Die Verteilung der Fernsehsignale


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  1. [8.1]
    Advanced Television Systems Committee: ATSC Digital Television Standard, Doc. A/53B, Aug. 2001Google Scholar
  2. [8.2]
    ANSI/SCTE 07: Digital Video Transmission Standard for Cable Television (ehemals SCTE DVS 031)Google Scholar
  3. [8.3]
    ARIB STD-B31: Transmission System for digital terrestrial television broadcastingGoogle Scholar
  4. [8.4]
    Burr, A.: Modulation and coding for wireless communications. Prentice Hall, 2001Google Scholar
  5. [8.5]
    Carson, J. R.: Notes on the theory of modulation. Proc. IRE 10 (1922), 57Google Scholar
  6. [8.6]
    CCSDS: Recommendation for space data system standards — Telemetry Channel Coding. Blue Book, 101.0-B, Ausgabe 1 1984, Ausgabe 5 2001Google Scholar
  7. [8.7]
    CEPT/ERC Rec. 14-01 E: Radio-frequency channel arrangements for high capacity analogue and digital radio-relay systems operating in the band 5925 MHz–6425 MHzGoogle Scholar
  8. [8.8]
    Chang, R. W.: Synthesis of band-limited orthogonal signals for multichannel data transmission. Bell System Techn. J., 45 (1966), 1775–1796Google Scholar
  9. [8.9]
    Clarke, A. C: Extra-terrestrial relays. Wireless World, 51 (1945), 305–308Google Scholar
  10. [8.10]
    Cooley, J. W.; Tukey, J. W.: An algorithm for the machine calculation of complex Fourier series. Math. Comput. 19 (1965), 297–301MathSciNetCrossRefGoogle Scholar
  11. [8.11]
    ETSI EN 300421: Digital Video Broadcasting (DVB); Framing structure, channel coding and modulation for 11/12 GHz satellite servicesGoogle Scholar
  12. [8.12]
    ETSI EN 300429: Digital Video Broadcasting (DVB); Framing structure, channel coding and modulation for cable systemsGoogle Scholar
  13. [8.13]
    ETSI EN 300744: Digital Video Broadcasting (DVB); Framing structure, channel coding and modulation for digital terrestrial televisionGoogle Scholar
  14. [8.14]
    ETSI ETS 300174 mit Amendment A1: Network Aspects (NA); Digital coding of component television signals for contribution quality applications in the range 34–45 Mbit/sGoogle Scholar
  15. [8.15]
    ETSI ETS 300814: Digital Video Broadcasting (DVB); DVB interfaces to Synchronous Digital Hierarchy (SDH) networksGoogle Scholar
  16. [8.16]
    ETSI TS 101812: Digital Video Broadcasting (DVB); Multimedia Home Platform (MHP) Specification 1.0.3Google Scholar
  17. [8.17]
    Feldmann, M.; Hénaff, J.: Surface acoustic waves for signal processing. Artech House, 1989Google Scholar
  18. [8.18]
    Gray, F.: Pulse Code Communication. U. S. Pat. 2632058, 17.3.1953Google Scholar
  19. [8.19]
    Hamming, R. W.: Error detecting and correcting codes. Bell System Techn. J. 29 (1950), 147–160MathSciNetGoogle Scholar
  20. [8.20]
    ITU-R Rec. BO.1408-1: Transmission system for advanced multimedia services provided by integrated services digital broadcasting in a broadcasting-satellite channelGoogle Scholar
  21. [8.21]
    ITU-R Rec. BO. 1516: Digital multiprogramme television systems for use by satellites operating in the 11/12 GHz frequency rangeGoogle Scholar
  22. [8.22]
    ITU-R Rec. BT.1306-1: Error-correction, data framing, modulation and emission methods for digital terrestrial television broadcastingGoogle Scholar
  23. [8.23]
    ITU-T Rec. G.707: Network node interface for the synchronous digital hierarchy. ETSI ETS 300147: Transmission and Multiplexing (TM); Synchronous digital hierarchy (SDH); Multiplexing structureGoogle Scholar
