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Site Nano Innov

8, avenue de la Vauve - bâtiment 863 CS 70005 - 91127 PALAISEAU Cedex

contact@systematic-paris-region.org www.systematic-paris-region.org

The Cluster and its R&D projects are supported by:

PRODUCT PORTFOLIO

From R&D projects to

PRODUCT PORTFOLIO

From R&D projects

to innovative products

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Dear Systematic Partners,

With the emergence of a new industrial order built around the latest digital technologies, our society is experiencing a period of profound change (impact of digital technologies upon education, health, home, work, transport, energy, security of transactions...). Our world reinvents itself all the time so much that the capacity to sustain and support innova-tion is key. And that is exactly what we do in Systematic: each one of you addresses new challenges by developing synergies thanks to your cooperation, imagination, dynamism and renewed commitment to our association.

I am proud to introduce the first edition of Systematic’s “Product Portfolio” illustrating what the concrete results of completed R&D projects are. These projects labellised by Systematic are the results of an important collaborative work led by Systematic members. For this first edition, more than 100 members present their innovative products as well as their first commercial successes. You will not only read about the technical description of different products, but above all, you will experience at first glance, the excellence of French innovation as demonstrated by Systematic Paris-Region’s members.

This publication shows that Systematic is not only committed to developing new R&D projects, to managing innovative communities but also to create new business oppor-tunities and increased competitiveness. This “Product Porfolio” is the first step of the innovation chapter of our 2013-2018 Strategic Plan.

There is no doubt that Systematic is making a very significant contribution to the attrac-tiveness of the Paris region by offering its technology vision and gathering a great diversity of techno-providers.

As such, I am confident that you, Systematic Paris-Region partners, the Open Innovation actors, will take an active part in these new challenges with the clearly-stated ambition to stay at the forefront of innovation!

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Boost the economy through open innovation

Systematic Paris-Region: A strategy combining key technologies and growth markets

Standing at the crossroads between Software and Digital Technologies, the Systematic Paris-Region competitiveness cluster asserts its place in 5 major industries and services sectors (Transports, Energy, Security, healthcare and Telecommunications). Systematic Paris-Region’s 2013-2018 objectives focus also on 3 key markets: Factory of the Future, Digital cities and IT development for companies and organizations (open systems, big Data…), all of which are at the heart of the 21st century challenges and that development increasingly relies on the know-how of Systematic members.

Issues of application channels determine the priority technological areas developed by Systematic Paris-Region within the Software and Digital sector: those most promising transformation and innovation for compa-nies in these sectors. These are the following lines: Embedded Systems and Internet of Things, Digital infrastructures, Modeling, Simulation and hPC, Digital Trust, Open Source and big Data.

The challenge is twofold:

Develop technologies, companies and markets software and digital Transform and develop through the digital competitiveness and

innova-tion in eight industrial sectors and services

Systematic Paris-Region: An innovative growing cluster Since 2005, the Systematic Cluster has developed 438 R&D projects representing a total R&D investment of €2,26 billion including €817 mil-lions funded by the French Government, Regional economic develop-ment agencies and the Paris-Region local authorities. The commitdevelop-ment of all the clusters’ actors in the “Open Innovation” way creates synergies between SME’s, industrial firms and research laboratories and allows the emergence of innovative projects.

Above all, Systematic Paris-Region is becoming a “product factory”.

CLuster

The cluster’s

main objectives

Systematic seeks to boost the economy and employment through innovation, training and partnerships. The researchers, industries, training organizations, French national and local governments involved with the Cluster have three priorities: Strengthen the leadership of major integrators in order to secure the sustainability of their R&D activities in the Paris Region

Stimulate the creation and development of new high tech businesses with global ambitions

Reinforce the Paris Region’s attractiveness by developing its image on an international scale in order to attract new global companies’ R&D departments.

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For the coming years, Systematic is not only committed to developing new R&D projects but also to increasing productivity and to creating new businesses within our cluster specially for SMEs. Systematic stands on an ecosystem comprised of 800 SMEs which represent more than 35 000 jobs in the fields covered by the Cluster. The Cluster’s objectives towards SMEs consist in contributing to the emergence of global lea-ders and consolidating existing SMEs.

