- STEAM PUNK
- ARTIFICIAL INTELLIGENCE
- VIRTUAL REALITY
- NEW MANUFACTURING
- RECYCLING & UPCYCLING
- ARTISANS & NEW CRAFT
- FASHION & WEARABLES
- PRODUCT DESIGN
- HOME AUTOMATION
- INTERNET OF THINGS
- WELLNESS & HEALTHCARE
- INDUSTRIAL AUTOMATION
- OPEN SOURCE
- 3D PRINTING
- ENERGY & SUSTAINABILITY
- YOUNG MAKERS (< 18)
- FOOD & AGRICULTURE
- CIRCULAR ECONOMY
- 3D SCANNING
- KIDS & EDUCATION
- CULTURAL HERITAGE
- MUSIC & SOUND
The new technologies of collaborative robotics.
3D printing and Tissue Engineering for the regeneration of damaged tissues and the modelling of diseases
The project has been supported by the Italian MISE as part of the PON I&C 2014-2020, no. F/190066/01-02/X44. The project is led by Totaro Automazioni s.r.l in conjunction with the ICAROS center of the University of Naples Federico II. The goal of the project is the creation of a robotic platform capable of managing the tasks related to the management of a bar counter in its multiple aspects of interaction, manipulation, and personalization of the offered services.
We will show how to recreate an interaction with remote/virtual environments and wearable haptic devices.
Investigating moral behaviour in immersive virtual reality settings by means of an online dice game
Do you want to know how the most recent artificial intelligent models are used to develop the visual system of the next generation of robotic agents? Come to visit our booth!
How the study of human behavior can improve machines
Helping socially fragile people integrating in the society with storytelling via an Augmented Reality app.
Robotics for monitoring, logistics and security in unstructured environments
Perhaps nobody knows exactly how robots of the future will look like. However, we are sure that they will not resemble the heavy, bulky, rigid machines dangerously moving around in old-fashioned industrial automation. There is a growing consensus, in the research community as well as in expectations from the public, that robots of the next generation will be physically compliant and adaptable machines, closely interacting with humans and moving safely, naturally and efficiently, and capable to assist weak people with a gentle force – in other terms, future robots will be soft and strong. Our group, the Soft Robotics for Human Cooperation and Rehabilitation Lab, deals with the design and control of the next generation of robots.
Robotics and innovative technologies for space exploration
Wonderful, wacky, and unusual robots wiggle and walk
Wearable devices can not only sense signals, but also provide tactile feedback in immersive Virtual Reality and active motor assitance to the user. We show development of soft hand exoskeletons and haptic gloves for research applications in the field of VR neuro-rehabilitation.