Les travaux de recherche en hydraulique dans le monde
Créé le : 03/08/2009

L'Allemagne (59 citations) est le mastodonte attendu: RWTH Aachen, Institute of Fluid Power Transmission and Control (15), Technische Universität Dresden, Institut für Fluidtechnik (11), Technishe Universität Carolo-Wilhelmina, Institut für Landmaschinen und Fluidtechnik, Braunschweig, Allemagne (10), Institute of Aicraft Systems Engineering, Technical University of Hamburg-Harburg (7), Technishe Universität Carolo-Wilhelmina, Institut für Landmaschinen und Fluidtechnik, Braunschweig, Allemagne (7), Institute of Turbomachinery and Fluid Power, DH Darmstadt, Allemagne (5), Institute for Machine Tools and Production Science, University of Karlsruhe (4).Le second pays est une surprise: la Chine avec la Zhejiang University (23 citations).Les USA (17 citations) sont présents par la Milwaukee School of Engineering (14), et le Mechatronic Laboratory, University of Illinois, USA (3).La Suède (16 citations) est aussi une relative surprise: Mechanical Engineering, Linköping University, Suède (10), Fluid and Mechanical Engineering Systems (FluMeS), Department of Mechanical Engineering, Linköping University (8), Machine Design Stockholm, Royal Institute of Technology (6).Le Royaume-Uni (14): Université de Cardiff (10), Centre for Power Transmission and Motion Control, University of Bath, Angleterre (4) est à sa place.L'Autriche (14) est présente par la Technical University of Linz.La Finlande, avec l'IHA Institute, University of Tampere, est plus loin que sa renommée ne le laisserait penser (10 thèmes).Entre 1 et 5 citations, on trouve l'Australie, le Canada, le Danemark, l'Italie, le Japon, la Pologne, Singapour et la Suisse.Tous les laboratoires ne publient pas forcément leurs travaux de recherche. Cette analyse donne une tendance des thèmes de recherche dans les laboratoires du monde entier, mais n'a pas la prétention d'être exhaustive. LES GRANDS THEMES DE RECHERCHE14 thèmes ont été identifiés : Simulation, modélisation numérique, procédures d'essais, logiciels (23%) Régulation et contrôle actif : capteurs, calculateurs… (14%) Développement et optimisation des composants (pompes, vannes, actionneurs…) (12%) Maintenance et télésurveillance (9%) Nouveaux fluides, hydraulique à eau, bio fluides (7%) Technologie des composants (5%) Suspension hydraulique, direction (4%) Hydraulique mobile (4%) Bruit et vibrations (4%) Economie d'énergie, amélioration du rendement (3%) Lubrification, usure (3%) Prototypage et systèmes hydrauliques (2%) Transmission de puissance, hydraulique haute pression (2%) Hydraulique pour l'aéronautique (2%) Divers (5%) SIMULATION, MODELISATION NUMERIQUE, PROCEDURES D'ESSAIS, LOGICIELSRWTH Aachen, Institute of Fluid Power Transmission and Control, Allemagnehttp://www.ifas.rwth-aachen.de  Puma (Pump and Motor Design Software) Computational Fluid DynamicsMechanical Engineering, Linköping University, SuèdeModelling, Simulation and System Optimisation Complex Cavity Analysis : http://www.flumes.ikp.liu.se/projects/compcav.html  Engineering Design for Heterogenous Systems : http://hydra.ikp.liu.se/projet_johan.html  HOPSAN - A simulation package for hydraulic systems : http://www.flumes.ikp.liu.se/hopsan.html  Modelling and Simulation of Heterogenous Systems : http://hydra.ikp.liu.se/projet_jochen.html  Object Oriented Design Methodology for Fluid and Mechanical Systems : http://hydra.ikp.liu.se/~petkr/CENIIT99/Object-oriented%20design.html  Techniques for Simulation of Multi-domain Systems : http://www.flumes.ikp.liu.se/projects/multidom.html  COHSY Systems Engineering for Complex Hybrid Systems : http://www.flumes.ikp.liu.se/COHSY.html  Project IEIS (Integrated System Modelling) : http://www.flumes.ikp.liu.se/ieis.html Institute of Heavy Duty Machines, Cracow