Abstract: A channel hiatus correction method for an HDMI device is provided. A recovery code from scrambled data of the stream is obtained. A liner feedback shift register (LFSR) value of channels of the HDMI port is obtained based on the recovery code and the scrambled data of the stream. The stream is de-scrambled according to the LFSR value of the channels of the HDMI port. Video data is displayed according to the de-scrambled stream.

Abstract: A channel hiatus correction method for an HDMI device is provided. A recovery code from scrambled data of the stream is obtained. A liner feedback shift register (LFSR) value of channels of the HDMI port is obtained based on the recovery code and the scrambled data of the stream. The stream is de-scrambled according to the LFSR value of the channels of the HDMI port. Video data is displayed according to the de-scrambled stream.

Abstract: A detection system and method for the migrating cell is provided. The system is configured to detect a migrating cell combined with an immunomagnetic bead. The system includes a platform, a microchannel, a magnetic field source, a coherent light source and an optical sensing module. The microchannel is configured to allow the migrating cell to flow in it along a flow direction. The magnetic field source is configured to provide magnetic force to the migrating cell combined with the immunomagnetic bead. The magnetic force includes at least one magnetic force component and the magnetic force component is opposite to the flow direction of the microchannel. The coherent light source is configured to provide the microchannel with the coherent light. The optical sensing module is configured to receive the interference light caused by the coherent light being reflected by the sample inside the microchannel.

Abstract: A detecting method for a behavior disorder event during rapid-eye-movement sleep is provided. The detecting method includes: collecting a heart rate value and a motion value of a user per epoch within a time period; generating a plurality of corresponding sleep condition values by using the motion values, to distinguish epochs into an awake period and a sleep period; transforming the motion values corresponding to the sleep period into a score according to a predetermined rule, to generate a plurality of sleep depth scores, and distinguishing the sleep period into a light sleep period and a deep sleep period by using the sleep depth scores; grouping the heart rate values corresponding to the deep sleep period as a high heart rate group and a low heart rate group; and determining, when the motion values corresponding to the high heart rate group satisfy a condition, that a behavior disorder event happens.

Abstract: A system for estimating BPs using a PPG signal analysis comprises an upper-arm wearable apparatus, a cuff-based BP measuring apparatus, a PPG signal receiver and analyzer, and a PPG to BP estimator and calibrator. The upper-arm wearable apparatus senses modeling-used PPG waveform signals. The cuff-based BP measuring apparatus obtains real PVR waveforms and real BPs. The PPG signal receiver and analyzer is configured to process the modeling-used PPG waveform signals and derive modeling-used characteristic parameters, and have modeling-used personal information parameters. The PPG to BP estimator and calibrator is configured to calculate estimated BPs based on the modeling-based characteristic parameters and the modeling-used personal information parameters, store a calibration model which approximately fits relationship between the estimated BPs and the real BPs; and calculate modeling-used calibrated-estimated BPs using the calibration model.

Abstract: The present invention provides a method for manufacturing a neural probe incorporated with an optical waveguide. The method for manufacturing a neural probe incorporated with an optical waveguide comprises the following steps. A mold-filling step, for providing a base with at least one groove formed therein. A disposing step, for disposing and overlaying a substrate having a plurality of electrode parts on the groove of the base. A combining step, for solidifying the photosensitive adhesive by a solidification process, the solidified photosensitive adhesive forming an optical waveguide and being combined with the substrate. A mold-releasing step, for removing the base from the optical waveguide and the substrate, the substrate and the optical waveguide forming a product.

Abstract: The present invention provides a method for manufacturing a neural probe incorporated with an optical waveguide. The method for manufacturing a neural probe incorporated with an optical waveguide comprises the following steps. A mold-filling step, for providing a base with at least one groove formed therein. A disposing step, for disposing and overlaying a substrate having a plurality of electrode parts on the groove of the base. A combining step, for solidifying the photosensitive adhesive by a solidification process, the solidified photosensitive adhesive forming an optical waveguide and being combined with the substrate. A mold-releasing step, for removing the base from the optical waveguide and the substrate, the substrate and the optical waveguide forming a product.

Abstract: The present invention provides a method for manufacturing a neural probe incorporated with an optical waveguide. The method for manufacturing a neural probe incorporated with an optical waveguide comprises the following steps. A mold-filling step, for providing a base with at least one groove formed therein. A disposing step, for disposing and overlaying a substrate having a plurality of electrode parts on the groove of the base. A combining step, for solidifying the photosensitive adhesive by a solidification process, the solidified photosensitive adhesive forming an optical waveguide and being combined with the substrate. A mold-releasing step, for removing the base from the optical waveguide and the substrate, the substrate and the optical waveguide forming a product.