Helping life
to be more human

In a time of increasing complexity grand challenges define human experience. Technological research is improving the quality of life and the processes of health care delivery. Innovating medical care and making recovery process sustainable in term of costs, times and efforts mean to design solutions at the interface of biology, medicine and engineering. Implementing innovative tools and devices such as precision medicine, big data, 3D printing, nanotechnologies, robots, and A.I. is essential to study signals generated by organs, improve the designs of therapeutic rehabilitation devices and increase their performances. Our scientific know-how and cutting-edge technologies guarantee innovation and quality in medicine and related sectors, including disease prevention and diagnosis, therapeutic solutions and patient rehabilitation. Creative, practical solutions turn ideas into reality in order to make our lives safer and more enjoyable, studying products that fit seamlessly into our everyday lives. Researching the motor system deals with issues related to biomedical signal and image processing, biomechanics, modelling, robotics, bioinformatics, biomedical measures, electrical and electromagnetic safety of biomedical devices, medical statistics, automatic controls applied to bioengineering and biometric data security: in all of those areas our knowledge, experience and continuous research have expressed convicting results. Furthermore our extensive involvement in space and robotics context gives us the unique ability to import very highly precise and reliable technologies and patented ideas, to enrich biomedical segment with up to date innovative fusions and crossovers.

Services provided
Within the AI domain we focus on...

  • ADAPTABILITY: An adaptive system fits its behaviour according to changes in its environment or in parts of the system itself, to quickly respond to evolving trends, innovation, destabilization and so forth.
  • IOT SENSORS: IoT (Internet of Things) is generating new fields of application for sensors. They detect and respond to solicitations generated in any environment.
  • EDGE COMPUTING: edge computing is a distributed computing paradigm that brings computation and data storage closer to the network edge, optimizing response times and bandwidth use.
  • SCALABILITY: The ability of a product (hardware or software) to continue functioning well when it/the context changes, to meet user’s needs, taking full advantage of it.
  • COLLABORATIVE MISSION: The ability to shape system architecture to share information and purposes in real time, creating a robot and software team that actively participates to mission accomplishment.
  • PRE-EXISTING HARDWARE AND SOFTWARE INTEGRATION: Any system we produce can talk and work together with any previous existing system. This way routines and previous knowledges are saved. 
  • REAL TIME BIG DATA ANALYSIS: real time big data analytics is referred to the process of analysing large volume of data at the moment it is produced or used.
  • CONVOLUTIONAL NEURAL NETWORKS: CNN can take in an input image, assign importance to various aspects or objects and differentiate one from the other: with a tailored training, they learn these filters and characteristics.
  • MACHINE LEARNING: A form of Artificial Intelligence that, thanks to algorithms, learns from data and automatically improves through experience.
  • 4.0 INDUSTRY: Smart technology integrated for increased automation, improved communication and self-monitoring. Production of smart machines that can analyse and diagnose issues without human intervention.
  • CUSTOMIZATION: Hardware and software personalization involves selecting and configuring each subsystem according to client requirements, before finally integrate them as to client’s needs.

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