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    • 2. 发明授权
    • Differential encoding arrangement for a discrete multi-tone transmission system
    • 用于离散多音调传输系统的差分编码装置
    • US06434188B1
    • 2002-08-13
    • US09286989
    • 1999-04-07
    • Chien-Meen HwangHungming ChangMaged F. BarsoumMuoi V. HuynhEugen GershonFred BerkowitzBin Guo
    • Chien-Meen HwangHungming ChangMaged F. BarsoumMuoi V. HuynhEugen GershonFred BerkowitzBin Guo
    • H04B138
    • H04L27/2602
    • A random-access local network having multiple nodes provides data communication across residential wiring such as telephone line as a network medium, where each node accesses the network medium using discrete multi-tone (DMT) modulated symbols. The effects of amplitude and phase distortion of transmitted DMT symbols are overcome, without the necessity of complex equalizers, by differentially encoding data prior to transmission, and recovering the transmitted data by comparing phase differentials between consecutive symbol tones. Each transmitted symbol is composed of a plurality of tone signals, each tone signal modulated according to a constellation point in a complex domain. A transmitter modulates data, such as a bit-pair, to a new constellation point based on the value of the bit-pair and a prior position of a consecutively-preceding constellation point, such that the data is represented by the difference in positions between the consecutively-preceding constellation point and the new constellation point. The constellation points are then used to modulate a selected one of the tone signals. Although a receiver detecting the modulated tone signal may recover the transmitted constellation points at different absolute positions due to distortion on he network medium, the relative difference between the consecutively-preceding constellation point and the new constellation point is preserved, enabling the receiver to recover the transmitted data based on the relative difference in positions of the consecutive constellation points. Hence, entire bit stream can reliably transmitted using position changes between consecutive constellation points.
    • 具有多个节点的随机接入本地网络提供诸如作为网络媒体的电话线等住宅布线之间的数据通信,其中每个节点使用离散多音(DMT)调制符号来访问网络介质。 通过在传输之前对数据进行差分编码,并且通过比较连续符号音之间的相位差来恢复发送的数据,克服了传输的DMT符号的幅度和相位失真的影响,而不需要复数均衡器。 每个发送的符号由多个音调信号组成,每个音调信号根据复杂域中的星座点进行调制。 发射机基于比特对的值和连续前面的星座点的先前位置,将诸如比特对的数据调制到新的星座点,使得数据由 连续前面的星座点和新的星座点。 然后使用星座点来调制所选择的一个音调信号。 虽然检测调制音信号的接收机可以由于网络介质上的失真而恢复在不同绝对位置处的发射星座点,但保持连续前面的星座点与新星座点之间的相对差异,使得接收机能够恢复 基于连续星座点的位置的相对差异发送数据。 因此,使用连续星座点之间的位置变化可以可靠地发送整个比特流。
    • 3. 发明授权
    • Timing recovery scheme for a discrete multitone transmission system
    • 离散多音频传输系统的定时恢复方案
    • US06442173B1
    • 2002-08-27
    • US09286995
    • 1999-04-07
    • Maged F. BarsoumChien-Meen HwangEugen GershonFred BerkowitzMuoi V. Huynh
    • Maged F. BarsoumChien-Meen HwangEugen GershonFred BerkowitzMuoi V. Huynh
    • H04J324
    • H04L5/023H04L27/2607H04L27/2613
    • A random access data network in accord with the invention will utilize discrete multi-tone (DMT) transmission over a link within a home or other premises, such as over existing in-house telephone wiring. Discrete multi-tone communication in a random access implementation raises a number of timing issues. To address these issues, all packet transmissions through the network will begin with one or more cycles of a defined periodic signal, typically a sinusoid at a specified frequency. All timing of decoding of subsequent signals, such as ID signals and DMT symbols, is based on counting signal sampling intervals following the detected timing mark. The preferred embodiment utilizes differential modulation of the tones within the DMT symbol. Each packet may include a reference symbol to enable demodulation of the first DMT data symbol. Also, the preferred embodiment of the DMT symbol includes a prefix code followed by the actual DMT waveform carrying the modulated information. The prefix code corresponds to a fixed number of samples of time-domain data, such as a copy of the last thirty-two samples used to generate the actual DMT waveform.
    • 根据本发明的随机接入数据网络将利用家庭或其他场所内的链路上的离散多音(DMT)传输,例如通过现有的内部电话线路。 随机访问实现中的离散多音通信引发了许多定时问题。 为了解决这些问题,通过网络的所有分组传输将以定义的周期信号的一个或多个周期开始,通常是指定频率的正弦波。 后续信号(例如ID信号和DMT符号)的所有解码定时都是基于检测到的定时标记之后的计数信号采样间隔。 优选实施例利用DMT符号内的音调的差分调制。 每个分组可以包括用于使得能够解调第一DMT数据符号的参考符号。 此外,DMT符号的优选实施例包括一个前缀码,后面是携带调制信息的实际DMT波形。 前缀码对应于固定数量的时域数据采样,例如用于生成实际DMT波形的最后三十二个采样的副本。
    • 4. 发明授权
    • Collision handling scheme for discrete multi-tone data communications network
    • 离散多音频数据通信网络的碰撞处理方案
    • US06339599B1
    • 2002-01-15
    • US09286987
    • 1999-04-07
    • Chien-Meen HwangHungming ChangMaged F. BarsoumMuoi V. HuynhEugen GershonFred Berkowitz
    • Chien-Meen HwangHungming ChangMaged F. BarsoumMuoi V. HuynhEugen GershonFred Berkowitz
    • H04J324
    • H04L27/2626H04L27/2071H04L27/2647H04M11/062
    • A novel collision detecting method at the physical layer is provided for use in a multi-point DMT communication system. A time mark transmitted at the beginning of a portion of a random access data communication is followed by an ID signal for identifying the communication station. The ID signal produced based on the time mark may be transmitted between the time mark and a data portion of the random access data communication. The time mark distorted by a communication channel is received by a receiver of the station that transmitted it. An additional ID signal representing the same ID data as the ID signal is produced based on the received time mark. The additional ID signal is compared with the ID signal received from the communication channel. A collision event is detected if the incoming ID signal does not match the additional ID signal. In response to the detection of the collision event, the transmission of the data portion is terminated.
