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Masao TAKAYAMA Shiro DOSHO Noriaki TAKEDA Masaya MIYAHARA Akira MATSUZAWA
In this paper, we describe a new method to deal with analog signal in time domain. The method converts voltage signal to time-interleaved phase modulation signal of clock edge. After being amplified by a new time amplifier (TA), phases of the signal are converted to digital codes by successive approximation time-to-digital converter (SA-TDC). The test chip includes 8 interleaved 4 bit SA-TDCs with short latency. The chip operates up to 4.4 GHz. The measured ENOB is 3.51 bit and FOM is 0.49 pJ/conv.
Kanae NAOI Koji NAKAMAE Hiromu FUJIOKA Takao IMAI Kazunori SEKINE Noriaki TAKEDA Takeshi KUBO
We have developed a three-dimensional eye movement simulator that simulates eye movement. The simulator allows us to extract the instantaneous eye movement rotation axes from clinical data sequences. It calculates the plane formed by rotation axes and displays it on an eyeball with rotation axes. It also extracts the innervations for eye muscles. The developed simulator is mainly programmed by a CG programming language, OpenGL. First, the simulator was applied to saccadic eye movement data in order to show the so-called Listing's plane on which all hypothetical rotation axes lie. Next, it was applied to clinical data sequences of two patients with benign paroxysmal positional vertigo (BPPV). Instantaneous actual rotation axes and innervations for eye muscle extracted from data sequences have special characteristics. These results are useful for the elucidation of the mechanism of vestibular symptoms, particularly vertigo.