Abstract: A clock signal generator includes an optic mirror rotatable to scan an incident light beam in a first direction, a grid plate including a plurality of grid arrays arranged in a second direction different from the first direction, wherein light reflected from the optic mirror is selectively passed through when the light beam is scanned on the grid plate in the first direction, the grid array being offset in the first direction by a particular distance with respect to an adjacent grid array, a light detector configured to detect a light passing through the grid arrays, and a pixel clock generator configured to generate a clock signal based on detection signals received from the light detector.

Abstract: An optical inspecting apparatus includes a first light source, a beam splitter, a first lens, a first light detector, and pinhole plates. The first light source emits a first light beam. The beam splitter transmits or reflects the first light beam. The first lens provides the first light beam to transmit through a transparent substrate of a photomask and forms a first focusing spot on a first surface of the transparent substrate or a top surface of a photomask pattern formed on the transparent substrate. The first light detector detects a first reflection light beam generated by reflecting the first light beam from the first surface of the transparent substrate or the top surface of the photomask pattern. The pinhole plates are disposed in front of the first light detector to filter noise in the reflection light beam.

Abstract: Disclosed is an apparatus for managing a plurality of transmission points (TPs) including: configuring at least one grouping cell by logically grouping a plurality of spot coverages formed by the plurality of TPs within an overall coverage in a plurality of subbands, respectively, within an overall system band; and operating at least one of the plurality of subbands as a capacity layer for providing capacity to UE.

Abstract: Provided are a method and system for providing a sleep state in a device accessible to a wired or wireless network. Provided are a method and a system, which dynamically determine the optimal parameter in a sleep state depending on a network characteristic in providing the sleep state to a network-accessible terminal, and thus reduce the period of an active state of the network-accessible terminal, thereby considerably decreasing power consumption. Provided are a method and a system, which do not unnecessarily use a clock in an active state by selecting the optimal clock according to a purpose of transiting from the sleep state to the active state, and thus reduce the period of the active state of the network-accessible terminal, thereby considerably decreasing power consumption.

Abstract: A composition for solar cell electrodes includes a conductive powder, a glass frit, an organic vehicle and a thixotropic agent, and has a first thixotropic index (TI I) of about 1.5 to about 4 as represented by the following Equation 1, and a second thixotropic index (TI II) of about 4 to about 8 as represented by the following Equation 2, both the first thixotropic index and the second thixotropic index being measured at 23° C. by a rotary viscometer. [Equation 1] TI I=(viscosity at 1 rpm/viscosity at 10 rpm) [Equation 2] TI II=(viscosity at 10 rpm/viscosity at 100 rpm).

Abstract: A composition for solar cell electrodes includes a conductive powder, a glass frit, an organic vehicle and a thixotropic agent, and has a first thixotropic index (TI I) of about 1.5 to about 4 as represented by the following Equation 1, and a second thixotropic index (TI II) of about 4 to about 8 as represented by the following Equation 2, both the first thixotropic index and the second thixotropic index being measured at 23° C. by a rotary viscometer. [Equation 1] TI I=(viscosity at 1 rpm/viscosity at 10 rpm) [Equation 2] TI II=(viscosity at 10 rpm/viscosity at 100 rpm).

Abstract: Disclosed herein is a noise cancellation apparatus and method, which select in advance parameters to be used for noise cancellation in a reference voice signal section by generating a reference voice signal in advance before a voice signal is generated, thus improving noise cancellation effects. The noise cancellation apparatus includes a parameter initialization unit for determining an initial value of a parameter to be used for noise cancellation, based on reference signals filtered for respective frequencies, a parameter estimation unit for receiving the initial value of the parameter, and estimating the parameter in response to signals that are input after being filtered for respective frequencies, a gain estimation unit for calculating gains for respective frequencies based on the parameter from the parameter estimation unit, and a gain application unit for cancelling noise by applying the gains to the signals that are input after being filtered for respective frequencies.

