Database providing access to the High Technology Network's industrial research offering: research competences, type of analyses and tests available at the Laboratories. Companies can consult the Catalogue to find Laboratories and researchers that match their needs.
Competence
Acquisition and pre-processing of signals for model identification
Algorithms for events prediction and classification
Analysis of (clinical) functional requirements
Clinical assessment
Clinical requirements analysis
Communication protocol
Comparative numerical analysis
Continuous-time and discrete-time mathematical modeling of systems and processes
Data analysis and storage, data mining
Design of experiments and protocols
Diagnostic biomedical equipments: "selection of the conditioning"
Diagnostic biomedical equipments: 2D and 3D alignment of Radiological Data
Diagnostic biomedical equipments: calibration and performance verification
Diagnostic biomedical equipments: cross-validation, repeatability and reliability studies
Diagnostic biomedical equipments: design of communication protocols and integration between components and instrumentations
Diagnostic biomedical equipments: design of experimental protocols and clinical trials
Diagnostic biomedical equipments: field evaluation
Diagnostic biomedical equipments: hardware and sensors design, for analysis, storage and transmission
Diagnostic biomedical equipments: Segmentation of fluoroscopy data
Diagnostic biomedical equipments: software design for signals elaboration
Diagnostic biomedical equipments:design of recognition and classification algorithms
Digital platforms (microcontrollers, DSP, FPGA)
Discrete events mathematical modeling of systems and processes
Ergonomics, neuroergonomics
Finite element simulation (FEM)
Formal languages for systems modeling (Unified Modeling Language-UML and SysML-System Modeling Language)
Functional validation of prototypes
HW/SW design for resources optimization
Identification of models and parameters estimation
Infinite-dimensional mathematical modeling of systems
Modeling of the collision of bodies in mechanical systems
Musculoskeletal modelling
Neurocognitive modelling
Non-parametric modeling (neural networks, etc.)
Numerical optimization of biomedical instrumentation
Power management
Selection and interfacing of sensors and actuators
Selection and porting of embedded OS
Selection of the communication layer a/o mobile platform
Selection, porting, optimization of protocol stacks, middleware and libraries