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Eiji Yoshida
Eiji Yoshida, Chiba-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20090159804 | Positron emission tomography scanner and radiation detector - A positron emission tomography (PET) scanner is provided which uses information on the time-of-flight difference (TOF) between annihilation radiations for image reconstruction. The scanner has detection time correction information (memory) corresponding to information on coordinates in a radiation detection element (e.g., scintillator crystal), in the depth and lateral directions, at which an interaction has occurred between an annihilation radiation and the crystal. Reference is made to the detection time correction information, thereby providing information on time-of-flight difference with improved accuracy. As such, an improved signal to noise ratio and spatial resolution are provided for image reconstruction using time-of-flight (TOF) difference. | 06-25-2009 |
| 20100032574 | RADIATION DETECTING METHOD UTILIZING ENERGY INFORMATION AND POSITIONAL INFORMATION AND EQUIPMENT THEREOF - Upon detection of radiation by using a (three-dimensional) detector capable of distinguishing a detection position in a depth direction and energy, an energy window for distinguishing between a signal and noise is changed depending on the detection position in the depth direction, thus making it possible to obtain scattering components inside the detector. Alternatively, a weight is given to a detection event depending on the detection position in the depth direction and energy information to obtain scattering components inside the detector. Thereby, scattering components inside the detector can be obtained to increase the sensitivity of the detector. In this case, different detecting elements can be used depending on the detection position in the depth direction. | 02-11-2010 |
| 20100046818 | IMAGE RECONSTRUCTION METHOD FOR TOMOGRAPHY SCANNER, FAILURE DIAGNOSIS METHOD, TOMOGRAPHY SCANNER AND MANAGEMENT PROGRAM FOR SYSTEM MATRIX - In a case where an error is included in measurement data corresponding to one or a plurality of detecting elements in a tomography scanner, a system matrix to be calculated or referenced on image reconstruction calculation is corrected in accordance with the error. Thus, even when an error such as a defect or a fault occurs in a detector, influence of the error is eliminated, thereby reducing an artifact generated in an image. At that time, positional information of the detecting elements including the error and information on the degree of the error are stored in a storage device and referenced inside image reconstruction software, thus making it possible to correct the system matrix in accordance with the error. | 02-25-2010 |
| 20110001049 | METHOD FOR DETECTING RADIATION, DEVICE THEREOF, AND POSITRON EMISSION TOMOGRAPHY SCANNER - A light receiver for detecting incident time is installed on the side of a radiation source of a scintillator (including a Cherenkov radiation emitter), and information (energy, incident time, an incident position, etc.) on radiation made incident into the scintillator is obtained by the output of the light receiver. It is, thereby, possible to identify an incident position and others of radiation into the scintillator at high accuracy. | 01-06-2011 |
| 20110101229 | DOI TYPE RADIATION DETECTOR - This aims to provide a DOI type radiation detector in which scintillation crystals arranged two-dimensionally on a light receiving surface to form rectangular section groups in extending directions of the light receiving surface of a light receiving element are stacked up to make a three-dimensional arrangement and responses of the crystals that have detected radiation are made possible to identify at response positions on the light receiving surface, so that a three-dimensional radiation detection position can be obtained. In the DOI type radiation detector, scintillation crystals are right triangle poles extending upwards from the light receiving surface and the response positions on the light receiving surface are characterized. With this structure, DOI identification of a plurality of layers can be carried out by simply performing an Anger calculation of a light receiving element signal. | 05-05-2011 |
Eiji Yoshida, Kawasaki JP
| Patent application number | Description | Published |
|---|---|---|
| 20090008798 | SEMICONDUCTOR DEVICE SUITABLE FOR A STACKED STRUCTURE - A semiconductor device is provided that forms a three-dimensional semiconductor device having semiconductor devices stacked on one another. In this semiconductor device, a hole is formed in a silicon semiconductor substrate that has an integrated circuit unit and an electrode pad formed on a principal surface on the outer side. The hole is formed by etching, with the electrode pad serving as an etching stopper layer. An embedded electrode is formed in the hole. This embedded electrode serves to electrically lead the electrode pad to the principal surface on the bottom side of the silicon semiconductor substrate. | 01-08-2009 |
| 20110092065 | SEMICONDUCTOR DEVICE SUITABLE FOR A STACKED STRUCTURE - A semiconductor device is provided that forms a three-dimensional semiconductor device having semiconductor devices stacked on one another. In this semiconductor device, a hole is formed in a silicon semiconductor substrate that has an integrated circuit unit and an electrode pad formed on a principal surface on the outer side. The hole is formed by etching, with the electrode pad serving as an etching stopper layer. An embedded electrode is formed in the hole. This embedded electrode serves to electrically lead the electrode pad to the principal surface on the bottom side of the silicon semiconductor substrate. | 04-21-2011 |
Eiji Yoshida, Tokyo JP
| Patent application number | Description | Published |
|---|---|---|