To answer this challenge, Systematic Paris-Region leads the “Ambition PME” program, action plan for SMES opera ting in the optics, electro-nics and software sectors.

Lead an innovative ecosystem

for a better international attractiveness

Accredited as a “World Class” cluster by the French Government in 2005, Systematic is awarded “Cluster Organisation Management excel-lence Label Gold” and is a member of EIT ICT Labs (nodes: Paris, berlin, Stockholm, helsinki and Trento). Systematic focuses its development on European and international scene on three priorities:

Attract capital and talents to the Paris Region

help laboratories and companies export their patents and products Face the challenge of growing global competition from large systems

integrators, lowcost software development and new players in em-bedded systems

The Cluster benefits from recognised experience in cooperation between its members and their European partners. Systematic is already involved in European and international networks, such as: DSP Valley -belgium bICC-NET - Germany Point-One - Netherlands Maroc Numéric Cluster - Morocco Ciatec (Campinas) - brasil CPqD (Campinas) - brasil Centre of Engineering and Technology Transfer (CETT) - ka-zakhstan Imagine IT hanoi – Vietnam

Systematic has opened technological hubs for the benefit of its members in key places on the globe: uSA (boston-Cambridge, MIT), China (bei-jing, z-Park), Tunisia (Tunis, Technopark Elgazala), India (bangalore) with a view to:

Promote Systematic (the cluster, the Paris region and its members) Facilitate international partnership projects

Support SME export drive

R&D Financed Projects: 438 Partners: 774 including: 429 SMEs 38 Enterprises of Intermediate Size 50 Large companies 46 Research institutes and universities Total investment: 2,26 billion Total funding: 817 millions

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CRUNCHER

The high-performance appliance

designed for digital simulation

users

RUNCHERTM is a development and characterization

environment for command and control applications, that does automatic code generation and HIL simulation (in-corporating SILKAN RT’s ARION 100 network). CRUNCHERTM

is compatible with models from Simulink and XCOS (using the GENEAUTO format). This product allows SILKAN to field a high-added-value offering for this type of application, notably in the aerospace industry.

SILKAN

9, route du colonel Marcel Moraine 92360 MEUdON- LA-FORêT www.silkan.com Contact Pierre Fiorini pierre.fiorini@silkan.com Annual revenue 9 M€ Staff 78 employees Key innovations Modeling and deployment of distributed applications, automatic generation of high-preforming code Key markets Transportation, Security

Systematic R&d project

AGREGATION

Competitiveness cluster(s) Co-labeling

Astech

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pecially designed for action sports, the sensors can relay performances in a unique way.

Thanks to the 3d dotvision Motion applications and inter-face, the community can follow - live or via replay - the location and movements of the equipped person, notably all his/her mo-vements and actions.

Dotvision GPS tracker:

Master sensor used standalone and/or with its peripherals, sen-sors. It incorporates GPS, an inertial unit and an interface for communications with cloud facilities. It enables one to aggre-gate, centralize and transmit data from motion sensors, via GSM and other networks.

The Dotvision sensor:

The sensor incorporates a high-precision inertial unit with an accelerometer, a gyroscope, a compass and a barometer. It is able to to continuously capture movement and relay it via the 3d Motion interface. It communicates via the motion tracker.

DoTvISIoN

4, allée du trait d’union 77127 LIEUSAINT https://motion.dotvi-sion.com/Products/ TrackerAndSensor Contact Guillaume Pelletier guillaume.pelletier @dotvision.com Annual revenue 0,3 M€ Staff 7 employees Key innovations

3d motion sensor, live GPS tracking Key markets Transportation, Energy, Enterprise Information systems, Healthcare, Security, digital cities, Sport, Telecommunications

Main customers

Sports event organisers, Raid GdF Suez, Red Bull

Systematic R&d project

EPIT 2.0

S

DOTVISION TRACKER

GPS ET SENSOR

Live GPS system for sports

events

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M2M 1, rue de Terre-Neuve Miniparc du Verger, Bâtiment H 91940 LES ULIS www.m2m-ndt.com Contact Guillaume Neau g.neau@m2m-ndt.com Annual revenue 5,1 M€ Staff 43 employees Key innovations

Matrix probes, Real-time all-points focusing (TFM), 3d, Pulse-echo, pitch-catch, TOFd, ddF Key markets Transportation, Energy, Metals production