  24. [8.24]
    ITU-T Rec. J.132: Transport of MPEG-2 signals in SDH networksGoogle Scholar
  25. [8.25]
    ITU-T Rec. J.80: Transmission of component-coded digital television signals for contribution-quality applications at bit rates near 140 Mbit/sGoogle Scholar
  26. [8.26]
    ITU-T Rec. J.83: Digital multi-programme systems for television, sound and data services for cable distributionGoogle Scholar
  27. [8.27]
    Kiefer, R.: Digitale Übertragung in SDH-und PDH-Netzen. expert-Verlag, Renningen 2001.]Google Scholar
  28. [8.28]
    Lee, L. H. C: Convolutional coding: fundamentals an applications. Artech House, Norwood 1997Google Scholar
  29. [8.29]
    Lüke, H. D.: Signalübertragung. 7. Aufl., Springer, Berlin 1999Google Scholar
  30. [8.30]
    Mange, D.: Analysis and synthesis of logic systems. Artech House, Norwood 1986Google Scholar
  31. [8.31]
    Nyquist, H.: Certain topics in telegraph transmission theory. Trans. AIEE 47 (1928), 617–644Google Scholar
  32. [8.32]
    Papoulis, A.; Pillai, S. U.: Probability, Random Variables, and Stochastic Processes. 4th ed., McGraw-Hill, New York 2002Google Scholar
  33. [8.33]
    Philips Semiconductors: Data Sheet TDA10045H, DVB-T channel receiver, Nov. 2001Google Scholar
  34. [8.34]
    Proakis, J. G.: Digital communications. 4th ed., McGraw-Hill, 2001, p. 204 fGoogle Scholar
  35. [8.35]
    Rec. ITU-R BS.707: Transmission of multisound in terrestrial television systems PAL B, D1, G, H and I, and SECAM D, K, K1 and LGoogle Scholar
  36. [8.36]
    Rec. ITU-R BT.655-6: Radio-frequency protection ratios for AM vestigial sideband terrestrial television systems interfered with by unwanted analogue vision signals and their associated sound signalsGoogle Scholar
  37. [8.37]
    Rec. ITU-R P.372: Radio NoiseGoogle Scholar
  38. [8.38]
    Reed, I. S.; Solomon, G.: Polynomial codes over certain finite fields. J. SIAM 8 (1960), 300–304MathSciNetGoogle Scholar
  39. [8.39]
    Rice, S. O.: Noise in FM receivers. Proc. Symp. Time Series Analysis (M. Rosenblatt, Editor), Kap. 25, J. Wiley, New York 1963Google Scholar
  40. [8.40]
    Ruppel, C. C. W. et al.: SAW devices for consumer communication applications. IEEE Trans. UFFC 40 (1993), 438–453Google Scholar
  41. [8.41]
    Singleton, R. C: Maximum distance q-nary codes. IEEE Trans. Inform. Theory, IT-10 (1964), 116–118MathSciNetCrossRefGoogle Scholar
  42. [8.42]
    Sposetti, S.; Tilgner, B.: Die ASTRA-Satellitenfamilie. Sterne und Weltraum, 6/1998, 574–575Google Scholar
  43. [8.43]
    Sweeney, P.: Error control coding — from theory to practice. John Wiley, 2002Google Scholar
  44. [8.44]
    Ungerboeck, G.: Channel coding with multilevel/phase signals. IEEE Trans. Inform. Theory, IT-28 (1982), 52–55Google Scholar
  45. [8.45]
    Vigants, A.: Microwave radio obstruction fading. Bell System Techn. J. 60 (1981) 785–801Google Scholar
  46. [8.46]
    Viterbi, A. J.: Error bounds for convolutional codes and an asymptotically optimum decoding algorithm. IEEE Trans. Inform. Theory, IT-13 (1967), 260–269CrossRefGoogle Scholar
  47. [8.47]
    Weinstein, S. B.; Ebert, P. M.: Data transmission by frequency-division multiplexing using the discrete Fourier transform. IEEE Trans. Com. Techn. COM-19 (1971), 628–634CrossRefGoogle Scholar
  48. [8.48]
    Wicker, S. B.; Bhargava, V. K. (eds.): Reed-Solomon codes and their applications. IEEE Press, New York 1994Google Scholar

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