BENEFICIARIES
AI+Pick
AI+Pick is an AI-powered bin-picking solution designed for the flexible handling of multigeometry industrial parts in cluttered bins. It combines RGB images and points clouds acquisition with CAD-based perception and a weakly supervised deep learning pipeline to robustly detect parts under occlusions and challenging surfaces. The system estimates 6D poses, synthesizes and ranks feasible grasps, and generates robot trajectories.
AMROPick
AMROPick is an AI-powered robotic picking system designed to automatically detect, localize, and grasp diverse metal parts from cluttered or unstructured bins. It combines two-stage vision-based segmentation, 6D pose estimation, CAD-guided ICP alignment and a behaviour-tree execution engine.
SKYBLUE-NT
SkyBlue-NT combines one or two 3D laser seam tracking and air‑coupled ultrasonics to inspect welds inline during robotic welding/WAAM. It detects surface defects and subsurface discontinuities without contact or couplant, delivering AI-based defect flags synchronised to robot motion (NTP).
INTELLIPASS
IntelliPass is a blockchain-based Digital Product Passport platform that revolutionizes manufacturing data management by combining Asset Administration Shell (AAS) standards with advanced cryptographic technologies. The platform enables secure, transparent, and privacy-preserving sharing of product lifecycle information across manufacturing supply chains. IntelliPass leverages Zero-Knowledge Proofs (ZKP) and Fully Homomorphic Encryption (FHE) to enable data verification without revealing sensitive information, while Attribute-Based Access Control (ABAC) ensures fine-grained authorization aligned with complex supply chain requirements.
FLEX-PICK
Flex-Pick is an AI-driven bin picking system that enables industrial robots to automatically recognize, localize, and grasp diverse metal components from bins without requiring manual programming for each part geometry. The system uses proprietary AI technology combined with advanced 3D vision to drastically reduce deployment time while maintaining high reliability in challenging industrial scenarios.
ROMA
ROMA is a vision-based, AI-driven robotic manipulation module designed to automate the picking, orienting, and handling of metallic parts for welding operations, especially in high-mix/low-volume production. It uses “zero-shot” perception to recognize and localize new parts using only their CAD models, reducing setup and reprogramming time dramatically. The system integrates an AI pose-estimation stack (FoundationPose), a grasp planning engine, and a digital twin workflow (Isaac Sim) to validate actions before execution, improving reliability and safety in industrial cells.
WeGrip
WeGrip is a modular end-of-arm tooling system designed to enable “jigless” robotic welding for High-Mix Low-Volume (HMLV) manufacturing. It replaces expensive, dedicated fixtures with a single, lightweight unit featuring interchangeable finger modules that can adapt to diverse workpiece geometries, such as plates and tubes, in under few minutes. By integrating high-current grounding directly into the gripper body, WeGrip empowers robots to handle and weld parts simultaneously, maximizing production agility and drastically reducing setup costs.
HYPER ROBOT
HYPER ROBOT is a high-precision radar-based sensor system designed to measure weld bead height in real time during robotic welding processes. It enables less than 0.05mm accuracy even in harsh industrial environments where optical systems fail, ensuring consistent weld quality and zero-defect production. The system integrates seamlessly with industrial robots via standard APIs and supports edge processing with AI-driven algorithms for real-time feedback and decision-making. Its compact design, robust performance, and low maintenance requirements make it ideal for advanced manufacturing and Industry 5.0 applications.
P.H.A.S.E.
P.H.A.S.E. is a compact, robot-mounted quality assurance system designed specifically for automated arc welding. By combining 5,000 FPS high-speed imaging with active laser illumination and edge-based computing, it monitors weld pool dynamics in real-time. The system automatically flags defects such as porosity, spatter, and gas disruption with sub-millisecond latency, providing immediate feedback to the manufacturing cell without interrupting production.
SHINEWELD
SHINEWELD is an AI-powered optical emission spectroscopy system that monitors welding processes in real-time and automatically classifies weld quality with up to 87% accuracy. By analysing the spectral signature of the welding arc, SHINEWELD instantly detects five types of defects (porosity, inclusions, lack of penetration, geometric errors and correct welds), eliminating the need for costly post-production inspection. SHINEWELD integrates seamlessly with manual and robotic welding equipment, providing immediate quality feedback to operators and production systems.
AISPECTO
The solution: Our solution provides a fast, precise, and autonomous method for inspecting manufactured products. It is a mobile 3D scanning station that can be easily deployed anywhere on the shop floor. The system automatically compares scanned parts to the original CAD model, clearly highlighting any deviations from the intended design. This enables reliable, repeatable quality inspection with minimal operator effort.
CAN-IA
CAN-IA is a complete, integrated toolchain designed to assist industrial operators in dynamic manufacturing environments. It combines a configurable Human-Machine Interface (HMI) creation environment (CANvas), a Background Recorder for reliable alarm and warning logging, and an Intelligent Assistant that interprets events to provide actionable guidance. The solution transforms runtime events into actionable operational knowledge, bridging the gap between raw data and operator decision-making in real time and during post-event analysis.
COVRIT
COVRIT is a collaborative Virtual Reality (VR) digital twin solution that enables remote monitoring, analysis, and visualization of industrial robotic welding cells. It provides a real-time, shared 3D representation of welding processes, integrating live robot motion, sensor data, graphs, and video feeds into an immersive environment. Users can access the digital twin from VR headsets or standard PCs, independently of their physical location. The solution supports multiple industrial use cases and facilitates collaboration between operators, engineers, and stakeholders.