Patent application number | Description | Published |
20090154471 | METHOD OF AND APPARATUS FOR PROCESSING VIRTUAL LOCAL AREA NETWORK TAG FRAME - Provided are a method of and apparatus for processing a virtual local area network (VLAN) tag frame. The apparatus includes a filtering data base (FDB) for storing a VLAN tag frame which is created by a gigabit passive optical network (GPON) master; an uplink processing unit for removing by referring to the FDB a VLAN tag from the VLAN tag frame which is received from the GPON master, and transmitting a data frame to an Ethernet switch; and a downlink processing unit for inserting by looking up the FDB a VLAN tag into the data frame which is received from the Ethernet switch, and then transmitting the data frame to the GPON master. According to the present invention, port identification (ID) information that is lost in a GPON master may be provided to a switch above the GPON master by using a VLAN tag frame processing technology. | 06-18-2009 |
20090154479 | APPARATUS FOR MATCHING GIGABIT ETHERNET (GbE) SIGNALS WITH OPTICAL TRANSPORT HIERARCHY (OTH) - Provided is an apparatus for matching Gigabit Ethernet (GbE) signals to an Optical Transport Hierarchy (OTH). The apparatus real-time records a source address and input port information of GbE Ethernet frames in a memory, compares a destination address of the Ethernet frame which is a payload of a GFP frame with memory table information, searches an output port location of the GbE, and interreceives GbE frames and Generic Frame Procedure (GFP) frames by multiplexing/demultiplexing. | 06-18-2009 |
20100137702 | APPARATUS FOR MEASURING PHYSIOLOGICAL SIGNAL OF VEHICLE DRIVER - An apparatus for measuring a physiological signal of a vehicle driver includes: a conductive fabric electrode coated on a target object within a vehicle and detecting a physiological current of a driver when it comes in contact with the driver; and a signal generating unit generating an electrical signal corresponding to the physiological current. | 06-03-2010 |
20100137749 | NON-INTRUSIVE MOVEMENT MEASURING APPARATUS AND METHOD USING WEARABLE ELECTRO-CONDUCTIVE FIBER - There is provided a non-intrusive movement measuring apparatus and method using wearable electro-conductive fibers. A non-intrusive movement measuring apparatus using wearable electro-conductive fibers according to an aspect of the invention may include a signal measurement device measuring a plurality of movement signals using a plurality of electro-conductive fibers put on user's body parts and having resistances varying according to the volume of the user's body parts; a movement analysis device analyzing the plurality of movement signals to obtain a user's movement patterns and movement intensity; and a movement display device displaying a movement analysis result of the movement analysis device. Accordingly, user's movement can be measured without limiting the user's radius of action. | 06-03-2010 |
20100141576 | TOUCHPAD USING RESISTIVE ELECTRO-CONDUCTIVE FIBER AND INPUT DEVICE HAVING THE SAME - There are provided a touchpad using resistive electro-conductive fibers and an input device having the same, which can be used for controlling a personal terminal such as a computer by receiving a user's input using a signal representing a motion of the user detected by the resistive electro-conductive fiber in contact with the user's body part such as a finger, instead of using a separate input device such as a mouse. The touchpad includes a plurality of motion detectors and a signal analyzer. The motion detectors each include a resistive electro-conductive fiber having a resistance value varied according to a change in length caused by contact with a human body part, and a signal generator outputting a signal corresponding to the varied resistance value. The signal analyzer analyzes the signal from each of the motion detectors, and generates a motion signal representing a motion of the human body part in contact with the touchpad. | 06-10-2010 |
20100142674 | METHOD AND SUPPORT DEVICE FOR MEASURING JAWBONE MINERAL DENSITY - There are provided a method and support device for measuring jawbone mineral density using a jawbone X-ray image. The method for measuring jawbone mineral density includes: obtaining a jawbone X-ray image using a support device for jawbone; defining a region of interest from the obtained jawbone X-ray image; and measuring jawbone mineral density from the defined region of interest. Therefore, the support device for measuring jawbone mineral density may be useful to measure jawbone mineral density with a jawbone X-ray imaging device, which has been widely used in dental clinics, by using the method. | 06-10-2010 |
