SFly: Swarm of micro flying robots

Markus Achtelik; Michael Achtelik; Yorick Brunet; Margarita Chli; Savvas Chatzichristofis; Jean Dominique Decotignie; Klaus Michael Doth; Friedrich Fraundorfer; Laurent Kneip; Daniel Gurdan; Lionel Heng; Elias Kosmatopoulos; Lefteris Doitsidis; Gim Hee Lee; Simon Lynen; Agostino Martinelli; Lorenz Meier; Marc Pollefeys; Damien Piguet; Alessandro Renzaglia; Davide Scaramuzza; Roland Siegwart; Jan Stumpf; Petri Tanskanen; Chiara Troiani; Stephan Weiss

doi:10.1109/IROS.2012.6386281

SFly: Swarm of micro flying robots

Markus Achtelik, Michael Achtelik, Yorick Brunet, Margarita Chli, Savvas Chatzichristofis, Jean Dominique Decotignie, Klaus Michael Doth, Friedrich Fraundorfer, Laurent Kneip, Daniel Gurdan, Lionel Heng, Elias Kosmatopoulos, Lefteris Doitsidis, Gim Hee Lee, Simon Lynen, Agostino Martinelli, Lorenz Meier, Marc Pollefeys, Damien Piguet, Alessandro RenzagliaDavide Scaramuzza, Roland Siegwart, Jan Stumpf, Petri Tanskanen, Chiara Troiani, Stephan Weiss

Institute of Computer Graphics and Vision (7100)

Research output: Chapter in Book/Report/Conference proceeding › Conference paper › peer-review

Abstract

The SFly project is an EU-funded project, with the goal to create a swarm of autonomous vision controlled micro aerial vehicles. The mission in mind is that a swarm of MAV's autonomously maps out an unknown environment, computes optimal surveillance positions and places the MAV's there and then locates radio beacons in this environment. The scope of the work includes contributions on multiple different levels ranging from theoretical foundations to hardware design and embedded programming. One of the contributions is the development of a new MAV, a hexacopter, equipped with enough processing power for onboard computer vision. A major contribution is the development of monocular visual SLAM that runs in real-time onboard of the MAV. The visual SLAM results are fused with IMU measurements and are used to stabilize and control the MAV. This enables autonomous flight of the MAV, without the need of a data link to a ground station. Within this scope novel analytical solutions for fusing IMU and vision measurements have been derived. In addition to the realtime local SLAM, an offline dense mapping process has been developed. For this the MAV's are equipped with a payload of a stereo camera system. The dense environment map is used to compute optimal surveillance positions for a swarm of MAV's. For this an optimiziation technique based on cognitive adaptive optimization has been developed. Finally, the MAV's have been equipped with radio transceivers and a method has been developed to locate radio beacons in the observed environment.

Original language	English
Title of host publication	2012 IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS 2012
Pages	2649-2650
Number of pages	2
DOIs	https://doi.org/10.1109/IROS.2012.6386281
Publication status	Published - 2012
Event	25th IEEE/RSJ International Conference on Robotics and Intelligent Systems: IROS 2012 - Vilamoura, Algarve, Portugal Duration: 7 Oct 2012 → 12 Oct 2012

Conference

Conference	25th IEEE/RSJ International Conference on Robotics and Intelligent Systems
Country/Territory	Portugal
City	Vilamoura, Algarve
Period	7/10/12 → 12/10/12

ASJC Scopus subject areas

Control and Systems Engineering
Software
Computer Vision and Pattern Recognition
Computer Science Applications

Access to Document

10.1109/IROS.2012.6386281

Cite this

Achtelik, M., Achtelik, M., Brunet, Y., Chli, M., Chatzichristofis, S., Decotignie, J. D., Doth, K. M., Fraundorfer, F., Kneip, L., Gurdan, D., Heng, L., Kosmatopoulos, E., Doitsidis, L., Lee, G. H., Lynen, S., Martinelli, A., Meier, L., Pollefeys, M., Piguet, D., ... Weiss, S. (2012). SFly: Swarm of micro flying robots. In 2012 IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS 2012 (pp. 2649-2650). Article 6386281 https://doi.org/10.1109/IROS.2012.6386281

Achtelik, M, Achtelik, M, Brunet, Y, Chli, M, Chatzichristofis, S, Decotignie, JD, Doth, KM, Fraundorfer, F, Kneip, L, Gurdan, D, Heng, L, Kosmatopoulos, E, Doitsidis, L, Lee, GH, Lynen, S, Martinelli, A, Meier, L, Pollefeys, M, Piguet, D, Renzaglia, A, Scaramuzza, D, Siegwart, R, Stumpf, J, Tanskanen, P, Troiani, C & Weiss, S 2012, SFly: Swarm of micro flying robots. in 2012 IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS 2012., 6386281, pp. 2649-2650, 25th IEEE/RSJ International Conference on Robotics and Intelligent Systems, Vilamoura, Algarve, Portugal, 7/10/12. https://doi.org/10.1109/IROS.2012.6386281

