Patent application number | Description | Published |
20150323712 | COMPLEX THREE-DIMENSIONAL MULTI-LAYER STRUCTURE AND MANUFACTURING METHOD THEREOF - The present invention relates to a 3-dimensional complex multilayer structure. The 3-dimensional complex multilayer structure includes a first pattern and a second pattern having different thicknesses formed on one or both surfaces of a plate. The first pattern is selected from the group consisting of parallel lines, parallel curves, parallel zigzag lines, and combinations thereof which do not meet each other. The second pattern is not parallel to the first pattern and is selected from the group consisting of parallel lines, parallel curves, parallel zigzag lines, and combinations thereof which do not meet each other. The interfaces between the first pattern and the second pattern form figures selected from the group consisting of polygons, circles, ellipses, and combinations thereof. The figures are repetitively formed on one or both surfaces of the plate. The 3-dimensional complex multilayer structure includes different complex patterns, whereas a conventional device has a kind of simple pattern. The 3-dimensional complex multilayer structure of the present invention can be manufactured by a simple process. Therefore, the 3-dimensional complex multilayer structure of the present invention can find application in various fields, including optical components for displays (e.g., light guide plates, diffusion plates, prisms, and color filters), next generation displays and display devices (e.g., TFTs, OTFTs, oxide TFTs, flexible displays, and transparent displays), next generation 3-dimensional semiconductors, dry adhesion based on the use of fine ciliary structures, micro/nano piezoelectric devices, lighting optical components, and biocell/virus research using micropatterns. | 11-12-2015 |
Patent application number | Description | Published |
20110137547 | SYSTEM AND METHOD FOR GENERATING SPATIAL INFORMATION - A system for generating spatial information using an unmanned aerial vehicle may collect area information of an area where the unmanned aerial vehicle is located, obtain image information of the area where the unmanned aerial vehicle is located, and integrate a time code into the image information. Next, the system for generating spatial information may map integrated information in which the time code is integrated into the image information and the area information, and generate three-dimensional (3D) spatial information including a true orthophoto generated by performing a true ortho-correction for a mapping result. | 06-09-2011 |
20120166022 | METHOD FOR MONITORING AIR POLLUTION AND SYSTEM FOR THE SAME - An air pollution monitoring method and system is disclosed. The air pollution monitoring method of the present invention may include receiving result information corresponding to a mission of an aircraft from the aircraft, generating air pollution index values, their distribution, and three-dimensional geographic spatial information about a corresponding ground area using the result information corresponding to the mission of the aircraft and visualizing the generated data, generating a mission command of the aircraft using the result information corresponding to the mission of the aircraft, and displaying the generated three-dimensional geographic spatial information and transmitting the generated mission command to the aircraft. | 06-28-2012 |
20130113623 | APPARATUS AND METHOD FOR PATH FINDING IN MULTIMODES - Disclosed are an apparatus and a method for path finding in multimodes. The apparatus for path finding in multimodes includes: a location-tracking unit that tracks current locations of a plurality of terminals to generate a plurality of pieces of location information; a path-finding unit that receives a path-finding request for specific destinations common to the plurality of terminals from the plurality of terminals to find paths to the specific destinations from the location of each terminal at the time of the path-finding request and generate the plurality of pieces of path information; and a sharing server that transmits the plurality of pieces of path information and the location information of the plurality of terminals on the found paths to the plurality of terminals. | 05-09-2013 |
20130288716 | MOBILE TERMINAL AND METHOD FOR SHARING LOCATION INFORMATION BETWEEN USERS - The present invention relates to a mobile terminal and method for sharing location information between users. The mobile terminal includes a user input unit for receiving destination information of a first user from the first user. A location information input unit receives origin information of the first user from a Global Positioning System (GPS) or a Near-Field Communication (NFC) payment module of public transportation which the first user gets on. A communication unit transmits the origin information and the destination information of the first user to a public transportation information system, and receives movement route information of the first user from the public transportation information system. A location estimation unit estimates a current location of the first user using time required by the first user corresponding to the movement route information. | 10-31-2013 |
