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    • 1. 发明授权
    • Methods of efficiently recording and audio signal in semiconductor memory
    • 半导体存储器中有效记录和音频信号的方法
    • US6112171A
    • 2000-08-29
    • US037623
    • 1998-03-10
    • Kazuhiro SugiyamaYukari OnoYoshinobu Ishida
    • Kazuhiro SugiyamaYukari OnoYoshinobu Ishida
    • G11C7/16G10L19/02
    • G11C7/16G11C2207/16
    • An audio signal is recorded in a semiconductor memory in a plurality of hierarchical levels, with the lowest level being adequate for reproduction with a certain reduced degree of fidelity. Successively higher hierarchial levels provide successively greater fidelity when reproduced. When the memory has been determined to have reached maximum capacity, recording continues by overwriting the highest hierarchical level of data currently stored in the memory with lower hierarchical levels of new data. A code is recorded in the memory, indicating the number of hierarchical levels recorded therein, for subsequent reproduction. The audio signal can furthermore be recorded in variable-length frames and reproduced at high speed by reading every N-th frame, N being a positive integer, or by reading only frames having at least a certain minimum length.
    • 音频信号被记录在多个层级的半导体存储器中,其中最低的电平足以以一定的降低的保真度再现。 当再现时,连续更高的层次级别提供连续更高的保真度。 当存储器已经被确定为已经达到最大容量时,通过用新数据的较低层次级别覆盖当前存储在存储器中的数据的最高层级来继续记录。 代码被记录在存储器中,指示其中记录的分层级数,用于随后的再现。 此外,音频信号可以以可变长度的帧记录,并且通过读取每N个帧,N是正整数,或通过仅读取具有至少一定的最小长度的帧,以高速再现。
    • 2. 发明授权
    • Methods of efficiently recording an audio signal in semiconductor memory
    • 在半导体存储器中高效地记录音频信号的方法
    • US5495552A
    • 1996-02-27
    • US45705
    • 1993-04-14
    • Kazuhiro SugiyamaYukari OnoYoshinobu Ishida
    • Kazuhiro SugiyamaYukari OnoYoshinobu Ishida
    • G11C7/16G10L3/02G10L9/00
    • G11C7/16G11C2207/16
    • An audio signal is recorded in a semiconductor memory in a plurality of hierarchical levels, with the lowest level being adequate for reproduction with a certain reduced degree of fidelity. Successively higher hierarchial levels provide successively greater fidelity when reproduced. When the memory has been determined to have reached maximum capacity, recording continues by overwriting the highest hierarchical level of data currently stored in the memory with lower hierarchical levels of new data. A code is recorded in the memory, indicating the number of hierarchical levels recorded therein, for subsequent reproduction. The audio signal can furthermore be recorded in variable-length frames and reproduced at high speed by reading every N-th frame, N being a positive integer, or by reading only frames having at least a certain minimum length.
    • 音频信号被记录在多个层级的半导体存储器中,其中最低的电平足以以一定的降低的保真度再现。 当再现时,连续更高的层次级别提供连续更高的保真度。 当存储器已经被确定为已经达到最大容量时,通过用新数据的较低层次级别覆盖当前存储在存储器中的数据的最高层级来继续记录。 代码被记录在存储器中,指示其中记录的分层级数,用于随后的再现。 此外,音频信号可以以可变长度的帧记录,并且通过读取每N个帧,N是正整数,或通过仅读取具有至少一定的最小长度的帧,以高速再现。
    • 3. 发明授权
    • Methods of efficiently recording and reproducing an audio signal in a
memory using hierarchical encoding
    • 使用分层编码在存储器中有效地记录和再现音频信号的方法
    • US5864801A
    • 1999-01-26
    • US79219
    • 1998-05-15
    • Kazuhiro SugiyamaYukari OnoYoshinobu Ishida
    • Kazuhiro SugiyamaYukari OnoYoshinobu Ishida
    • G11C7/16G10L5/00
    • G11C7/16G11C2207/16
    • An audio signal is recorded in a semiconductor memory in a plurality of hierarchical levels, with the lowest level sufficing for reproduction with a certain reduced degree of fidelity. Successfully higher hierarchical levels provide successively greater fidelity when reproduced. When the memory has been determined to have reached maximum capacity, recording continues by overwriting the highest hierarchical level of data currently stored in the memory with lower hierarchical levels of new data. A code is recorded in the memory, indicating the number of hierarchical levels recorded therein, for subsequent reproduction. The audio signal can furthermore be recorded in variable-length frames and reproduced at high speed by reading every N-th frame, N being a positive integer, or by reading only frames having at least a certain minimum length.
