RESEARCHES
Smart Vision & Robotic Sensing
Professor, Robotics Laboratory
Smart Innovation Program, Graduate School of Advanced Science and Engineering
Hiroshima University
Smart Innovation Program, Graduate School of Advanced Science and Engineering
Hiroshima University
Idaku ISHII
- >> Research Contents
- In order to establish high-speed robot senses that are much faster than human senses, we are conducting research and development of information systems and devices that can achieve real-time image processing at 1000 frames/s or greater. As well as integrated algorithms to accelerate sensor information processing, we are also studying new sensing methodologies based on vibration and flow dynamics; they are too fast for humans to sense.
Gait Analysis of Racing Horses
Lameness has been investigated in past studies with kinematic analyses, and the features of lameness have been qualitatively and quantitatively analyzed. The output was, however, limited to visible lameness that was scored by experienced clinicians. Subclinical supporting lameness that was induced by subtle pressure to the sole of limb, but that could not be detected by visual check, has yet to be extensively analyzed.
To find specific kinematic parameters that were influenced by such subclinical lameness of the fore- or hindlimb, we produced subclinical, subtle and mild lameness in five sound horses by applying slight pressure to the sole. Trot on a treadmill was recorded by a high-speed camera. Symmetric properties of acceleration of the head and the tuber sacrale were disturbed in mild fore- and hindlimb lameness, respectively.
In subclinical forelimb lameness, no obvious changes in the symmetric properties of the head, the withers, or the tuber sacrale were observed; however, the vertical lift-off acceleration of the treated forelimb was decreased. In the case of subclinical hindlimb lameness, the lift-off points of both the treated and sound hindlimb shifted posteriad. These findings may contribute to further investigations of subclinical lameness aiming to establish new procedures for early detection of subclinical musculoskeletal disease, which would enable more timely treatment.
To find specific kinematic parameters that were influenced by such subclinical lameness of the fore- or hindlimb, we produced subclinical, subtle and mild lameness in five sound horses by applying slight pressure to the sole. Trot on a treadmill was recorded by a high-speed camera. Symmetric properties of acceleration of the head and the tuber sacrale were disturbed in mild fore- and hindlimb lameness, respectively.
In subclinical forelimb lameness, no obvious changes in the symmetric properties of the head, the withers, or the tuber sacrale were observed; however, the vertical lift-off acceleration of the treated forelimb was decreased. In the case of subclinical hindlimb lameness, the lift-off points of both the treated and sound hindlimb shifted posteriad. These findings may contribute to further investigations of subclinical lameness aiming to establish new procedures for early detection of subclinical musculoskeletal disease, which would enable more timely treatment.