Systematic R&d project

OPARUS Competitiveness cluster(s) Co-labeling Minalogic, Optitec

GEKKO

Portable equipment

for non-destructive testing

ekko is a portable device for non-destructive testing (NdT) using multi-element ultrasound. It implements the most-advanced techniques to allow field testing meeting the needs of various industrial sectors: aerospace, steel, petro-chemicals, automotive and nuclear. Gekko performs high-qua-lity tests on 64 parallel channels, and is capable of steering matrix probes and implementing optimized real-time imaging techniques (Total Focusing Techniques). The hyperfocalization and 3d vision features allow optimal reading of results. Gekko’s simple interface and applications system enables step-by-step testing reducing the risk of errors. The device also incorporates the latest features of the CIVA simulation platform for internatio-nally-recognized NdT.

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Geo-PNT

Accurate timing, position

and attitude in a single box

eo-PNT is an effective rugged and small footprint solution for PNT application. PNT stands for Position Navigation and Timing information which unable to localize physical object within 3d space and time. It combines in a single box high-performance versatile position and attitude measurement function with an accurate time distribution server. Geo-PNT unit embeds IMU quartz MEMS coupled with a GPS receiver run-ning in autonomous or differential (RTK) mode. Thanks to IMU and very high stability oscillator, both navigation solution and internal accurate time are kept in all typical circumstances for dynamic platform including GPS signal temporary loss. Geo-PNT is available with a L1 GPS receiver or with a L1/L2 SAASM GPS receiver.

Geo-PNT minimizes size, weight and power (SWAP) through integration of positioning and timing which are usually imple-mented into two separate subsystems. It is an affordable solu-tion for embedded test bench, radar, optical, infrared, electronic warfare, satellite communication payloads where it drastically reduce implementation and operation cost.

G

oRoLIA SPECTRACoM 3, avenue du Canada Parc Technopolis 91974 LES ULIS www.spectracomcorp .com Contact Emmanuel Sicsik-Paré sales@spectracom.fr Annual revenue 72,6 M€ Staff 327 employees Key innovations Coupling of a MEMS 6d system with a GPS receiver and a OCXO or CSAC ultra-stable frequency reference Key markets Transportation, Automotive, Aeronautic, Marine, Civil and Military

Main customers

Airbus, dassault, dCNS, Nexeya, Nexter, Thales, Zodiac

Systematic R&d project

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NATcoverage is a structural cove-rage analysis workbench capable of delivering results compliant with the most-stringent requirements of cer-tification standards for critical software development, notably the dO-178B/C standard for civil avionics. Based on

the instrumentation of execution, simulator or hardware-card-with-sensor environments, GNATcoverage allows non-intrusive analysis of programs ready for embedding on a target. The pro-duct supports the C and Ada (95 to 2012) languages. It can be accompanied by qualification hardware for use in certified development, up to level A of dO-178B/C, with support for the MC/dC criterion. ADACoRE 46, rue d’Amsterdam 75009 PARIS www.adacore.com Contact Jamie Ayre info@adacore.com Annual revenue 6 M€ Staff 35 employees Key innovations Non-intrusive technique, environment instrumentation, simulator or hardware probe, Ada 2012 support Key markets Transportation, Energy Healthcare, Security Main customers Terma, Thales

Systematic R&d project

COUVERTURE

G

GNATcoverage

Non-intrusive coverage analysis

compliant with the strictest level

of certification

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oRoLIA SPECTRACoM 3, avenue du Canada Parc Technopolis 91974 LES ULIS www.spectracomcorp. com Contact Emmanuel Sicsik-Paré sales@spectracom.fr Annual revenue 72,6 M€ Staff 327 employees Key innovations Unlimited simulation time, stationary reaction time can be compensated for, parallelization for up to 256 signals generation

Key markets

Transportation, Aircraft, drones, Military, Ships

Main customers

Airbus, BAE, daimler, dassault, Nexter, PSA, Renault, Safran

Systematic R&d project

IPCHRONOS

GSG6x Option RSG

“Hardware-in-the-loop”

real-time navigation simulation

SG satellite navigation signal generator with a rea-time scenario generation (RSG) option is a powerful but affor-dable tool for integration of navigation function within plat-forms into real-time simulations. Steered by the global simulator, the GSG generator adapts the radio signals generated accor-ding to the mission, applying a trajectory refresh rate up to 0.1 Hz. True-to-life operation with radio signals from the navigation system is thus incorporated into the mission’s global simulation loop. It’s the “hardware-in-the-loop” concept.