    • 音频信号被记录在多个层次级的半导体存储器中,其中最低的电平足以以一定的降低的保真度再现。 成功获得更高级别的级别在再现时提供连续更高的保真度。 当存储器已经被确定为已经达到最大容量时,通过用新数据的较低层次级别覆盖当前存储在存储器中的数据的最高层级来继续记录。 代码被记录在存储器中,指示其中记录的分层级数,用于随后的再现。 此外,音频信号可以以可变长度的帧记录,并且通过读取每N个帧,N是正整数,或通过仅读取具有至少一定的最小长度的帧,以高速再现。
    • 5. 发明授权
    • Method of efficiently recording an audio signal in semiconductor memory
    • 在半导体存储器中高效地记录音频信号的方法
    • US5752221A
    • 1998-05-12
    • US716566
    • 1996-09-18
    • Kazuhiro SugiyamaYukari OnoYoshinobu Ishida
    • Kazuhiro SugiyamaYukari OnoYoshinobu Ishida
    • G11C7/16G10L3/02G10L9/00
    • G11C7/16G11C2207/16
    • An audio signal is recorded in a semiconductor memory in a plurality of hierarchical levels, with the lowest level sufficing for reproduction with a certain reduced degree of fidelity. Successively higher hierarchical levels provide successively greater fidelity when reproduced. When the memory has been determined to have reached maximum capacity recording continues by overwriting the highest hierarchical level of data currently stored in the memory with lower hierarchical levels of new data. A code is recorded in the memory, indicating the number of hierarchical levels recorded therein, for subsequent reproduction. The audio signal can furthermore be recorded in variable-length frames and reproduced at high speed by reading every N-th frame, N being a positive integer, or by reading only frames having at least a certain minimum length.
    • 音频信号被记录在多个层次级的半导体存储器中,其中最低的电平足以以一定的降低的保真度再现。 随着更高的层次级别在再现时提供连续更高的保真度。 当存储器已经被确定为达到最大容量记录时,通过用新数据的较低分层级覆盖当前存储在存储器中的数据的最高层级来继续。 代码被记录在存储器中,指示其中记录的分层级数,用于随后的再现。 此外,音频信号可以以可变长度的帧记录,并且通过读取每N个帧,N是正整数,或通过仅读取具有至少一定的最小长度的帧,以高速再现。
    • 9. 发明授权
    • Motor-driven vehicle
    • 电动车
    • US06009964A
    • 2000-01-04
    • US976318
    • 1997-11-21
    • Yoshinobu Ishida
    • Yoshinobu Ishida
    • B60L15/20B62D11/04B62D11/00
    • A61G5/045A61G5/048A61G5/1054B62D11/04B60Y2200/84Y02T10/7258
    • Motors drive drive wheels of a motor-driven vehicle. A manual-driving-force sensing unit senses manual driving forces for driving the drive wheels and develops manual-driving-force representative signals. A control unit computes, from the manual-driving-force representative signals, preliminary motor driving signals which, when applied to the respective motors, would make the motors produce mechanical driving forces. The control unit also computes, from the preliminary motor driving signals, compensate motor driving signals to be applied to the respective motors, when the direction of rotation of the motors are the same. Each of the compensated motor driving signals is prepared from the corresponding one of the preliminary motor driving signal with the other of the preliminary motor driving signals taken into account.
    • 电机驱动电动车辆的驱动轮。 手动驱动力感测单元感测用于驱动驱动轮的手动驱动力并且开发手动驱动力代表信号。 控制单元根据手动驱动代表信号计算初步电动机驱动信号,其在施加到各个电动机时将使电动机产生机械驱动力。 当电动机的旋转方向相同时,控制单元还从初步电动机驱动信号中计算出要施加到各个电动机的电动机驱动信号。 补偿的电动机驱动信号中的每一个由预备电动机驱动信号中的相应的一个准备,并且考虑到初步电动机驱动信号中的另一个。