Tsung
Cheng-Sheng Tsung, Nantou County TW
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20150099321 | METHOD FOR FABRICATING MICROSTRUCTURE TO GENERATE SURFACE PLASMON WAVES - A method for fabricating a microstructure to generate surface plasmon waves comprises steps of: preparing a substrate, and using a carrier material to carry a plurality of metallic nanoparticles and letting the metallic nanoparticles undertake self-assembly to form a microstructure on the substrate, wherein the metallic nanoparticles are separated from each other or partially agglomerated to allow the microstructure to be formed with a discontinuous surface. The present invention fabricates the microstructure having the discontinuous surface by a self-assembly method to generate the surface plasmon waves, thus exempts from using the expensive chemical vapor deposition (CVD) technology and is able to reduce the time and cost of fabrication. The present invention also breaks the structural limitation on generation of surface plasmon waves to enhance the effect of generating the surface plasmon waves. | 04-09-2015 |
20150228863 | METHOD FOR FABRICATING MICROSTRUCTURE TO GENERATE SURFACE PLASMON WAVES - A method for fabricating a microstructure to generate surface plasmon waves comprises steps of: preparing a substrate, and using a carrier material to carry a plurality of metallic nanoparticles and letting the metallic nanoparticles undertake self-assembly to form a microstructure on the substrate, wherein the metallic nanoparticles are separated from each other or partially agglomerated to allow the microstructure to be formed with a discontinuous surface. The present invention fabricates the microstructure having the discontinuous surface by a self-assembly method to generate the surface plasmon waves, thus exempts from using the expensive chemical vapor deposition (CVD) technology and is able to reduce the time and cost of fabrication. The present invention also breaks the structural limitation on generation of surface plasmon waves to enhance the effect of generating the surface plasmon waves. | 08-13-2015 |
Cheng-Sheng Tsung US
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20150099321 | METHOD FOR FABRICATING MICROSTRUCTURE TO GENERATE SURFACE PLASMON WAVES - A method for fabricating a microstructure to generate surface plasmon waves comprises steps of: preparing a substrate, and using a carrier material to carry a plurality of metallic nanoparticles and letting the metallic nanoparticles undertake self-assembly to form a microstructure on the substrate, wherein the metallic nanoparticles are separated from each other or partially agglomerated to allow the microstructure to be formed with a discontinuous surface. The present invention fabricates the microstructure having the discontinuous surface by a self-assembly method to generate the surface plasmon waves, thus exempts from using the expensive chemical vapor deposition (CVD) technology and is able to reduce the time and cost of fabrication. The present invention also breaks the structural limitation on generation of surface plasmon waves to enhance the effect of generating the surface plasmon waves. | 04-09-2015 |
Chia-Kuang Tsung, Allston, MA US
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20120302437 | Nanocrystal Assembly for Tandem Catalysis - The present invention provides a nanocrystal tandem catalyst comprising at least two metal-metal oxide interfaces for the catalysis of sequential reactions. One embodiment utilizes a nanocrystal bilayer structure formed by assembling sub- | 11-29-2012 |
Chia-Kuang Tsung, Aliston, MA US
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20110250122 | Core-Shell Nanocatalyst For High Temperature Reactions - The present invention provides a core-shell nanoparticle that includes a metal-oxide shell and a nanoparticle. Pores extend from an outer surface to an inner surface of the shell. The inner surface of the shell forms a void, which is filled by the nanoparticle. The pores allow gas to transfer from outside the shell to a surface of the nanoparticle. The present invention also provides a method of making a core-shell nanoparticle includes forming a metal-oxide shell on a colloidal nanoparticle, which forms a precursor core-shell nanoparticle. A capping agent is removed from the precursor core-shell nanoparticle, which produces the core-shell nanoparticle. The present invention also provides a method of using a nanocatalyst of the present invention includes providing the nanocatalyst, which is the core-shell nanoparticle. Reactants are introduced in a vicinity of the nanocatalyst, which produces a reaction that is facilitated or enhanced by the nanocatalyst. | 10-13-2011 |
Eric Tsung, Needham, MA US
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20130073214 | SYSTEMS AND METHODS FOR IDENTIFYING SEQUENCE VARIATION - Systems and method for determining variants can receive mapped reads, and call variants. In embodiments, flow space information for the reads can be aligned to a flow space representation of a corresponding portion of the reference. Reads spanning a position with a potential variant can be grouped and a score can be calculated for the variant. Based on the scores, a list of probable variants can be provided. In various embodiments, low frequency variants can be identified where multiple potential variants are present at a position. | 03-21-2013 |
Fang Ming Tsung, Yuli Township TW