20140143672 | SYSTEM AND METHOD FOR FUNCTION EXPANDABLE COLLABORATION SCREEN SYSTEM - Provided are a function expandable collaboration screen apparatus and method by freely adding or moving web apps to a collaboration screen including a variety of contents according to a collaboration purpose. The function expandable collaboration screen system according to the present invention includes a collaboration screen apparatus configured to generate a collaboration container on the basis of received collaboration content and collaboration content information and add a web application to the received collaboration content to perform sharing and collaboration works, and a collaboration client configured to select the collaboration content, deliver the selected collaboration content and collaboration content information, remotely connect to the collaboration screen apparatus to remotely control the collaboration content, and update a screen on the basis of the received content change. | 05-22-2014 |
20140167936 | REMOTE CONTROL APPARATUS AND METHOD USING DYNAMIC SCRIPT - A remote control apparatus and method are provided. A remote control method using a dynamic script in a control terminal includes acquiring a control module written in a dynamic script so as to control a controlled terminal, generating the acquired control module as a dynamic script character string, executing the generated dynamic script, performing connection with the controlled terminal through the executed control module, visualizing a GUI for remote control which is included in the executed control module and outputting the visualized GUI on the screen, and transmitting, when GUI-based event information is received from a user, the event information to the controlled terminal. | 06-19-2014 |
20140200743 | VEHICLE INSTRUMENT PANEL APPARATUS AND CONTROL METHOD THEREOF - A vehicle instrument panel apparatus includes a communication unit configured to receive a widget or content transmitted from one or more user terminals, an instrument panel page constituted of a plurality of instrument panel containers in which the widget or content is embedded, a converting unit configured to generate data capable of being embedded in the instrument panel containers according to a type of the received widget or content, an execution unit configured to load the instrument panel page to a screen, a sensing data acquiring unit configured to acquire measurement information input through one or more sensors, and an interface unit configured to combine the measurement information acquired by the sensing data acquiring unit with the instrument panel page loaded by the execution unit. | 07-17-2014 |
20150148128 | WEB CONTENT SHARING METHOD, AND WEB CONTENT PROVIDING APPARATUS AND RECEIVING TERMINAL FOR WEB CONTENT SHARING - A web content sharing method, and a web content providing apparatus and a receiving terminal for web content sharing. In the web content sharing method according to an exemplary embodiment, the web content providing apparatus separates a plurality of web content items from a web page, disperses and moves the separated web content to each of the receiving terminals, and synchronizes the dispersed and moved web content between the receiving terminals. | 05-28-2015 |
20150195626 | AUGMENTED MEDIA SERVICE PROVIDING METHOD, APPARATUS THEREOF, AND SYSTEM THEREOF - The present invention relates to a method, apparatus and system for providing augmented media service. An augmented media service providing apparatus according to an embodiment of the present invention comprises an image retrieval part receiving capture images generated by taking the screen of media contents being displayed on a broadcasting/media receiving terminal from a user device, and identifying a targeted media content based on pre-established signature information database for scene recognition and the capture images; and an additional content providing part selecting at least one additional content information which is used for augmenting the targeted media content from pre-stored additional content information based on identification information of the targeted media content and transmitting the selected additional content information and signature information of the targeted media content to the user device. According to embodiments of the present invention, augmented media services are provided without any modification of media contents. | 07-09-2015 |
Patent application number | Description | Published |
