ModGrasp
A Wave Simulator and Active Heave Compensation Framework
JOpenShowVar, a communication interface to Kuka robots

Tag: snake robot

2017, November, 1 Filippo Sanfilippo 0

NTNU delegation at SWARM 2017 met the award winning pioneer of robotics Prof. Shigeo Hirose

I had the honor to be part of the delegation of the Department of Engineering Cybernetics from the Norwegian University of Science and Technology (NTNU) and to participate to the 2nd International Symposium on Swarm Behavior and Bio-Inspired Robotics (SWARM), Kyoto, Japan. I presented the following article: Filippo Sanfilippo, Øyvind Stavdahl and Pål Liljebäck. SnakeSIM: a Snake Robot Simulation Framework for Perception-Driven Obstacle-Aided Locomotion. In Proceeding of the 2nd Internatio

2017, October, 10 Filippo Sanfilippo 0

SnakeSIM, our ROS based Framework for POAL of Snake Robots has been accepted for publication at ROBIO 2017, Macau, China

A new paper has been accepted for publication in the Proceeding of the IEEE International Conference on Robotics and Biomimetics (ROBIO), Macau, China, 2017. The selected article is: Filippo Sanfilippo, Øyvind Stavdahl and Pål Liljebäck. SnakeSIM: a ROS-based Rapid-Prototyping Framework for Perception-Driven Obstacle-Aided Locomotion of Snake Robots. Accepted for publication to the Proceeding of the IEEE International Conference on Robotics and Biomimetics (ROBIO), Macau, China, 2017.

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SnakeSIM, our Snake Robot Simulation Framework for POAL has been accepted for publication at SWARM 2017, Kyoto, Japan

A new paper has been accepted for publication in the Proceeding of the 2nd International Symposium on Swarm Behavior and Bio-Inspired Robotics (SWARM), Kyoto, Japan, 2017. The selected article is: Filippo Sanfilippo, Øyvind Stavdahl and Pål Liljebäck. SnakeSIM: a Snake Robot Simulation Framework for Perception-Driven Obstacle-Aided Locomotion. Accepted for publication to the Proceeding of the 2nd International Symposium on Swarm Behavior and Bio-Inspired Robotics (SWARM), Kyoto, Japan, 2017.

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2015, December, 1 Filippo Sanfilippo 0

Control Strategies for Snake Robot Locomotion in Challenging Outdoor Environments (SNAKE)

This project aims to develop new methods and tools to control snake robots for use in challenging real-life operations, in earthquake-hit areas, pipe inspection for oil and gas industry, fire-fighting operations and search and rescue. The research team is composed of some members from the Department of Engineering Cybernetics, NTNU, including Associate Professor Øyvind Stavdahl, Research Scientist Pål Liljebäck and Postdoctoral Fellow Filippo Sanfilippo. Other members of the research team are

Motor calibration for modular robot

I just made a simple tutorial that can be used for motor calibration when assembling modular robots.

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2014, September, 30 Filippo Sanfilippo 0

Programming modular snake robots with Arduino, Aalesund University College

Here a small presentation that I have prepared for our students so that they can learn how to program modular snake robots.

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Filippo Sanfilippo