| 20080226298 | Optical Transmission System - The present invention has been achieved to provide a novel optical transmission system realizing high-speed optical transmission over greater distance by suppressing waveform degradation caused by mode dispersion and mode transition in a multimode optical transmission line. The optical transmission system of the present invention includes: an optical transmitter for transmitting incoherent light; an excitation mechanism for exciting a predetermined mode in the incoherent light transmitted from the optical transmitter; a multimode optical transmission line for transmitting the incoherent light transmitted from the excitation mechanism; a transmission mechanism for transmitting a predetermined mode in the incoherent light transmitted from the excitation mechanism; and an optical receiver for receiving the incoherent light transmitted from the transmission mechanism or the incoherent light transmitted from the transmission mechanism. | 09-18-2008 |
| 20110058345 | CONNECTION TERMINAL AND AC ADAPTER - A connection terminal includes a frame body including first and second support parts positioned to face each other; and a third support part having first and second ends connected to an end of the first support part and an end of the second support part, respectively; first elastic contact pieces provided on the first support part on a first side from which a terminal is to be inserted and having respective first contact parts configured to contact a peripheral surface of the terminal; second elastic contact pieces provided on the second support part on the first side and having respective second contact parts configured to contact the peripheral surface of the terminal and positioned to face the first contact parts; and a third elastic contact piece provided on the frame body on a second side opposite to the first side and configured to contact an end portion of the terminal. | 03-10-2011 |
Eiji Yoshida, Kanagawa-Ken JP
| Patent application number | Description | Published |
|---|---|---|
| 20090097867 | OPTICAL RECEIVER USING MACH-ZEHNDER INTERFEROMETER - The present invention relates to an optical receiver, in which the transmittance of a Mach-Zehnder interferometer can be locked at a normal operation point in a simple structure and control. | 04-16-2009 |
Eiji Yoshida, Aichi JP
| Patent application number | Description | Published |
|---|---|---|
| 20120006963 | SEAT SLIDE DEVICE - A seat slide device includes: a lower rail fixed to a vehicle body; an upper rail fixed to a seat and slidably fit into the lower rail; a lock member including an engaging portion that is engageable with an engaged portion of the lower rail for allowing the upper rail to be fixed to the lower rail; a biasing member for displacing the lock member such that the engaging portion is engaged with the engaged portion; a tilting member tiltably supported by the upper rail in contact with the lock member and tiltable in a predetermined direction for displacing the lock member so as to disengage the engaging portion from the engaged portion against a biasing force of the biasing member; and a contact portion being in frictional contact with the upper rail to allow a frictional force to act on the lock member. | 01-12-2012 |
Eiji Yoshida, Yokohama JP
| Patent application number | Description | Published |
|---|---|---|
| 20120032272 | SEMICONDUCTOR DEVICE, SEMICONDUCTOR INTEGRATED CIRCUIT, SRAM, AND METHOD FOR PRODUCING Dt-MOS TRANSISTOR - A semiconductor device includes a silicon substrate; an element isolation region; an element region including a first well; a contact region; a gate electrode extending from the element region to a sub-region of the element isolation region between the element region and the contact region; a source diffusion region; a drain diffusion region; a first insulating region contacting a lower end of the source diffusion region; a second insulating region contacting a lower end of the drain diffusion region; and a via plug configured to electrically connect the gate electrode with the contact region. The first well is disposed below the gate electrode and is electrically connected with the contact region via the silicon substrate under the sub-region. The lower end of the element isolation region except the sub-region is located lower than the lower end of the first well. | 02-09-2012 |
Eiji Yoshida, Yokosuka-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20120070159 | SIGNAL GENERATING CIRCUIT, OPTICAL SIGNAL TRANSMITTING APPARATUS, SIGNAL RECEIVING CIRCUIT, METHOD FOR ESTABLISHING OPTICAL SIGNAL SYNCHRONIZATION, AND OPTICAL SIGNAL SYNCHRONIZATION SYSTEM - To enable signal position detection, frequency offset compensation, clock offset compensation, and chromatic dispersion amount estimation in a communication system based on coherent detection using an optical signal, even on a signal having a great offset in an arrival time depending on a frequency due to chromatic dispersion. An optical signal transmitting apparatus generates specific frequency band signals having power concentrated on two or more specific frequencies and transmits a signal including the specific frequency band signals. An optical signal receiving apparatus converts a received signal into a digital signal, detects positions of the specific frequency band signals from the converted digital signal, estimates frequency positions of the detected specific frequency band signals, and detects a frequency offset between an optical signal receiving apparatus and an optical signal transmitting apparatus. Moreover, the optical signal receiving apparatus detects a clock offset between the optical signal receiving apparatus and the optical signal transmitting apparatus from an interval between the estimated frequency positions of the specific frequency band signals. Furthermore, the optical signal receiving apparatus estimates temporal positions of the detected specific frequency band signals and detects a chromatic dispersion amount from a difference between the temporal positions of the specific frequency band signals corresponding to different frequencies. | 03-22-2012 |