20100210029 | DEVICE AND METHODS OF DETECTION OF AIRBORNE AGENTS - Provided are methods, devices and systems that utilize free-surface fluidics and SERS for analyte detection with high sensitivity and specificity. The molecules can be airborne agents, including but not limited to explosives, narcotics, hazardous chemicals, or other chemical species. The free-surface fluidic architecture is created using an open microchannel, and exhibits a large surface to volume ratio. The free-surface fluidic interface can filter interferent molecules, while concentrating airborne analyte molecules. The microchannel flow enables controlled aggregation of SERS-active probe particles in the flow, thereby enhancing the detector's sensitivity. | 08-19-2010 |
20120127465 | Methods and Apparatus for Transport of Airborne Molecules Using an Active Cyclical Vapor/Liquid Exchange - Methods and apparatus for detection and/or analysis of gas phase analytes and chemical compounds. The apparatus can be formed with microfluidic cells containing a selected fluid that interacts with the analyte(s), wherein the fluid can selectively transition between a vapor phase and a liquid phase. During condensation of the fluid, the population of analytes present within the vapor phase region of the fluid can be transported into the liquid phase region of the fluid within the microfluidic cells. During evaporation of the fluid, the analytes can be substantially retained within liquid phase region of the fluid and within the cells. Repetitive cycling of this vapor/liquid exchange can provide a build-up of the analytes within the microfluidic cells where they can be detected/analyzed. | 05-24-2012 |
20120148451 | DEVICE AND METHODS OF DETECTION OF AIRBORNE AGENTS - Provided are methods, devices and systems that utilize free-surface fluidics and SERS for analyte detection with high sensitivity and specificity. The molecules can be airborne agents, including but not limited to explosives, narcotics, hazardous chemicals, or other chemical species. The free-surface fluidic architecture is created using an open microchannel, and exhibits a large surface to volume ratio. The free-surface fluidic interface can filter interferent molecules, while concentrating airborne analyte molecules. The microchannel flow enables controlled aggregation of SERS-active probe particles in the flow, thereby enhancing the detector's sensitivity. | 06-14-2012 |
20120225493 | Electronic-Chemometric Controlled System and Process for the Analysis of Analytes - A series of electronic-chemometric control processes to enhance the selectivity, concentration, analysis, and detec tion of chemical species (analytes) in the gas phase, such as when using SERS-based techniques. Controls consist variously of: 1) feedback of electronic signals corresponding to changes of static and variable parameters in targeted chemical species that vary according to a reduction, increase, maximization, linearization, or improved confidence in one or more chemometric output parameters; 2) methods for spatially locating the source of an analyte species; and, 3) variable duty cycling to save power and materials according to altered physical and environmental conditions within a monitored zone. | 09-06-2012 |
20120236304 | SERS-ACTIVE ABSORBERS FOR THE ANALYSIS OF ANALYTES - Solid-type SERS-active substrates (e.g., noble metallic nanostructured powders or noble metallic nanoparticle-coatings on beads, microbeads, particles, etc.) are contained within optically-transparent modules. The modules allow for the controlled introduction of analyte-bearing fluid(s) into SERS-active substrates. The modules also allow for the monitoring of SERS signals emanating from analyte(s) which have accumulated on the confined SERS-active substrates. These SERS signals may be monitored over time by direct readout of the SERS substrates through the optically transparent module for chemical analysis and chemical detection applications. | 09-20-2012 |
20120281210 | Nano-/Micro-Droplets for the Detection of Analytes - For a rapid and real-time SERS detection of organic chemicals in the air and the interfaces of air/solids, colloidal silver and/or gold nanoparticles solution is sprayed, in the form of nano-/micro-sized droplets, at the desired target area where the analytes of interest are present, e.g., in the air or onto certain organic/inorganic interfaces. | 11-08-2012 |
20130003056 | SERS DEVICES FOR THE REMOTE ANALYSIS OF ANALYTES - SERS-active materials are delivered to a remote zone, then optically interrogated to detect and analyze from a safe distance the presence of explosives or other materials which may or may not be hazardous. Delivery methods include deploying projectiles comprising SERS-active material(s) which distribute their contents upon deployment to a target zone. | 01-03-2013 |
