Kineton’s Innovation Lab
is a dedicated space where the company explores emerging technologies and incubates new applications. The lab focuses in particular on mobility and on cutting-edge technologies related to artificial intelligence and data.
Kineton is strongly committed to its Innovation Lab, recognizing the importance of staying at the forefront of these fast-evolving sectors. By investing in the lab, Kineton can develop new technologies and applications relevant to its clients, contributing to its growth and long-term success.
The lab provides Kineton’s engineers and researchers with a space to experiment with new technologies and test innovative applications. This enables the company to remain a leader in innovation and to develop new products and services that meet the evolving needs of its customers.
Through the Innovation Lab, Kineton showcases its dedication to innovation and its commitment to delivering the most advanced, up-to-date technologies to its clients.
Kineton Lab
Kineton Lab is a project aimed at creating a Center of Excellence — an advanced production unit designed to consolidate and enhance our technological and operational capabilities. It focuses on diversifying activities through new processes, innovative services, and advanced technological solutions to exceed market expectations.
- PR Campania ERDF 2021–2027
- PR Campania ESF+ 2021–2027
- POC Campania 2014–2020
Public notice: “Business support and investment attraction to strengthen the productive structure of the Campania Region.”
Granted contribution: 6.053.881,20 €
Key Interaction among Entertainment and Brain (KineBrain)
The KineBrain project aims to develop an intelligent system for microcars capable of collecting and processing information from various sources to create a multimodal and adaptive human-machine interface (HMI). The main goal is to prioritize safety, personalization, and distraction-free interaction for drivers.
The project pursues key objectives, including the definition of a driver-vehicle-environment model and the design of advanced driver assistance systems. The team also seeks to develop algorithms for implicit personalization and to implement a comprehensive solution that enhances the driver experience and safety by leveraging the latest technologies and design principles. KineBrain addresses the challenges of HMI design by creating a system that makes driving information intuitive and accessible.
V2X-ADASP – V2X-based ADAS Platform
The V2X-ADASP project is dedicated to studying and developing an innovative digital infrastructure for sustainable mobility based on modern V2X (Vehicle to Everything) paradigms.
The goal is to enhance advanced driver assistance systems (ADAS) in specific manoeuvring scenarios and traffic conditions by using new algorithms capable of adapting to the environmental context and driver characteristics.
The system integrates information from onboard vehicle sensors, intelligent infrastructures, and service providers, supported by an edge/cloud platform for data processing. The project also includes a validation platform that considers human factors that influence driving, such as perception, cognition, emotions, and social interaction.
New Engineering & Manufacturing Enhanced System Innovation (NEMESI)
The NEMESI project is an industrial research and experimental development initiative. Its goal is to redefine the production process of the ATR Aircraft product line through the implementation of Smart Factory technologies, including advanced manufacturing systems, augmented reality, the Industrial Internet of Things, cloud computing, and big data.
The project was designed to test promising and innovative technologies aligned with the Smart Factory paradigm. NEMESI demonstrates how the application of new technologies can transform traditional industrial processes and enhance production efficiency. Ultimately, the project serves as a model for the adoption of similar approaches by other industries, fostering growth and innovation across various sectors.
Granted contribution 1.145.364,56 €
Zero-waste Lignocellulose-Derived biorefinery products for smArt plant protection (ZELDA)
The ZELDA project aims to develop a new generation of totally bio-based alternatives to traditional chemical pesticides, promoting more sustainable and environmentally friendly agricultural practices. Through an innovative approach based on the concept of zero-waste biorefinery, ZELDA fully valorises secondary lignocellulosic biomasses, transforming cellulose, hemicellulose, and lignin into advanced formulations for crop protection.
The products developed will have both preventive and curative effects: they will act as immune elicitors, stimulating plants to autonomously activate their defences against fungal and bacterial pathogens, contributing to plant growth. Furthermore, thanks to lignin derivatives, they will exert a direct microbicidal action. The effectiveness of formulations will be tested on tomatoes, vines, and cereals, moving from the laboratory to the field in various European areas. In support, precision agriculture solutions based on artificial intelligence will be integrated to optimise product distribution.
INFrastructure for a PediAtric ONcology NeTwork in the Campania Region (INFANT)
The INFANT project was born to develop an advanced organisational model for sharing clinical information between hospitals and communities, improving the coordination of pediatric oncology care in the Campania Region.
Through the integration of 5G networks, artificial intelligence, and Big Data analysis, INFANT aims to create an innovative platform capable of supporting diagnosis, treatment, and family care. The system will fully comply with health guidelines and the highest IT security standards, ensuring the protection of sensitive data and the quality of care processes.
With INFANT, technology becomes a concrete ally in building a more efficient, safe, and family-friendly pediatric healthcare network, promoting integrated and innovative therapy management.
Smart Data Platform for Moving Towards a Sustainable Mobility (SMARTDP4MOVE)
SmartDP4Move is a project designed to promote safer, more personalised, and sustainable mobility based on the advanced paradigms of V2X (Vehicle-to-Everything).
Through the collection and analysis of data from vehicles, IoT devices, urban infrastructures, and energy charging systems, SmartDP4Move offers customised mobility services adapted to the characteristics of the driver and the surrounding environment. The project integrates a multi-channel and multi-device cockpit, ensuring fluidity of use, with a strong focus on the security of communications and the protection of personal data.
SmartDP4Move also includes prototyping and validating a new sustainable mobility model powered by hydrogen, tested through the KineCar demonstration vehicle.
EuroSPI/ASA Certified Cybersecurity Tester for Automotive (EuroSecurity)
The EuroSecurity project was created to define, develop, and promote the professional figure of the Cybersecurity Tester in the automotive sector, responding to the growing needs for digital security of connected vehicles.
During the project, the key skills required by this role will be identified, dedicated training materials will be created, and specialised training programs will be organised in collaboration with the Automotive Skills Alliance (ASA).
Thanks to the support of the ASA, the training courses and skills acquired will be disseminated on a European scale; this will involve associations of automotive manufacturers and suppliers to strengthen cybersecurity capabilities throughout the industrial supply chain.