Applications leveraging this technology are land vehicle, ship and aircraft simulators, mission training systems with onboard payloads such as optronics, radar and detection/location sys-tems.

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RON-OS is an RTOS that allows one to develop applications that implement critical and non-critical functions on single or multi-core processors, with or wit-hout cache memory. These unique properties make it possible to enforce, by construction, behavioral determinism and non-interference between functions (targeted certifications: IEC-61508 SIL 4 and dO-178C dALA). The memory footprint and latency times of KRON-OS are ex-tremely efficient.

KRON-OS also includes an innovative configuration system that allows one to provide development flexibility that is currently unmatched.

K

KRON-OS

New-generation RTOS

for multi-core architecture

KRoNo-SAFE 86, rue de Paris Bâtiment Erable 91400 ORSAy www.krono-safe.com Contact Nicolas Lemonnier contact@krono-safe.com Annual revenue 0,44 M€ Staff 20 employees Key innovations Multi-core management and determinism Key markets Transportation, Energy, Enterprise Information systems, Factory of the future, Healthcare, Security

Main customers

Alstom, delphi, Renault, Sagem, Schneider Electric

Systematic R&d project

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KRoNo-SAFE 86, rue de Paris Bâtiment Erable 91400 ORSAy www.krono-safe.com Contact Nicolas Lemonnier contact@krono-safe.com Annual revenue 0,44 M€ Staff 20 employees Key innovations “Seamless” processes, multi-core management Key markets Transportation, Energy, Enterprise Information systems, Factory of the future, Healthcare, Security

Main customers

Alstom, delphi, Schneider Electric, Sagem, Renault

Systematic R&d project

AdN4SE Competitiveness cluster(s) Co-labeling Minalogic

KRONO-SUITE

Development system

for seamless processes

RONO-SUITE is a development system that takes advan-tage of the properties of KRON-OS to allow the user to set up a “seamless” process. In the longer term, It will in-corporate a graphical design tool fo time constraints, a real-time simulation tool on PC, and a tool to assist one in the designing of WCETs.

The KRON-OS configuration system is integrated into KRO-NO-SUITE (see picture opposite).

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aBS is a numerical simulation tool for fluid dynamics based on the lattice Boltzmann method, optimized for massively parallel computing. With its outstanding performance and precision, it can simultaneously compute the aerodynamic and aero-acoustic fields generated by fluid flows around complex geometries. LaBS is used in the in the automotive and aeronau-tical industries. CS CoMMuNICATIoN ET SySTèMES 22, avenue Galilée 92350 LE PLESSIS-ROBINSON www.c-s.fr Contact Elias Tannoury elias.tannoury@c-s.fr Annual revenue 170 M€ Staff 1700 employees Key innovations Computational Fluid dynamics based on the lattice Boltzmann method

Key markets

Transportation, Energy

Main customers

Airbus, Renault, Valeo

Systematic R&d project

LaBS Competitiveness cluster(s) Co-labeling LUTB, Mov’eo

L

LaBS

Numerical simulation tool

for fluid dynamics based on

the lattice Boltzmann method

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MoPEASy

9, villa des sablons 92200 NEUILLy-SUR-SEINE www.mopeasy.fr Contact Stanislas Soufflet stanislas.soufflet @mopeasy.fr Annual revenue 1 M€ Staff 12 employees Key innovations Mobility platform, vehicle-sharing, car-pooling, traveler information Key markets Transportation, Energy, digital cities Main customers CSTB, Colas, EdF, Groupe Plurial, Public authorities Neuilly Sur Seine, Marne la Vallée...

Systematic R&d project

MOLECULES

Competitiveness cluster(s) Co-labeling

Advancity, Moveo

M’key

Innovative system for shared

mobility

’Key is the key-holder developed by MOPeasy. When reserving a vehicle via the platform, the user receives a code that allows him/her to open the key-holder and retrieve the key of the vehicle reserved.

