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Robotic Herding of a Flock of Birds Using Drones
A joint team from KAIST, Caltech, and Imperial College London, presents a drone with a new algorithm to shepherd birds safely away from airports Researchers made a new algorithm for enabling a single robotic unmanned aerial vehicle to herd a flock of birds away from a designated airspace. This novel approach allows a single autonomous quadrotor drone to herd an entire flock of birds away without breaking their formation. Professor David Hyunchul Shim at KAIST in collaboration with Professor Soon-Jo Chung of Caltech and Professor Aditya Paranjape of Imperial College London investigated the problem of diverting a flock of birds away from a prescribed area, such as an airport, using a robotic UVA. A novel boundary control strategy called the m-waypoint algorithm was introduced for enabling a single pursuer UAV to safely herd the flock without fragmenting it. The team developed the herding algorithm on the basis of macroscopic properties of the flocking model and the response of the flock. They tested their robotic autonomous drone by successfully shepherding an entire flock of birds out of a designated airspace near KAIST’s campus in Daejeon, South Korea. This study is published in IEEE Transactions on Robotics. “It is quite interesting, and even awe-inspiring, to monitor how birds react to threats and collectively behave against threatening objects through the flock. We made careful observations of flock dynamics and interactions between flocks and the pursuer. This allowed us to create a new herding algorithm for ideal flight paths for incoming drones to move the flock away from a protected airspace,” said Professor Shim, who leads the Unmanned Systems Research Group at KAIST. Bird strikes can threaten the safety of airplanes and their passengers. Korean civil aircraft suffered more than 1,000 bird strikes between 2011 and 2016. In the US, 142,000 bird strikes destroyed 62 civilian airplanes, injured 279 people, and killed 25 between 1990 and 2013. In the UK in 2016, there were 1,835 confirmed bird strikes, about eight for every 10,000 flights. Bird and other wildlife collisions with aircraft cause well over 1.2 billion USD in damages to the aviation industry worldwide annually. In the worst case, Canadian geese knocked out both engines of a US Airway jet in January 2009. The flight had to make an emergency landing on the Hudson River. Airports and researchers have continued to reduce the risk of bird strikes through a variety of methods. They scare birds away using predators such as falcons or loud noises from small cannons or guns. Some airports try to prevent birds from coming by ridding the surrounding areas of crops that birds eat and hide in. However, birds are smart. “I was amazed with the birds’ capability to interact with flying objects. We thought that only birds of prey have a strong sense of maneuvering with the prey. But our observation of hundreds of migratory birds such as egrets and loons led us to reach the hypothesis that they all have similar levels of maneuvering with the flying objects. It will be very interesting to collaborate with ornithologists to study further with birds’ behaviors with aerial objects,” said Professor Shim. “Airports are trying to transform into smart airports. This algorithm will help improve safety for the aviation industry. In addition, this will also help control avian influenza that plagues farms nationwide every year,” he stressed. For this study, two drones were deployed. One drone performed various types of maneuvers around the flocks as a pursuer of herding drone, while a surveillance drone hovered at a high altitude with a camera pointing down for recording the trajectories of the pursuer drone and the birds. During the experiments on egrets, the birds made frequent visits to a hunting area nearby and a large number of egrets were found to return to their nests at sunset. During the time, the team attempted to fly the herding drone in various directions with respect to the flock. The drone approached the flock from the side. When the birds noticed the drone, they diverted from their original paths and flew at a 45˚ angle to their right. When the birds noticed the drone while it was still far away, they adjusted their paths horizontally and made smaller changes in the vertical direction. In the second round of the experiment on loons, the drone flew almost parallel to the flight path of a flock of birds, starting from an initial position located just off the nominal flight path. The birds had a nominal flight speed that was considerably higher than that of the drone so the interaction took place over a relatively short period of time. Professor Shim said, “I think we just completed the first step of the research. For the next step, more systems will be developed and integrated for bird detection, ranging, and automatic deployment of drones.” “Professor Chung at Caltech is a KAIST graduate. And his first student was Professor Paranjape who now teaches at Imperial. It is pretty interesting that this research was made by a KAIST faculty member, an alumnus, and his student on three different continents,” he said. (Figure A. Case 1: drone approaches the herd with sufficient distance to induce horizontal deviation) (Figure B. Case 2: drone approaches the herd abruptly to cause vertical deviation)
2018.08.23
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KAIST Operates a Summer School with Imperial College London
KAIST and Imperial College London jointly hosted a summer school on the KAIST campus on July 14-17, 2015. Twenty-five students from both universities, 11 from KAIST and 14 from Imperial College, participated in the summer program. KAIST and Imperial College agreed to hold academic and research exchange programs in 2013; this year’s summer school represented the first effort. Participants were divided into a few cohorts of four or five students. They conducted a series of activities to implement joint research projects involving team building, networking, joint study, discussions, and presentations. Among the projects the summer school ran, Professor Hoi-Jun Yoo of the Electrical Engineering Department at KAIST was invited to teach students about the mobile healthcare system, Dr. M, that he had developed. Sung-Hyon Myaeng, Associate Vice President of the International Affairs Office, KAIST, said, “This summer school is yet another example of KAIST’s ongoing efforts to make the campus more global and to interact actively with members of the international community.”
2015.07.29
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KAIST's Partnership Agreement with the Imperial College of Science, Technology and Medicine, UK
KAIST signed an agreement on academic and research cooperation with the Imperial College of Science, Technology (Imperial College London) and Medicine in the United Kingdom (UK) on November 6th, 2013 in London. The two universities have been implementing collaboration programs at the department level in the areas of plastic electronics since September 2012 and systems engineering and molecular simulation since February 2013, but have never had a formal partnership agreement. President Steve Kang from KAIST and Provost James Stirling from Imperial College London signed the comprehensive cooperation agreement which will not only strengthen the existing collaborations between the two institutions but also explore areas of mutual interest in the interdisciplinary study of big data, as well as in the fields of mechanical engineering, synthetic biology, and quantum physics. Workshops, seminars, lectures, and conferences will be jointly organized and held to facilitate the exchange of research staff and faculty and to promote collaborations in research assignments. The universities will also look into the possibility of exchange programs for undergraduate and graduate students. The partnership agreement will be effective for five years. Minister Moon-Gi Choi from the Republic of Korea’s Ministry of Science, Information and Communications Technology (ICT) & Future Planning attended the signing ceremony as well and congratulated the establishment of the partnership, saying: “We are living in the age of highly advanced science and technology that requires us to have a new economic development paradigm for sustainable growth. Through convergence research based on the application of ICT and technology innovation, we will have new opportunities for development. I hope KAIST and the Imperial College London will be at the forefront of such endeavors in coming years.”With its history spanning over 100 years, the Imperial College London is a public research university located in London, UK, specializing in science, engineering, medicine, and business. The university is regarded as being one of the most prestigious universities in the world, having eminent alumni such as Thomas Henry Huxley (biologist), H.G. Wells (author), and Sir Alexander Fleming (pharmacologist). From left to right: Provost James Stirling, Minister Moon-Gi Choi, and President Steve Kang
2013.11.12
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