University of Technology, Poland  Diagnostics and testing of dynamical properties of power systems : http://graf.mech.pk.edu.pl/zaklady/m_32_en.html Milwaukee School of Engineering, USAhttp://www.msoe.edu/fpi/fp_projects.shtml Performance & Endurance Testing Pressure Fatigue & Burst Pressure Evaluations Environmental Testing (Hot, Cold, Dust, Contamination Sensitivity) Modeling & Simulation of Electrohydraulic Systems Computational Fluid Dynamics  Finite Element Analysis of Fluid Power ComponentsInstitut für Fluidtechnik, Technische Universität Dresden, AllemagneSimulation : http://www.tu-dresden.de/mwifd/forschg/proj_uebersicht.html#Simulation  Nichtlineare Systeme (Systèmes non-linéaires) Numerische Strömungsberechnung (Calcul de courant numérique) Strukturberechnung (Calculs de structure)Technishe Universität Carolo-Wilhelmina, Institut für Landmaschinen und Fluidtechnik, Braunschweig, Allemagnehttp://www.tu-braunschweig.de/ilf/forschung Numerische Methoden in der Hydraulik (méthodes numériques dans l'hydraulique) Rapid Control Prototyping (Prototypage rapide) : http://www.tu-braunschweig.de/ilf/forschung/sub2/sub6  Hardware in the Loop (boucle de régulation matérielle)  Fuzzy Regelung (Régulation Fuzzy logic) http://www.tu-braunschweig.de/ilf/forschung/sub2/sub7  Identifikationsmethoden hydraulischer Systeme (méthodes d'identification de systèmes hydrauliques) : http://www.tu-braunschweig.de/ilf/forschung/sub2/sub8 Angewandte Simulation von hydraulischen und mechanischen Systemen (Simulation appliquée aux systèmes hydrauliques et mécaniques) : Mehrkörpersimulation (multisimulation) Hydrauliksimulation (simulation d'hydraulique) Kopplung von Mehrkörper- und Hydrauliksimulation (attachement rapide) http://www.tu-braunschweig.de/ilf/forschung/sub3/sub1 EPFL - Laboratory for Hydraulic Machines, Swiss Federal Institute of Technology, Suissehttp://lmhwww.epfl.ch/ Contribution To The Cavitation Erosion Study: Hydrodynamic Mechanisms and Prediction  Cavitation Monitoring in Hydraulic Machines Physical Study of a Leading Edge Cavity DetachmentUniversity of Saskatchewan, Fluid Power Laboratory, Department of Mechanical Engineering, Canada http://fluid.power.net/fpn/docs/canada%20projects.html  Classical Model of Load Sensing Pump Detailed Model of Axial Piston PumpZhejiang University, Chinehttp://fluid.power.net/fpn/docs/china.pdf Applied Fluid Mechanics Particle Image Velocimetery Technique and its application Research on Flow Loss of Complicated Flow Passages Computational Fluid Dynamics Muilt-phase Fluid Mixture, based on Chaos TheoryUniversité de Cardiff, Pays de Galleshttp://www.cf.ac.uk/engin/research/dynamics/projects.html  Acoustic emission techniques for fatigue crack detection and analysis Monitoring of structural integrity of steel bridge using acoustic emissionInstitute of Aicraft Systems Engineering, Technical University of Hamburg-Harburg, Allemagne Computer Aided Optimization of Sealing and Bearing Gaps in Hydrostatic Machines (Optimisation assistée par ordinateur de roulement dans des machines hydrostatiques) : http://fluid.power.net/techbriefs/hamburg/project_wieczorek.pdf  Gap Flow Simulation of Displacement Machines considering Elastohydrodynamic Effects (Simulation d'écoulement considérant des effets élasto-hydrodynamiques) : http://fluid.power.net/techbriefs/hamburg/project_huang.pdfREGULATION ET CONTROLE ACTIF : CAPTEURS, CALCULATEURS…Institute of Aicraft Systems Engineering, Technical University of Hamburg-Harburg, Allemagne Optimization of the Control System of Variable Displacement Machines : http://fluid.power.net/techbriefs/hamburg/project_ossyra.pdf Institute for Machine Tools and Production Science, University of Karlsruhe, Allemagne Development of innovative metering systems for high-dynamic applications in mobile