This innovative solution enables demateria-lized sharing of all types of vehicles, without any change to their construction, because the key-holder is installed in a reception facility sepa-rate from the vehicle. What makes M’Key innovative is that it works both in "online" mode and "offline" mode. M’Key facilitates the development of fleet management, by ena-bling the provision of vehicles to users, sharing with a neighbo-ring company, or usage by public authorities, in simplicity, in all circumstances, and with or without RFId cards.

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OLEA

1

st

Ever Logic programmable

Multi-core Automotive

Microcontroller

LEA is a family of microcontrollers designed for ad-vanced vehicles powertrain systems (Either for Gasoline and diesel Internal Combustion engines or electric motors for HEV and EV or Transmissions).

OLEA is H/W Flexible and Real-time: The AMEC® engine and

motor interface technology integrating programmable logic de-signed for the automotive industry constraints enables Euro 6/7 low-pollution emission standard compliancy, a high-degree of system optimization and software multicore architecture simpli-fication.

OLEA is Safe: The SILant® integrated functional safety

archi-tecture technology ensures ISO 26 262 ASIL-d integrity level compliancy to vehicles systems and reduces customer design cycles.

OLEA is multi-core and future-proof: OLEA multicore architec-ture incorporate ARM® processors with 2 x Cortex-R5F and

1 x Cortex-M0. This unique standard approach for powertrain application makes OLEA the Microcontroller future-proof solution.

O

SCALEo ChIP

1681, route des dolines Les Taissounières, HB3 06560 SOPHIA-ANTIPOLIS www.scaleochip.com Contact david Fresneau david.fresneau @scaleochip.com Annual revenue 10 M€ Staff 39 employees Key innovations AMEC®: Hardware flexible engine control interface, SILant®: Hardware integrated function Safety Key markets Transportation, Automotive, Avionic, Energy, Medical, Robotic Main customers

OEM and Automotive Tier-1s

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SoKARIS INGENIERIE

30 bis, rue du Vieil Abreuvoir 78100 SAINT-GERMAIN EN-LAyE www.sokaris-ingenierie.fr Contact Jean-Pierre Gaudet jp.gaudet @sokaris-ingenierie.fr Annual revenue 1 M€ Staff10 employees Key innovations development of optimization tools configured for the Catia, Excel, Samcef and Abaqus interfaces

Key markets

Transportation, Energy, Factory of the future, Security

Main customers

Alstom, Nief Plastique, Safran, Trelleborg, UTC, Vibracoustic, Zodiac

Systematic R&d project

QUICK GPS

Competitiveness cluster(s)

Optimization of 3D

valuations

Module to optimize the

distribution of tolerances in 3D

tolerance stacks

okaris Ingenierie has developed a 3d sizing optimization module that is designed to adapt the tolerancing methods no 3d modeling. The module optimizes the distribution of tolerances within chains of 3d dimensions.

This optimization module is integrated into the chain of develop-ment of Sokaris products and, during the sizing phase, allows one to attain high levels of mechanical, acoustic and vibrational performance, while seeking an optimal balance in terms of cast and weight, according to the essential requirements applicable to the products concerned.

Features of the module: Analysis of 3d tolerances

Tools interfacing with Catia for the optimization of the confi-gured digitizations

Optimization of thicknesses in riveted, bolt-assembled or welded plate structures

copyright©sokaris-ingenierie.fr

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PERMAS

Numerical finite-element

simulation software of very large

models and complex assemblies

he PERMAS computation code is a structure calculation software employing the finite-element method, and enables the simulation of very large models and complex assem-blies in the following domains:

Thermo-mechanical analysis and thermal transfers with radiation Coverage of contacts and simulation of bolted assemblies Vibration analysis, vibro-acoustics and fluid-structure interaction dynamics of rotors

Servo-control and active control

Topology, parametric and robust optimization, and reliability analysis

Multi-physics simulation (electromagnetism, thermal and mechanical)

Coupling with fluid mechanics code (CFd)

INTES FRANCE

40, rue Sadi Carnot 78120 RAMBOUILLET www.intes.fr Contact Jacques Marchesini jacques.marchesini @intes.fr Annual revenue 0,56 M€ Staff 4 employees Key innovations

Simulation of very large models, computation performance Key markets Transportation, Energy, Marine engineering, Security, Space Main customers Airbus-dS, daimler, dCNS, dLR, Mahle, Porsche, ZF

Systematic R&d project

EXPAMTION

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hiControl is a library of Simulink® blocks to design,

tune, analyze and simulate advanced control systems. PhiControl ensures easy design of the complete closed-loop while including process constraints. The control blocks en-able the management of operating modes and fault detection. PhiControl supports C-code generation for rapid prototyping and embedded system design.

