As principais áreas de competência compreendem serviços similares e complementares oferecidos pelo Fraunhofer IPK em Berlim e pelo CCM-ITA em São José dos Campos. O IPK e o CCM oferecem uma grande gama de produtos e serviços em seus portfólios.
Realistic robot simulation
Solutions for the efficient, highly flexible and safe automation of machines, plants and processes for production as well as for logistic and safety applications
Development of an automatic process for robotic assembly of aircraft structures and a cooperative robotic system for drilling and inserting fasteners for aeronautical fuselages
Development of robotic systems and end effectors applied in industrial robots to execute the tasks necessary to manufacturing aircraft wings
Development of a force amplification system to handle large pipes
Soft robotic orthosis with intelligent motion monitoring and real-time feedback
Haptic robot-assisted telerehabilitation
Multimodal intelligent assistance systems for motion rehabilitation
Flexible, lightweight, dual-arm robot system for the automated cucumber harvest and other agricultural applications
Development of a snake type robot which could execute the Foreign Object Extraction (FOE) and inspection operations in an automatic procedure with high process reliability and repeatability
Development of a flight simulator in a robotic platform which can provide a significant know-how to develop another simulators (more simple, but high reliable) for personal or educational use
Industrial cloud-based control platform for a production with cyber-physical systems
Automated identification of used products
Development of AI models with data responses from resistance welding process
Optical inspection for continuous quality assurance
Components identification via app
Development of a surface inspection system to identify typical stamping defects and correlate to KPI’s measurements
Development of an end-effector light and small to promote high volume inspection in complex geometry of automotive body shells for automotive industry
Development of online monitoring tools to diminish manual interventions during the tryout stage of sheet metal forming dies
Integration of RFID, Additive Manufacturing, Internet of Things (IoT) and PLM technologies to provide information about the product in real time
Development of a high innovative process through automatic align with industrial robots using a programming called cooperative movement
Development of an automatic process for robotic assembly of aircraft structures and a cooperative robotic system for drilling and inserting fasteners for aeronautical fuselages
Development of robotic systems and end effectors applied in industrial robots to execute the tasks necessary to manufacturing aircraft wings