fuel-cell drivesUniversité de Cardiff, Pays de Galleshttp://www.cf.ac.uk/engin/research/dynamics/projects.html  Active control using shape memory materials Intelligent systems for system dynamics Neural adaptive controlTechnical University of Linz, Autrichehttp://imh.jku.at/research/index.en.html#trumpfpresse  Dynamics and Control of Switching Systems Application of nonlinear control techniques to the hydraulic linear drive Integration of Microcontrollers in Hydraulic DrivesZhejiang University, Chinehttp://fluid.power.net/fpn/docs/china.pdf  Digital Controller for Electro-hydraulic Unit & System Electro-hydraulic Control System for Power Machinery, Construction Machinery, Forming Machinery, Testing Machinery and Marine Equipment Electro-hydraulic Transient Eruptive Powerful Driving TechniqueMilwaukee School of Engineering, USA Fuzzy Logic and Neural Networks : http://www.msoe.edu/fpi/fp_projects.shtmlUniversity of Saskatchewan, Fluid Power Laboratory, Department of Mechanical Engineering, Canada http://fluid.power.net/fpn/docs/canada%20projects.html  Simulation of a Load-Sensing Pump Using Neural Networks :  Neural/PID Control of a Hydraulic System with Nonlinear Actuator FrictionCemoter, The Institute of Earth-Moving Machinery and Off-Road Vehicles, Italy  The development of "load-sensing" controls : http://fluid.power.net/fpn/docs/cemoter%20r&d.html Institute of Energy Technology - Université d'Aalborg, Danemarkhttp://www.iet.aau.dk/sec6/  Control of Fluid Power Motion Control Systems Automated Design Procedures Fault-tolerant Electro-hydraulic Steering of Industrial VehiclesTechnishe Universität Carolo-Wilhelmina, Institut für Landmaschinen und Fluidtechnik, Braunschweig, Allemagnehttp://www.tu-braunschweig.de/ilf/forschung Elektrohydraulik, Elektronik, Regelungstechnik (électrohydraulique, électronique, régulation) : Steuerung von Anbaugeräten des Traktors (orientation des attachements) : http://www.tu-braunschweig.de/ilf/forschung/sub2/sub1  Mechatronik bei Landmaschinen am Beispiel des Heckkrafthebers (mécatronique pour des machines agricoles) :http://www.tu-braunschweig.de/ilf/forschung/sub2/sub2  Elektrohydraulische Lenkung (direction électro-hydraulique) : http://www.tu-braunschweig.de/ilf/forschung/sub2/sub3  Traktorbremsmanagement (gestion de freinage de tracteur) : http://www.tu-braunschweig.de/ilf/forschung/sub2/sub4  Baggermanagement (gestion d'excavatrice) : http://www.tu-braunschweig.de/ilf/forschung/sub2/sub5  CAN-Bus-Systeme (système CAN-Bus)Centre for Power Transmission and Motion Control, University of Bath, Angleterre Pump Condition Monitoring using Fluid-Borne Noise Measurements : http://www.bath.ac.uk/mech-eng/msys/pump-wear.htm  Active Control of Large Structures using hydraulics : http://www.bath.ac.uk/mech-eng/msys/large-structures.htm DEVELOPPEMENT ET OPTIMISATION DES COMPOSANTS (POMPES, VANNES, ACTIONNEURS…)Institute of Aicraft Systems Engineering, Technical University of Hamburg-Harburg, Allemagne Development of integrated hydraulic servo joint actuators : http://fluid.power.net/techbriefs/hamburg/project_grabbel.pdf Institute for Machine Tools and Production Science, University of Karlsruhe, Allemagne Development of innovative hydraulic drives Diagnosis of hydraulic production facilitiesInstitute of Machine Design and Operation, Wroclaw University of Technology, Pologne Gerotor pump with hydraulic compensation of axial clearance : http://fluid.power.net/techbriefs/bednarczyk.pdf Subsea Engineering R&D Group, Monash University, Australiehttp://www.monash.edu.au/serg/  Inertial Pumping using a valveless pump (Subsea Engineering R&D Group) Université de Cardiff, Pays de Galles Improved techniques for measurement of geometric imperfections (amélioration des techniques de mesure des imperfections