PhiControl provides PFC (Predictive Functional Control) control-lers which are suitable for most control problems even unusual dynamic behavior. It also provides classical PId (Proportional-In-tegral-derivative) controllers. In order to simulate and analyze the control loop, PhiControl provides models for actuators and sen-sors, as well as blocks for signal processing and fault injection and detection. The library is fully compatible with Simulink®, and

has also been exported to other simulation environments such as AMESim, dymola, SimulationX.

ShERPA ENGINEERING 12, avenue Verdun 92250 LA GARENNE-COLOMBES www.sherpa-eng.com Contact Philippe Fiani p.fiani@sherpa-eng.com Annual revenue 4,4 M€ Staff60 employees Key innovations Predictive control, Multi-mode and fault management, C code generation

Key markets

Transportation, Automotive, Aerospace & Aeronautics, Energy, Process Industry

Main customers

Alstom Power, PSA, CEA List, Renault, Safran, Schneider Electric

Systematic R&d project

AdN4SE Competitiveness cluster(s) Co-labeling Minalogic

P

PhiControl

Design and simulate model

based predictive controllers

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ShERPA ENGINEERING 12, avenue Verdun 92250 LA GARENNE-COLOMBES www.sherpa-eng.com Contact Philippe Fiani p.fiani@sherpa-eng.com Annual revenue 4,4 M€ Staff 60 employees Key innovations

System modeling and simulation, Control design, Customizable libraries, HIL-compliant Key markets Transportation, Automotive, Aerospace & Aeronautics, Energy, Process Industry

Main customers

Alstom, Air liquide, dCNS, IFP, Renault, Safran, Schneider Electric

PhiSim

Multi-physics modeling platform

for behavior simulation

of controlled systems

hiSim is a software tool designed for engineers working on modeling controlled dynamic systems involving multiple physical domains. PhiSim allows handling models of phy-sical systems in a Bloc-diagram environment with more flexibi-lity, quicker and cheaper model development and simulation, as well as with easier model maintenance.

PhiSim incorporates libraries, tools and utilities that facilitate the modeling and simulation of controlled dynamic systems. The libraries are compatible with the Simulink® simulation

ment, and have also been exported to other simulation

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okCell is an assistant for the characterization of porous materials via impedance tube measurements. Besides po-rous material and fabrics characterization, RokCell allows the identification of an impedance model suitable for numeric time domain schemas, including absorbent treatments such as perforated plates or porous materials (fibrous, foams, etc.). Target applications include aeroacoustic calculations in the au-tomotive, aerospace and rail domains, or sound propagation in the environment. It allows direct exporting of results for the LaBS software, that is based on the LBM method (Lattice Boltmann method). More generally, it is suitable for all CFd models using a time domain impedance model of Özyörük type.

MATELyS - RESEARCh LAb 1, rue Baumer 69120 VAULX-EN-VELIN www.matelys.com Contact François-Xavier Bécot contact@matelys.com Annual revenue 0,2 M€ Staff 4 employees Key innovations Characterization from tube measurements or simulations, adjustable frequency range, variable incidence Key markets Transportation, Energy Main customers

Airbus, Renault, Valeo

Systematic R&d project

LaBS Competitiveness cluster(s) Co-labeling LUTB, Mov’eo

R

RokCell

Software for the characterization

of porous materials for time

domain models

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INTEMPoRA

2, place Jules Gévelot 92130 ISSy-LES-MOULINEAUX www.intempora.com Contact Philippe Lebon philippe.lebon @intempora.com Key innovations Accurate time-stamping of samples, asynchronous and multi-threaded execution engine, recording/playback Key markets Transportation, Enterprise Information systems, Factory of the future, Healthcare, Security

Main customers

dCNS, dGA, PSA, Renault, Thales, Valeo...

