Sensors (Oct 2017)

Motion-Blur-Free High-Speed Video Shooting Using a Resonant Mirror

  • Michiaki Inoue,
  • Qingyi Gu,
  • Mingjun Jiang,
  • Takeshi Takaki,
  • Idaku Ishii,
  • Kenji Tajima

DOI
https://doi.org/10.3390/s17112483
Journal volume & issue
Vol. 17, no. 11
p. 2483

Abstract

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This study proposes a novel concept of actuator-driven frame-by-frame intermittent tracking for motion-blur-free video shooting of fast-moving objects. The camera frame and shutter timings are controlled for motion blur reduction in synchronization with a free-vibration-type actuator vibrating with a large amplitude at hundreds of hertz so that motion blur can be significantly reduced in free-viewpoint high-frame-rate video shooting for fast-moving objects by deriving the maximum performance of the actuator. We develop a prototype of a motion-blur-free video shooting system by implementing our frame-by-frame intermittent tracking algorithm on a high-speed video camera system with a resonant mirror vibrating at 750 Hz. It can capture 1024 × 1024 images of fast-moving objects at 750 fps with an exposure time of 0.33 ms without motion blur. Several experimental results for fast-moving objects verify that our proposed method can reduce image degradation from motion blur without decreasing the camera exposure time.

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