#robotics #drones #swarmintelligence #swarmrobotics
#robotics #drones #swarmintelligence #swarmrobotics
Originally shared by Lacerant Plainer
The SMAVNET project aims at developing swarms of flying robots that can be deployed in disaster areas to rapidly create communication networks for rescuers. Flying robots are interesting for such applications because they are fast, can easily overcome difficult terrain, and benefit from line-of-sight communication.
To make aerial swarming a reality, robots and controllers need to be made as simple as possible.
Designing swarm controllers is typically challenging because no obvious relationship exists between the individual robot behaviors and the emergent behavior of the entire swarm. For this reason, we turn to biology for inspiration.
In a first approach, artificial evolution is used for its potential to automatically discover simple and unthought-of robot controllers. Good evolved controllers are then reverse-engineered so as to capture the simple and efficient solutions found through evolution in hand-designed controllers that are easy to understand and can be modeled. Resulting controllers can therefore be adapted to a variety of scenarios in a predictable manner. Furthermore, they can be extended to accommodate entirely new applications. Reverse-engineered controllers demonstrate a variety of behaviors such as exploration, synchronization, area coverage and communication relay.
Designing swarm controllers is typically challenging because no obvious relationship exists between the individual robot behaviors and the emergent behavior of the entire swarm. For this reason, we turn to biology for inspiration.
Full Article: http://lis.epfl.ch/smavs
Video link: Deployment of Large Aerial Swarms
#swarm #swarmintelligence #robots #science #sciencesunday #scienceeveryday #biology
Originally shared by Lacerant Plainer
The SMAVNET project aims at developing swarms of flying robots that can be deployed in disaster areas to rapidly create communication networks for rescuers. Flying robots are interesting for such applications because they are fast, can easily overcome difficult terrain, and benefit from line-of-sight communication.
To make aerial swarming a reality, robots and controllers need to be made as simple as possible.
Designing swarm controllers is typically challenging because no obvious relationship exists between the individual robot behaviors and the emergent behavior of the entire swarm. For this reason, we turn to biology for inspiration.
In a first approach, artificial evolution is used for its potential to automatically discover simple and unthought-of robot controllers. Good evolved controllers are then reverse-engineered so as to capture the simple and efficient solutions found through evolution in hand-designed controllers that are easy to understand and can be modeled. Resulting controllers can therefore be adapted to a variety of scenarios in a predictable manner. Furthermore, they can be extended to accommodate entirely new applications. Reverse-engineered controllers demonstrate a variety of behaviors such as exploration, synchronization, area coverage and communication relay.
Designing swarm controllers is typically challenging because no obvious relationship exists between the individual robot behaviors and the emergent behavior of the entire swarm. For this reason, we turn to biology for inspiration.
Full Article: http://lis.epfl.ch/smavs
Video link: Deployment of Large Aerial Swarms
#swarm #swarmintelligence #robots #science #sciencesunday #scienceeveryday #biology
Ops, apparently I had already shared this post before, but saw it in a collection and as I wasn't sure decided to share either way. It sounds very interesting, wonder what happened with the project since it was more than 2 years ago.
ReplyDeleteMy first share of the news: https://plus.google.com/u/0/+JessicaMeyer/posts/hSEDJqtHZcR