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20110291421 | Wind-Deflection Omni-Directional Vertical Wind-Driven Device - The present invention provides a wind-driven rotary device disposed on a wind power generator, and particularly a wind-driven device with vertical vanes that provide effects of wind deflection, omni-direction and wind collection. The wind-driven device is characterized in that: upright columns are disposed above the wind power generator, vertical arc-shaped rotary vanes are disposed at a central position among the upright columns, and each of the upright columns is provided with an arc-shaped wind deflector that is inclined inwards on an inner edge thereof. In implementation of the present invention, a wind collector may be additionally provided on an outer edge of each of the upright columns to increase volume of the wind so that a larger torsional force can be generated by the vanes of the wind-driven rotary device to deliver a better effect of wind power generation. | 12-01-2011 |
James W. Tsung, New York, NY US
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20100191123 | ULTRASONIC PROBE DEVICE AND SYSTEM AND METHODS OF GENERATING ULTRASONIC IMAGES - The present invention relates to an ultrasonic probe device comprising an elongated body having a proximal end and a distal end, where the body has a channel that extends from the proximal end to the distal end. A cord passes through the channel and is extendable and retractable relative to the distal end of the elongated body. An ultrasonic probe head is connected to the cord and has a proximal end adjacent the distal end of the elongated body. The proximal end of the probe head is detachably connected to the distal end of the elongated body. The present invention is also directed to an ultrasound imaging system and a method of generating an ultrasonic image. | 07-29-2010 |
Jamie Tsung, Wellesley, MA US
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20120014936 | METHODS AND COMPOSITIONS FOR CNS DELIVERY OF HEPARAN N-SULFATASE - The present invention provides, among other things, compositions and methods for CNS delivery of lysosomal enzymes for effective treatment of lysosomal storage diseases. In some embodiments, the present invention includes a stable formulation for direct CNS intrathecal administration comprising a heparan N-sulfatase (HNS) protein, salt, and a polysorbate surfactant for the treatment of Sanfilippo Syndrome Type A. | 01-19-2012 |
Kuo-Hua Tsung, Changhua City TW
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20080266848 | LIGHTING STRUCTURE FOR A FLEXIBLE EXTENSION BAR - The present invention provides a lighting structure of a flexible extension bar, which is assembled only the actuating end of the flexible extension bar. The lighting structure includes a coupling seat, a lid, a slip controller and LED light. The slip controller is assembled into an accommodating space of the coupling seat. The slip controller is provided with a fuel cell accommodating portion that defines two openings. The dialing portion of the slip controller is protruded from the lid. The light-emitting portion of LED light is protruded from the coupling seat. Two conductive pins are extended alternatively into the accommodating space of the coupling seat. The ends of the two conductive pins are formed into shapes of irregular length, and placed opposite the two openings of the fuel cell accommodating portion. The flexible extension bar lighting structure presents simple construction, cost-effectiveness, space-saving and ease-of-operation. | 10-30-2008 |
Lin Ming Tsung, Taipei City TW
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20120287641 | LAMPSHADE STRUCTURE FOR LED LAMPS - A lampshade structure for LED lamps includes at least one light-diffusing bowl structure, a lower end, an interior space and a sidewall. The light-diffusing bowl structure composed by an exterior curve wall and an interior curve wall is located on top of the lampshade to diffuse lights from the LED laterally to the lamp. Both the curvature centers of the exterior curve wall and the interior curve wall are located exteriorly to the lampshade structure. By providing the concave light-diffusing bowl structure to occupy the illumination angle of the LED, the incident rays of the LED to the bowl structure can be partly deflected to leave from the lateral sides of the lampshade so as to emulate the LED lamp as an omni-directional lamp device. | 11-15-2012 |
Mei Tsung, Wellesley, MA US
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20100047292 | METHODS OF PROCESSING MICROPARTICLES AND COMPOSITIONS PRODUCED THEREBY - A method for processing multi-phasic dispersions is provided. The method comprises providing a multi-phasic dispersion including dispersed and continuous phases, positioning the multi-phasic dispersion within a chamber capable of being pressurized, pressurizing the chamber with a first gas to a pressure less than the supercritical pressure of the gas, and contacting the multi-phasic dispersion with the first gas. | 02-25-2010 |
Pei-Kan Tsung, Taipei City TW
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20130179975 | Method for Extracting Digital Fingerprints of a Malicious Document File - A method for extracting the genetic fingerprinting of a malicious document file includes the steps of establishing a database to store a plurality of genetic fingerprinting data of the first malicious document, then retrieving a document file sent via the Internet, and then proceeding with multi-point detection and extraction to the document file, so as to obtain a multi-point section, then comparing and analyzing the multi-point section with the plurality of genetic fingerprinting data of the first malicious document to confirm whether the multi-point section program code of the document file matches a malicious feature, thereby achieves the goal of extracting the content information of the document file and converts it into the genetic fingerprinting data of a new malicious document. | 07-11-2013 |
