Patent application number | Description | Published |
20090149570 | Plasticizer, a biodegradable material comprising the plasticizer and application thereof - The present invention relates to a Plasticizer, which is fabricated by mixing monomers of biodegradable polymer with bio-molecules subsequently to deal the mixture with thermal treatment. The Biodegradable material comprising the Plasticizer has high melt index which is contributive for the processing of thermal processing, and the microwave-tolerance and water-resistance of the material makes the material suitable for food packaging. | 06-11-2009 |
20100270238 | METHOD FOR TRANSFERRING INORGANIC OXIDE NANOPARTICLES FROM AQUEOUS PHASE TO ORGANIC PHASE - A method for transferring inorganic oxide nanoparticles from aqueous phase to organic phase. A modifier is used to change the surface polarity of inorganic oxide nanoparticles, followed by using proper solvents to transfer the modified inorganic oxide nanoparticles form aqueous phase to organic phase. The organic dispersion of modified inorganic oxide nanoparticles can be combined with a polymer to provide a polymer composite with the nanoparticles uniformly dispersed therein. | 10-28-2010 |
20120088852 | PLASTICIZER, A BIODEGRADABLE MATERIAL COMPRISING THE PLASTICIZER AND APPLICATION THEREOF - The present invention relates to a Plasticizer, which is fabricated by mixing monomers of biodegradable polymer with bio-molecules subsequently to deal the mixture with thermal treatment. The Biodegradable material comprising the Plasticizer has high melt index which is contributive for the processing of thermal processing, and the microwave-tolerance and water-resistance of the material makes the material suitable for food packaging. | 04-12-2012 |
20120112219 | Gradient Composite Material and Method of Manufacturing the Same - Method of manufacturing gradient composite material comprises steps of providing plural surface modified inorganic nanoparticles with functional groups or oligomers with functional groups; transferring the surface modified inorganic nanoparticles or oligomers with functional groups into an organic matrix to form a mixture; performing a photo polymerization step or a thermo-polymerization step for polymerizing and generating a gradient distribution of the surface modified inorganic nanoparticles or oligomers with functional groups in the mixture; and curing the mixture to solidify the organic matrix and form a structure with gradient composite, wherein the organic matrix is transferred into an organic polymer after curing. | 05-10-2012 |
20130146801 | COMPOSITE MATERIAL WITH CONDUCTIVE AND FERROMAGNETIC PROPERTIES AND HYBRID SLURRY - In one embodiment of the disclosure, a composite material with conductive and ferromagnetic properties is provided. The composite material includes: 5 to 90 parts by weight of a conductive polymer matrix; and 0.1 to 40 parts by weight of iron oxide nanorods, wherein the iron oxide nanorods are ferromagnetic and have a length-to-diameter ratio of larger than 3. In another embodiment, a hybrid slurry is provided. The hybrid slurry includes a conductive polymer, and iron oxide nanorods, wherein the iron oxide nanorods are ferromagnetic and have a length-to-diameter ratio of larger than 3; and a solvent. | 06-13-2013 |
20140094544 | PLASTICIZER, A BIODEGRADABLE MATERIAL COMPRISING THE PLASTICIZER AND APPLICATION THEREOF - The present embodiment relates to a Plasticizer, which is fabricated by mixing monomers of biodegradable polymer with bio-molecules subsequently to deal the mixture with thermal treatment. The Biodegradable material comprising the Plasticizer has high melt index which is contributive for the processing of thermal processing, and the microwave-tolerance and water-resistance of the material makes the material suitable for food packaging. | 04-03-2014 |
Patent application number | Description | Published |
20090140834 | APPARATUS HAVING PASSIVE WIRELESS SWITCH AND OPERATING METHOD THEREOF - An apparatus having a passive wireless switch is provided. The apparatus includes a device system, a device switch, a passive wireless switch, and an antenna module. The passive wireless switch includes a microprocessor, a discrete signal-outputting unit, and a charge module. When the charge module is charged to enable the micro-processor by receiving a radio frequency wireless electric wave, the micro-processor may match an identification code contained in the RF signal with the identification code of the passive wireless switch. If the identification code contained in the RF signal is the same as the identification code of the passive wireless switch, the discrete signal-outputting unit may output a discrete signal to the device switch, so as to enable the device system. Accordingly, it is possible to reduce the power consumption of the apparatus during a standby mode, so as to improve a utilization efficiency of power supply. | 06-04-2009 |
20090167533 | FRACTAL CODE AND GENERATING METHOD THEREOF - A fractal code is provided. The fractal code includes a substrate and a frequency selective surface (FSS). The FSS includes a fractal configuration designed by an iterative procedure, and the fractal configuration is disposed on the substrate. The fractal configuration is formed by a plurality of fractal circle patterns. The radii of the fractal circle patterns decrease by a specified ratio so as to assume a self-similar property, thereby achieving a multi-spectrum property and generating an identification code in frequency domain (FD-ID code). The FD-ID code is applied with space-feed method, and thus a wireless signal is operated in a predetermined band with reflection or transmission radiations, thereby achieving the function of radio frequency identification. | 07-02-2009 |