20130121884 | DEVICE AND METHODS OF DETECTION OF AIRBORNE AGENTS - Provided are methods, devices and systems that utilize free-surface fluidics and SERS for analyte detection with high sensitivity and specificity. The molecules can be airborne agents, including but not limited to explosives, narcotics, hazardous chemicals, or other chemical species. The free-surface fluidic architecture is created using an open microchannel, and exhibits a large surface to volume ratio. The free-surface fluidic interface can filter interferent molecules, while concentrating airborne analyte molecules. The microchannel flow enables controlled aggregation of SERS-active probe particles in the flow, thereby enhancing the detector's sensitivity. | 05-16-2013 |
Patent application number | Description | Published |
20120163217 | Structure of Adaptive Multiple Antennas and Communication Device and Method Using Adaptive Multiple Antennae - The present invention relates to communication using multiple antennas, and more particularly, to an apparatus and method for adaptively adjusting, based on a channel environment, an interval and direction of multiple antennas each of a transmitter and a receiver. A communication method according to the present invention may include verifying information about a channel state based on a pilot signal transmitted for each antenna of a transmitter, adjusting intervals among antennas of a receiver based on the information about a channel state, calculating transmission capacity values according to the adjusted intervals among antennas, and setting an antenna to an antenna interval corresponding to a transmission capacity having a highest value among the transmission capacity values calculated. | 06-28-2012 |
20150016748 | Image Processing Apparatus, Image Processing System, and Image Processing Method - Image processing apparatus, an image processing system, and an image processing method. The image processing apparatus includes: an input image processing unit for outputting global information of sample data obtained by sampling first image data and dividing and outputting the first image data into an N (where N is a positive integer equal to or greater than 2) number of split image data; and a frame rate conversion unit including an N number of frame rate converters, wherein each of the N number of frame rate converters converts a frame rate of corresponding split image data among the N number of split image data synchronized with the global information and outputs the frame rate converted split image data as split display data, wherein the split display data is to be displayed on one of an N number of display regions. | 01-15-2015 |
Patent application number | Description | Published |
20120104399 | ARRAY SUBSTRATE FOR ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME - A method of fabricating an array substrate for an organic electroluminescent display device includes forming a semiconductor layer, a semiconductor dummy pattern, a first storage electrode and a first gate insulating layer on a substrate; forming a second gate insulating layer on the semiconductor layer and the first storage electrode; forming a gate electrode and a second storage electrode on the second gate insulating layer; forming ohmic contact layers by doping impurities into both sides of the semiconductor layer; forming an inter insulating layer on the gate electrode and the second storage electrode; forming source and drain electrodes and a third storage electrode on the inter insulating layer; forming a passivation layer on the source and drain electrodes and the third storage electrode; forming a first electrode and a fourth storage electrode on the passivation layer; and forming a spacer and a bank on the first electrode. | 05-03-2012 |
20130009154 | ARRAY SUBSTRATE FOR ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME - An array substrate for an organic electroluminescent display device includes a substrate including a display area and a non-display area; a gate line and a data line; a thin film transistor including a semiconductor layer of polycrystalline silicon, a gate insulating layer, a gate electrode, an inter insulating layer, a source electrode, and a drain electrode; auxiliary lines formed of a same material and on a same layer as the data line; a passivation layer of organic insulating material and including a drain contact hole exposing the drain electrode, and an auxiliary line contact hole exposing one of the auxiliary lines; and a first electrode and a line connection pattern on the passivation layer, wherein the first electrode contacts the drain electrode and the line connection pattern contacts the one of the first auxiliary pattern. | 01-10-2013 |
20130049003 | ORGANIC LIGHT EMITTING DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - An OLED device is disclosed. The OLED device includes: a substrate defined into an active area in which a plurality of pixels are formed in a matrix shape, a GIP (gate-in-panel) area in which drive elements are formed, a ground contact area, and a seal line area; a thin film transistor formed in each pixel region within the active area; an organic light emission diode formed on a protective film and configured to include a first electrode, an organic light emission layer and a second electrode; a bank layer formed to divide the organic light emission diode into pixel units; a signal wiring formed in the ground contact area and the seal line area; and an extended portion formed from the same material as the first electrode of the organic light emission diode and configured to cover the signal wiring. | 02-28-2013 |