20140150101 | METHOD FOR RECOGNIZING MALICIOUS FILE - A method for recognizing malicious file has steps: receiving a static file through a network or an input/out interface to be stored in the memory; defining suspicious positions where components of a malware are possibly encrypted in the static file; decrypting the suspicious positions to identify a PE header and a shellcode; extracting the PE header and the shellcode terms in segments; and determining whether the PE header and the shellcode terms can be assembled into an executable binary which indicates a recognition of the malicious file. | 05-29-2014 |
Pei-Kuei Tsung, New Taipei City TW
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20150234662 | APPARATUS FOR MUTUAL-TRANSPOSITION OF SCALAR AND VECTOR DATA SETS AND RELATED METHOD - An apparatus for processing a plurality of data sets is disclosed, wherein one data set of the plurality of data sets includes N components and has a data type of one of a scalar type and a vector type, wherein N is a positive integer number. The apparatus includes a memory module and a data accessing module. The memory module comprises N memory units configured to store the plurality of data sets. The data accessing module is configured to write the data set into the memory module according to a write data index corresponding to the data set and one of a first writing mapping information and a second writing mapping information, wherein the first writing mapping information is employed when the data type is one of the scalar and the vector type and the second writing mapping information is employed when the data type is the other of the scalar and the vector type. | 08-20-2015 |
20150332495 | GRAPHICS PROCESSING METHOD AND GRAPHICS PROCESSING APPARATUS - A graphics processing method and an associated graphics processing apparatus are provided, where the graphics processing method is applied to the graphics processing apparatus, the graphics processing apparatus may be positioned within an electronic device, and the graphics processing apparatus may comprise at least one portion of the electronic device. The graphics processing method includes the steps of: calculating vertex positions of a primitive in a binning phase; determining, according to specific information, whether to compute vertex varyings of the primitive in the binning phase or in a rendering phase so as to provide a determination result; computing the vertex varyings in the binning phase or in the rendering phase according to the determination result; and rendering the primitive according to the vertex positions and the vertex varyings in the rendering phase. | 11-19-2015 |
20160035128 | GRAPHICS PROCESSING SYSTEM FOR PERFORMING DEFERRED VERTEX ATTRIBUTE SHADING BASED ON SPLIT VERTEX BITSTREAMS AND RELATED GRAPHICS PROCESSING METHOD - A graphics processing system includes a first storage device, a second storage device, a vertex position shader, a vertex classification module, and a vertex attribute shader. The vertex position shader performs vertex position shading for vertices of primitives in a frame at a binning process. The vertex classification module classifies the vertices of the primitives in the frame into first-type vertices and second-type vertices according to vertex distribution. The vertex attribute shader performs deferred vertex attribute shading for the first-type vertices and the second-type vertices at a rendering process following the binning process, wherein vertex attribute shading results of at least a portion of the first-type vertices classified by the vertex classification module are stored in the second storage device, and vertex attribute shading results of at least a portion of the second-type vertices classified by the vertex classification module are stored in the first storage device. | 02-04-2016 |
Shun-Chung Tsung, Taipei City 100 TW
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20140368638 | METHOD OF MOBILE IMAGE IDENTIFICATION FOR FLOW VELOCITY AND APPARATUS THEREOF - The present invention provides a method of mobile image identification for flow velocity and the apparatus thereof. The present invention integrates laser-light module and mobile photographing devices such as smartphones, cameras, or tablet computers. After multiple laser spots are projected on the surface of flowing water, water-surface images including the laser spots are photographed continuously. Then the software program of image identification in the mobile photographing device performs calculations and coordinate conversion. According to the difference between multiple water-surface images taken continuously, the flow-velocity information of the water surface is given. | 12-18-2014 |
Theodore Tsung, Old Westbury, NY US
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20160125537 | PORTFOLIO MANAGEMENT - A method and system are provided. The method includes calculating respective moving average values for client holdings at a financial account level, an individual client level, and a household level based on end-of-day holding prices therefor. The method further includes calculating a financial account level risk metric, an individual level risk metric, and a household level risk metric responsive to the respective moving average values. The method also includes outputting a respective alarm signal for at least one financial firm employee responsive to any of the financial account level risk metric, the individual level risk metric, and the household level risk metric respectively exceeding a target financial account level risk metric, a target individual level risk metric, and a target household level risk metric. The target risk metrics are determined from respective client specified risk acceptance values at the financial account level, the individual client level, and the household level. | 05-05-2016 |