On the Injection-Level Optimization for Digital Television Transmitter Identification Systems Using Kasami Sequences | IEEE Conference Publication | IEEE Xplore

On the Injection-Level Optimization for Digital Television Transmitter Identification Systems Using Kasami Sequences


Abstract:

The transmitter identification of digital television (DTV) systems becomes crucial nowadays. Transmitter identification (TxID, or transmitter fingerprinting) technique is...Show More

Abstract:

The transmitter identification of digital television (DTV) systems becomes crucial nowadays. Transmitter identification (TxID, or transmitter fingerprinting) technique is used to detect, diagnose and classify the operating status of any radio transmitter of interest. The TxID system is specified in Advanced Television System Committee (ATSC) A/110 standard where pseudo random sequences are proposed to be embedded into the DTV signals before transmission. Thus, the transmitter identification can be realized by invoking the cross-correlation functions between the received signal and the possible candidates of the pseudo random sequences. The buried ratio or injection level of injected Kasami sequences in DTV-TxID systems will both affect the identification correctness and the DTV reception quality. In this paper, we investigate the important unsolved optimization problem for injection level. We present the new analysis here for the realistic scenario consisting of multiple transmitters and receivers over the additive white Gaussian noise channel. The signal-to-interference-plus-noise ratios for the TxID signal detection and the subject TV signal reception are both considered as two essential measures for single-frequency networks. Besides, we design a novel efficient injection-level optimization scheme for TxID simply based on the given information including the signal-to-noise ratio at the receiver and the locations of the transmitters and the receiver(s). Finally, several examples are also demonstrated for the TxID injection-level optimization in this paper.
Date of Conference: 05-09 June 2011
Date Added to IEEE Xplore: 28 July 2011
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Conference Location: Kyoto, Japan

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