Systematic R&d project

PROTEUS Competitiveness cluster(s) Co-labeling Aerospace Valley, ViaMéca

RTMaps

(Real-Time

Multi-modal APlicationS)

Asynchronous high performance

platform designed to cope with

and overcome multi-sensor

challenges

TMaps is a modular (component-based) platform for rapid development of real-time multi-modal applications. The RTMaps middleware can handle numerous high-band-width heterogeneous data streams and provide capabilities for accurate data timestamping, real-time processing and data fusion, as well as recording and real-time playback for offline developments and validation steps of advanced functions. RTMaps is widely used in the following domains: Automotive (development of AdAS and autonomous vehicles), Robotics, Human factors, datalogging, Advanced HMI developments… The use of RTMaps allows engineers and researchers to save much time and efforts in the development process, as well as to capitalize on their developments in the form of re-usable

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he SAUL Ultrasound surface-adapted method is a fully automated solution with one probe, one software tool and one file, capable of handling more than 250 geometries (flat surfaces, concave or convex).

during testing, a single probe is used to test a large variety of geometries. This is achie-ved by means of an iterative algorithm that does not re-quire knowledge of the geo-metric and acoustic proper-ties of the component under inspection. The SAUL method is compatible with factor y production constraints, and has notably been deployed at EAdS Composites Aquitaine.

M2M 1, rue de Terre-Neuve Miniparc du Verger, Bâtiment H 91940 LES ULIS www.m2m-ndt.com Contact Guillaume Neau g.neau@m2m-ndt.com Annual revenue 5,1 M€ Staff 43 employees Key innovations Fully-automated inspection, real-time composite testing, over 250 geometries handled Key markets Transportation, Composite components, Metals production

Systematic R&d project

NextSTEP

T

SAUL

(Surface-Adapting

ULtrasound)

Surface-adapted ultrasound

system for entirely-automated

real-time testing

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SOUND STAGE

Audio enhancement and quality

improvement of sound systems

rkamys Sound Stage is a software solution for companies seeking to improve the quality of in-car sound system, mobile phones and TV sets audio performances. Using audio signal processing technology, sound is adapted to each environment, without modifying the hardware.

Arkamys provides a comprehensive range of software solutions to improve any listening experience.

Arkamys’ products lines are dedicated for: Improving the acoustic comfort in a vehicle

Reducing the noise and cancelling the echo during a te-lephone conversation in a car environment

Providing a pinpoint 3d positioning of sound and a true sound stage

Enhance the audio performances of any electronic device

A

ARKAMyS 31, rue Pouchet 75017 PARIS www.arkamys.com Contact Jean-Michel Raczinski jmraczinski@arkamys.com Annual revenue 5 M€ Staff 35 employees Key innovations Noise cancellation in vehicles, sound stage and psychoacoustic renderings, 3d and sound spatialization Key markets Transportation Main customers

Citroën, Hyundai, Kia, Peugeot, Renault

Systematic R&d project

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SDI

8, rue Constantin Pecqueur 95150 TAVERNy www.sdi-tech.com Contact Emmanuel Sohm emmanuel.sohm @sdi-tech.com Annual revenue 2 M€ Staff 15 employees Key innovations

Integration of the link between the tests and the Open Source digital simulation for mHIL tests

Key markets

Transportation, Energy, Factory of the future, Healthcare

Main customers

Bosh, FAW, PSA, Zodiac Aerospace

Systematic R&d project

AGREGATION

Competitiveness cluster(s) Co-labeling

Astech

X’SPARE

Real-time command and control

software

’SPARe is a standard software suite catering to com-mand-and-control, acquisition and test-facility data analy-sis needs. The suite is used for the production of testing equipment for facilities ranging from R&d centers to production lines.

X’SPARe easily generates test sequences for validating the quality of industrial products, and facilitates the management of results.

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are supporTed by:

DIRECCTE Ile-de-France, the Industrial Renewal Ministry regional representative, works side by side with competitiveness clusters. DIRECCTE supports governing bodies of Systematic, leads funding committees

of the “Fonds Unique Interministeriel” (FUI), a n d s u p p o r t s t h e 2M€ “Ambition PME” program.