géométriques) : http://www.cf.ac.uk/engin/research/dynamics/projects.html Zhejiang University, Chinehttp://fluid.power.net/fpn/docs/china.pdf  New Electro-mechanical Transformer based on New Materials New Electro-hydraulic Valve & Integration Actuator Speed Control System for Hydraulic ElevatorTechnical University of Linz, Autrichehttp://imh.jku.at/research/index.en.html#trumpfpresse  A hydraulic Variable Valve Train Investigation of Hydraulic Servo Valves Development of high speed switching valvesRWTH Aachen, Institute of Fluid Power Transmission and Control, Allemagnehttp://www.ifas.rwth-aachen.de  High response hydraulic actuators Bus-capable, explosion proof piezo on/off pilot valves for hydraulic applications Electrohydraulic load sensing Intelligent hydraulic axis Intelligent electropneumatic Positioner Elektrohydraulic hybrid axisFluid and Mechanical Engineering Systems (FluMeS), Department of Mechanical Engineering, Linköping University, SuèdeFluid and Mechanical Engineering Systems Control and Design :  Hydrostatic transmission design tools and concepts : http://www.flumes.ikp.liu.se/projects/hytrans.html  Modelling and Control of Reciprocating Rock Drill : http://www.flumes.ikp.liu.se/projects/rockdrill.html Prediction and increase of efficiency for fluid power valves test system : http://www.flumes.ikp.liu.se/projects/servalv.html Institute of Energy Technology - Université d'Aalborg, Danemarkhttp://www.iet.aau.dk/sec6/  Hydraulic Control Valves Machine Design Stockholm, Royal Institute of Technology, Suède Dynamic behaviour of hydraulic hoses : http://www.damek.kth.se/mhp/project/hoses.html  Cavitation in hydraulic pumps : http://www.damek.kth.se/mhp/project/cavitation.html MAINTENANCE ET TÉLÉSURVEILLANCESubsea Engineering R&D Group, Monash University, Australiehttp://www.monash.edu.au/serg/ Automated Failure Modes and Effects Analysis (FMEA) (Analyse automatique des modes de défauts et des effets)University of Saskatchewan, Fluid Power Laboratory, Department of Mechanical Engineering, Canada http://fluid.power.net/fpn/docs/canada%20projects.html  Fault Detection in a Pump (détection des défauts dans une pompe) Fault Detection in Proportional Valves (détection des défauts dans une vanne proportionnelle)Milwaukee School of Engineering, USA Troubleshooting and Failure Analysis : http://www.msoe.edu/fpi/fp_projects.shtmlTechnishe Universität Carolo-Wilhelmina, Institut für Landmaschinen und Fluidtechnik, Braunschweig, Allemagnehttp://www.tu-braunschweig.de/ilf/forschung Online-Maschinenzustandsdiagnose (diagnostique en ligne) : Fehlerfrüherkennung in der Hydraulik (détection rapide d'erreur dans l'hydraulique) Automatische Maschinenführung und –einstellung (conduite d'appareil automatique et – réglage) Mehrmaschinenbedienung in der Landtechnik (multicommande dans l'agricuture) Teleservice bei Landmaschinen (téléservices pour les machines agricoles) : http://www.tu-braunschweig.de/ilf/forschung/sub1/sub7 Zhejiang University, Chinehttp://fluid.power.net/fpn/docs/china.pdf Condition Monitoring and Fault Diagnosis :  Signal Analysis Method Vibration Monitoring and Vibration Control R&D of Special Transducers and Measurement System Condition Monitoring and Fault Diagnosis for Mechatronic Control System Mechatronic System & Automation Mobile Robot and Robotic Control Six-degree-of-freedom Servo Platform Micro Electro-Mechanical System (MEMS) USB-based High Speed Signal ProcessingNOUVEAUX FLUIDES, HYDRAULIQUE A EAU, BIOFLUIDESIHA Institute, University of Tampere, FinlandeHydraulique à eau : http://www.iha.tut.fi/research/waterhydraulics/  ITER - EURATOM Fusion reactor RH-equipment's (pompe à eau pour ITER) Low Pressure Water Hydraulics - LPWH (hydraulique basse pression à eau) Water Jet Cutting (découpe jet d'eau) Motion control in Water hydraulics (pilotage dans l'hydraulique à eau) Energy Saving Water Hydraulic Technology (économie d'énergie)Université de Cardiff, Pays de Galles High water content fluid: http://www.cf.ac.uk/engin/research/dynamics/projects.html Zhejiang University, Chine Water-hydraulic System (système hydraulique à eau) : http://fluid.power.net/fpn/docs/china.pdf RWTH Aachen, Institute of Fluid Power Transmission and Control, Allemagnehttp://www.ifas.rwth-aachen.de  Ageing behaviour of ecologically acceptable fluids (comportement au vieillissement de fluides écologiques)  Practical testing of biodegradable hydraulic fluids and condition monitoring (essais de fluids hydrauliques biodégradables)  Short-time test methods for the ageing behaviour of biodegradable hydraulic fluids (méthode d'essai rapide pour caractériser le vieillissement de fluides hydrauliques biodégradables) Adaptation of hydraulic deplacement units to environmentally acceptable base fluidsMilwaukee School of Engineering, USA Projets avancés sur l'hydraulique à eau : http://www.msoe.edu/fpi/fp_projects.shtml Machine Design Stockholm, Royal Institute of Technology, Suède Super clean fluid power system : http://www.damek.kth.se/mhp/project/clean.html  Filterability of lubrication and hydraulic oils : http://www.damek.kth.se/mhp/project/filterability.html TECHNOLOGIE DES COMPOSANTSInstitute of Heavy Duty Machines, Cracow University of Technology, Poland  Modelling and designing of hydraulic drives and control equipment : http://graf.mech.pk.edu.pl/zaklady/m_32_en.html RWTH Aachen, Institute of Fluid Power Transmission and Control, Allemagnehttp://www.ifas.rwth-aachen.de  Internal gear pumpMilwaukee School of Engineering, USAhttp://www.msoe.edu/fpi/fp_projects.shtml New Product Research and Design System Design, Construction, and InstallationInstitut für Fluidtechnik, Technische Universität Dresden, AllemagneComposants :http://www.tu-dresden.de/mwifd/forschg/proj_uebersicht.html#Komponenten  Ventilverhalten (Comportement de soupape) Pumpenuntersuchungen (etude de pompes)Mechatronic laboratory, University of Illinois, USA By-wire Electrohydraulic Control Systems and Applications in Construction Equipment Industry (systèmes et applications de commande électrohydrauliques par fil dans l'industrie de construction) : http://www.uic.edu/labs/mechatronics/Abstract-11-Cetinkunt-EH-Control.pdf  Steer-By-Wire Control System for Electrohydraulic Powered Articulated Vehicles (Système de commande d'orientation par fil pour les véhicules articulés actionnés électrohydrauliques) : http://www.uic.edu/labs/mechatronics/Abstract-12-Cetinkunt-SBW.pdf  High Bandwidth Electrohydraulic Pilot Valve Actuator (actionneur de commande pour hydraulique mobile) : http://www.uic.edu/labs/mechatronics/Abstract-13-Cetinkunt-EH-Valve-HBW-Actuator.pdf SUSPENSION HYDRAULIQUE, DIRECTIONTechnical University of Linz, Autrichehttp://imh.jku.at/research/index.en.html#trumpfpresse  Automatic Level Control System for Pick-up Devices Compact Oscillatory Drive for a Continuous Casting UnitInstitute of Turbomachinery and Fluid Power, DH Darmstadt, Allemagne http://www.tfa.maschinenbau.tu-darmstadt.de/projekte/bo/bo_eng.html  The Motivation for an Electro-hydraulic Constant-Pressure-Steering System Efficiency-Simulations for the HPS and the CPS Hardware-in-the-Loop Test Bench for Power-Steering-Systems  Further Project Goals Steer-by-wireUniversité de Cardiff, Pays de Galles Modelling and control of an active suspension : http://www.cf.ac.uk/engin/research/dynamics/projects.html Cemoter, The Institute of Earth-Moving Machinery and Off-Road Vehicles, Italy  The development of automatic controls for the hydrostatic trasmissions used on mobile vehicles : http://fluid.power.net/fpn/docs/cemoter%20r&d.htmlv HYDRAULIQUE MOBILEIHA Institute, University