Patents by Inventor Masanobu Yamamoto

Masanobu Yamamoto 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).

  • Patent number: 11255771
    Abstract: A photon-accounting system for use with a flow cytometry system is disclosed which includes a signal shaping sub-system, including a differentiator configured to generate a differentiated output of photodiode signals into corresponding zero-crossings each associated with one of the received photons, a comparator configured to receive the differentiated signal and compare to a threshold to thereby generate a comparator output digital signal associated with the crossing of the differentiated signal about the threshold, a front-end synchronization system adapted to receive and synchronize the comparator generated digital signal to a clock, thereby generate synchronized photon data with the clock and associated with the asynchronized photodiode signal, and a timestamping system adapted to receive the synchronized data as a bit stream and generate a timestamp associated with each photon data.
    Type: Grant
    Filed: June 22, 2020
    Date of Patent: February 22, 2022
    Assignee: CAPTL LLC
    Inventors: Masanobu Yamamoto, J. Paul Robinson, Keegan Hernandez
  • Patent number: 11187584
    Abstract: A measurement system includes an optical source (e.g., laser) to irradiate a sample (e.g., a cell); a solid-state photon detector (SSPD) to receive resultant light from the sample; and a photon counter to count photons received by the SSPD. The photon counter can include a differentiator to provide a differentiated photon signal and a crossing detector configured to count photons based on a number of times the differentiated photon signal crosses a predetermined threshold level. In some examples, a pulse detector can provide a pulse-width signal from the SSPD output photon signal, and a pulse counter can count based on both a number of pulses and widths of the pulses. The SSPD can include a silicon photomultiplier (SiPM) array or a solid-state photomultiplier. Some examples use the measurement system to measure samples in fluids, e.g., in flow cytometers or multi-well plates.
    Type: Grant
    Filed: April 12, 2018
    Date of Patent: November 30, 2021
    Assignee: CAPTL LLC
    Inventors: Masanobu Yamamoto, Keegan Hernandez, J. Paul Robinson
  • Publication number: 20210025757
    Abstract: A measurement system includes an optical source (e.g., laser) to irradiate a sample (e.g., a cell); a solid-state photon detector (SSPD) to receive resultant light from the sample; and a photon counter to count photons received by the SSPD. The photon counter can include a differentiator to provide a differentiated photon signal and a crossing detector configured to count photons based on a number of times the differentiated photon signal crosses a predetermined threshold level. In some examples, a pulse detector can provide a pulse-width signal from the SSPD output photon signal, and a pulse counter can count based on both a number of pulses and widths of the pulses. The SSPD can include a silicon photomultiplier (SiPM) array or a solid-state photomultiplier. Some examples use the measurement system to measure samples in fluids, e.g., in flow cytometers or multi-well plates.
    Type: Application
    Filed: April 12, 2018
    Publication date: January 28, 2021
    Applicant: CAPTL LLC
    Inventors: Masanobu Yamamoto, Keegan Hernandez, J. Paul Robinson
  • Patent number: 10900885
    Abstract: According to various aspects, a flow system for transporting microparticulate samples in a hydrodynamically planar flow in a selected flow direction includes a flow chamber extending in the flow direction, having first and second apertures on opposed surfaces of the flow chamber. A sheath-fluid channel has first and second branches to carry the sheath fluid into the flow chamber through the first aperture and having orientations separated by less than about 15° at the first aperture; and third and fourth branches to carry the sheath fluid through the second aperture and having orientations separated by less than about 15° at the second aperture. In some examples, guide channels extend from the apertures substantially perpendicular to the flow chamber at the apertures, and sheath-fluid channel supply sheath fluid to the guide channels. Flow systems can be used in image flow cytometers for observing microparticulate samples, e.g., using scanning irradiation.
    Type: Grant
    Filed: December 19, 2015
    Date of Patent: January 26, 2021
    Assignee: CAPTL LLC
    Inventors: Masanobu Yamamoto, J. Paul Robinson, Yuji Masuda, Tsukasa Kayou
  • Publication number: 20200400547
    Abstract: A photon-accounting system for use with a flow cytometry system is disclosed which includes a signal shaping sub-system, including a differentiator configured to generate a differentiated output of photodiode signals into corresponding zero-crossings each associated with one of the received photons, a comparator configured to receive the differentiated signal and compare to a threshold to thereby generate a comparator output digital signal associated with the crossing of the differentiated signal about the threshold, a front-end synchronization system adapted to receive and synchronize the comparator generated digital signal to a clock, thereby generate synchronized photon data with the clock and associated with the asynchronized photodiode signal, and a timestamping system adapted to receive the synchronized data as a bit stream and generate a timestamp associated with each photon data.
