Abstract: A display device includes a substrate, a circuit layer, and an element layer. The circuit layer includes: light emitting pixel drivers; data lines; demux circuits outputting the data signal of the data lines based on a data mux signal supplied from a display driving circuit; and data transmission lines electrically connected between the display driving circuit and the demux circuits, and transmitting data mux signals of the demux circuits, respectively. The data transmission lines include: a first data transmission line electrically connected to a first demux circuit adjacent to an edge of the substrate in a first direction; and a second data transmission line electrically connected to a second demux circuit spaced further apart from the edge of the substrate than the first demux circuit in the first direction. The second data transmission line is electrically connected to a path compensation capacitor in the sub-region.

Abstract: A semiconductor memory device may include a cell substrate including a first surface and a second surface opposite to the first surface, and a landing pattern including a third surface and a fourth surface opposite to the third surface, with the landing pattern spaced apart from the cell substrate in a horizontal direction. The semiconductor memory device may include a plurality of gate electrodes sequentially stacked on the first surface and the third surface, a channel structure on the cell substrate, the channel structure extending vertically and intersecting the plurality of gate electrodes, an upper insulating film covering the second surface and the fourth surface, an input/output pad on the upper insulating film, the input/output pad overlapping at least a portion of the plurality of gate electrodes in the vertical direction, and a support contact extending through the upper insulating film and connecting the landing pattern and the input/output pad.

Abstract: The present disclosure relates to a hydrogen tank support apparatus, and the hydrogen tank support apparatus according to the present disclosure includes: a hydrogen storage tank; a frame portion on which the hydrogen storage tank is seated; and a sliding block portion configured to fix a nozzle portion of the hydrogen storage tank to the frame portion, wherein the sliding block portion includes a lower block portion fixed to the frame portion, an upper block portion coupled to the lower block portion in a concave-convex manner so that movement of the hydrogen storage tank is limited in a longitudinal direction and a width direction of the hydrogen storage tank, and a slide ball portion configured to surround an outer side surface of the nozzle portion, interposed between the lower block portion and the upper block portion, and configured to rotatably support the nozzle portion.

Abstract: An electronic device for enhancing accuracy upon contactless body temperature measurement is provided. The electronic device includes an image sensor for obtaining an image of an object, a temperature sensor disposed at a position adjacent to the image sensor for measuring a temperature of the obtained object, and a controller for performing control to determine the temperature of the object using a focal length of a camera module including the image sensor corresponding to a time of obtaining the image of the object and a temperature output from the temperature sensor corresponding to the time of obtaining the image of the object.

Abstract: Provided are an electronic device, a signal processing method thereof, a biological signal measurement system, and a non-transitory computer readable recording medium. The electronic device, according to one embodiment of the present disclosure, comprises: a sensor for measuring a biological signal of a user; and a processor for determining the periodicity of the measured biological signal, and selectively compressing the measured biological signal according to the determined periodicity.

Abstract: Provided are an electronic device and a method for controlling the same. An electronic device for providing continuous blood glucose monitoring comprises: a first sensor for measuring a glucose level of an interstitial fluid in order to predict blood glucose; a second sensor disposed on an inner surface of the electronic device to be in contact with a human body, in order to measure at least one of a blood flow and a heart rate of the human body; and a processor for determining a diffusion time during which glucose present in blood diffuses into the interstitial fluid, on the basis of characteristics of a signal generated by the second sensor, and predicting the blood glucose on the basis of the glucose level measured by the first sensor and the determined diffusion time.

Abstract: A portable bio information measuring device is provided. The portable bio information measuring device includes a circuit board placed in the portable bio information measuring device, a housing accommodating the circuit board, an electrode to measure bio information, and a connecting member electrically connecting the circuit board with the electrode. The electrode is configured as at least one of a transparent electrode, a conductive decoration, and a conductive printed electrode.

Abstract: The present invention minimizes the addition of alloying elements to reduce surface cracking during hot rolling, ensures corrosion resistance by constituting Cr as one of the main components, and realizes a TRIP or TWIP phenomenon through a high Mn design, thereby providing a low alloy steel sheet with excellent hot workability, strength and ductility. The low alloy steel sheet excellent in strength and ductility according to an embodiment of the present invention comprises, in percent (%) by weight of the entire composition, 0.05 to 0.3% of carbon (C), 0.7 to 2.5% of silicon (Si), 8 to 12% of manganese (Mn), 13 to 15.5% of chromium (Cr), 0.5 to 3.0% of copper (Cu), 0.1 to 0.2% of nitrogen (N), 0.25% or less of aluminum (Al), 0.25% or less of tin (Sn), and the remainder of iron (Fe) and other inevitable impurities. The microstructure of the low alloy steel sheet comprises at least one of a ferrite phase and a martensite phase at a volume fraction of 5% or less, and the remainder includes an austenite phase.

