Direkt zum Inhalt springen
Computer Vision Group
TUM Department of Informatics
Technical University of Munich

Technical University of Munich

Menu
Home Members Naseer

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revision Previous revision
members:naseer [2012/08/26 22:43]
naseer
members:naseer [2012/09/28 11:12] (current)
naseer
Line 1: Line 1:
 {{page>​includes:​member}} {{page>​includes:​member}}
  
-**Project: Robust person following with a quadrocopter**+**Project: Robust person-following with a Quadrocopter**
  
 Person detection and following is an integral part of an environment where robots interact with humans. This project deals with robustly following a person with a quadrocopter using a depth camera. A quadrocotper is an UAV (unmanned aerial vehicle) that is lifted and propelled by four rotors. Various algorithms have been developed for person following by UGV (unmanned ground vehicles). Tracking humans with UAVs is relatively a novel problem. Aerial vehicles make person following a difficult problem due to their complex flight dynamics. Existing work demonstrate marker based motion capture systems to use human pose for control. In this project a framework for following a person using marker-less motion capture will be developed. Most existing trackers make the assumption of a static background which is clearly violated on flying robots. Major contribution of this work is to investigate how a motion estimate from visual odometry and IMU can be used to stabilize the camera images such that existing trackers become applicable. The estimated pose will be used for control, i.e., to actually follow a person. Many potential applications exist for this system. One is filming, as it allows to record a video of a moving person from a third-person perspective without an additional cameraman. External visual imagery is used by athletes to monitor their activities while training. A quadrocopter following an athlete and providing a video which can also be used later for detailed offline analysis is also an exciting application of such a system. Person detection and following is an integral part of an environment where robots interact with humans. This project deals with robustly following a person with a quadrocopter using a depth camera. A quadrocotper is an UAV (unmanned aerial vehicle) that is lifted and propelled by four rotors. Various algorithms have been developed for person following by UGV (unmanned ground vehicles). Tracking humans with UAVs is relatively a novel problem. Aerial vehicles make person following a difficult problem due to their complex flight dynamics. Existing work demonstrate marker based motion capture systems to use human pose for control. In this project a framework for following a person using marker-less motion capture will be developed. Most existing trackers make the assumption of a static background which is clearly violated on flying robots. Major contribution of this work is to investigate how a motion estimate from visual odometry and IMU can be used to stabilize the camera images such that existing trackers become applicable. The estimated pose will be used for control, i.e., to actually follow a person. Many potential applications exist for this system. One is filming, as it allows to record a video of a moving person from a third-person perspective without an additional cameraman. External visual imagery is used by athletes to monitor their activities while training. A quadrocopter following an athlete and providing a video which can also be used later for detailed offline analysis is also an exciting application of such a system.
  
    

Rechte Seite

Informatik IX
Chair of Computer Vision & Artificial Intelligence

Boltzmannstrasse 3
85748 Garching

info@vision.in.tum.de