@inproceedings{c1a98bf7fa4645fe9764dbc749ff8978,

title = "SFly: Swarm of micro flying robots",

abstract = "The SFly project is an EU-funded project, with the goal to create a swarm of autonomous vision controlled micro aerial vehicles. The mission in mind is that a swarm of MAV's autonomously maps out an unknown environment, computes optimal surveillance positions and places the MAV's there and then locates radio beacons in this environment. The scope of the work includes contributions on multiple different levels ranging from theoretical foundations to hardware design and embedded programming. One of the contributions is the development of a new MAV, a hexacopter, equipped with enough processing power for onboard computer vision. A major contribution is the development of monocular visual SLAM that runs in real-time onboard of the MAV. The visual SLAM results are fused with IMU measurements and are used to stabilize and control the MAV. This enables autonomous flight of the MAV, without the need of a data link to a ground station. Within this scope novel analytical solutions for fusing IMU and vision measurements have been derived. In addition to the realtime local SLAM, an offline dense mapping process has been developed. For this the MAV's are equipped with a payload of a stereo camera system. The dense environment map is used to compute optimal surveillance positions for a swarm of MAV's. For this an optimiziation technique based on cognitive adaptive optimization has been developed. Finally, the MAV's have been equipped with radio transceivers and a method has been developed to locate radio beacons in the observed environment.",

author = "Markus Achtelik and Michael Achtelik and Yorick Brunet and Margarita Chli and Savvas Chatzichristofis and Decotignie, {Jean Dominique} and Doth, {Klaus Michael} and Friedrich Fraundorfer and Laurent Kneip and Daniel Gurdan and Lionel Heng and Elias Kosmatopoulos and Lefteris Doitsidis and Lee, {Gim Hee} and Simon Lynen and Agostino Martinelli and Lorenz Meier and Marc Pollefeys and Damien Piguet and Alessandro Renzaglia and Davide Scaramuzza and Roland Siegwart and Jan Stumpf and Petri Tanskanen and Chiara Troiani and Stephan Weiss",

year = "2012",

doi = "10.1109/IROS.2012.6386281",

language = "English",

isbn = "9781467317375",

pages = "2649--2650",

booktitle = "2012 IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS 2012",

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AU - Achtelik, Markus

AU - Achtelik, Michael

AU - Brunet, Yorick

AU - Chli, Margarita

AU - Chatzichristofis, Savvas

AU - Decotignie, Jean Dominique

AU - Doth, Klaus Michael

AU - Fraundorfer, Friedrich

AU - Kneip, Laurent

AU - Gurdan, Daniel

AU - Heng, Lionel

AU - Kosmatopoulos, Elias

AU - Doitsidis, Lefteris

AU - Lee, Gim Hee

AU - Lynen, Simon

AU - Martinelli, Agostino

AU - Meier, Lorenz

AU - Pollefeys, Marc

AU - Piguet, Damien

AU - Renzaglia, Alessandro

AU - Scaramuzza, Davide

AU - Siegwart, Roland

AU - Stumpf, Jan

AU - Tanskanen, Petri

AU - Troiani, Chiara

AU - Weiss, Stephan

PY - 2012

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N2 - The SFly project is an EU-funded project, with the goal to create a swarm of autonomous vision controlled micro aerial vehicles. The mission in mind is that a swarm of MAV's autonomously maps out an unknown environment, computes optimal surveillance positions and places the MAV's there and then locates radio beacons in this environment. The scope of the work includes contributions on multiple different levels ranging from theoretical foundations to hardware design and embedded programming. One of the contributions is the development of a new MAV, a hexacopter, equipped with enough processing power for onboard computer vision. A major contribution is the development of monocular visual SLAM that runs in real-time onboard of the MAV. The visual SLAM results are fused with IMU measurements and are used to stabilize and control the MAV. This enables autonomous flight of the MAV, without the need of a data link to a ground station. Within this scope novel analytical solutions for fusing IMU and vision measurements have been derived. In addition to the realtime local SLAM, an offline dense mapping process has been developed. For this the MAV's are equipped with a payload of a stereo camera system. The dense environment map is used to compute optimal surveillance positions for a swarm of MAV's. For this an optimiziation technique based on cognitive adaptive optimization has been developed. Finally, the MAV's have been equipped with radio transceivers and a method has been developed to locate radio beacons in the observed environment.

AB - The SFly project is an EU-funded project, with the goal to create a swarm of autonomous vision controlled micro aerial vehicles. The mission in mind is that a swarm of MAV's autonomously maps out an unknown environment, computes optimal surveillance positions and places the MAV's there and then locates radio beacons in this environment. The scope of the work includes contributions on multiple different levels ranging from theoretical foundations to hardware design and embedded programming. One of the contributions is the development of a new MAV, a hexacopter, equipped with enough processing power for onboard computer vision. A major contribution is the development of monocular visual SLAM that runs in real-time onboard of the MAV. The visual SLAM results are fused with IMU measurements and are used to stabilize and control the MAV. This enables autonomous flight of the MAV, without the need of a data link to a ground station. Within this scope novel analytical solutions for fusing IMU and vision measurements have been derived. In addition to the realtime local SLAM, an offline dense mapping process has been developed. For this the MAV's are equipped with a payload of a stereo camera system. The dense environment map is used to compute optimal surveillance positions for a swarm of MAV's. For this an optimiziation technique based on cognitive adaptive optimization has been developed. Finally, the MAV's have been equipped with radio transceivers and a method has been developed to locate radio beacons in the observed environment.

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DO - 10.1109/IROS.2012.6386281

M3 - Conference paper

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SN - 9781467317375

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BT - 2012 IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS 2012

Y2 - 7 October 2012 through 12 October 2012

ER -

SFly: Swarm of micro flying robots

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Conference

ASJC Scopus subject areas

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