During these years the R&D team developed several projects to create products and prototypes denoted by high technological content and equipped with Artificial Intelligence. Such robots have highly significant characteristics of complementarity and have been designed to be used both independently or in synergy, always aiming to vertically approach and solve various problems in different application fields. Our multidisciplinary approach can achieve results far beyond the most common expectations: one of our main goals is to make our capacities and knowledge available for the public and thus to contribute to the welfare of people and to building a better world.
We build space-rated component designed for space: in opposition to born for space, it is design to be discriminating. Instruments are not specific for space, but they are diffused, so safety assessment, programming and handling is much easier also for non-experts.
Development costs are reduced by C.O.T.S. (Component On The Shelf) choice.
Artificial Intelligence has so far been strictly connected to big data: AI’s ability to perform and obtain trustable behaviours and information relies on data size. H4R is currently developing an AI that needs the smallest possible amount of data and that bases its learning process on a “speculative learning process”. Its activation is triggered by objective reality and its capability to reconstruct something addresses objects AI is not totally aware of.
Another aspect of our R&D is the implementation of self-evolutive functions on adaptive robots. This merging enables robots to learn to solve problems by themselves, adapting learning methods, skills and models to new situations.
Neural network optimization: for infrastructure and safety reasons, neural network timing is crucial. Researching and experimenting to fasten recognition processes is revealing consistent possible improvements in situation awarness and surveillance.
Another field of study and research is human-machine-artificial intelligence integration. Together with augmented reality, this project aims to smoothen comminication and information process, as well as interaction and personal human initiative.
We represent data that need to be comprehended in an artificial environment which is totally new and not intuitive for human beings. To this are added the logic interactive dimension difficulties. Our purpose is to manage data so that users can receive, understand and use them without being distracted, confused, or not able to give to every piece of information the appropriate amount of importance.
Our research is implementing augmented reality in space launcher design, making the development process quicker, easier and mission changes extremely rapid and precise.
The partnership with top-level Research Centers and Academic Institutes allows the Robotics Business Unit to elaborate tailored solutions for specific needs, offering technologies that are advanced and continuously updated in the reference sectors.
H4R mindset, processes, and methodologies makes a huge difference not only in accelerating time to
profitability of your new or revamped product or service, but in the long-term adoption of it in the market.