Abstract: Provided are an electronic device and a method for controlling the same. An electronic device for providing continuous blood glucose monitoring comprises: a first sensor for measuring a glucose level of an interstitial fluid in order to predict blood glucose; a second sensor disposed on an inner surface of the electronic device to be in contact with a human body, in order to measure at least one of a blood flow and a heart rate of the human body; and a processor for determining a diffusion time during which glucose present in blood diffuses into the interstitial fluid, on the basis of characteristics of a signal generated by the second sensor, and predicting the blood glucose on the basis of the glucose level measured by the first sensor and the determined diffusion time.

Abstract: An electronic device for enhancing accuracy of a contactless body temperature measurement is provided. The electronic device includes a camera module for determining whether an image of an object is in focus, a temperature sensor for measuring a temperature of the object, and a processor for determining, as a temperature of the object, a temperature output from the temperature sensor corresponding to a focus matching time as a result of determining whether the image of the object is in focus.

Abstract: Provided are an electronic device, a signal processing method thereof, a biological signal measurement system, and a non-transitory computer readable recording medium. The electronic device, according to one embodiment of the present disclosure, comprises: a sensor for measuring a biological signal of a user; and a processor for determining the periodicity of the measured biological signal, and selectively compressing the measured biological signal according to the determined periodicity.

Abstract: A mobile device and a method thereof are provided. The mobile device includes a display configured to display an image; a metal bezel surrounding an outer perimeter of the display; a temperature sensor configured to measure a temperature of an object via the metal bezel; and a controller configured to control the display to output the temperature measured using the temperature sensor.

Abstract: Electronic devices and methods are provided in which a pressure applied, by a driver, to a seat of a moving object driven by the driver is sensed. A state of the driver is determined based on frequency characteristics with respect to a change in the pressure sensed by the sensor.

Abstract: Electronic devices and methods are provided in which a pressure applied, by a driver, to a seat of a moving object driven by the driver is sensed. A state of the driver is determined based on frequency characteristics with respect to a change in the pressure sensed by the sensor.

Abstract: Provided are a wearable device and a method for controlling the same. The wearable device may include a distance sensor unit configured to output a first signal for determining a distance between a user and the wearable device and to receive the first signal reflected from the user. The wearable device may also include a biometric sensor unit configured to output a second signal for determining biometric information of the user and to receive the second signal reflected from the user, and a controller configured to determine the distance based on the received first signal and to obtain the biometric information of the user based on a change in an attribute of the received second signal. The controller may control the biometric sensor unit to output the second signal if the determined distance is equal to or less than a reference distance.

Abstract: A sensor strip cartridge and a biometric information measuring method and apparatus using the same are provided. The biometric information measuring apparatus includes a cartridge accommodator configured to accommodate a sensor strip cartridge including at least one sensor strip, a cartridge information reader configured to read cartridge information about the sensor strip cartridge from the sensor strip cartridge, a controller configured to receive biometric information through the sensor strip, and correct the received biometric information by using a biometric information correction reference corresponding to the cartridge information, and an outputter configured to output the corrected biometric information.

Abstract: A portable bio information measuring device is provided. The portable bio information measuring device includes a circuit board placed in the portable bio information measuring device, a housing accommodating the circuit board, an electrode to measure bio information, and a connecting member electrically connecting the circuit board with the electrode. The electrode is configured as at least one of a transparent electrode, a conductive decoration, and a conductive printed electrode.

Abstract: Provided are a wearable device and a method for controlling the same. The wearable device may include a distance sensor unit configured to output a first signal for determining a distance between a user and the wearable device and to receive the first signal reflected from the user. The wearable device may also include a biometric sensor unit configured to output a second signal for determining biometric information of the user and to receive the second signal reflected from the user, and a controller configured to determine the distance based on the received first signal and to obtain the biometric information of the user based on a change in an attribute of the received second signal. The controller may control the biometric sensor unit to output the second signal if the determined distance is equal to or less than a reference distance.

Abstract: A mobile device and a method thereof are provided. The mobile device includes a display configured to display an image; a metal bezel surrounding an outer perimeter of the display; a temperature sensor configured to measure a temperature of an object via the metal bezel; and a controller configured to control the display to output the temperature measured using the temperature sensor.

Abstract: An electronic device for enhancing accuracy upon contactless body temperature measurement is provided. The electronic device includes an image sensor for obtaining an image of an object, a temperature sensor disposed at a position adjacent to the image sensor for measuring a temperature of the obtained object, and a controller for performing control to determine the temperature of the object using a focal length of a camera module including the image sensor corresponding to a time of obtaining the image of the object and a temperature output from the temperature sensor corresponding to the time of obtaining the image of the object.