Compact high dynamic 3 DoF camera orientation system: Development and control

Thomas Villgrattner; Erich Schneider; Philipp Andersch; Heinz Ulbrich

Compact high dynamic 3 DoF camera orientation system: Development and control

Thomas Villgrattner, Erich Schneider, Philipp Andersch, Heinz Ulbrich

Chair of Applied Mechanics

Research output: Contribution to conference › Paper › peer-review

2 Scopus citations

Abstract

This paper reports on the development and control of a compact, high dynamic camera orientation system with three degrees-of-freedom (DoF). The system orients a small camera around its pan, tilt, and roll axes, using a parallel kinematics driven by ultrasonic piezo-actuators. To fit its application as part of a gaze-driven head-mounted camera system (EyeSeeCam) or as an artificial eye for humanoid robots, the camera orientation device was designed to be small in weight and size as well as to replicate the high dynamic movements of the human eye. The mechanical setup is described and the closed loop control architecture, including a dead zone compensation for the actuators, is introduced. Control experiments conducted with the prototype demonstrated that the system performance is comparable to and even exceeds that of the human oculomotor system.

Original language	English
State	Published - 16 Aug 2010
Event	10th International Conference on Motion and Vibration Control, MOVIC 2010 - Tokyo, Japan Duration: 17 Aug 2010 → 20 Aug 2010

Conference

Conference	10th International Conference on Motion and Vibration Control, MOVIC 2010
Country/Territory	Japan
City	Tokyo
Period	17/08/10 → 20/08/10

Keywords

Camera orientation
High dynamic
Parallel kinematics
Piezo-actuators
Robot eye

Cite this

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title = "Compact high dynamic 3 DoF camera orientation system: Development and control",

abstract = "This paper reports on the development and control of a compact, high dynamic camera orientation system with three degrees-of-freedom (DoF). The system orients a small camera around its pan, tilt, and roll axes, using a parallel kinematics driven by ultrasonic piezo-actuators. To fit its application as part of a gaze-driven head-mounted camera system (EyeSeeCam) or as an artificial eye for humanoid robots, the camera orientation device was designed to be small in weight and size as well as to replicate the high dynamic movements of the human eye. The mechanical setup is described and the closed loop control architecture, including a dead zone compensation for the actuators, is introduced. Control experiments conducted with the prototype demonstrated that the system performance is comparable to and even exceeds that of the human oculomotor system.",

keywords = "Camera orientation, High dynamic, Parallel kinematics, Piezo-actuators, Robot eye",

author = "Thomas Villgrattner and Erich Schneider and Philipp Andersch and Heinz Ulbrich",

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T1 - Compact high dynamic 3 DoF camera orientation system

T2 - 10th International Conference on Motion and Vibration Control, MOVIC 2010

AU - Villgrattner, Thomas

AU - Schneider, Erich

AU - Andersch, Philipp

AU - Ulbrich, Heinz

PY - 2010/8/16

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N2 - This paper reports on the development and control of a compact, high dynamic camera orientation system with three degrees-of-freedom (DoF). The system orients a small camera around its pan, tilt, and roll axes, using a parallel kinematics driven by ultrasonic piezo-actuators. To fit its application as part of a gaze-driven head-mounted camera system (EyeSeeCam) or as an artificial eye for humanoid robots, the camera orientation device was designed to be small in weight and size as well as to replicate the high dynamic movements of the human eye. The mechanical setup is described and the closed loop control architecture, including a dead zone compensation for the actuators, is introduced. Control experiments conducted with the prototype demonstrated that the system performance is comparable to and even exceeds that of the human oculomotor system.

AB - This paper reports on the development and control of a compact, high dynamic camera orientation system with three degrees-of-freedom (DoF). The system orients a small camera around its pan, tilt, and roll axes, using a parallel kinematics driven by ultrasonic piezo-actuators. To fit its application as part of a gaze-driven head-mounted camera system (EyeSeeCam) or as an artificial eye for humanoid robots, the camera orientation device was designed to be small in weight and size as well as to replicate the high dynamic movements of the human eye. The mechanical setup is described and the closed loop control architecture, including a dead zone compensation for the actuators, is introduced. Control experiments conducted with the prototype demonstrated that the system performance is comparable to and even exceeds that of the human oculomotor system.

KW - Camera orientation

KW - High dynamic

KW - Parallel kinematics

KW - Piezo-actuators

KW - Robot eye

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M3 - Paper

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Y2 - 17 August 2010 through 20 August 2010

ER -

Compact high dynamic 3 DoF camera orientation system: Development and control

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Keywords

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