SISTEMI EMBEDDED
I sistemi Embedded sono sistemi hardware altamente specializzati per l’elaborazione e il controllo in tempo reale utilizzabili in vari contesti tecnici. Si tratta di sensori speciali come IMU o smart camera, dispositivi di bordo avionici/spaziali, centraline e dispositivi automobilistici integrati, dispositivi di controllo, dispositivi tessili intelligenti, dispositivi MEMs, dispositivi multi-DSPs per scopi speciali hi-perf.
Microtecna possiede le competenze necessarie per progettare e sviluppare la soluzione più adatta per la vostra applicazione.
Siamo in grado di:
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Eseguire l'analisi dei requisiti, scegliere la tecnologia più adatta e progettare il sistema ottimale
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Sviluppare tutta l'elettronica e l'hardware di base necessari
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Sviluppare o integrare BSP, RTOS, kernel e layer real-time di basso livello attivi/passivi
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Sviluppare applicazioni embedded, algoritmi, operazioni avanzate di elaborazione e controllo dei segnali interfacciati con layer applicativi generati tramite Matlab o sistemi di livello superiore
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Sviluppare utilizzando linguaggi che vanno dall'Assembly a C/C ++ o ADA
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Convalidare l'intero ciclo di vita (compresa la fase di test) in funzione della certificazione o delle norme applicabili
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Gestire i processi di industrializzazione e fornire il supporto correlato.
Airborne Devices and Units
Technologies: POWER-PC, DSP, RTOS, SENSORS, KALMAN, CRITICAL DEVELOPMENT
Keywords: SAFETY, CRITICAL, TRACEABILITY, EMBEDDED, MULTI-CORE, ARINC-429, MIL-STD-1553, RTCA/DO178, IEC-61508
Microtecna has been involved at different levels (from system architecture design, to software development and integration into custom hardware, to validation and pre-certification) to projects related to the design and realisation of airborne devices and computing units, for helicopters, airplanes, drones, UAVs, and space instrumentation.
The following themes have been touched: airborne high-perf computation, deterministic and real-time platforms, multi-sensors high-bandwidth acquisition, inertial navigation, sensor-/data-fusion algorithms, real-time multi-sensing surveillance and remote target recognition, critical systems, Avionics/Space RTOSs port and application development (Assembler, C/C++, ADA), …
Due to confidentiality applied to such projects, please ask directly Microtecna to get specific details.
On-Board Devices and Units
Technologies: MPC, DSP, RTOS, SENSORS, CAN2.0
Keywords: ECU, PERFOMANCE, EMBEDDED, MULTI-CORE, MOTOR SPORT
Microtecna has been involved at different levels (from system architecture design, to software development and integration into custom hardware, to RTOS porting and BSP optimisation) to projects related to the design and realisation of on-board devices and ECUs, for cars, sport cars, high-performance cars (Formula 1), motorbikes, sport motorbikes and industrial automotive vehicles.
The following themes have been touched: on-board high-perf computation, true-real-time platforms, multi-sensors high-bandwidth acquisition, inertial sensing, sensor-/data-fusion algorithms, real-time multi-sensing, vehicle bus speed optimisation, RTOSs/BSPs port and application development (Assembler, C/C++), …
Due to confidentiality applied to such projects, please ask directly Microtecna to get specific details.
Anti Overturning System
Technologies: POWER-PC, RTOS, SENSORS, KALMAN FILTERING, SAFETY
Keywords: SAFETY, TRACEABILITY, PLUG N’ PLAY
Compact embedded sensor able to automatically determine and notify the approach of rollover conditions.
Developed for industrial vehicles environment, this solution is based on sensor-fusion technologies combined with built-in dynamic models of the vehicle to observe.
Heli UAV Control and Navigation System
Technologies: POWER PC, RDBMS, LINUX, RTOS, SENSOR FUSION, KALMAN FILTERING, OPTIMAL CONTROL, WIFI
Keywords: UAV, NAVIGATION, OUTDOOR
An Optimal Control and Extended Kalman Filtering embedded solution for helicopter unmanned aerial vehicles.
Entirely based on power-pc architecture this system integrate sensor fusion technologies using IMU, GPS, sonar and 3D magnetometer in order to guarantee the maximum observational performances.
The system is able to communicate with ground-based control stations using long-range network devices.
Strain Test Platform
Technologies: ARM, SENSORS, ANDROID, GPS, BLUETOOTH
Keywords: TEST, TRACEABILITY, PLUG N’ PLAY, CERTIFICATION
A compact plug n’ play solution to perform strain test on roof life lines.
This platform is based on a single custom electronic device able to perform cable connections with strain gauges and communicate via bluetooth with a paired tablet or smartphone. On this side all tests are managed in order to store the acquired data and produce certification reports in minimum time.
Babbling Trainer
Technologies: ARM, RTOS, SENSORS, RDBMS, WINDOWS, COMPUTER VISION, SENSOR FUSION, IMU, BLUETOOTH
Keywords: SCAN, PLAY, PLUG N’ PLAY, TRACEABILITY
A smart solution to help people affected with stuttering diseases to train themself while playing interactive games.
The patient plays a specifically designed videogame and, during the activity session, embedded sensors acquires acustical, optical and movement data in order to evaluate synchronization between lips movements, body movements and sounds produced by the patient itself.
All the data are analysed by proprietary algorithms and results are stored in databases where the doctor can identify the best couse of care.
Urologic Examination Platform
Technologies: STM, SENSORS, RDBMS, WINDOWS, ANDROID, BLUETOOTH
Keywords: EXAMINATION, PLUG N’ PLAY, TRACEABILITY
An urologic examination device combined with external PC/Android application to perform data analysis and reports.
All the data are analysed by proprietary algorithms and results are stored in databases where the doctor can identify the best couse of care.