First French economic region and first European region for technological research, the Paris Re-gion chose to encourage this potential and thus to contribute to technology transfers and to eco-nomic valorization of

results while investing more than 200M€ per annum in economic development and in-novation.

The City of Paris has launched a complete open innovation policy to boost collective intelligence and the area’s economic dynamism. The support to competitiveness clusters, where research institutes, SMEs and large companies can collaborate is an integral part of this approach. For R&D projects accredited by the French

clus-ters, BPIFRANCE mobilizes support for innova-tion and strategic industrial innovainnova-tion programs. Specific actions have also been developed in collaborative projects, and the public authorities entrusts to BPIFRANCE the Fonds Unique Inter-ministériel management.

The ANR and the competitiveness clusters have three shared objectives: to reinforce the links between the public and private research players, to create value from the research, and to build scientific communities that gain national and international recognition. Since 2005 the ANR has implemented an incentive policy for competitiveness clusters through the recognition of the cluster label in the

project selection process.

Around 20,000 researchers are working in Essonne in the scientific sector. To promote its wonderful potential in research and innovation, the General council of Essonne has developing strong policies supporting higher education, public research, technological

innovation and the promotion of cluster.

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The Val d’Oise County Council is involved in Sys-tematic, and supports financially the industrial and academic R&D projects stakeholders. In the framework of the Strategic Plan for sustainable development of the economy 2009-2019, the County has decided to support the Embedded Intelligence and Mecatronics,

industries of excellence of the Val d’Oise.

The Yvelines is the second largest of the Paris metropolitan area’s eight administrative units. With the city of Versailles as its administrative centre, the Yvelines concentrate the largest proportion of private R&D in France. The Yvelines council has been supporting innovative companies since 2005 either directly or via the competitiveness clusters. It has invested so far in over 40 Systematic projects for a total amount 10 M€ in

subsidies.

The Communauté de Communes de l’Arpajon-nais (CCA) promots the development of SMEs and the local area of competences such as the Renault technical centre in Lardy and the Ter@tec technopole in Bruyères-le-Châtel. The CCA supports the development of the Ter@tec campus and ecosystem of Systematic Paris- Region.

clusters since 2005, with financial support, to encourage the development of collaborative R&D projects between SMEs, large companies, research and

acade-mic institutions.

The Communauté d’Agglomération du Plateau de Saclay said CAPS, is located at the heart of research and innovation in France, fifteen kilometers southern Paris. This territory is characterized by its outstanding density of brainpower. The CAPS supports Systematic, financially, and also through its scientific, technic, economical network, and

contribution to clustering facilities implementation. laborative innovation in the companies, to create

value added and local bu-sinesses on the territory.

(29)

defence. The Discrict Council is involved in Sys-tematic since 2006 and provides financial sup-port to local partners involved in R&D projects. Since 2006, 17 projects include SMEs, large firms or research laboratories from Cergy-Pon-toise area. The partnership between Systematic Paris-Region and Cergy-Pontoise is aiming at developping these projects.

With 8,860 companies providing 102,673 jobs in varied sectors, Saint-Quentin-en-Yvelines (SQY) is one of the major economic poles in the west of Paris. Integrated in Paris-Saclay,

SQY offers research facilities of companies, public laboratories and universities and promotes competitive clusters like Syste-matic.

Versailles Grand Parc manages the interest of 18 cities, 247,000 inhabitants. It is home of cut-ting edge companies and high level research institutes (Air Liquide, GE Medical Systems, Thales) as well as an internationally famous higher education center (HEC Group, Versailles Uni-versity). VGP helps several innovation aiding organizations

and incubators as Systematic.

More than twenty business areas, around tertiary pole of MASSY, welcome several major compa-nies as ALSTOM, ALCATEL, SAFRAN, AREVA, THALES… but also a network of 10 000 small and medium enterprises in 7 different specia-lized branches (ICT, digital,

electronics, health, building, events), all linked by THD op-tical fiber.

(30)

Site Nano Innov

8, avenue de la Vauve - bâtiment 863 CS 70005 - 91127 PALAISEAU Cedex

contact@systematic-paris-region.org www.systematic-paris-region.org

The Cluster and its R&D projects are supported by:

PRODUCT PORTFOLIO

From R&D projects to

PRODUCT PORTFOLIO

From R&D projects

to innovative products

References

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