Infili’s main role in the Cassata project focuses on Acoustic Vector Sensors (AVS) technology in TA2. Key contributions include identifying relevant sensors (Task 6.1), investigating AVS performance (Task 6.2), defining metrics and KPIs (Task 8.2), and modeling sound propagation (Task 8.3). Infili also develops and tests signal processing algorithms (Task 8.4) and implements real-time detection algorithms (Task 9.2). Infili contributes to testing crucial AVS components (Task 9.3) and implements interfaces for sensor integration (Task 9.4). Additionally, Infili supports developing an interoperable data exchange layer (Task 14.1) and contributes to evaluating the global functional chain for covert sensing (Task 15.4).

Technological Advancement: Infili will enhance its expertise in advanced acoustic sensing, environmental modeling, and real-time data processing, driving innovation in these critical areas.

Collaborative Innovation: Working closely with consortium partners on sensor integration and interoperability will allow Infili to both contribute to and benefit from shared expertise, fostering advanced methodologies and solutions.

Enhanced Reputation: Successful collaboration and impactful contributions will elevate Infili’s standing in the field of acoustic sensors and signal processing, enhancing its visibility and credibility in international research and development initiatives.

Infili will enhance covert sensing by focusing on the development of Acoustic Vector Sensors (AVS) for precise detection and localization in challenging environments. Our company will advance real-time signal processing algorithms, optimize environmental modeling for accurate acoustic data analysis, and ensure seamless integration and interoperability of sensors within larger networks. Additionally, we will prioritize sensor robustness for reliable performance, aligning all developments with NATO and European defense standards to ensure operational effectiveness and strategic relevance in dynamic defense scenarios.