Miyato
Taizo Miyato, Tokyo JP
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20130259069 | FIBER LASER APPARATUS AND METHOD OF DETECTING FAILURE OF FIBER LASER APPARATUS - A fiber laser apparatus in which pump light is introduced into an optical fiber to generate laser light includes a detecting section that detects signal light leaking out from a core of the optical fiber as leakage signal light, a determining section that determines that, in a case where there is a decrease in an intensity of the leakage signal light detected in the detecting section, a failure of the fiber has occurred, and a stopping section that stops, in a case where the determining section has determined that a failure of the fiber has occurred, the introduction of the pump light into the optical fiber. The detecting section detects the leakage signal light leaking out of a High Reflectivity FBG that is provided on a side opposite to an output side of the laser light. | 10-03-2013 |
20150214692 | OPTICAL FlBER LASER EQUIPMENT - An optical fiber laser device includes optical reflectors making an invisible laser light from an amplification optical fiber; a light source outputting a visible light; an introduction unit outputting the laser light input to a first input terminal from a first output terminal mainly, outputting the visible light input to a second input terminal from the first output terminal mainly, inputting the visible light output by the light source connected to the second input terminal and introducing the visible light to the amplification optical fiber or a output optical fiber via the first output terminal; an optical multiplexer/demultiplexer outputting the visible light to the introduction unit, and outputting a leaking return light input from a side of the introduction unit; and a controller outputting the visible light from the output optical fiber in a case of determining a position at which the laser light will be irradiated. | 07-30-2015 |
20150229095 | LASER DEVICE - A laser device includes an optical fiber laser unit including an amplification optical fiber, a plurality of pumping light sources outputting pumping lights for optically pumping the amplification optical fiber, and a controller controlling the pumping light sources. When an instruction value for supplying a predetermined driving electric current to each of the pumping light sources is input to the controller, the controller conducts a control of supplying a compensated electric current value as a driving electric current obtained by multiplying an initial electric current value corresponding to the instruction value by a compensation coefficient and supplying the compensated electric current value to each of the pumping light sources. The compensation coefficient is set to restrain a decrease in a power with time of a laser light output from the optical fiber laser unit. | 08-13-2015 |
Takahiro Miyato, Kanagawa JP
Takeo Miyato, Yokohama-Shi JP
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20140064230 | BASE STATION - When a scheduling executing section allocates a use downlink radio resource including in a frequency direction a frequency band, in which a known signal is not received by an uplink radio resource for known signal, from a downlink radio resource associated with the uplink radio resource for known signal to a communication terminal, a communication section generates a known signal to be received from the communication terminal in a frequency band of the use downlink radio resource in a pseudo manner when performing downlink communication with the communication terminal using the use downlink radio resource. The communication section controls transmission directivity in a plurality of antennas based on a new reception signal obtained by adding the pseudo known signal as a desired wave component to a reception signal that is received in the frequency band of the use downlink radio resource in the uplink radio resource for known signal. | 03-06-2014 |
Yoshikazu Miyato, Saitama JP
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20100250936 | INTEGRATED CIRCUIT, ENCRYPTION COMMUNICATION APPARATUS, ENCRYPTION COMMUNICATION SYSTEM, INFORMATION PROCESSING METHOD AND ENCRYPTION COMMUNICATION METHOD - There is provided an integrated circuit includes an arithmetic circuit having input/output characteristics determined by element-specific physical characteristics; a storage unit having cipher text obtained by performing encryption processing on predetermined secret information using an output value output from the arithmetic circuit with respect to input of a predetermined value and the predetermined value input into the arithmetic circuit stored therein; and a decryption unit that restores the predetermined secret information by inputting the predetermined value stored in the storage unit into the arithmetic circuit and decrypting the cipher text stored in the storage unit using the output value output from the arithmetic circuit when the predetermined secret information is used. | 09-30-2010 |
20100262830 | AUTHENTICATION DEVICE, AUTHENTICATION METHOD, AND PROGRAM BACKGROUND OF THE INVENTION - Provided is an authentication device which includes a register in which a first-bit or a second-bit different from the first-bit is stored, m first determination units for determining whether input information and authentication information match, and for storing the first-bit in the register if a result of the determination is TRUE and for storing the second-bit in the register if FALSE, (N−m) second determination units for determining whether input information and authentication information do not match, and for storing the first-bit in the register if a result of the determination is TRUE and for storing the second-bit in the register if FALSE, and an authentication determination unit for determining that an authentication is established, in case the first-bit is stored in the register by a determination process by every first determination unit and the second-bit is stored in the register by a determination process by every second determination unit. | 10-14-2010 |
20100281316 | SEMICONDUCTOR INTEGRATED CIRCUIT, INFORMATION PROCESSING APPARATUS, OUTPUT DATA DIFFUSION METHOD, AND PROGRAM - A semiconductor integrated circuit includes a scan chain configured to serve as a connection path used for testing the semiconductor integrated circuit and connect a plurality of flip-flops and an interleave circuit provided at an output portion of the scan chain. The interleave circuit includes a plurality of branches including different numbers of stages of storage elements, a selector configured to select one of the plurality of branches serving as an input/output branch that performs input of data from the scan chain and output of data from the interleave circuit, and a selector controller configured to execute a process of switching among the plurality of branches to select the input/output branch at every predetermined timing. | 11-04-2010 |
Yuji Miyato, Suita-Shi JP
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20160047932 | ELECTRIC NEAR-FIELD PROBE, CONTROL SYSTEM FOR SAME, AND PIEZOELECTRIC CRYSTAL DETECTOR - Provided is a compact and lightweight electric field probe which has a transmitting/receiving function whereby piezoelectric crystals can be excited through the application of an alternating current electric field thereto, and piezoelectric effect signals can be detected with sufficient sensitivity. Also provided are a control system for the same, and a piezoelectric crystal detector. The electric near-field probe is provided with a capacitor, in which the space between two metal plates that are positioned parallel to each other is filled by a conductor or air, and a series resonance circuit, which has a prescribed resonance frequency and is connected in series to an inverter that is formed by winding a conductive wire around a toroidal core. The electric near-field probe is configured such that: an electric near-field, which originates from the leakage electric field from the capacitor generated by the application of alternating current voltage to the series resonance circuit, is transmitted to the piezoelectric crystals, and the piezoelectric crystals are excited; and the piezoelectric effect signal, which is generated by the excited piezoelectric crystals, is received by the capacitor, and is detected by the series resonance circuit. The control system is for said electric near-field probe. | 02-18-2016 |