20100145209 | APPARATUS FOR MEASURING AMOUNT OF EXERCISE, SYSTEM FOR MEASURING AMOUNT OF EXERCISE, AND METHOD FOR MEASURING AMOUNT OF EXERCISE - An apparatus for measuring the amount of exercise, a system for measuring the amount of exercise, and a method for measuring the amount of exercise are disclosed. The apparatus for measuring the amount of exercise includes: an exercise amount measuring unit that measures the amount of exercise of a user; a controller that generates information about exercise of each period from the amounts of exercise of the user measured at every predefined period; a memory unit that sequentially stores the information about the exercise of each period; and a communication unit that transmits the stored information about the exercise of each period to the exterior. | 06-10-2010 |
20100150420 | METHOD FOR DETECTING GROUND GLASS OPACITY USING CHEST COMPUTED TOMOGRAPHY - There is provided a method for detecting Ground Glass Opacity (GGO) using chest computed tomography. The method includes detecting a candidate cell having a brightness value within a detection range by sequentially scanning a three-dimensional image of a pulmonary region, and designating the candidate cell as a seed cell when surrounding cells of the candidate cell have brightness values within the detection range; when a plurality of seed cells are obtained by the designating of the candidate cell as a seed cell, grouping adjacent seed cells to obtain one or more candidate zones; and detecting one or more zones, which have a greater size than a GGO detection size and including therein more than the detection reference number of seed cells, out of the one or more candidate zones, and setting the detected one or more zones as one or more GGO candidates. | 06-17-2010 |
20100160743 | APPARATUS AND METHOD FOR MONITORING HEALTH INDEX USING ELECTROCONDUCTIVE FIBER - Provided are an apparatus and method for monitoring a health index using an electroconductive fiber. In the apparatus, a bio signal acquiring unit measures a bio signal using an electroconductive fiber which is worn around a part of a user's body and in which a resistance is varied according to a user's body volume or body temperature. A health index acquiring unit analyzes the bio signal to acquire a health index. A health index notifying unit notifies the health index. Accordingly, the health index can be easily monitored without limitations on the user's behavior. | 06-24-2010 |
20100185076 | GARMENT FOR MEASURING PHYSIOLOGICAL SIGNAL AND SYSTEM FOR PROCESSING PHYSIOLOGICAL SIGNAL - Provided are a physiological signal measurement garment and a physiological signal processing system. The physiological signal measurement garment includes: a main garment body which is formed of an elastic fabric and includes a mesh structure and an elastic band; at least one physiological signal sensing electrode sewn on the garment body; a physiological signal transmission unit which is sewn on the garment body and transmits a physiological signal sensed by the physiological signal sensing electrode; and a physiological information measurement module that measures various kinds of physiological information from the physiological signal, which is sensed by the physiological signal sensing electrode and transmitted through the physiological signal transmission unit. The physiological signal measurement garment is more comfortable for a wearer than similar existing garments and can measure a physiological signal with higher accuracy. | 07-22-2010 |
20100234715 | GARMENT FOR MEASURING PHYSIOLOGICAL SIGNALS AND METHOD OF FABRICATING THE SAME - Provided is a garment for measuring physiological signals. The garment includes at least one electrode sensor, a signal connection line, a snap structure, and a measurement unit. The electrode sensor is coupled to an inner surface of the garment to make contact with a skin for detecting physiological signals. The signal connection line transmits the physiological signals detected by the electrode sensor. The signal connection line is finished against the inner surface of the garment. The snap structure is coupled to a portion of the garment where the electrode sensor is not overlapped and is electrically connected to the signal connection line. The measurement unit is mounted on the snap structure for measuring the physiological signals. The signal connection line has elasticity. | 09-16-2010 |
