic caractérization of
resonators
(Sensor Actuators 2007)
Study of proteins (Nature Methods
2006)
Obstacle detection for automous
vehicles (Image&Vision
Computing 2006)
Motocycle instrumented with
sensors for fall detcttion and
prevention (IEEE-ICTTA 2006)
Automatic code distribution for
the Cell processors (PACT-
Medea, 2007)
Optoélectronique
Quantique et Circuits
ultra-rapides
P. Boucaud
8 Groupes
De
Recherche
Composants pour la
Microélectronique et
l’Optoélectronique
P. Dollfus
Microsystèmes et
procédés
technologiquesl
A. Bosseboeuf
Micro- Nano-Struc-
tures magnétiques
P. Beauvillain
Architecture,
Conception &
Contrôle de Systèmes
H. Mounier
Nano-Electronique
de spin
C. Chappert
Lasers à Cascade
Quantique et Opto-
électronique GaN
F. Julien
Nanostructures
SiGeC & Si
D. Bouchier
LGEP Paris Laboratory of
Electrical Engineering

Université Paris sud/Université Paris
6/CNRS/Supelec/

40 researchers and faculty, 50 PhD students

Main activities

Semiconductor characterization and modeling

Material and devices: from microwave to infrared

Electric contacts

Interactions in coupled phenomenas and active
materials

Design, control and diagnostic

Contact bouillault@lgep.supelc.fr
LGEP : Semiconductors
characterization and modelling

Topics:

Silicon thin films

Organic semiconductors

CVD diamons and wide bandgap
semiconductors

Photovoltaic from infrared to UV

Characterization tools

Modeling
LIMSI Laboratory for informatics,
mechanics and Engineering

CNRS and Université Paris sud/université Paris 6

75 researchers and faculty, 30 technical staff, 80
PhD and post-docs

Main activites :

Mechanics and Energy

HMI

Language

Interfaces, interaction, perception

Virtaul and augmented reality

Contact Patrick.Le-Quere@limsi.fr
Language processing

Written, spoken language, gestual
languages

From signal to meaning

Staitstical models(HMM)

acoustic, Morphosyntaxic,
Lexical, sémantic

Gesture analysis

Information retrievial

Indexation multimedia

Q/A
systems

Translation

Evaluation

DARPA, TREC, EVALDA
(Technolangue)
Le camp ouvert à Sangatte —on
dira ici plutôt « camp » que
« centre »,à cause des
conditions de vie qui y prévalent
(voir ci-dessous) et de
l'improbable statut juridique de
cette « chose » sans précédent,
sauf les camps des Républicains
espagnols à la fin des
années 30 — a été inauguré le
24 septembre 1999 dans un
hangar où était installée,
pendant le forage du tunnel sous
la Manche,la logistique
technique française.
Quand Sangatte a t il été créé?
24 septembre 1999
Interfaces, interaction,
perception

New interfaces

Adaptatives, contextual,
multimodal

Ambiant (smart room)

Media Agents

Animated conversational agents

Cognitive Interaction

Speaking heads (with emotions,
affective avatars)

Autonomus and cognitive Robotics

Navigation and space
représentation

Multimodality

Usages
Virtual and augmented reality

Virtual and augmented reality

Multimodal and immersive
interaction

Hardware and software
Architectures

Audio, Visual, Haptic

Scene Description (VirChor)

Smart vehicle (SimCod)

3D Audio Reconstruction
High bandwith low latency network
LIMSI
LIST
IEF Autonomous vehicle
June 2010
17
Research Groups
• Algorithms and Complexity
• Graph Theory and Combinatorial Optimization
• Databases
• Formal Testing and System Exploration
• Proofs and Programs
• Networking
• Parallel Architecture
• Parallelism
• Artificial Intelligence and Inference Systems
• Learning and Optimization
• Situated Interaction
• Bioinformatics
(joint with INRIA)
June 2010
18
Research Themes
• Wide spectrum of computer science ranging from fundamental to applied research:
algorithms, complexity, quantum computing, graph theory, combinatorial
optimization, databases, clusters and grids, programming, compilation, software
engineering, networking, inference systems, data mining, machine learning,
human-computer interaction, bioinformatics, etc.
• Strategic vision:
• Scalability
• Multi-modeling
• Uncertainty and approximation
• Interaction with the real world
• Dynamic systems
• Beyond Moore’s law
June 2010
19
A&O: Learning and Optimization
(Head Michèle Sebag)
Scientific themes
Analysis of Biological Structures
Algorithmic approaches to molecular structures and sequences
Data Mining on Biological Data
Data mining for functional annotation and protein docking
Integration of massive data for genome annotation
Techniques for querying multiple genomic sources
Systems Biology
Modelling interactions of biomolecules to exhibit the
mechanisms involved in c
processes
Bioinformatics group, LRI
Models, algorithms, and tools for efficient management of:
Very large, potentially distributed databases of Web data
Complex, heterogeneous, potentially distributed knowledge
Many possible applications. Some recent samples:
Warehousing Web data and knowledge on specific topics (food risks, market survey...)
Semantic integration of geographic resources
Cloud-based platform for managing electric grid data + environmental data, customer information...
Central to Challenge 4 (Digital Libraries and Content), more specifically ICT
2009.4.3 Intelligent information management (call 5)
Distributed and Heterogeneous Data and
Knowledge
June 2010
22
Networking Group @LRI
• Ad hoc and sensor networks
• QoS, energy, security, routing, admission control, resource reservation
• Network Coding
• Optimizing flooding
• Studying random distribution degree to optimize coding and decoding
• Application: Ad hoc, sensor, home, military
• Mobile networks
• CDMA, OFDMA, LTE, resource reservation
• Game theory
• Application in wireless networks: jamming, collision, power control
• Technology transfer
• Qolyester: Ad hoc networks with QoS and features for the applications
(topology control, energy saving …)
• Contact: Khaldoun Al Agha (alagha@lri.fr
)
• Http://networking.lri.fr
Laboratory for signals and systems L2S

53 staff members (half being full time researchers, the other ones
being faculty members

About 60 PhD

10 administrative and technical staff
Three components

Division Signaux
(head P. Bondon)

Division Systèmes
(head D. Normand Cyrot)

Département de recherche en électromagnétisme (DRÉ)
(head B. Duchêne)
Signaux: Three groups
signals (including images) considered as
carrying information
Even outside the classical cases gaussian,
monovariable, stationnary signals, and linear
processing

SP for telecommunications and Multimedia
(8.5 permanent staff

Inverse problems in medicine, astrophysics,
control (5 permanent staff)

Modelisation (5.5 permanent staff)
SP for Telecommunications and
Multimedia

Joint source/channel coding/decoding (NEWCOM++)

Application to video and html files transmission

Joint decoding taking into account the network layers

Distributed source coding(ESSOR)

Watermarking of multimedia contents

Applied to audio and video

Watermarking for security

Watermarking for integrity verification

In the near future:

Video transmission via heterogeneous networks, interaction between channel
coding and scalable bitstreams.

Multicast of video via wireless networks.

Steganography (truly undetectable watermarking).
SP for Telecommunications and
Multimedia (2)

Information geometry (for the understanding and improvement of iterative
algorithms)

Tools for improving the optimisation of the redundancy allocation along the
whole communication chain

Game theory

With a partial knowledge of the environment

Convergence dynamics

Performances in centralised / decentralised situations

Cooperation in wireless networks

Based on Network Coding,

Robust routing,

Comparison/interaction between cooperation at various layers (PHY, relays, multiple
descriptions)

Impact of the knowledge of the source (multimedia)
Thanks