    Type: Application
    Filed: June 22, 2020
    Publication date: December 24, 2020
    Applicant: CAPTL LLC
    Inventors: Masanobu Yamamoto, J. Paul Robinson, Keegan Hernandez
  • Publication number: 20200356471
    Abstract: A storage system monitors the first access frequency of occurrence which is the access frequency of occurrence from a host device during a first period, and the second access frequency of occurrence which is the access frequency of occurrence from a host device during a second period shorter than the first period. Along with performing data relocation among the tiers (levels) in the first period cycle based on the first access frequency of occurrence, the storage system performs a decision whether or not to perform a second relocation based on the first access frequency of occurrence and the second access frequency of occurrence, synchronously with access from a host device. Here the threshold value utilized in a decision on whether or not to perform the first relocation is different from the threshold value utilized in a decision on whether or not to perform the second relocation.
    Type: Application
    Filed: July 17, 2020
    Publication date: November 12, 2020
    Inventors: Hiroaki AKUTSU, Akira YAMAMOTO, Shigeo HOMMA, Masanobu YAMAMOTO, Yoshinori OHIRA
  • Publication number: 20200340999
    Abstract: A measurement system includes a system for causing relative motion between a sample and an irradiation spot. The sample includes fluorescent markers having respective wavelengths. A gating system provides a gating signal based at least in part on resultant light substantially at an irradiation wavelength. A detection system detects fluorescent light from the irradiated markers and provides detection signals representing the fluorescent light detected concurrently with a gate-open signal. In some examples, the detection system detects fluorescent light at multiple wavelengths and provides respective detection signals. A spectral discriminator arranged optically between the sample and the detection system receives the fluorescent light from the sample and provides respective fluorescent light at the wavelengths to the detection system. A flow cytometer can spectrally disperse resultant fluorescent light and measure the wavelengths separately.
    Type: Application
    Filed: April 3, 2020
    Publication date: October 29, 2020
    Inventors: Masanobu Yamamoto, J. Paul Robinson
  • Patent number: 10775292
    Abstract: An image flow cytometer for observing a microparticulate sample includes a flow chamber having a flow channel that permits the microparticulate sample to travel in a flow direction. An irradiation system scans an irradiation spot across a sensing area of the flow channel in a scan direction different from the flow direction. A detection system detects resultant light from the sensing area and provides a detection signal. An alignment system alters a location of the sensing area with respect to the flow chamber. A control unit causes the irradiation system to scan the irradiation spot during a first measurement interval and operates the alignment system to translate the location of the sensing area along the flow direction. The flow chamber can be mounted to a movable stage in some examples, and the alignment system can move the flow chamber substantially opposite the flow direction using the stage.
    Type: Grant
    Filed: July 25, 2018
    Date of Patent: September 15, 2020
    Assignee: CAPTL LLC
    Inventors: Masanobu Yamamoto, J. Paul Robinson
  • Patent number: 10733092
    Abstract: A storage system monitors the first access frequency of occurrence which is the access frequency of occurrence from a host device during a first period, and the second access frequency of occurrence which is the access frequency of occurrence from a host device during a second period shorter than the first period. Along with performing data relocation among the tiers (levels) in the first period cycle based on the first access frequency of occurrence, the storage system performs a decision whether or not to perform a second relocation based on the first access frequency of occurrence and the second access frequency of occurrence, synchronously with access from a host device. Here the threshold value utilized in a decision on whether or not to perform the first relocation is different from the threshold value utilized in a decision on whether or not to perform the second relocation.
    Type: Grant
    Filed: November 8, 2017
    Date of Patent: August 4, 2020
    Assignee: HITACHI, LTD.
    Inventors: Hiroaki Akutsu, Akira Yamamoto, Shigeo Homma, Masanobu Yamamoto, Yoshinori Ohira
  • Patent number: 10613096
    Abstract: A measurement system includes a system for causing relative motion between a sample and an irradiation spot. The sample includes fluorescent markers having respective wavelengths. A gating system provides a gating signal based at least in part on resultant light substantially at an irradiation wavelength. A detection system detects fluorescent light from the irradiated markers and provides detection signals representing the fluorescent light detected concurrently with a gate-open signal. In some examples, the detection system detects fluorescent light at multiple wavelengths and provides respective detection signals. A spectral discriminator arranged optically between the sample and the detection system receives the fluorescent light from the sample and provides respective fluorescent light at the wavelengths to the detection system. A flow cytometer can spectrally disperse resultant fluorescent light and measure the wavelengths separately.
