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    • 2. 发明申请
    • DISAGGREGATION APPARATUS
    • DISAGEGEGATION APPARATUS
    • WO2012101552A2
    • 2012-08-02
    • PCT/IB2012050257
    • 2012-01-19
    • KONINKL PHILIPS ELECTRONICS NVWANG YINGFILIPPI ALESSIORIETMAN RONALD
    • WANG YINGFILIPPI ALESSIORIETMAN RONALD
    • G01D4/004G01R19/2513Y02B90/242Y04S20/322Y04S20/38
    • The invention relates to a disaggregation apparatus for determining electrical statuses of electrical consumers (2, 3, 4) in an electrical network (13). An overall electrical parameter, which is measured at least two different times and which is represented by a first number of sampled electrical parameter values, is used for determining a compressed difference overall electrical parameter, which is represented by a second number of sampled electrical parameter values being smaller than the first number. Compressed electrical signatures of the electrical consumers are provided, and the statuses of the electrical consumers are determined depending on the compressed difference overall electrical parameter and the compressed electrical signatures. Since compressed parameters and signatures are used for the disaggregation, less data have to be processed and have to be stored, thereby reducing the computational and storing efforts needed for the disaggregation.
    • 本发明涉及一种用于确定电网(13)中的电消耗器(2,3,4)的电状态的分解装置。 用于测量至少两个不同时间并由第一数量的采样电参数值表示的整体电参数用于确定由第二数量的采样电参数值表示的压缩差分总体电参数 小于第一个数字。 提供了电用户的压缩电特征,并根据压缩的差分电气参数和压缩的电气特征确定电用户的状态。 由于压缩参数和签名用于分解,所以必须处理较少的数据并且必须被存储,从而减少分解所需的计算和存储工作。
    • 4. 发明申请
    • DATA TRANSMISSION NETWORK
    • 数据传输网络
    • WO2009066208A2
    • 2009-05-28
    • PCT/IB2008054758
    • 2008-11-13
    • KONINKL PHILIPS ELECTRONICS NVFILIPPI ALESSIOTOLHUIZEN LUDOVICUS M G MRIETMAN RONALD
    • FILIPPI ALESSIOTOLHUIZEN LUDOVICUS M G MRIETMAN RONALD
    • H04L1/06
    • H04L1/0668H04L1/0625
    • The present invention relates to a data transmission network, in particular a single frequency network (SFN), comprising a space-time block code (STBC) encoder for encoding user data of a user data stream into channel symbols of two or more channel data streams for transmission and a plurality of transmitters in a transmission area for transmitting said channel data streams using the same frequency channel for reception by one or more receivers located in said transmission area, wherein the number of transmitters is larger than the number of channel data streams and wherein each channel data stream is transmitted by at least one transmitter. To enable the deployment of STBCs in an SFN and a uniform gain in the coverage area of the SFN the data transmission network further comprises control means for controlling, which channel data stream is transmitted by which transmitter, such that all channel data streams are simultaneously transmitted, that at least two transmitters are transmitting the same channel data stream and that at least one transmitter is changing which channel data stream it transmits.
    • 本发明涉及一种数据传输网络,特别是一种单频网络(SFN),包括用于将用户数据流的用户数据编码成两个或多个信道数据流的信道符号的空时块码(STBC)编码器 用于传输的多个发射机和用于使用相同的频道发射所述信道数据流的多个发射机,用于由位于所述传输区域中的一个或多个接收机接收,其中发射机的数量大于信道数据流的数量, 其中每个信道数据流由至少一个发射机发送。 为了能够在SFN中部署STBC并且在SFN的覆盖区域中具有均匀的增益,数据传输网络还包括控制装置,用于控制哪个信道数据流由哪个发射机发送,使得所有信道数据流被同时传输 至少两个发射机正在发送相同的信道数据流,并且至少一个发射机正在改变其发射哪个信道数据流。
    • 7. 发明申请
    • WATERMARKED BASED PHYSICAL LAYER AUTHENTICATION METHOD OF TRANSMITTERS IN OFD COMMUNICATIONS SYSTEMS
    • OFD通信系统中基于水印的物理层认证方法
    • WO2009109883A3
    • 2009-10-29
    • PCT/IB2009050805
    • 2009-02-27
    • KONINKL PHILIPS ELECTRONICS NVFILIPPI ALESSIO
    • FILIPPI ALESSIO
    • H04L9/32H04L1/06H04L5/00
    • H04L5/0048H04L5/0023H04L5/0053H04L9/3215H04L2209/608H04L2209/80
    • DVB-T2 is the next generation standard for the terrestrial digital broadcast. There is the request of identifying the transmitters in the Single Frequency Networks mainly for testing purposes. This might be achieved by embedding a watermark sequence in the transmitters to identify them uniquely. However, the transmitters can also be deployed in SFN so they have to transmit exactly the same data. Therefore, the watermark has to be added at the radio signal. It connot be added at content level as it happens in other standard as, for instance, in cellular systems. The invention proposes two possible new methods to watermark the transmitter ID in the DVB-T2 signal. In both cases we assign orthogonal pilot sequences to different transmitters. In one case the sequences are added at very low power to ensure no loss in the data rate. This is a very attractive alternative, but it might require a much more expensive receiver. In the second case the sequences are added in a specific set of sub- carriers reserved for this specific use. This requires a better receiver synchronization and it also generates a small loss in data rate, but ensure a very simple and robust way to provide the transmitter identification.
    • DVB-T2是地面数字广播的下一代标准。 主要用于测试目的,要求在单频网络中识别发射机。 这可以通过在发射机中嵌入水印序列来识别它们来实现。 然而,发射机也可以部署在SFN中,因此它们必须传输完全相同的数据。 因此,必须在无线电信号处添加水印。 它包含在其他标准中发生的内容级别,例如在蜂窝系统中。 本发明提出了在DVB-T2信号中对发射机ID进行水印的两种可能的新方法。 在这两种情况下,我们将正交导频序列分配给不同的发射机。 在一种情况下,以非常低的功率添加序列,以确保数据速率没有损失。 这是一个非常有吸引力的选择,但它可能需要一个更昂贵的接收器。 在第二种情况下,将序列添加到为该特定用途保留的特定的一组子载波中。 这需要更好的接收机同步,并且还产生数据速率的小损失,但确保提供发射机识别的非常简单和鲁棒的方式。