Monji
Hideaki Monji, Tokyo JP
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20140136740 | INPUT-OUTPUT CONTROL UNIT AND FRAME PROCESSING METHOD FOR THE INPUT-OUTPUT CONTROL UNIT - An input-output control unit includes: an interface control circuit for controlling data on a frame basis with respect to each of transmitted and received frames; a reception buffer control circuit for transferring receive-data stored in a receive-data buffer to a command issuer; a transmission buffer control circuit for transferring send-data stored in a send-data buffer to an interface; a plurality of protocol control circuits for controlling transfer of the receive-data and the send-data; and a received frame routing control circuit for selecting a location to which the received frame should be assigned, from among the plurality of protocol control circuits, based on control information attached to the received frame received by the interface control circuit and assigning processing on the received frame to the selected protocol control circuit. | 05-15-2014 |
Majid Monji, Los Angeles, CA US
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20140271419 | CATALYTIC REMOVAL OF GAS PHASE CONTAMINANTS - Systems and methods for removal of gas phase contaminants may utilize catalytic oxidation. For example, a method may include passing a gas that includes a gas phase contaminant through a catalytic membrane reactor at a temperature of about 150° C. to about 300° C., wherein the catalytic membrane reactor includes a bundle of tubular inorganic membranes, wherein each of the tubular inorganic membranes comprise a macroporous tubular substrate with an oxidative catalyst and a microporous layer disposed on a bore side of the macroporous tubular substrate, and wherein at least about 50% of the gas flows through the tubular inorganic membranes in a Knudsen flow regime; and oxidizing at least some of the gas phase contaminant with the oxidative catalyst layer, thereby reducing a concentration of the gas phase contaminant in the gas. | 09-18-2014 |
Nobuo Monji, Seattle, WA US
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20130065249 | SIGNAL AMPLIFICATION FOR IMMUNOASSAYS BY USE OF AVIDIN-BIOTIN LINKAGES - In sandwich-type immunoassays that capture a protein analyte between a capture antibody, typically bound to a solid phase, and a detection antibody that is coupled to a reporter group, the number of reporter groups associated with each molecule of analyte is increased by a variety of methods that utilize avidin-biotin-type binding in conjunction with such features as immunological binding to the reporter group on the detection antibody or multiple biotin-avidin-type binding sites. | 03-14-2013 |
20140220607 | SIGNAL AMPLIFICATION FOR IMMUNOASSAYS BY USE OF AVIDIN-BIOTIN LINKAGES - In sandwich-type immunoassays that capture a protein analyte between a capture antibody, typically bound to a solid phase, and a detection antibody that is coupled to a reporter group, the number of reporter groups associated with each molecule of analyte is increased by a variety of methods that utilize avidin-biotin-type binding in conjunction with such features as immunological binding to the reporter group on the detection antibody or multiple biotin-avidin-type binding sites. | 08-07-2014 |
Tasuhiko Monji, Hitachinaka JP
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20110222732 | TRAVELING ENVIRONMENT RECOGNITION DEVICE - In order to perform vehicle control, a warning process, and the like which do not give a driver an uncomfortable feeling in speed adjustment, a warning process, and the like corresponding to a road shape such as a curve, it is necessary to recognize not only a near road shape but also a far road shape with high accuracy. A traveling environment recognition device includes: a measurement unit which measures a target object; a three-dimensional object detection unit which detects a three-dimensional object on the basis of a signal acquired by the measurement unit; a road shape prediction unit which predicts a road shape on which a target vehicle is traveling; a three-dimensional object selection unit which selects, from among the three-dimensional objects detected by the three-dimensional object detection unit, only a three-dimensional object within a predetermined range from a point of the road predicted by the road shape prediction unit; and a road shape estimation unit which estimates the road shape on the basis of position information of the three-dimensional object selected by the three-dimensional object selection unit. | 09-15-2011 |
Tatsuhiko Monji, Hitachinaka-Shi JP
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20120269382 | Object Recognition Device and Object Recognition Method - An object recognition device includes; an image-capturing unit mounted to a mobile body; an image generation unit that converts images captured by the image-capturing unit at different time points to corresponding synthesized images as seen vertically downwards from above; a detection unit that compares together a plurality of the synthesized images and detects corresponding regions; and a recognition unit that recognizes an object present upon the road surface from a difference between the corresponding regions. | 10-25-2012 |