    Type: Grant
    Filed: August 29, 2016
    Date of Patent: April 7, 2020
    Assignee: CAPTL LLC
    Inventors: Masanobu Yamamoto, J. Paul Robinson
  • Publication number: 20190049356
    Abstract: An image flow cytometer for observing a microparticulate sample includes a flow chamber having a flow channel that permits the microparticulate sample to travel in a flow direction. An irradiation system scans an irradiation spot across a sensing area of the flow channel in a scan direction different from the flow direction. A detection system detects resultant light from the sensing area and provides a detection signal. An alignment system alters a location of the sensing area with respect to the flow chamber. A control unit causes the irradiation system to scan the irradiation spot during a first measurement interval and operates the alignment system to translate the location of the sensing area along the flow direction. The flow chamber can be mounted to a movable stage in some examples, and the alignment system can move the flow chamber substantially opposite the flow direction using the stage.
    Type: Application
    Filed: July 25, 2018
    Publication date: February 14, 2019
    Inventors: Masanobu Yamamoto, J. Paul Robinson
  • Publication number: 20180364159
    Abstract: An example assembly includes a target holder that retains a target in a detection region. Areflective surface reflects at least part of a focused spot of light to provide resultant light. An irradiation system irradiates at least part of the detection region with the focused spot of light. A motion system causes motion of the focused spot of light relative to the reflective surface. A detection system detects the resultant light. An example device, e.g., a lab-on-chip, includes a substrate, a sample inlet, and a reflective grating. The grating is retains a fluidic sample in a detection region fluidically connected to the sample inlet. The detection region is operatively arranged with respect to the reflective grating so that at least a portion of light passing through the detection region towards the reflective grating also passes through the detection region after reflecting off the reflective grating.
    Type: Application
    Filed: August 23, 2018
    Publication date: December 20, 2018
    Inventors: Masanobu Yamamoto, J. Paul Robinson
  • Patent number: 10060850
    Abstract: An example assembly includes a target holder that retains a target in a detection region. A reflective surface reflects at least part of a focused spot of light to provide resultant light. An irradiation system irradiates at least part of the detection region with the focused spot of light. A motion system causes motion of the focused spot of light relative to the reflective surface. A detection system detects the resultant light. An example device, e.g., a lab-on-chip, includes a substrate, a sample inlet, and a reflective grating. The grating is retains a fluidic sample in a detection region fluidically connected to the sample inlet. The detection region is operatively arranged with respect to the reflective grating so that at least a portion of light passing through the detection region towards the reflective grating also passes through the detection region after reflecting off the reflective grating.
    Type: Grant
    Filed: April 1, 2016
    Date of Patent: August 28, 2018
    Assignee: CAPTL LLC
    Inventors: Masanobu Yamamoto, J. Paul Robinson
  • Patent number: 10036698
    Abstract: An image flow cytometer for observing a microparticulate sample includes a flow chamber having a flow channel that permits the microparticulate sample to travel in a flow direction. An irradiation system scans an irradiation spot across a sensing area of the flow channel in a scan direction different from the flow direction. A detection system detects resultant light from the sensing area and provides a detection signal. An alignment system alters a location of the sensing area with respect to the flow chamber. A control unit causes the irradiation system to scan the irradiation spot during a first measurement interval and operates the alignment system to translate the location of the sensing area along the flow direction. The flow chamber can be mounted to a movable stage in some examples, and the alignment system can move the flow chamber substantially opposite the flow direction using the stage.
    Type: Grant
    Filed: June 20, 2016
    Date of Patent: July 31, 2018
    Assignee: CAPTL LLC
    Inventors: Masanobu Yamamoto, J. Paul Robinson
  • Publication number: 20180080870
    Abstract: An example assembly includes a target holder that retains a target in a detection region. A reflective surface reflects at least part of a focused spot of light to provide resultant light. An irradiation system irradiates at least part of the detection region with the focused spot of light. A motion system causes motion of the focused spot of light relative to the reflective surface. A detection system detects the resultant light. An example device, e.g., a lab-on-chip, includes a substrate, a sample inlet, and a reflective grating. The grating is retains a fluidic sample in a detection region fluidically connected to the sample inlet. The detection region is operatively arranged with respect to the reflective grating so that at least a portion of light passing through the detection region towards the reflective grating also passes through the detection region after reflecting off the reflective grating.
