Toshiyuki Sakata scite author profile

Toshiyuki Sakata

5Publications

76Citation Statements Received

16Citation Statements Given

How they've been cited

112

How they cite others

Affiliations

Panasonic (Japan), Chubu University, Chubu Electric Power (Japan)

Publications

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A Spatial Fading Emulator for Evaluation of MIMO Antennas in a Cluster Environment

Sakata

Yamamoto

Ogawa

et al. 2014

IEICE Trans. Commun.

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This paper presents a spatial fading emulator for evaluating handset MIMO antennas in a cluster environment. The proposed emulator is based on Clarke's model and has the ability to control RF signals directly in spatial domain to generate an accurate radio propagation channel model, which includes both uniform and non-uniform angular power spectra (APS) in the horizontal plane. Characteristics of a propagation channel such as fading correlations, eigenvalues and MIMO channel capacities of handset antennas located in the vicinity of the emulator's ring can be evaluated. The measured results show that the fading emulator with 31 antenna probes is sufficient to evaluate fading correlation and MIMO channel capacity of handset antenna in the case of a narrow APS with the standard deviation of more than 20 degrees.

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Vibrations of clamped orthotropic rectangular plates

Sakata

Hosokawa

1988

Journal of Sound and Vibration

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Natural Frequencies of Orthotropic Rectangular Plates Obtained by Iterative Reduction of the Partial Differential Equation

Sakata

Takahashi

Bhat

1996

Journal of Sound and Vibration

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Free Vibrations of Clamped Symmetrically Laminated Skew Plates

Hosokawa

Terada

Sakata

1996

Journal of Sound and Vibration

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Development of the Irradiation Method for the First Instar Silkworm Larvae Using Locally Targeted Heavy-ion Microbeam

Fukamoto

Shirai

Sakata

et al. 2007

JRR

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To carry out the radio-microsurgery study using silkworm, Bombyx mori, we have already developed the specific irradiation systems for eggs and third to fifth instar larvae. In this study, a modified application consisting of the first instar silkworm larvae was further developed using heavy-ion microbeams. This system includes aluminum plates with holes specially designed to fix the first instar silkworm larvae during irradiation, and Mylar films were used to adjust energy deposited for planning radiation doses at certain depth. Using this system, the suppression of abnormal proliferation of epidermal cells in the knob mutant was examined. Following target irradiation of the knob-forming region at the first instar stage with 180-mum-diameter microbeam of 220 MeV carbon (12C) ions, larvae were reared to evaluate the effects of irradiation. The results indicated that the knob formation at the irradiated segment was specially suppressed in 5.9, 56.4, 66.7 and 73.6% of larvae irradiated with 120, 250, 400 and 600 Gy, respectively, but the other knob formations at the non-irradiated segments were not suppressed in either irradiation. Although some larva did not survive undesired non-targeted exposure, our present results indicate that this method would be useful to investigate the irradiation effect on a long developmental period of time. Moreover, our system could also be applied to other species by targeting tissues, or organs during development and metamorphosis in insect and animals.

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