Active Vision for Wearables

Walterio Mayol-Cuevas; Ben Tordoff; Teofilo deCampos; Andrew Davison; David Murray

Active Vision for Wearables

Walterio Mayol-Cuevas, Ben Tordoff, Teofilo deCampos, Andrew Davison, David Murray

Department of Computer Science

Research output: Chapter in Book/Report/Conference proceeding › Conference Contribution (Conference Proceeding)

Abstract

In this paper we report on our ongoing research on wearable active vision, where we have iteratively prototyped a Wearable Visual Robot a body mounted robot for which the main sensor is a camera. Two main areas have been studied: robot design and visual algorithms. In the design stage, we have analysed sensor placement through the computation of the field of view and body motion using a 3D model of the human form. A design methodology for the robot morphology was developed with the help of an optimisation algorithm based on the Pareto front. The wearability of the device has progressed over several iterations as have the sensor and control architectures. In terms of visual algorithms, we have studied methods of visual tracking fused with inertial sensors, real-time template tracking, human head pose recovery and more recently real-time simultaneous ego-localisation and autonomous 3D map building. Our main long-term application areas are enhanced remote collaboration and autonomous wearable assistants that use vision.

Translated title of the contribution	Active Vision for Wearables
Original language	English
Title of host publication	IEE Eurowearable03
Publisher	Institution of Engineering and Technology (IET)
Publication status	Published - 2003

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Conference Proceedings/Title of Journal: IEE Eurowearable03
Other identifier: 2000805

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@inproceedings{067665b03f174883b7759419302f61cf,

title = "Active Vision for Wearables",

abstract = "In this paper we report on our ongoing research on wearable active vision, where we have iteratively prototyped a Wearable Visual Robot a body mounted robot for which the main sensor is a camera. Two main areas have been studied: robot design and visual algorithms. In the design stage, we have analysed sensor placement through the computation of the field of view and body motion using a 3D model of the human form. A design methodology for the robot morphology was developed with the help of an optimisation algorithm based on the Pareto front. The wearability of the device has progressed over several iterations as have the sensor and control architectures. In terms of visual algorithms, we have studied methods of visual tracking fused with inertial sensors, real-time template tracking, human head pose recovery and more recently real-time simultaneous ego-localisation and autonomous 3D map building. Our main long-term application areas are enhanced remote collaboration and autonomous wearable assistants that use vision. ",

author = "Walterio Mayol-Cuevas and Ben Tordoff and Teofilo deCampos and Andrew Davison and David Murray",

note = "Other page information: - Conference Proceedings/Title of Journal: IEE Eurowearable03 Other identifier: 2000805",

year = "2003",

language = "English",

booktitle = "IEE Eurowearable03",

publisher = "Institution of Engineering and Technology (IET)",

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T1 - Active Vision for Wearables

AU - Mayol-Cuevas, Walterio

AU - Tordoff, Ben

AU - deCampos, Teofilo

AU - Davison, Andrew

AU - Murray, David

N1 - Other page information: - Conference Proceedings/Title of Journal: IEE Eurowearable03 Other identifier: 2000805

PY - 2003

Y1 - 2003

N2 - In this paper we report on our ongoing research on wearable active vision, where we have iteratively prototyped a Wearable Visual Robot a body mounted robot for which the main sensor is a camera. Two main areas have been studied: robot design and visual algorithms. In the design stage, we have analysed sensor placement through the computation of the field of view and body motion using a 3D model of the human form. A design methodology for the robot morphology was developed with the help of an optimisation algorithm based on the Pareto front. The wearability of the device has progressed over several iterations as have the sensor and control architectures. In terms of visual algorithms, we have studied methods of visual tracking fused with inertial sensors, real-time template tracking, human head pose recovery and more recently real-time simultaneous ego-localisation and autonomous 3D map building. Our main long-term application areas are enhanced remote collaboration and autonomous wearable assistants that use vision.

AB - In this paper we report on our ongoing research on wearable active vision, where we have iteratively prototyped a Wearable Visual Robot a body mounted robot for which the main sensor is a camera. Two main areas have been studied: robot design and visual algorithms. In the design stage, we have analysed sensor placement through the computation of the field of view and body motion using a 3D model of the human form. A design methodology for the robot morphology was developed with the help of an optimisation algorithm based on the Pareto front. The wearability of the device has progressed over several iterations as have the sensor and control architectures. In terms of visual algorithms, we have studied methods of visual tracking fused with inertial sensors, real-time template tracking, human head pose recovery and more recently real-time simultaneous ego-localisation and autonomous 3D map building. Our main long-term application areas are enhanced remote collaboration and autonomous wearable assistants that use vision.

M3 - Conference Contribution (Conference Proceeding)

BT - IEE Eurowearable03

PB - Institution of Engineering and Technology (IET)

ER -

Active Vision for Wearables

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