Patents by Inventor Takanori KISHIMOTO
Takanori KISHIMOTO has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 12080427Abstract: A method for predicting a depressive state using a wearable device. Each data type of biological data for several days from plurality of subjects is converted into data in predetermined time unit (S201). Next, quantiles of the distribution of obtained sample data are determined for each subject and each data type (S202). The standard deviation of distribution of the obtained sample data is calculated for each subject and each data type (S203). The Pearson correlation coefficient is calculated for each combination of data types for each subject (S204). Next, a prediction model for the classification problem of whether subject is in a depressive state is trained by machine leaning (S206), wherein quantiles, standard deviations, and Pearson correlation coefficients extracted from the biological data are features used for an input vector, and an evaluation of existence or non-existence of a depressive state by an expert is a label used as teacher data.Type: GrantFiled: December 13, 2019Date of Patent: September 3, 2024Assignee: KEIO UNIVERSITYInventors: Taishiro Kishimoto, Yuki Tazawa, Liang Kuo-Ching, Takanori Fujita, Michitaka Yoshimura, Momoko Kitazawa, Masaru Mimura
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Patent number: 11501950Abstract: Provided is a technique capable of achieving both throughput and robustness for a function of adjusting brightness (B) and contrast (C) of a captured image in a charged particle beam device. The charged particle beam device includes a computer system having a function (ABCC function) of adjusting the B and the C of an image obtained by imaging a sample. The computer system determines whether adjustment is necessary based on a result obtained by evaluating a first image obtained by imaging an imaging target of the sample (step S2), executes, when the adjustment is necessary based on a result of the determination, the adjustment on a second image of the imaging target to set an adjusted B value and an adjusted C value (step S4), and captures a third image of the imaging target based on the adjusted setting values to generate an image for observation (step S5).Type: GrantFiled: May 26, 2021Date of Patent: November 15, 2022Assignee: Hitachi High-Tech CorporationInventors: Yohei Minekawa, Kohei Chiba, Muneyuki Fukuda, Takanori Kishimoto
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Publication number: 20210391140Abstract: Provided is a technique capable of achieving both throughput and robustness for a function of adjusting brightness (B) and contrast (C) of a captured image in a charged particle beam device. The charged particle beam device includes a computer system having a function (ABCC function) of adjusting the B and the C of an image obtained by imaging a sample. The computer system determines whether adjustment is necessary based on a result obtained by evaluating a first image obtained by imaging an imaging target of the sample (step S2), executes, when the adjustment is necessary based on a result of the determination, the adjustment on a second image of the imaging target to set an adjusted B value and an adjusted C value (step S4), and captures a third image of the imaging target based on the adjusted setting values to generate an image for observation (step S5).Type: ApplicationFiled: May 26, 2021Publication date: December 16, 2021Inventors: Yohei MINEKAWA, Kohei CHIBA, Muneyuki FUKUDA, Takanori KISHIMOTO
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Patent number: 10971328Abstract: This charged particle beam device is provided with: a plurality of detectors for detecting secondary particles, the detectors being disposed in a symmetrical manner around the optical axis of a primary charged particle beam closer to the charged particle source side than an objective lens; electrodes for forming an electric field oriented in directions corresponding to each of the plurality of detectors, the electrodes being provided on the travel routes of secondary particles from a sample to the detectors; and a control power supply for applying a voltage to the electrodes. Adjusting the voltage applied to each of the electrodes makes it possible to detect, upon deflecting, the secondary particles, and to control the range of azimuths of the secondary particles to be detected.Type: GrantFiled: June 17, 2020Date of Patent: April 6, 2021Assignee: Hitachi High-Tech CorporationInventors: Takanori Kishimoto, Ichiro Tachibana, Naomasa Suzuki
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Publication number: 20200312606Abstract: This charged particle beam device is provided with: a plurality of detectors for detecting secondary particles, the detectors being disposed in a symmetrical manner around the optical axis of a primary charged particle beam closer to the charged particle source side than an objective lens; electrodes for forming an electric field oriented in directions corresponding to each of the plurality of detectors, the electrodes being provided on the travel routes of secondary particles from a sample to the detectors; and a control power supply for applying a voltage to the electrodes. Adjusting the voltage applied to each of the electrodes makes it possible to detect, upon deflecting, the secondary particles, and to control the range of azimuths of the secondary particles to be detected.Type: ApplicationFiled: June 17, 2020Publication date: October 1, 2020Inventors: Takanori KISHIMOTO, Ichiro TACHIBANA, Naomasa SUZUKI
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Patent number: 10734191Abstract: This charged particle beam device is provided with: a plurality of detectors for detecting secondary particles, the detectors being disposed in a symmetrical manner around the optical axis of a primary charged particle beam closer to the charged particle source side than an objective lens; electrodes for forming an electric field oriented in directions corresponding to each of the plurality of detectors, the electrodes being provided on the travel routes of secondary particles from a sample to the detectors; and a control power supply for applying a voltage to the electrodes. Adjusting the voltage applied to each of the electrodes makes it possible to detect, upon deflecting, the secondary particles, and to control the range of azimuths of the secondary particles to be detected.Type: GrantFiled: July 6, 2015Date of Patent: August 4, 2020Assignee: Hitachi High-Tech CorporationInventors: Takanori Kishimoto, Ichiro Tachibana, Naomasa Suzuki
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Publication number: 20180204706Abstract: This charged particle beam device is provided with: a plurality of detectors for detecting secondary particles, the detectors being disposed in a symmetrical manner around the optical axis of a primary charged particle beam closer to the charged particle source side than an objective lens; electrodes for forming an electric field oriented in directions corresponding to each of the plurality of detectors, the electrodes being provided on the travel routes of secondary particles from a sample to the detectors; and a control power supply for applying a voltage to the electrodes. Adjusting the voltage applied to each of the electrodes makes it possible to detect, upon deflecting, the secondary particles, and to control the range of azimuths of the secondary particles to be detected.Type: ApplicationFiled: July 6, 2015Publication date: July 19, 2018Inventors: Takanori KISHIMOTO, Ichiro TACHIBANA, Naomasa SUZUKI