20100157064 | OBJECT TRACKING SYSTEM, METHOD AND SMART NODE USING ACTIVE CAMERA HANDOFF - If an active smart node detects that an object leaves a center region of a FOV for a boundary region, the active smart node predicts a possible path of the object. When the object gets out of the FOV, the active smart node predicts the object appears in a FOV of another smart node according to the possible path and a spatial relation between cameras. The active smart node notifies another smart node to become a semi-active smart node which determines an image characteristic similarity between the object and a new object and returns to the active smart node if a condition is satisfied. The active smart node compares the returned characteristic similarity, an object discovery time at the semi-active smart node, and a distance between the active smart node and the semi-active smart node to calculate possibility. | 06-24-2010 |
20110058341 | INDUSTRIAL MODULE APPARATUS - An industrial module apparatus includes a frame, a module signal integrated backplane, a plurality of function modules and a module terminal panel. The module signal integrated backplane is disposed at a side of the frame. The function modules can be inserted into the frame and electrically connected to the module signal integrated backplane for signal transmission, and can be removed from the frame for replacement. The function modules include a video analysis module, a network module, and/or a sensing module. The module terminal panel is connected to the module signal integrated backplane and serves as a signal transmission port for the function modules. | 03-10-2011 |
20110118973 | IMAGE PROCESSING METHOD AND SYSTEM - An image processing method and a system are provided. The image processing method of moving camera comprises the following steps. An image of a road is captured by a first camera unit. A coordinate of the image of an object shown in the image of the road is captured when the image of the object shown in the image of the road is selected. At least an aiming angle of a second camera unit is adjusted according to the coordinate to make the field-of-view of the second camera unit aligned with the object. The image of the object is captured by the second camera unit. The image of the object is enlarged. | 05-19-2011 |
20110181712 | METHOD AND APPARATUS FOR TRACKING OBJECTS - A method utilizing an ultrasonic distance sensor to measure distances between the sensor and an object includes the steps of: identifying an object using a first object tracking apparatus; adjusting a first rotation direction of the first object tracking apparatus to pinpoint the object; measuring a distance between the object and the first object tracking apparatus; and obtaining a location of the object in accordance with the distance and the first rotation direction. | 07-28-2011 |
Patent application number | Description | Published |
20110282480 | Process Quality Predicting System and Method Thereof - The invention discloses a process quality prediction system and a method thereof. When a processing apparatus performs a process on a target, the process is measured by a measurement apparatus to receive a process value. The process value and several previous quality data collected from the measurement apparatus are used to predict the quality of the product which is processing inline. The method is composed of a moving window, a stepwise regression scheme and an analysis of covariance (ANCOVA). The drift and shift of process are overcome by the moving window. A key variable set is selected by the stepwise regression scheme and a virtual model is identified by the analysis of covariance. | 11-17-2011 |
20110295777 | METHOD FOR BUILDING ADAPTIVE SOFT SENSOR - The invention discloses a method for building adaptive soft sensor. The method comprises the following steps. The input and schedule vectors are constructed, and a novel learning algorithm that uses online subtractive clustering is used to recursively update the structure and parameters of a local model network. Three rules are proposed for updating centers and local model coefficients of existing clusters, for generating new clusters and new models as well as for merging existing clusters and their corresponding models. Once verified, the online inferential model can be created to generate the predicted value of process. Thus, it does not need much memory space to process the method and can be easily applied to any other machine. | 12-01-2011 |
20120016643 | VIRTUAL MEASURING SYSTEM AND METHOD FOR PREDICTING THE QUALITY OF THIN FILM TRANSISTOR LIQUID CRYSTAL DISPLAY PROCESSES - The present invention discloses a virtual measuring system and a method thereof for predicting the quality of thin film transistor liquid crystal display processes. The virtual measuring method comprises the steps of: capturing a plurality of process parameter data from at least one process machine by an advanced process control unit; normalizing the process parameter data by an original data processing unit; picking a plurality of key process parameter data from the process parameter data by a key parameter choosing unit; establishing a virtual measuring model by a predicting unit according to the key process parameter data, and generating a virtual measuring data by the virtual measuring model. The virtual measuring model is established after a disturbing coefficient is generated through a time sequence regression algorithm by the predicting unit. | 01-19-2012 |