Abstract: A rod lens for a lighting apparatus and a lighting apparatus including the rod lens are disclosed. The rod lens having a rectangular rod structure extends lengthwise and includes a first end and a second end opposing each other. The first end is a light incident surface and formed of one continuous surface. The second end is a light exit surface and formed of a plurality of separated surfaces.

Abstract: Disclosed herein are a method and an apparatus of expanding a speech recognition database used for speech recognition. The method of expanding a speech recognition database includes generating a pronunciation text from a corpus; confirming whether or not a non-registered word that is not registered in advance in a pronunciation dictionary among words included in the pronunciation text is present; generating lexical model information on the corresponding non-registered word with reference to a built-up acoustic model in the case in which the non-registered word is present as a confirmation result; and adding the generated lexical model information to a built-up lexical model. According to exemplary embodiments of the present invention, various speeches may be recognized in a stand-along speech recognizer in which an infrastructure is insufficient.

Abstract: An optical inspecting apparatus includes a first light source, a beam splitter, a first lens, a first light detector, and pinhole plates. The first light source emits a first light beam. The beam splitter transmits or reflects the first light beam. The first lens provides the first light beam to transmit through a transparent substrate of a photomask and forms a first focusing spot on a first surface of the transparent substrate or a top surface of a photomask pattern formed on the transparent substrate. The first light detector detects a first reflection light beam generated by reflecting the first light beam from the first surface of the transparent substrate or the top surface of the photomask pattern. The pinhole plates are disposed in front of the first light detector to filter noise in the reflection light beam.

Abstract: An apparatus and method for improving voice recognition are disclosed herein. The apparatus includes a standard voice transmission unit, a Mel-frequency cepstrum coefficient (MFCC) generation unit, and an MFCC compensation unit. The standard voice transmission unit generates a standard voice. The MFCC generation unit generates voice feature data (MFCC) based on the utterance of the standard voice before voice recognition. The MFCC compensation unit stores a gain value generated based on the standard voice, and compensates for the distortion of the voice feature data based on the utterance of a user using the gain value during the voice recognition.

Abstract: A plasma light source includes a chamber having an ionizable medium therein, an ignition source configured to provide first electromagnetic radiation to the chamber, a sustaining source configured to separately provide second electromagnetic radiation to the chamber, a first curved mirror positioned adjacent the chamber, and a second curved mirror positioned opposite the first mirror and arranged to direct the first electromagnetic radiation toward the chamber. The second electromagnetic radiation may be different than the first electromagnetic radiation. Related devices and methods of operation are also discussed.

Abstract: Provided is an apparatus for super high frequency (SHF)/extremely high frequency (EHF) band wireless transmission on a multi-level configuration. The apparatus may include a list managing unit to receive and manage a first list associated with an SHF/EHF band signal from a terminal connected to a wireless network, a path finding unit to select a path having a communication quality value greater than or equal to a first threshold value by referring to the first list, and a scheduling unit to schedule available SHF/EHF band radio resources for the selected path.

Abstract: An optical transformation module includes a light generator generating a parallel light beam to be incident onto a surface of an inspection object and changing a wavelength of the parallel light beam, and a rotating grating positioned on a path of the parallel light beam and rotatable by a predetermined rotation angle such that the parallel light beam is transformed according to the wavelength of the parallel light beam and the rotation angle of the rotating grating to have a desired incidence angle and a desired incidence position onto the surface of the inspection object.

Abstract: A plasma light source includes a chamber having an ionizable medium therein, an ignition source configured to provide first electromagnetic radiation to the chamber, a sustaining source configured to separately provide second electromagnetic radiation to the chamber, a first curved mirror positioned adjacent the chamber, and a second curved mirror positioned opposite the first mirror and arranged to direct the first electromagnetic radiation toward the chamber. The second electromagnetic radiation may be different than the first electromagnetic radiation. Related devices and methods of operation are also discussed.