20110054341 | UNCONSTRAINED WEARABLE SPIROMETER APPARATUS, SYSTEM, AND MEASUREMENT METHOD USING THE SAME - Provided is an unconstrained wearable spirometer apparatus. The apparatus includes a variable resistor including a conductive yarn, the length of which changes according to a change in circumference of one's chest when breathing, and having a resistance which changes according to a change in length of the conductive yarn, a resistance-voltage converter converting the resistance of the variable resistor into a voltage, an analog-digital converter converting the voltage in an analog-digital manner, and digitizing the converted results, a cross-sectional capacity calculator calculating changes in cross-sectional capacity of one's chest according to the digitized voltage, an adder adding the calculated changes in cross-sectional capacity and calculating lung capacity, and a transmitter externally transmitting the calculated lung capacity information. Therefore, lung capacity can be measured by wearing such an apparatus in the form of clothing without the use of an external apparatus or device. | 03-03-2011 |
20110087084 | FACE MASK TYPE VITAL SIGNS MEASURING APPARATUS AND VITAL SIGNS MANAGEMENT SYSTEM USING THE SAME - There are provided a face mask type vital signs measuring apparatus and a vital signs management system using the same. The face mask type vital signs measuring apparatus according to an exemplary embodiment of the present invention may include: a detector detecting a vital sign; an analyzer analyzing the detected vital sign; a display displaying the analyzed vital sign; a transmitter transmitting the analyzed vital sign; and a face mask with the detector, the analyzer, the display, and the transmitter attached thereto. | 04-14-2011 |
20110106492 | WAIST BELT FOR AUTOMATICALLY MEASURING WAIST CIRCUMFERENCE - Provided is a waist belt for automatically measuring a waist circumference. The waist belt includes a belt part ( | 05-05-2011 |
20110236277 | MICROFLUID CONTROL DEVICE AND METHOD OF MANUFACTURING THE SAME - Provided are a plastic microfluid control device having a multi-step microchannel and a method of manufacturing the same. The device includes a lower substrate, and a fluid channel substrate contacting the lower substrate and having a multi-step microchannel having at least two depths in a side coupling to the lower substrate. Thus, the device can precisely control the fluid flow by controlling capillary force in a depth direction of the channel by controlling the fluid using the multi-step microchannel having various channel depths. A multi-step micropattern is formed by repeating photolithography and transferred, thereby easily forming the multi-step microchannel having an even surface and a precisely controlled height. | 09-29-2011 |
20110313260 | DIAPER-TYPE VITAL SIGN MEASURING APPARATUS - Provided is a vital sign measuring apparatus capable of measuring vital signs such as a temperature of a human body, breathing, acceleration, oxygen saturation, voice, etc. to analyze and display a health index. The diaper-type vital sign measuring apparatus includes a vital sign measuring part for detecting variation in abdominal circumference according to breathing of a wearer to measure a vital sign of the breathing of the wearer, a vital sign analysis part for analyzing the vital sign measured by the vital sign measuring part to calculate a health index of the wearer, and a display part for displaying the health index calculated by the vital sign analysis part. | 12-22-2011 |
20120071756 | APPARATUS AND METHOD FOR DETECTING EXAMINATION TISSUE USING ULTRASOUND SIGNAL - An apparatus for detecting an examination tissue using an ultrasound signal is disclosed. The apparatus includes a scanning unit to generate an image related to an object, using the ultrasound signal, a sampling unit to convert a resolution of the generated image, and a controlling unit to retrieve an n-number of figure lines from the resolution-converted image and thereby determine whether each of the retrieved figures line is an examination tissue, wherein n is a natural number. | 03-22-2012 |
20120128224 | METHOD OF SEGMENTING LESIONS IN IMAGES - The method of segmenting a lesion in an image according to the present invention includes the steps of: obtaining an image of a region of interest from an image of a lesion; adjusting the contrast of the obtained image of the region of interest such that the contrast changes according to the distance from the center of the region of interest; removing noise from the image whose contrast is adjusted; and separating the region of the lesion from the noise-removed image. In the step of adjusting the contrast, the image is adjusted such that the contrast is increased as it goes away from the center of the region of interest, and thus it is possible to segment the lesion while maintaining the original shape of the lesion, thereby reliably segmenting the lesion even in the case where the inside of the lesion is not uniform. | 05-24-2012 |
