Neural Networks and AI
Qsistemi Italia has decided to carry out specific research work on artificial intelligence based on neural networks by designing and experimenting with advanced sensor management and visual analysis systems.
This research has made it possible to develop a neural network capable of identifying obstacles in flight with a very high degree of reliability, to support aircraft flying at low altitudes.
Thanks also to the studies carried out, Qsistemi Italia is therefore working on an interface capable of recognizing and communicating any type of obstacle in real time.
AI Robotized Systems
Combining artificial intelligence with advanced sensors, Qsistemi Italia carries out experimental research work on the subject of robotics with aerial or terrestrial drones up to the creation of intelligent robotic systems capable of performing multiple and complex tasks such as aerial and submarine inspections, aerial or terrestrial reconnaissance and monitoring. , image processing, etc.
These prototypes have the ability to be able to connect with each other (or with the remote operator) through the use of GPS and LTE mobile networks, in order to make it possible to monitor activities in real time.
Specific research work on artificial intelligence has made it possible to develop software algorithms for recognizing obstacles using data from optical sensors.
IOT (Internet of Things)
Qsistemi Italia carries out research and development of new technologies based on wireless sensor networks and RFID systems. Over the years Qsistemi Italia has developed a highly technological know-how in the field of embedded electronics applied to IOT.
The set of IoT technologies can be applicable and functional to various sectors of current human life: Smart City, Smart Building, Smart Home, Smart Metering, Industry 4.0, Smart Grid, Smart Environment, Smart Logistics, Smart Factory, Smart Agriculture, Smart Car, eHealth, etc.
Working in support of customers from different sectors, it faces the most disparate technological challenges every day to create cutting-edge and innovative products.
To date, technology makes it very easy to locate a device equipped with GPS and, with the appropriate satellite coverage, the accuracy of the measurement is very accurate.
This does not happen indoors as it is not possible to detect satellite signals due to the poor signal penetration.
Our research has allowed us to identify solutions to this problem through the use of electronic components that exploit the beacon / bluetooth technology
Research and development on the topic of wearable technologies to experiment with innovative systems which, through specific tools (e.g. motion sensors, Joysticks, sensorized caps), are able to support people with motor problems or disabilities.
The aim of the projects is to achieve the increase of functional autonomy in various scenarios which can be a home environment, a study environment, a work environment.
These are flexible technologies that adapt to the individual person, allow humans to use skills in a simple and optimal way.