Injection-level optimisation for digital television transmitter identification systems using Kasami sequences

X. Feng; H.-C. Wu

Injection-level optimisation for digital television transmitter identification systems using Kasami sequences

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Injection-level optimisation for digital television transmitter identification systems using Kasami sequences

Author(s): X. Feng and H.-C. Wu
DOI: 10.1049/iet-com.2010.0742

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Author(s): X. Feng ¹ and H.-C. Wu ¹
- Affiliations: 1: Department of Electrical and Computer Engineering, Louisiana State University, Baton Rouge, USA
Source: Volume 5, Issue 16, 4 November 2011, p. 2397 – 2406
DOI: 10.1049/iet-com.2010.0742 , Print ISSN 1751-8628, Online ISSN 1751-8636

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The transmitter identification (TxID) of digital television (DTV) systems becomes crucial nowadays. 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 pseudorandom sequences are proposed to be embedded into the DTV signals before transmission. 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 study, the authors investigate the important unsolved optimisation problem for injection level. The authors 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, the authors design a novel efficient injection-level optimisation 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).

References

1. 1)
  - L. Zhou , B. Geller , X. Wang , A. Wei , B. Zheng , H.-C. Chao . Multi-user video streaming over multiple heterogeneous wireless networks: a distributed, cross-layer design paradigm. J. Internet Technol. , 1 , 1 - 12
2. 2)
  - W. Chen , C.-H. Lo , H.-C. Chao , C.C. Chang . Gabor filter aided 3D ultrasonography diagnosis system with WLAN transmission consideration. J. Univers. Comput. Sci. , 10 , 1327 - 1342
3. 3)
  - ATSC: ‘ATSC Standard A/111: design of synchronized multiple transmitter networks’, September 2009.
4. 4)
  - J.G. Proakis . (1995) Digital communications.
5. 5)
  - S.I. Park , J.-Y. Lee , H.M. Kim , W. Oh . Transmitter identification signal analyzer for single frequency network. IEEE Trans. Broadcast. , 3 , 383 - 393
6. 6)
  - Feng, X., Wu, H.-C., Wu, Y.: `Geometric capacity studies for DTV transmitter identification using Kasami sequences', Proc. of IEEE Int. Symp. on Broadband Multimedia Systems and Broadcasting (BMSB), March 2010.
7. 7)
  - F. Lehmann , A. Kazem , G. Salut . Blind turbo-detection in the presence of phase noise. IET Commun. , 1343 - 1353
8. 8)
  - A. Mattsson . Single frequency networks in DTV. IEEE Trans. Broadcast. , 4 , 413 - 422
9. 9)
  - W.-M. Chen , C.-J. Lai , H.-C. Wang , H.-C. Chao , C.-H. Lo . H.264 video watermarking with secret image sharing. IET Image Process. , 4 , 349 - 354
10. 10)
  - I. Mahafeno , Y. Louet , J.-F. Helard . Peak-to-average power ratio reduction using second order cone programming based tone reservation for terrestrial digital video broadcasting systems. IET Commun. , 1250 - 1261
11. 11)
  - ATSC: ‘ATSC Standard A/110:synchronization standard for distributed transmission’, December 2007.
12. 12)
  - Liu, B., Wu, Y., Rong, B.: `Transmitter identification of ATSC DTV under mobile environment', Proc. IEEE Int. Symp. on Broadband Multimedia Systems and Broadcasting (BMSB), March 2010, p. 1–6.
13. 13)
  - A.L. Peressini , F.E. Sullivan , J.J. Uhl . (1991) The mathematics of nonlinear programming.
14. 14)
  - X. Wang , Y. Wu , B. Caron . Transmitter identification using embedded pseudo random sequences. IEEE Trans. Broadcast. , 3 , 244 - 252
15. 15)
  - C.-Y. Chen , H.-C. Chao , S.-Y. Kuo , K.-D. Chang . Rule-based intrusion detection mechanism for IP multimedia subsystem. J. Internet Technol. , 5 , 329 - 336
16. 16)
  - Kasami, T.: `Weight distribution formula for some class of cyclic codes', Technology report, 1966.
17. 17)
  - O. Bendov . Areas of cochannel interference and multi-path created by 8-VSB modulated distributed transmitters in flat terrain. IEEE Trans. Broadcast. , 1 , 31 - 37

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Injection-level optimisation for digital television transmitter identification systems using Kasami sequences

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