    Type: Application
    Filed: April 1, 2016
    Publication date: March 22, 2018
    Inventors: Masanobu Yamamoto, J. Paul Robinson
  • Publication number: 20180067851
    Abstract: A storage system monitors the first access frequency of occurrence which is the access frequency of occurrence from a host device during a first period, and the second access frequency of occurrence which is the access frequency of occurrence from a host device during a second period shorter than the first period. Along with performing data relocation among the tiers (levels) in the first period cycle based on the first access frequency of occurrence, the storage system performs a decision whether or not to perform a second relocation based on the first access frequency of occurrence and the second access frequency of occurrence, synchronously with access from a host device. Here the threshold value utilized in a decision on whether or not to perform the first relocation is different from the threshold value utilized in a decision on whether or not to perform the second relocation.
    Type: Application
    Filed: November 8, 2017
    Publication date: March 8, 2018
    Inventors: Hiroaki AKUTSU, Akira YAMAMOTO, Shigeo HOMMA, Masanobu YAMAMOTO, Yoshinori OHIRA
  • Publication number: 20180038783
    Abstract: According to various aspects, a flow system for transporting microparticulate samples in a hydrodynamically planar flow in a selected flow direction includes a flow chamber extending in the flow direction, having first and second apertures on opposed surfaces of the flow chamber. A sheath-fluid channel has first and second branches to carry the sheath fluid into the flow chamber through the first aperture and having orientations separated by less than about 15° at the first aperture; and third and fourth branches to carry the sheath fluid through the second aperture and having orientations separated by less than about 15° at the second aperture. In some examples, guide channels extend from the apertures substantially perpendicular to the flow chamber at the apertures, and sheath-fluid channel supply sheath fluid to the guide channels. Flow systems can be used in image flow cytometers for observing microparticulate samples, e.g., using scanning irradiation.
    Type: Application
    Filed: December 19, 2015
    Publication date: February 8, 2018
    Inventors: Masanobu Yamamoto, J. Paul Robinson, Yuji Masuda, Tsukasa Kayou
  • Patent number: 9830258
    Abstract: A storage system monitors the first access frequency of occurrence which is the access frequency of occurrence from a host device during a first period, and the second access frequency of occurrence which is the access frequency of occurrence from a host device during a second period shorter than the first period. Along with performing data relocation among the tiers (levels) in the first period cycle based on the first access frequency of occurrence, the storage system performs a decision whether or not to perform a second relocation based on the first access frequency of occurrence and the second access frequency of occurrence, synchronously with access from a host device. Here the threshold value utilized in a decision on whether or not to perform the first relocation is different from the threshold value utilized in a decision on whether or not to perform the second relocation.
    Type: Grant
    Filed: September 18, 2014
    Date of Patent: November 28, 2017
    Assignee: Hitachi, Ltd.
    Inventors: Hiroaki Akutsu, Akira Yamamoto, Shigeo Homma, Masanobu Yamamoto, Yoshinori Ohira
  • Patent number: 9636870
    Abstract: A powder transfer mechanism laminates powder layers containing water-soluble powder as a main component one by one at a modeling portion. An inkjet line head injects a water-based ink that dissolves the powder in an area of an uppermost layer of the powder layers laminated by the powder transfer mechanism, the area corresponding to a cross-sectional shape of a modeled object. Then, a heater heats the powder for each layer of the powder layers. Further, the heater heats the powder after the water-based ink is injected by the inkjet line head or before the water-based ink is injected by the inkjet line head. The present invention can be applied to a modeling apparatus, for example.
    Type: Grant
    Filed: May 14, 2009
    Date of Patent: May 2, 2017
    Assignee: Sony Corporation
    Inventors: Junichi Kuzusako, Masanobu Yamamoto, Akira Ookubo, Toshihiro Kamewa, Tomohide Koizumi, Kazuma Tamura, Takeshi Matsui
  • Patent number: D823896
    Type: Grant
    Filed: December 29, 2016
    Date of Patent: July 24, 2018
    Assignee: YAMAHA MOTOR POWER PRODUCTS KABUSHIKI KAISHA
    Inventors: Masanobu Yamamoto, Kiyoshi Hashimoto