of Tampere, Finlandehttp://www.iha.tut.fi/research/mobilehydraulics/ Hydrostatic drives and CVT Common Rail fuel injection systems Electro-hydraulic valve train of diesel engines Tele-operation of mobile machines Control of boomsInstitute of Energy Technology - Université d'Aalborg, Danemarkhttp://www.iet.aau.dk/sec6/  Energy Usage in Mobile Hydraulic Applications Autonomous Vehicles for the Agricultural SectorBRUIT ET VIBRATIONSZhejiang University, Chinehttp://fluid.power.net/fpn/docs/china.pdf  Electro-hydraulic Vibration & Shock Control Technique (techniques de contrôle des chocs et des vibrations dans les machines électro-hydrauliques)RWTH Aachen, Institute of Fluid Power Transmission and Control, Allemagnehttp://www.ifas.rwth-aachen.de  Pulsation reduction of a tractor hydraulic system Noise reduction by structure analysis and modificationMilwaukee School of Engineering, USA Noise and Leakage Control : http://www.msoe.edu/fpi/fp_projects.shtml Fluid and Mechanical Engineering Systems (FluMeS), Department of Mechanical Engineering, Linköping University, SuèdeNoise & Vibration Control and Condition Monitoring Noise Reduction of a Fluid Piston Pump by Optimising Geometrical Characteristics : http://www.flumes.ikp.liu.se/projects/noisered.html Centre for Power Transmission and Motion Control, University of Bath, Angleterre Active Control of Fluid-Borne Noise : http://www.bath.ac.uk/mech-eng/msys/active-fbn-control.htm  Vibration control of large structuresECONOMIE D'ÉNERGIE, AMÉLIORATION DU RENDEMENTInstitute of Aicraft Systems Engineering, Technical University of Hamburg-Harburg, Allemagne Development and Control of Energy Saving Hydraulic Servo Drives (développement d'un système d'économie d'énergie hydraulique pour des Servo Drives) : http://fluid.power.net/techbriefs/hamburg/project_rahmfeld.pdf Waseda University, Japon Examination on Energy Saving of Pneumatic systems (étude d'un système d'économie d'énergie dans un système pneumatique) : http://fluid.power.net/techbriefs/project_kawakami.pdf Technical University of Linz, Autrichehttp://imh.jku.at/research/index.en.html#trumpfpresse  Energy Efficient Control Techniques for Oil Hydraulic Drives (Technique de contrôle du rendement pour un moteur hydraulique à l'huile) Energy efficient switching techniques in hydraulic drivesZhejiang University, Chinehttp://fluid.power.net/fpn/docs/china.pdf  Electro-hydraulic Control Technology with Global Energy-savingInstitute of Heavy Duty Machines, Cracow University of Technology, Poland  3C - Cylinder Energy Saving ConceptMilwaukee School of Engineering, USA Control of Energy Efficient Constant Pressure Fluid Power Systems : http://hydra.ikp.liu.se/researchproj.html Machine Design Stockholm, Royal Institute of Technology, Suède Optimizing oilparameters considering energy loss : http://www.damek.kth.se/mhp/project/optimize.html LUBRIFICATIONInstitute of Aicraft Systems Engineering, Technical University of Hamburg-Harburg, Allemagne The influence of microscopic and macroscopic gap geometry on energy dissipation in lubricating gaps of displacement machines (influence de la géométrie des espaces microscopique et macroscopique sur la dissipation d'énergie en lubrifiant) : http://fluid.power.net/techbriefs/hamburg/project_lasaar.pdfMilwaukee School of Engineering, USAhttp://www.msoe.edu/fpi/fp_projects.shtml Fluid Analysis (Cleanliness, Viscosity, and Spectrometry)Institut für Fluidtechnik, Technische Universität Dresden, AllemagneTechniques d'étanchéité (dichtungstechnik) :http://www.tu-dresden.de/mwifd/forschg/proj_uebersicht.html#Dichtungstechnik  Bewegungsdichtungen (étanchéité dynamique) Statische Dichtungen (étanchéité statique)Composants : http://www.tu-dresden.de/mwifd/forschg/proj_uebersicht.html#Komponenten  Hydraulikflüssigkeiten (lubrifiants