Product development— Dynamic product systems
Design and computational engineering for digital manufacturing.
We design product systems, not individual objects. Geometry, materials and performance are defined
through parametric and generative models, conceived from the outset to interact directly with
manufacturing processes.
- Parametric and generative design for product families and controlled variants
- Digital Twins and computational analysis for performance, constraints and feasibility
- CAD / BIM (AEC) interoperability and coordinated project data management
- DfMA: design for automated manufacturing and assembly
Tool Development
Tools for automated design and manufacturing.
We create digital tools for design and manufacturing, developing customized software and interfaces that facilitate process automation and enable intuitive interaction with products. We develop control systems and end effectors and integrate hardware technologies for advanced digital manufacturing.
- Simplified tools for design and engineering
- Tools for non-standard manufacturing
- Web-based and stand-alone configurators for products and product systems
- Industrial Internet of Things (IIoT)
- Development of robotic islands and unconventional end effectors
Tool Development
Tools for automated design and manufacturing.
We create digital tools for design and manufacturing, developing customized software and interfaces that facilitate process automation and enable intuitive interaction with products. We develop control systems and end effectors and integrate hardware technologies for advanced digital manufacturing.
- Simplified tools for design and engineering
- Tools for non-standard manufacturing
- Web-based and stand-alone configurators for products and product systems
- Industrial Internet of Things (IIoT)
- Development of robotic islands and unconventional end effectors
Process Development
Integrated workflows between computation, automation and production technologies
We develop and engineer complex, non-standard design and manufacturing processes by combining automation, robotics, and digital technologies to improve productivity through flexibility and reduce waste. We use digital simulations and advanced physical testing to ensure quality and reliability in production flows.
- Development of complex processes and machining strategies
- Development of non-standard robotic manufacturing processes
- Development of highly variable processes (additive, subtractive, assembly)
- Automation of unconventional digital and physical processes
- Automation of design and manufacturing tasks
Process Development
Integrated workflows between computation, automation and production technologies
We develop and engineer complex, non-standard design and manufacturing processes by combining automation, robotics, and digital technologies to improve productivity through flexibility and reduce waste. We use digital simulations and advanced physical testing to ensure quality and reliability in production flows.
- Development of complex processes and machining strategies
- Development of non-standard robotic manufacturing processes
- Development of highly variable processes (additive, subtractive, assembly)
- Automation of unconventional digital and physical processes
- Automation of design and manufacturing tasks