Abstract:
Disclosed is a gesture control method for a mobile device that provides a three-dimensional interface. The gesture control method includes displaying a virtual three-dimensional space using the three-dimensional interface; detecting at least one gesture of at least one user using at least one front-facing sensor; and moving an object existing in the virtual three-dimensional space according to the detected gesture such that the at least one user interacts with the virtual three-dimensional space.
Abstract:
An optical biosensor may include a biosensing unit, detection unit, and signal processing unit. The biosensing unit may be configured for receiving first and second optical signals (which are generated from a phase-modulated optical signal), outputting a sensing signal by transmitting the first optical signal via a first optical path that includes a sensing resonator, and outputting a reference signal by transmitting the second optical signal via a second optical path that includes a reference resonator. The detection unit may be configured for receiving the sensing signal and the reference signal, detecting a phase element of each of the sensing signal and the reference signal through a signal demodulation operation, and detecting a phase difference between the sensing signal and the reference signal according to the detected phase elements. The signal processing unit may be configured for calculating the concentration of a bio-material based on the detected phase difference.
Abstract:
A sequencing apparatus may include a bio-disk having reaction regions in which nucleic acids are polymerized; a stage configured to revolve around an axis, the stage including optical heads for detecting lights emitted from the plurality of reaction regions due to the polymerization of the nucleic acids; and/or a control unit configured to generate data regarding base sequences of the nucleic acids in the reaction regions based on wavelengths of the lights detected by the plurality of optical heads. An optical head may include a light emitting unit configured to emit light toward a reaction region in which nucleic acids are polymerized; a light receiving unit configured to receive the light emitted by the light emitting unit; a de-multiplexing unit configured to de-multiplex the light received by the light receiving unit; and/or a plurality of photoelectric converting units configured to convert the de-multiplexed light to electrical signals.
Abstract:
Provided are a non-volatile memory devices having a stacked structure, and a memory card and a system including the same. A non-volatile memory device may include a substrate. A stacked NAND cell array may have at least one NAND set and each NAND set may include a plurality of NAND strings vertically stacked on the substrate. At least one signal line may be arranged on the substrate so as to be commonly coupled with the at least one NAND set.
Abstract:
A multi-layered non-volatile memory device and a method of manufacturing the same. The non-volatile memory device may include a plurality of first semiconductor layers having a stack structure. A plurality of control gate electrodes may extend across the first semiconductor layers. A first body contact layer may extend across the first semiconductor layers. A plurality of charge storage layers may be interposed between the control gate electrodes and the first semiconductor layers.