Swarm of micro flying robots in the wild

Zhou, Xin; Wen, Xiangyong; Wang, Zhepei; Gao, Yuman; Li, Haojia; Wang, Qianhao; Yang, Tiankai; Lu, Haojian; Cao, Yanjun; Xu, Chao; Gao, Fei

doi:10.1126/scirobotics.abm5954

Cited by 207 publications

(93 citation statements)

References 59 publications

(77 reference statements)

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“…Beyond data processing, advancements with drones' on board automated visual tracking (Islam et al, 2019) and the ability to automatically coordinate flight among multiple drones (Zhou et al, 2022) could help to streamline complex operations, reduce the risk of human error, and also facilitate further observation techniques such as multiview 3D posture tracking (Tallamraju et al, 2019). Drones could thus be deployed to autonomously find and record individuals of a target species.…”

Section: Future Extensionsmentioning

confidence: 99%

Quantifying the movement, behavior, and environmental context of group-living animals using drones and computer vision

Koger

Deshpande

Kerby

et al. 2022

Preprint

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1. Methods for collecting animal behavior data in natural environments, such as direct observation and bio-logging, are typically limited in spatiotemporal resolution, the number of animals that can be observed, and information about animals' social and physical environments. 2. Video imagery can capture rich information about animals and their environments, but image-based approaches are often impractical due to the challenges of processing large and complex multi-image datasets and transforming resulting data, such as animals' locations, into geographic coordinates. 3. We demonstrate a new system for studying behavior in the wild that uses drone-recorded videos and computer vision approaches to automatically track the location and body posture of free-roaming animals in georeferenced coordinates with high spatiotemporal resolution embedded in contemporaneous 3D landscape models of the surrounding area. 4. We provide two worked examples in which we apply this approach to videos of gelada monkeys and multiple species of group-living African ungulates. We demonstrate how to track multiple animals simultaneously, classify individuals by species and age-sex class, estimate individuals' body postures (poses), and extract environmental features, including topography of the landscape and game trails. 5. By quantifying animal movement and posture, while simultaneously reconstructing a detailed 3D model of the landscape, our approach opens the door to studying the sensory ecology and decision-making of animals within their natural physical and social environments.

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Section: Future Extensionsmentioning

confidence: 99%

Quantifying the movement, behavior, and environmental context of group-living animals using drones and computer vision

Koger

Deshpande

Kerby

et al. 2022

Preprint

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“…Some cluttered scenarios, such as lush forests, make it difficult for drones to move without colliding. This prompts new developments to give drones the ability to sense the environment and plan a locally optimal trajectory [17]. Another important point to look for PVs concerns the formation flight [18]- [20] of UAVs, when they operate as a cluster, where the preferred shape can adaptively change according to task requirements.…”

Section: Related Workmentioning

confidence: 99%

Bluetooth Low Energy for Close Detection in Search and Rescue Missions With Robotic Platforms: An Experimental Evaluation

Cantizani-Estepa¹,

Bravo-Arrabal²,

Lozano³

et al. 2022

IEEE Access

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In the field of rescue robotics, data collection about the environment and efficient communications are fundamental for the success of search and rescue missions. Digitalization provides new ways of detecting and localizing potential victims via the wireless devices carried by the users. Nowadays, the number of personal Bluetooth low energy wearables in use (smartbands, smartwatches, earbuds...) increases constantly, being a yet-to-be-exploited personal radio frequency beacon in the case of an emergency, where the user may not be localized and unconscious. In this paper, the results of experimental tests of a Bluetooth low energy based detection system ported by terrestrial and aerial robots are provided, in order to test the feasibility of such system for the localization of the victims in unknown complex disaster areas. The results show that the tested devices can be reliably detected up to 15 meters away when using transmission power values typical of a smartphone, while being able to detect even lightly burdened devices. These results support the idea of developing an algorithm for the delimitation of areas of interest for the search and rescue groups, influencing the routes followed by the robot with the objective of exploring the detected devices area in the search of victims.

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“…However, safe flight requires expensive and often cumbersome sensors for drone localization and obstacle tracking. For example, Zhou et al [13] developed a fully autonomous swarm able to obtain a high-quality trajectory within a few milliseconds by data fusion from grayscale and depth camera, inertial measurement unit (IMU), and ultra-wideband sensor. Using the camera for state estimation and perception tasks minimizes the use of heavy equipment in industries, including manufacturing and construction [14].…”

Section: Related Workmentioning

confidence: 99%

SwarmHawk: Self-Sustaining Multi-Agent System for Landing on a Moving Platform through an Agent Supervision

Gupta

Dorzhieva

Baza

et al. 2022

2022 International Conference on Unmanned Aircraft Systems (ICUAS)

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Heterogeneous teams of mobile robots and UAVs are offering a substantial benefit in an autonomous exploration of the environment. Nevertheless, although joint exploration scenarios for such systems are widely discussed, they are still suffering from low adaptability to changes in external conditions and faults of swarm agents during the UAV docking. We propose a novel vision-based drone swarm docking system for robust landing on a moving platform when one of the agents lost its position signal.The proposed SwarmHawk system relies on vision-based detection for the mobile platform tracking and navigation of its agents. Each drone of the swarm carries an RGB camera and AprilTag3 QR-code marker on board. SwarmHawk can switch between two modes of operation, acting as a homogeneous swarm in case of global UAV localization or assigning leader drones to navigate its neighbors in case of a camera fault in one of the drones or global localization failure.Two experiments were performed to evaluate SwarmHawk's performance under the global and local localization with static and moving platforms. The experimental results revealed a sufficient accuracy in the swarm landing task on a static mobile platform (error of 4.2 cm in homogeneous formation and 1.9 cm in leader-follower formation) and on moving platform (error of 6.9 cm in homogeneous formation and 4.7 cm in leader-follower formation). Moreover, the drones showed a good landing on a platform moving along a complex trajectory (average error of 19.4 cm) in leader-follower formation.The proposed SwarmHawk technology can be potentially applied in various swarm scenarios, including complex environment exploration, inspection, and drone delivery.

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Swarm of micro flying robots in the wild

Cited by 207 publications

References 59 publications

Quantifying the movement, behavior, and environmental context of group-living animals using drones and computer vision

Quantifying the movement, behavior, and environmental context of group-living animals using drones and computer vision

Bluetooth Low Energy for Close Detection in Search and Rescue Missions With Robotic Platforms: An Experimental Evaluation

SwarmHawk: Self-Sustaining Multi-Agent System for Landing on a Moving Platform through an Agent Supervision

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