adpatés aux composants) Machine Design Stockholm, Royal Institute of Technology, Suède Reliable particle counting : http://www.damek.kth.se/mhp/project/reliable.html USUREAucun sujet de recherche n'a été clairement identifié, cependant plusieurs laboratoires travaillent sur le sujet depuis plusieurs années. On peut citer :RWTH Aachen, Institute of Fluid Power Transmission and Control, Allemagnehttp://www.ifas.rwth-aachen.de IHA Institute, University of Tampere, Finlandehttp://www.iha.tut.fi/LERMPS, Université de Technologie de Belfort Monbéliard, Francehttp://www.lermps.com/ PROTOTYPAGE ET SYSTÈMES HYDRAULIQUESInstitut für Fluidtechnik, Technische Universität Dresden, AllemagneSystèmes :http://www.tu-dresden.de/mwifd/forschg/proj_uebersicht.html#Systeme  Hydraulische Aktoren in komplexen mechanischen Strukturen (Organes de manoeuvre hydrauliques dans les structures mécaniques complexes) Innovative Antriebsstrukturen (Structures de commande innovantes)Cemoter, The Institute of Earth-Moving Machinery and Off-Road Vehicles, Italy  Development of multifunctional pilot circuits for varying the displacement of piston pumps : http://fluid.power.net/fpn/docs/cemoter%20r&d.html Institute of Aicraft Systems Engineering, Technical University of Hamburg-Harburg, Allemagne Virtual Prototyping of Power Split Drives (Prototypage virtuel d'une transmission hydraulique) : http://fluid.power.net/techbriefs/hamburg/project_mikeska.pdfInstitute for Machine Tools and Production Science, University of Karlsruhe, Allemagne Theoretical and experimental investigation of a bistabil electrohydraulic linear drive :http://fluid.power.net/fpn/docs/pdf/lembke_k_en.pdf School of Mechanical and Production Engineering, Nanyang Technological University, Singapore. Virtual Prototyping of Hydraulic System : http://www.drc.ntu.edu.sg/users/xwei/VPHydraulic.html TRANSMISSION DE PUISSANCE, HYDRAULIQUE HAUTE PRESSIONUniversité de Cardiff, Pays de Galleshttp://www.cf.ac.uk/engin/research/dynamics/projects.html Computerised fluid dynamics applied to an axial piston pump using (simulation numérique appliqués aux pompes à pistons axiaux) Fluid power transmission lineZhejiang University, Chine High Pressure Hydraulic System : http://fluid.power.net/fpn/docs/china.pdfTechnische Universität Dresden, Institut für Fluidtechnik, Allemagne Elektrohydraulische Antriebssysteme (Systèmes d'entraînement électro-hydrauliques ) : http://www.tu-dresden.de/mwifd/forschg/proj_uebersicht.html#Systeme HYDRAULIQUE POUR L'AERONAUTIQUEFluid and Mechanical Engineering Systems (FluMeS), Department of Mechanical Engineering, Linköping University, SuèdeAircraft System Design Model Based Aircraft Preliminary Design Methodology : http://hydra.ikp.liu.se/~petkr/NFFPpd.html  Systems Engineering for Complex Fluid and Mechanical Systems : http://hydra.ikp.liu.se/~petkr/NFFPsyst.html  Advanced Control Effectors : http://hydra.ikp.liu.se/~petkr/IntegratedACSyst.html  Complete Functional Aircraft Modelling : http://hydra.ikp.liu.se/~petkr/AircraftDesign/CASYM.html DIVERSRWTH Aachen, Institute of Fluid Power Transmission and Control, Allemagnehttp://www.ifas.rwth-aachen.de  Clamping systems for autonomous production cells Flexible gripper and clamping technologyTechnical University of Linz, Autrichehttp://imh.jku.at/research/index.en.html#trumpfpresse  Drive Problems in a Stainless Steel Rolling Mill Linear Drive Problems Sheet bending with innovative press-brakes Handling ComplexityMechanical Engineering, Linköping University, SuèdeRobotics - Autonomous Mechanical Systems Autonomous Inspection and Intervention Robots : http://www.flumes.ikp.liu.se/projects/autoinsp.html  Autonomous Control of Working Machines http://www.flumes.ikp.liu.se/projects/autocont.html

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