© 2018 Wiley Periodicals Inc. One of the main challenges for autonomous aerial robots is to land safely on a target position on varied surface structures in real-world applications. Most of current aerial robots (especially multirotors) use only rigid landing gears, which limit the adaptability to environments and can cause damage to the sensitive cameras and other electronics onboard. This paper presents a bioinpsired landing system for autonomous aerial robots, built on the inspire–abstract–implement design paradigm and an additive manufacturing process for soft thermoplastic materials. This novel landing system consists of 3D printable Sarrus shock absorbers and soft landing pads which are integrated with an one-degree-of-freedom actuati...
Widely used robot systems have a rigid base structure that limits the interaction with their environ...
Widely used robot systems have a rigid base structure that limits the interaction with their environ...
This thesis explores manufacturing with aerial robots and demonstrates the precision possible for bu...
One of the main challenges for autonomous aerial robots is to land safely on a target position on va...
The application of soft architectures in robotics offers the potential to reduce control complexity ...
© 2017 IEEE. Whilst Micro Aerial Vehicles (MAVs) possess a variety of promising capabilities, their ...
Terrain adaptation and amphibious landing pose the greatest challenges for soft amphibious robots. B...
Recently, several research has been developed to embed manipulators and actuators in Unmanned Aerial...
Birds are notable for their ability to seamlessly transition between different locomotory functions ...
Over the last decade, unmanned aerial vehicles (UAVs) have been performing a variety of tasks (e.g.,...
This paper presents the design, implementation, and testing of a soft landing gear together with a n...
The utilization of small unmanned aerial vehicles (SUAVs), commonly known as drones, has increased d...
Flying robots have the unique advantage of being able to move through the air unaffected by the obst...
Biological inspired robotics is an area experiencing an increasing research and development. In spit...
Widely used robot systems have a rigid base structure that limits the interaction with their environ...
Widely used robot systems have a rigid base structure that limits the interaction with their environ...
Widely used robot systems have a rigid base structure that limits the interaction with their environ...
This thesis explores manufacturing with aerial robots and demonstrates the precision possible for bu...
One of the main challenges for autonomous aerial robots is to land safely on a target position on va...
The application of soft architectures in robotics offers the potential to reduce control complexity ...
© 2017 IEEE. Whilst Micro Aerial Vehicles (MAVs) possess a variety of promising capabilities, their ...
Terrain adaptation and amphibious landing pose the greatest challenges for soft amphibious robots. B...
Recently, several research has been developed to embed manipulators and actuators in Unmanned Aerial...
Birds are notable for their ability to seamlessly transition between different locomotory functions ...
Over the last decade, unmanned aerial vehicles (UAVs) have been performing a variety of tasks (e.g.,...
This paper presents the design, implementation, and testing of a soft landing gear together with a n...
The utilization of small unmanned aerial vehicles (SUAVs), commonly known as drones, has increased d...
Flying robots have the unique advantage of being able to move through the air unaffected by the obst...
Biological inspired robotics is an area experiencing an increasing research and development. In spit...
Widely used robot systems have a rigid base structure that limits the interaction with their environ...
Widely used robot systems have a rigid base structure that limits the interaction with their environ...
Widely used robot systems have a rigid base structure that limits the interaction with their environ...
This thesis explores manufacturing with aerial robots and demonstrates the precision possible for bu...