AbstractA new method for visualizing vibrating structures is described. The system provides a means to capture very fast repeating events by relatively minor modifications to a standard confocal microscope. An acousto-optic modulator was inserted in the beam path, generating brief pulses of laser light. Images were formed by summing consecutive frames until every pixel of the resulting image had been exposed to a laser pulse. Images were analyzed using a new method for optical flow computation; it was validated through introducing artificial displacements in confocal images. Displacements in the range of 0.8 to 4 pixels were measured with 5% error or better. The lower limit for reliable motion detection was 20% of the pixel size. These meth...
Low-frequency hearing is critically important for speech and music perception, but no mechanical mea...
The mechanical processes at work within the organ of Corti can be greatly elucidated by measuring bo...
Current methodologies for characterizing tympanic membrane (TM) motion are usually limited to either...
In this thesis we are developing image processing methods allowing one to probe the structure and fu...
Recent developments in imaging techniques, namely confocal laser scanning microscopy, offer new tool...
AbstractThe vibration of the organ of Corti, a three-dimensional micromechanical structure that inco...
Hearing in mammals, depend on an amplifying motion which hypothetically uses force from outer hair c...
AbstractThe hearing organ contains sensory hair cells, which convert sound-evoked vibration into act...
The possibility of measuring subnanometer motions with micron scale spatial resolution in the intact...
The differential motion of the organ of Corti has been expected as a result of the outer hair cell f...
Thesis (Ph. D.)--Harvard--Massachusetts Institute of Technology Division of Health Sciences and Tech...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
A major reason we can perceive faint sounds and communicate in noisy environments is that the outer ...
The micromechanical mechanisms that underpin tuning and dynamic range compression in the mammalian i...
Hearing loss affects millions of Americans and is of increasing concern to an aging population. It ...
Low-frequency hearing is critically important for speech and music perception, but no mechanical mea...
The mechanical processes at work within the organ of Corti can be greatly elucidated by measuring bo...
Current methodologies for characterizing tympanic membrane (TM) motion are usually limited to either...
In this thesis we are developing image processing methods allowing one to probe the structure and fu...
Recent developments in imaging techniques, namely confocal laser scanning microscopy, offer new tool...
AbstractThe vibration of the organ of Corti, a three-dimensional micromechanical structure that inco...
Hearing in mammals, depend on an amplifying motion which hypothetically uses force from outer hair c...
AbstractThe hearing organ contains sensory hair cells, which convert sound-evoked vibration into act...
The possibility of measuring subnanometer motions with micron scale spatial resolution in the intact...
The differential motion of the organ of Corti has been expected as a result of the outer hair cell f...
Thesis (Ph. D.)--Harvard--Massachusetts Institute of Technology Division of Health Sciences and Tech...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
A major reason we can perceive faint sounds and communicate in noisy environments is that the outer ...
The micromechanical mechanisms that underpin tuning and dynamic range compression in the mammalian i...
Hearing loss affects millions of Americans and is of increasing concern to an aging population. It ...
Low-frequency hearing is critically important for speech and music perception, but no mechanical mea...
The mechanical processes at work within the organ of Corti can be greatly elucidated by measuring bo...
Current methodologies for characterizing tympanic membrane (TM) motion are usually limited to either...