会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Voice coding-and-transmission system with silent period elimination
    • 语音编码和传输系统,无声期消除
    • US5873058A
    • 1999-02-16
    • US824520
    • 1997-03-26
    • Hisashi YajimaNoriaki KawanoYushi NaitoShigeaki Suzuki
    • Hisashi YajimaNoriaki KawanoYushi NaitoShigeaki Suzuki
    • G10L19/04G10L20060101G10L15/00G10L19/00G10L19/12G10L19/14H03M3/04H03M7/30H04B1/66H04J3/17H04L12/28H04Q3/00G10L3/00
    • G10L19/173
    • In a voice coding-and-transmission system using a differential coding, a degradation of voice quality caused by a silent period transmission network and an ATM network is prevented without improving a silent-period elimination transmission network and existing transmission networks such as a STM network. In a relay node 104, an encoder 114 codes a voice signal from a decoder 108 again for a transient period immediately after a voice is started, and a transmission node 100 and a reception node 102 are tandem-connected. The encoder 114 and a decoder 122 at a reception node 102 are given respectively same reference values of a differential processing by memories 118, 128 when the voice is started, thereby preventing an abnormal sound generation due to a mismatch of inner statuses thereof when the voice is started. During the transient period, the internal statuses of an encoder 106 at a reception node 100 and the decoder 122 are closed each other. After the transient period is elapsed, switching a switch in a silent-period eliminator 112 to a digital-one-link, thereby preventing the degradation of the voice quality caused by quantization errors.
    • 在使用差分编码的语音编码 - 传输系统中,防止由无声期传输网络和ATM网络引起的语音质量的恶化,而不改进无声期消除传输网络和诸如STM网络的现有传输网络 。 在中继节点104中,编码器114在语音开始之后立即再次对来自解码器108的语音信号进行编码,并且发送节点100和接收节点102串联连接。 接收节点102处的编码器114和解码器122在语音开始时由存储器118,128分别给出与差分处理相同的参考值,从而防止当声音的内部状态不匹配时产生异常声音 开始了 在过渡期间,编码器106在接收节点100和解码器122的内部状态彼此关闭。 在经过了暂时期之后,将无声期消除器112中的开关切换到数字一链路,从而防止由量化误差引起的语音质量的劣化。
    • 4. 发明授权
    • Signal discrimination circuit for determining the type of signal
transmitted via a telephone network
    • 用于确定通过电话网络发送的信号类型的信号鉴别电路
    • US5694517A
    • 1997-12-02
    • US481056
    • 1995-06-07
    • Yukimasa SuginoYushi Naito
    • Yukimasa SuginoYushi Naito
    • G10L15/10G10L11/02G10L15/00G10L19/00H04M11/06G10L9/12
    • G10L25/78G10L25/27
    • A signal discrimination circuit for discriminating between a voice signal and a voiceband data signal that is transmitted over a telephone network. The signal discrimination circuit includes an electric power judgement unit, a zero-crossing number judgement unit, a sub-band power calculation unit, a tone detection unit, and a discriminated result output unit. The electric power judgement unit determines whether an input signal is a voice signal or a voiceband data signal based on an interblock electric power ratio of the input signal. The zero-crossing number judgement unit determines whether the input signal is a voice signal or a voiceband data signal based on a zero-crossing number of the input signal. The sub-band power calculation unit analyzes the input signal with a spectrum analyzer to generate a spectrum analyzed result and calculates sub-band powers using the spectrum analyzed result, and the tone detection unit determines a presence and absence of a tone signal based on the sub-band powers calculated by the sub-band power calculation unit. Based on determined results of the electric power judgement unit, the zero-crossing number judgement unit, and the tone detection unit, the discriminated result output unit determines whether the input signal is a voice signal or a voiceband data signal and outputs a judged result.
    • 一种信号鉴别电路,用于鉴别通过电话网络发送的语音信号和语音频带数据信号。 信号鉴别电路包括电力判断单元,过零数判断单元,子带功率计算单元,音调检测单元和鉴别结果输出单元。 电力判断单元基于输入信号的块间电力比来确定输入信号是语音信号还是语音带数据信号。 过零数判断单元基于输入信号的过零数来确定输入信号是语音信号还是语音带数据信号。 子带功率计算单元利用频谱分析器对输入信号进行分析,生成频谱分析结果,并使用频谱分析结果计算子频带功率,并且基于该频带分析结果,音调检测单元确定是否存在音调信号 由子带功率计算单元计算的子带功率。 基于电力判断单元,过零次数判断单元和音调检测单元的确定结果,判别结果输出单元确定输入信号是语音信号还是语音带数据信号,并输出判断结果。
    • 6. 发明授权
    • Digital noise generator
    • 数字噪声发生器
    • US5121349A
    • 1992-06-09
    • US558069
    • 1990-07-25
    • Yushi Naito
    • Yushi Naito
    • H03K3/84H04B14/04H04J3/17
    • H03K3/84
    • A digital noise generator for transmitting white noise during a period when a digital telephone speech signal is absent. The digital noise generator includes a pseudo-random bit sequence generator, an amplitude control circuit, and a PCM code-word-generating shift register. A pseudo-random bit sequence is generated by the pseudo-random bit sequence generator, an amplitude code-word is generated by the amplitude control circuit, and pseudo-random noise signal is generated and outputted by the PCM code-word-generating shift register on the basis of the pseudo-random bit sequence and the amplitude code-word.
