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    • 1. 发明申请
    • Wireless audio data transmitting and receiving apparatus using human body
    • 使用人体的无线音频数据收发装置
    • US20070159371A1
    • 2007-07-12
    • US11637727
    • 2006-12-13
    • Seong-Jun SongSeung Jin LeeHoi-Jun Yoo
    • Seong-Jun SongSeung Jin LeeHoi-Jun Yoo
    • H03M1/12
    • H04B13/005
    • Wireless audio data transmitting and receiving apparatus using human body is disclosed. An audio signal outputted from a portable audio player is converted by the digital audio interface technology without a wire or an antenna, is transferred through human body using only a single signal electrode at high speed, and the audio signal transferred through the human body is received to listen through an earphone. Thus, the inconvenient wire is removed to improve the convenience to use and the antenna which has a difficulty due to the size and the installation is not required. Moreover, since additional encoding and decoding for the reduction of the transfer rate are not required so that the high speed transfer is enabled and the power consumption can be reduced, components and/or a battery can be reduced in size and can be minimized.
    • 公开了使用人体的无线音频数据发送和接收装置。 从便携式音频播放器输出的音频信号通过无线或天线的数字音频接口技术进行转换,仅通过人体仅使用单个信号电极高速传输,并且接收通过人体传送的音频信号 通过耳机听。 因此,除去不方便的线以提高使用的便利性,并且不需要由于尺寸和安装而难以进行的天线。 此外,由于不需要用于降低传送速率的附加编码和解码,使得能够实现高速传输并且可以降低功耗,可以减小部件和/或电池的尺寸并且可以最小化。
    • 5. 发明授权
    • Apparatus for receiving wide-band pulse signal in communication channel using human body
    • 用于在人体通信通道中接收宽带脉冲信号的装置
    • US07650113B2
    • 2010-01-19
    • US11714110
    • 2007-03-06
    • Seong-Jun SongHoi-Jun Yoo
    • Seong-Jun SongHoi-Jun Yoo
    • H04B1/00
    • H03K5/003H04B13/005H04L25/0266H04L25/0292H04L25/061
    • Disclosed herein is an apparatus for receiving a wide-band pulse signal in a communication channel using a human body. When a weak wide-band pulse signal, which is output from a communication channel using a human body as a data transmission medium, is restored to a digital signal, it is possible to accomplish low power consumption and high data transmission rate using a wide-band symmetrical triggering technology using 50-Ω impedance matching, wide-band amplification and symmetrical threshold voltages. In addition, since only a single signal electrode is used, it is possible to provide an apparatus having usability, wearability and miniaturization. In addition, it is possible to remove necessities of an external reference voltage to reduce area consumption and to simply adjust a feedback resistor to easily adjust the reception sensitivity according to a communication distance.
    • 这里公开了一种用于在使用人体的通信信道中接收宽带脉冲信号的装置。 当从使用人体的通信信道作为数据传输介质输出的弱宽带脉冲信号被恢复为数字信号时,可以使用宽幅脉冲信号实现低功耗和高数据传输速率, 带对称触发技术,使用50Ω阻抗匹配,宽带放大和对称阈值电压。 此外,由于仅使用单个信号电极,所以可以提供具有可用性,耐磨性和小型化的装置。 此外,可以消除外部参考电压的需要以减少面积消耗,并且简单地调整反馈电阻器以根据通信距离容易地调整接收灵敏度。
    • 6. 发明申请
    • Apparatus for receiving wide-based pulse signal in communication channel using human body
    • 用于在人体通信通道中接收宽基脉冲信号的装置
    • US20070211828A1
    • 2007-09-13
    • US11714110
    • 2007-03-06
    • Seong-Jun SongHoi-Jun Yoo
    • Seong-Jun SongHoi-Jun Yoo
    • H04L27/00
    • H03K5/003H04B13/005H04L25/0266H04L25/0292H04L25/061
    • Disclosed herein is an apparatus for receiving a wide-band pulse signal in a communication channel using a human body. When a weak wide-band pulse signal, which is output from a communication channel using a human body as a data transmission medium, is restored to a digital signal, it is possible to accomplish low power consumption and high data transmission rate using a wide-band symmetrical triggering technology using 50-Ω impedance matching, wide-band amplification and symmetrical threshold voltages. In addition, since only a single signal electrode is used, it is possible to provide an apparatus having usability, wearability and miniaturization. In addition, it is possible to remove necessities of an external reference voltage to reduce area consumption and to simply adjust a feedback resistor to easily adjust the reception sensitivity according to a communication distance.
