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2.4 Earth coverage and frequency reuse................................................................................. 2.4.1 Earth coverage by a geostationary satellite.................................................................. 2.4.1.1 Elevation angle from the Earth ..................................................................... 2.4.1.2 Types of earth coverages and of satellite antenna beams ............................... 2.4.2 Earth coverage by a non-geostationary satellite........................................................... 2.4.3 Frequency reuse ......................................................................................................... 2.4.3.1 Spatial isolation frequency reuse................................................................... 2.4.3.2 Polarization discrimination frequency reuse.................................................. 2.4.3.3 Common application of both methods of frequency reuse ............................. 2.4.3.4 Application of frequency reuse in non-geostationary satellite systems........... 2.5 Other topics in orbit/spectrum utilization......................................................................... 2.5.1 Introduction................................................................................................................ 2.5.2 Modulation and coding techniques.............................................................................. 2.5.3 Intersystem interference and orbit utilization .............................................................. 2.5.4 On-board signal processing......................................................................................... 2.5.5 Homogeneity between networks ................................................................................. APPENDIX 2.1 Antenna radiation diagrams and polarization ..................................................... AP2.1-1 Radiation diagrams and beamwidths...................................................................... AP2.1-2 Nomogram for antennas with circular aperture ...................................................... AP2.1-2.1 General .................................................................................................... AP2.1-2.2 Typical applications ................................................................................. AP2.1-3 Antenna side lobes ................................................................................................ AP2.1-4 Polarization........................................................................................................... CHAPTER 3 Baseband signal processing and multiplexing.......................................................... 3.1 General............................................................................................................................... 3.2 Baseband signal processing analogue............................................................................. 3.2.1 Voice and audio.......................................................................................................... 3.2.1.1 Channel-by-channel syllabic companding..................................................... 3.2.1.2 Voice carrier activation ................................................................................ 3.2.2 Video and TV............................................................................................................. 3.2.2.1 Composite analogue TV signal ..................................................................... 3.2.2.2 MAC TV signal............................................................................................ 3.2.3 Energy dispersal ......................................................................................................... 3.2.3.1 Introduction.................................................................................................. 3.2.3.2 Energy dispersal for analogue systems.......................................................... 3.3 Baseband signal processing digital ................................................................................. 3.3.1 PCM, ADPCM........................................................................................................... 3.3.1.1 Pulse code modulation (PCM) ...................................................................... 3.3.1.2 Delta modulation (DM) ................................................................................ 3.3.1.3 Differential pulse code modulation (DPCM)................................................. 3.3.1.4 Pulse code modulation and adaptive differential coding at 32 kbit/s (ADPCM) .................................................................................................... 3.3.2 Voice low rate encoding (LRE) [Ref. 3-4] .................................................................. 3.3.3 Data transmission [Ref. 3-1 and 3-2]........................................................................... 81 81 81 85 93 94 95 96 97 98 99 99 99 100 102 102 103 103 106 106 106 109 109 115 115 116 116 116 118 119 119 119 121 121 121 122 122 122 126 126 126 132 133 asp.net upc-a UPC-A . 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The UPC-A Code and the assignment of manufacturer ID numbers is controlled in the ... ASP . NET /Windows Forms/Reporting Services/Compact Framework ... operation. This section describes how a point-to-multipoint LSP is signaled using RSVP-TE and the changes that were made to RSVP-TE to achieve this. It is useful to refer to the Foundation chapter ( 1) and the Traffic Engineering chapter ( 2) of this book as a reminder of how (point-to-point) traffic engineering works. Figure 6.2 shows the same network as in Figure 6.1 and illustrates how the point-to-multipoint LSP that was shown in Figure 6.1 is signaled by RSVP. It should be noted that the ingress of the P2MP LSP is assumed to know the identity of the egress nodes. The way in which the ingress acquires this information is outside the scope of RSVP-TE, but could be via manual configuration, or could be discovered via PIM, as described in Section 6.5.3 of this chapter. The figure shows the flow of RSVP Path messages (solid arrows) and Resv messages (dotted arrows). The label values associated with the Resv messages in the diagram (L1, L2, etc.) are those contained in the Label Object in the Resv messages. Bear in mind that as with point-to-point LSPs, downstream label allocation is used. Therefore, the control messages (the Resv messages) containing the label for each link shown in Figure 6.2 travel in the opposite direction from the actual MPLS data packets. Z are directly attached to the peering exchange Service providers Y and Z can enter into peering arrangements with A, B and C and with each other without any involvement from service provider X, since the BGP sessions for the peerings involve peer A, peer B, peer C, CE1 and CE2 but not PE3 A variation on this scheme is the use of pseudowires to interconnect smaller service providers for the purposes of private peering; eg service provider X could provide a pseudowire between CE1 and CE2 to enable service providers Y and Z to peer with each other without having to go through the peering exchange Some service providers offer IP multicast as a service to their customers but do not run multicast protocols on their core routers. 5 0.0288 0 ( 18.45,19.94)
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