    • 一种用于在数字电话语音信号不存在的时段期间发送白噪声的数字噪声发生器。 数字噪声发生器包括伪随机比特序列发生器,幅度控制电路和PCM码字生成移位寄存器。 伪随机比特序列由伪随机比特序列生成器产生,幅度码字由幅度控制电路产生,伪随机噪声信号由PCM码字产生移位寄存器产生并输出 基于伪随机比特序列和幅度码字。
    • 7. 发明授权
    • Signalling transmission system
    • 信令传输系统
    • US4972411A
    • 1990-11-20
    • US343400
    • 1989-04-25
    • Wataru FushimiNoriaki KawanoYushi Naito
    • Wataru FushimiNoriaki KawanoYushi Naito
    • H04J3/12
    • H04J3/12
    • A signalling transmission system is disclosed which consists of a transmitting module including a signalling variation detecting unit and a signalling synthesization unit, and a receiving module including a signalling flag detecting unit and a signalling separation unit. The signalling synthesization unit makes composition signals by inserting signalling signals into voice signals together with a flag when signalling variations are detected by the variation detecting unit. A flag detecting unit detects a flag contained in the composition signals received by the receiving module and instructs the separating unit to separate the signalling signals from the voice signals contained the composition signals when the flag shows that the composition signals include the signalling signals. The signalling signals and the voice signals are therefore output from the receiving module.
    • 公开了一种由包括信令变化检测单元和信令合成单元的发送模块组成的信令传输系统,以及包括信令标志检测单元和信令分离单元的接收模块。 当由变化检测单元检测到信令变化时,信令合成单元通过将信令信号与标志一起插入语音信号来产生合成信号。 标志检测单元检测由接收模块接收到的合成信号中包含的标志,并且当标志表示合成信号包括信令信号时,指示分离单元从包含合成信号的语音信号中分离信令信号。 因此,信令信号和语音信号从接收模块输出。
    • 8. 发明授权
    • Tandem relay device
    • 串联继电器
    • US06172978B2
    • 2001-01-09
    • US08982505
    • 1997-12-02
    • Wataru FushimiYoshihiko ShirokuraYukimasa SuginoHideaki EbisawaYushi Naito
    • Wataru FushimiYoshihiko ShirokuraYukimasa SuginoHideaki EbisawaYushi Naito
    • H04L1266
    • H04L12/64H04J2203/005H04J2203/0087H04L2012/5616H04L2012/5671H04Q11/0478
    • In establishing an audio one link connection wherein an audio signal is not encoded/decoded in a relay station, loud noises may be produced if the states of two audio tandem relay devices which make a pair during relay are changed from a normal connection state to a relay connection state at different times. In order to solve this problem, comfort noise generators are provided. In detail, when a first pattern signal is detected while a relay call is connected via a relay exchange, switches are switched to be connected at a contact point 1, and a switch is at a contact point 2. Upon detection of a second pattern signal, the switches are connected at the contact points 2, while the switches are connected at the contact points 2. With this arrangement, outputs from the comfort noise generators are selected and outputted during a period from first pattern signal detection to second pattern signal detection, during which the states of the two devices of a pair are different. As a result, occurrence of loud noises is prevented.
    • 在建立音频信号在中继站中不进行编码/解码的音频一链路连接的情况下,如果在中继期间使一对成对的两个音频串联中继装置的状态从正常连接状态改变为 不同时间的中继连接状态。 为了解决这个问题,提供舒适噪音发生器。 详细地说,当通过中继交换机连接中继呼叫时检测到第一模式信号时,开关被切换为在接触点1处连接,并且开关处于接触点2.在检测到第二模式信号 开关连接在接触点2上,同时开关连接在接点2处。由此,在从第一模式信号检测到第二模式信号检测的期间,选择并输出来自舒适噪声发生器的输出, 在此期间,一对的两个装置的状态不同。 结果,防止发出大的噪音。
    • 9. 发明授权
    • Plesiochronous matching apparatus
    • 同步匹配装置
    • US4821227A
    • 1989-04-11
    • US767192
    • 1985-08-19
    • Yushi Naito
    • Yushi Naito
    • H04J3/00H04J3/06H04L1/22H04L7/00G06F13/00G06F11/20
    • H04L1/22H04J3/0629
    • A plesiochronous matching apparatus has a redundant system including two equipments of the same structure, that is, an on-line equipment (the reference character thereof being accompanied by "a") and a non on-line equipment (the reference character thereof being accompanied by "b"). When the on-line equipment (a) operates normally, the non on-line equipment (b) is made to synchronize with the on-line equipment (a), so that the non on-line equipment (b) is brought into a standby state. Immediately after that, the synchronization connection is dissolved and the non-on-line equipment operates independently of the on-line equipment. The above stated synchronization connection and the dissolution thereof are performed by a synchronization control circuit (57).
    • 同步匹配装置具有冗余系统,其包括具有相同结构的两台设备,即在线设备(其附图标记为“a”)和非在线设备(其参考字符伴随着 由“b”)。 在线设备(a)正常工作时,非在线设备(b)与在线设备(a)同步,使非在线设备(b)进入 待机状态。 紧接着,同步连接被解散,非在线设备独立于在线设备运行。 上述同步连接及其溶解由同步控制电路(57)进行。