    • 提供了一种用于物理层的新型碰撞检测方法,用于多点DMT通信系统。 在随机访问数据通信的一部分的开始处发送的时间标记之后是用于识别通信站的ID信号。 可以在时间标记与随机访问数据通信的数据部分之间发送基于时间标记产生的ID信号。 由通信信道失真的时间标记由发送它的站的接收机接收。 基于接收到的时间标记产生表示与ID信号相同的ID数据的附加ID信号。 将附加ID信号与从通信信道接收的ID信号进行比较。 如果进入的ID信号与附加的ID信号不匹配,则检测到碰撞事件。 响应于碰撞事件的检测,数据部分的传输被终止。
    • 5. 发明授权
    • Method and apparatus for detecting a sinusoidal signal using a counter and queue
    • 使用计数器和队列检测正弦信号的方法和装置
    • US06246267B1
    • 2001-06-12
    • US09286998
    • 1999-04-07
    • Maged F. BarsoumHungming ChangEugen GershonChien-Meen HwangMuoi V. Huynh
    • Maged F. BarsoumHungming ChangEugen GershonChien-Meen HwangMuoi V. Huynh
    • G01R2500
    • G01R19/25
    • A method and apparatus for detecting a sinusoidal signal samples a received signal. An error signal generator receives at its inputs a previous sample of the received signal and a current sample of the received signal and generates an error signal based on these previous and current samples. A comparison circuit compares the generated error signal for the current sample to an error threshold value and generates a threshold comparison signal with a first value that indicates the generated error signal is below the error threshold value for a second value that indicates a generated error signal is above the error threshold value. A determination circuit then determines whether the received signal is a sinusoidal signal based on a threshold comparison signal generated for a plurality of samples. The determination circuit includes a counter that maintains a count of the number of threshold comparison signals having the first value within a sampling period.
    • 用于检测正弦信号的接收信号的采样方法和装置。 误差信号发生器在其输入端接收接收信号的先前采样和接收信号的当前采样,并根据这些先前和当前采样产生误差信号。 比较电路将当前采样的所产生的误差信号与误差阈值进行比较,并产生具有第一值的阈值比较信号,该第一值指示所产生的误差信号低于第二值的误差阈值,该第二值指示所产生的误差信号为 高于误差阈值。 然后,确定电路基于为多个样本生成的阈值比较信号来确定接收到的信号是否是正弦信号。 确定电路包括计数器,其维持在采样周期内具有第一值的阈值比较信号的数量的计数。
    • 9. 发明授权
    • Collision detection system for multiple stations in discrete multi-tone
data communications network
    • 用于离散多音数据通信网络中多站的碰撞检测系统
    • US6075795A
    • 2000-06-13
    • US286994
    • 1999-04-07
    • Maged F. BarsoumChien-Meen HwangHungming ChangMuoi V. HuynhEugen Gershon
    • Maged F. BarsoumChien-Meen HwangHungming ChangMuoi V. HuynhEugen Gershon
    • H04J3/24
    • H04L12/413H04W74/0825H04L27/2626H04L5/0046H04L5/006H04L5/0091
    • A novel collision detecting method is provided at the physical layer for use in a multi-point DMT communication network having stations transmitting over common media. The method includes generating a collision code corresponding to ID information of a station. A collision symbol representing the collision code is transmitted at the beginning of a portion of a random access data communication. A station in the network receives the collision symbol and decodes a collision signal carried by the collision symbol. A collision event is detected if the collision signal does not satisfy pre-set requirements. For example, energy of each component of the collision signal may be compared with a predetermined minimum energy level to generate a code element for each component having energy exceeding the predetermined minimum energy level. Validity of the code having the generated code elements is determined based on a predetermined validity criterion. Also, the distance in frequency domain between components of the collision signal corresponding to the generated code elements is compared with a predetermined minimum distance in frequency domain, to confirm validity of the detected code.
    • 在物理层提供了一种新颖的冲突检测方法,用于具有通过公共媒体传送的站点的多点DMT通信网络。 该方法包括生成与站的ID信息对应的冲突码。 在随机访问数据通信的一部分的开始处发送表示冲突码的冲突符号。 网络中的站接收冲突符号并解码由碰撞符号携带的冲突信号。 如果碰撞信号不满足预先设定的要求,则检测到碰撞事件。 例如,可以将冲突信号的每个分量的能量与预定的最小能级进行比较,以产生具有超过预定最小能级的能量的每个分量的代码元素。 基于预定的有效性标准确定具有生成的代码元素的代码的有效性。 此外,将与生成的代码元素相对应的冲突信号的分量之间的频域的距离与频域中的预定最小距离进行比较,以确认检测到的代码的有效性。