20120136232 | NON-INTRUSIVE WEARABLE RESPIRATORY FAILURE ALARM APPARATUS AND METHOD THEREOF - A non-intrusive wearable respiratory failure alarm apparatus and method capable of detecting a user's respiratory failure state by estimating a change in a user's respiratory rate, while minimizing restrictions on a user's behavior are provided. The non-intrusive wearable respiratory failure alarm apparatus includes: a chest girth measurement unit including one or more resistive electro-threads attached to or worn on a user's chest, and generating a resistance value corresponding to the user's chest girth through the resistive electro-threads; a signal processing unit calculating a user's respiratory rate and whether or not the user is in respiratory failure by referring to the resistance value; and an output unit providing information regarding the user's respiratory rate and/or information regarding whether or not the user is in respiratory failure to the user or a monitoring device. | 05-31-2012 |
20120247964 | MICROFLUIDIC CONTROL DEVICE FOR MEASURING GLYCOSLYATED HEMOGLOBIN, METHOD FOR MANUFACTURING THE SAME AND METHOD FOR OPERATING THE SAME - Disclosed is a microfluidic control device which may electrochemically and simply measure the value of glycosylated hemoglobin in blood on a chip, a method for manufacturing the same, and a method for operating the same. | 10-04-2012 |
20120298625 | NANOPOROUS MEMBRANE AND MANUFACTURING METHOD THEREOF - In the present invention, a nanoporous membrane having a columnar structure is manufactured through a deposition technology used in a semiconductor process, and the size of a nanopore is adjusted by etching the lower surface of the manufactured nanoporous membrane or using a seed layer and a nanobead layer so that scaling up is available at a lowered process temperature and the size of the nanopore can be easily adjusted when manufacturing the nanoporous membrane having a columnar structure. | 11-29-2012 |
20130003763 | APPARATUS FOR ADJUSTING POLARIZATION CHARACTERISTICS, AND ULTRA-SHORT ULTRA-HIGH INTENSITY PULSE LASER GENERATOR COMPRISING SAME - The present invention relates to an apparatus for generating an ultra-short ultra-high intensity pulse laser, comprising: a pulse laser providing unit which generates an ultra-short ultra-high intensity pulse laser, stretches pulse width, then selects and provides only a pulse laser having a predetermined polarizing angle; a polarization characteristic adjusting unit which divides the pulse laser provided by the pulse laser providing unit into S-polarizing component light and P-polarizing component light, varies the phase difference and amplitude difference between the S-polarizing component light and the P-polarizing component light, and combines the two types of light to generate a pulse laser with varied polarization characteristics; and a pulse compression unit which compresses the pulse width of the pulse laser, the polarization characteristics of which are varied by the polarization characteristic adjusting unit, and outputs the pulse laser. | 01-03-2013 |
20130212882 | MICROFLUID CONTROL DEVICE AND METHOD OF MANUFACTURING THE SAME - Provided are a plastic microfluid control device having a multi-step microchannel and a method of manufacturing the same. The device includes a lower substrate, and a fluid channel substrate contacting the lower substrate and having a multi-step microchannel having at least two depths in a side coupling to the lower substrate. Thus, the device can precisely control the fluid flow by controlling capillary force in a depth direction of the channel by controlling the fluid using the multi-step microchannel having various channel depths. A multi-step micropattern is formed by repeating photolithography and transferred, thereby easily forming the multi-step microchannel having an even surface and a precisely controlled height. | 08-22-2013 |
20140376605 | APPARATUS AND METHOD FOR COMPRESSING AND DECOMPRESSING DATA - Disclosed are methods and apparatuses for compressing and decompressing data at a sample rate lower than a Nyquist sampling rate for the data. The data compression apparatus comprises a domain converting part performing a domain conversion on input data to generate domain-converted input data, and a data compression part generating compressed data by down-sampling the domain-converted input data at a sampling rate lower than a Nyquist sampling rate. Therefore, data to be transmitted can be compressed in a transmitting end by sampling the data at a sampling rate lower than a Nyquist sampling rate, and then the data can be reproduced in a receiving end. Therefore, a higher compression ratio can be achieved as compared with that of conventional technologies. | 12-25-2014 |