    • 这里公开了一种用于在使用人体的通信信道中接收宽带脉冲信号的装置。 当从使用人体的通信信道作为数据传输介质输出的弱宽带脉冲信号被恢复为数字信号时,可以使用宽幅脉冲信号实现低功耗和高数据传输速率, 带对称触发技术,使用50Ω阻抗匹配,宽带放大和对称阈值电压。 此外,由于仅使用单个信号电极,所以可以提供具有可用性,耐磨性和小型化的装置。 此外,可以消除外部参考电压的需要以减少面积消耗,并且简单地调整反馈电阻器以根据通信距离容易地调整接收灵敏度。
    • 8. 发明申请
    • DIGITAL HEARING AID ADAPTIVE TO STRUCTURES OF HUMAN EXTERNAL EAR CANALS
    • 数字听力辅助人体外部结构结构
    • US20080273726A1
    • 2008-11-06
    • US11876490
    • 2007-10-22
    • Hoi-Jun YooSun-Young KimSeung-Jin Lee
    • Hoi-Jun YooSun-Young KimSeung-Jin Lee
    • H04R25/00
    • H04R25/70
    • The present invention relates to a digital hearing aid, which models the structures of external ear canals, sizes and shape characteristics of which differ between respective persons, obtains resonance gains generated due to the structural characteristics of the external ear canals, and performs digitization and signal processing to allow the resonance gains to be used as the gain factors of the digital hearing aid, and thus applies the gain factors to digital signal processing units. Further, the present invention proposes a gain obtainment unit capable of taking both resonance gains, generated due to the structural characteristics, and gains, obtained through a hearing test, into account, thus reducing the time required for gain fitting and possible errors, and optimizing the performance of the digital hearing aid for each individual.
    • 本发明涉及一种数字助听器,其对外耳道的结构进行建模,其尺寸和形状特征在各人之间不同,获得由于外耳道的结构特性而产生的共振增益,并且执行数字化和信号 处理以允许谐振增益用作数字助听器的增益因子,并且因此将增益因子应用于数字信号处理单元。 此外,本发明提出一种增益获取单元,其能够考虑由于结构特性而产生的共振增益和通过听力测试获得的增益,从而减少增益拟合所需的时间和可能的误差,以及优化 每个人的数字助听器的性能。
    • 9. 发明授权
    • Digital hearing aid adaptive to structures of human external ear canals
    • 适用于人体外耳道结构的数字助听器
    • US08150049B2
    • 2012-04-03
    • US11876490
    • 2007-10-22
    • Hoi-Jun YooSun-Young KimSeung-Jin Lee
    • Hoi-Jun YooSun-Young KimSeung-Jin Lee
    • H04R29/00
    • H04R25/70
    • The present invention relates to a digital hearing aid, which models the structures of external ear canals, sizes and shape characteristics of which differ between respective persons, obtains resonance gains generated due to the structural characteristics of the external ear canals, and performs digitization and signal processing to allow the resonance gains to be used as the gain factors of the digital hearing aid, and thus applies the gain factors to digital signal processing units. Further, the present invention proposes a gain obtainment unit capable of taking both resonance gains, generated due to the structural characteristics, and gains, obtained through a hearing test, into account, thus reducing the time required for gain fitting and possible errors, and optimizing the performance of the digital hearing aid for each individual.
    • 本发明涉及一种数字助听器,其对外耳道的结构进行建模,其尺寸和形状特征在各人之间不同,获得由于外耳道的结构特性而产生的共振增益,并且执行数字化和信号 处理以允许谐振增益用作数字助听器的增益因子,并且因此将增益因子应用于数字信号处理单元。 此外,本发明提出一种增益获取单元,其能够考虑由于结构特性而产生的共振增益和通过听力测试获得的增益,从而减少增益拟合所需的时间和可能的误差,以及优化 每个人的数字助听器的性能。
    • 10. 发明授权
    • Method for storing compressed MPEG image with low power consumption and frame buffer structure used in the same
    • 用于存储具有低功耗的压缩MPEG图像和帧缓冲结构的方法
    • US06907078B2
    • 2005-06-14
    • US10055916
    • 2002-01-28
    • Hoi-Jun YooChi-Weon Yoon
    • Hoi-Jun YooChi-Weon Yoon
    • H04N7/24G06T9/00H04N7/26H04N7/50H04N7/12
    • H04N19/423H04N19/61
    • Disclosed is a frame buffer structure having a sub-word line way of 9 banks in which a dispersed 9-tile mapping shaped data storing method and a partial activation for the method are possible, the frame buffer structure requiring a low power consumption, and a frame buffer being integrated with a logic to properly correspond to an application region to process an MPEG image signal. A method for storing a compressed MPEG image in the frame buffer, comprises: a first step of dividing an image frame into 8×8 pixels regions; a second step of re-designating the respective divided pixel regions into 9 adjacent blocks regions having a form of 3×3; a third step of mapping the 8×8 pixel regions consisting of the 9 adjacent blocks regions having the form of 3×3 into one column; and a fourth step of dispersion-storing the mapped 9 blocks regions of 8×8 pixel regions in different banks.
    • 公开了一种帧缓冲结构,其具有9个子区的子字线方式,其中分散的9瓦片映射形状数据存储方法和该方法的部分激活是可能的,需要低功耗的帧缓冲结构,以及 帧缓冲器与逻辑集成以适当地对应于应用区域以处理MPEG图像信号。 一种用于将压缩的MPEG图像存储在帧缓冲器中的方法,包括:将图像帧划分为8×8个像素区域的第一步骤; 将各个划分的像素区域重新指定为具有3×3形式的9个相邻块区域的第二步骤; 将由具有3×3形式的9个相邻块区域组成的8×8像素区域映射到一列中的第三步骤; 以及在不同的存储体中分散存储8×8像素区域的映射的9个块区域的第四步骤。