Patent application number | Description | Published |
20090057740 | Memory with surface strap - A memory with a surface strap. The memory comprises a trench capacitor, a self-aligned surface strap and a MOS transistor. The trench capacitor is formed in a semiconductor substrate. The self-aligned surface strap covers an opening of the trench capacitor and a active region in the periphery thereof. One of the source/drain regions of the MOS transistor is connected to the surface strap and the other is connected to a bit line. | 03-05-2009 |
20130015508 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAMEAANM Jang; Wen-YuehAACI Hsinchu CityAACO TWAAGP Jang; Wen-Yueh Hsinchu City TW - A semiconductor device and a method for fabricating the same are described. The semiconductor device includes a well of a first conductive type, first doped regions of a second conductive type, gates of the second conductive type, second doped regions of the first conductive type, and isolation structures. The well is disposed in a substrate. The first doped regions are disposed in the well. The first doped regions are arranged in parallel and extend along a first direction. The gates are disposed on the substrate. The gates are arranged in parallel and extend along a second direction different from the first direction. One of the first doped regions is electrically connected to one of the gates. Each of the second doped regions is disposed in the first doped regions between two adjacent gates. Each of the isolation structures is disposed in the substrate between two adjacent first doped regions. | 01-17-2013 |
20130037860 | 3D MEMORY ARRAY - A 3-D memory is provided. Each word line layer has word lines and gaps alternately arranged along a first direction. Gaps include first group and second group of gaps alternately arranged. A first bit line layer is on word line layers and has first bit lines along a second direction. A first conductive pillar array through word line layers connects the first bit line layer and includes first conductive pillars in first group of gaps. A first memory element is between a first conductive pillar and an adjacent word line. A second bit line layer is below word line layers and has second bit lines along the second direction. A second conductive pillar array through word line layers connects the second bit line layer and includes second conductive pillars in second group of gaps. A second memory element is between a second conductive pillar and an adjacent word line. | 02-14-2013 |
20130217193 | METHOD FOR FABRICATING SEMICONDUCTOR DEVICE - A method for fabricating a semiconductor device is described. A plurality of isolation structures is formed in a substrate. The isolation structures are arranged in parallel and extend along a first direction. A well of a first conductive type is formed in the substrate. A plurality of first doped regions of a second conductive type is formed in the well. Each of the first doped regions is formed between two adjacent isolation structures. A plurality of gates of the second conductive type is formed on the substrate. The gates are arranged in parallel and extend along a second direction different from the first direction. One of the first doped regions is connected to one of the gates. A plurality of second doped regions of the first conductive type is formed in the well. Each of the second doped regions is formed in the first doped regions between two adjacent gates. | 08-22-2013 |
20140231742 | RESISTANCE MEMORY DEVICE - Provided is a resistance memory device including a dielectric layer, a conductive layer, a bottom electrode, a top electrode and a variable resistance layer. The dielectric layer is disposed on a substrate and has a first opening constituted by a lower opening and an upper opening. The conductive layer fills up the lower opening. The bottom electrode is disposed on the bottom and on at least a portion of the sidewall of the upper opening. The top electrode is disposed in the upper opening. The variable resistance layer is disposed between the top electrode and the bottom electrode. | 08-21-2014 |
20140306353 | 3D MEMORY ARRAY - A 3-D memory is provided. Each word line layer has word lines and gaps alternately arranged along a first direction. Gaps include first group and second group of gaps alternately arranged. A first bit line layer is on word line layers and has first bit lines along a second direction. A first conductive pillar array through word line layers connects the first bit line layer and includes first conductive pillars in first group of gaps. A first memory element is between a first conductive pillar and an adjacent word line. A second bit line layer is below word line layers and has second bit lines along the second direction. A second conductive pillar array through word line layers connects the second bit line layer and includes second conductive pillars in second group of gaps. A second memory element is between a second conductive pillar and an adjacent word line. | 10-16-2014 |