20140061657 | ARRAY SUBSTRATE FOR ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME - An array substrate for an organic electroluminescent display device includes a substrate including a display area and a non-display area; a gate line and a data line; a thin film transistor including a semiconductor layer of polycrystalline silicon, a gate insulating layer, a gate electrode, an inter insulating layer, a source electrode, and a drain electrode; auxiliary lines formed of a same material and on a same layer as the data line; a passivation layer of organic insulating material and including a drain contact hole exposing the drain electrode, and an auxiliary line contact hole exposing one of the auxiliary lines; and a first electrode and a line connection pattern on the passivation layer, wherein the first electrode contacts the drain electrode and the line connection pattern contacts the one of the first auxiliary pattern. | 03-06-2014 |
20150270513 | ORGANIC LIGHT EMITTING DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - An OLED device is disclosed. The OLED device includes: a substrate defined into an active area in which a plurality of pixels are formed in a matrix shape, a GIP (gate-in-panel) area in which drive elements are formed, a ground contact area, and a seal line area; a thin film transistor formed in each pixel region within the active area; an organic light emission diode formed on a protective film and configured to include a first electrode, an organic light emission layer and a second electrode; a bank layer formed to divide the organic light emission diode into pixel units; a signal wiring formed in the ground contact area and the seal line area; and an extended portion formed from the same material as the first electrode of the organic light emission diode and configured to cover the signal wiring, wherein a seal line within in the seal line area is formed on an edge of the signal wiring, which is covered with the extended portion, and an interlayer insulation film adjacent to the edge of the signal wiring. Such an OLED device can prevent a stained fault generation in the seal line region by largely forming a connection electrode, which makes contact with signal wirings formed along edges of an active area, and covering the signal wirings with a metal pattern. | 09-24-2015 |
Patent application number | Description | Published |
20080240276 | Multi-Input Multi-Output System For Enhancing Transmission Performance - The present invention relates to a multi-input multi-output (MIMO) system for enhancing transmission performance. The MIMO system uses space-time encoding and transmit antenna selection methods, and includes a transmitter ( | 10-02-2008 |
20080313252 | Sphere Decoder and Decoding Method Thereof - A sphere decoder sets a Euclidean distance between a lattice vector obtained by using an MMSE or ZF estimate and a received signal as an initial radius, further reduces the initial radius, and searches lattices points included inside a hypersphere with the further reduced initial radius. In addition, one lattice vector having a minimum Euclidean distance is output. One dimension is selected to reduce an initial radius, and estimates in other dimensions are kept fixed, excluding the selected dimension. Then candidate lattice points are searched in the selected dimension, excluding a current estimate, such that a minimum Euclidean distance and a lattice point estimate corresponding to the minimum Euclidean distance are obtained. The initial radius is updated by the minimum Euclidean distance, and a final lattice vector is constructed by combining a lattice point estimate corresponding to the initial radius and the lattice point estimates in other dimensions. | 12-18-2008 |
20100215085 | DECODING METHOD FOR SPACE-TIME ENCODING TRANSMISSION SCHEME IN WITH MULTIPLE INPUT MULTIPLE OUTPUT SYSTEM AND RECEIVING APPARATUS FOR USING THE METHOD - A receiver according to an exemplary embodiment of the present invention receives a transmitted signal, converts the signal to a predetermined symbol, and estimates channel information including a channel gain of a channel of the transmitted signal. In addition, the receiver generates an intermediate processing value for decoding the signal based on the estimated channel information and the symbol, and normalizes the intermediate processing value to the channel gain to generate a reference value. The generated reference value is used for a soft-decision value for decoding the signal. In addition, when the signal is decoded by using a hard-decision value, a constellation point value that is closest to the reference values is generated and set as the hard-decision value. | 08-26-2010 |