1 | Configuration Examples
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2 |
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3 | BNC comes with a number of configuration examples which can be used on all
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4 | operating systems. Copy the complete directory 'Example_Configs' which comes
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5 | with the software including sub-directories 'Input' and 'Output' to your disc.
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6 | There are several ways to start BNC using one of the example configurations:
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7 |
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8 | * On graphical systems (except for Mac systems) you may use the computer mouse
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9 | to 'drag' a configuration file icon and 'drop' it on top of BNC's program icon.
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10 |
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11 | * You could also start BNC using a command line for naming a specific
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12 | configuration file (suggested e.g. for Mac systems):
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13 | bnc --conf <configFileName>
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14 |
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15 | * On non-graphical systems or when running BNC in batch mode in the background
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16 | you may start the program using a command line with a configuration file
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17 | option in 'no window' mode (example for Windows systems):
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18 | bnc.exe --conf <configFileName> --nw
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19 |
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20 | Although it's not a must, we suggest that you always create BNC configuration
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21 | files with the filename extension '.bnc'.
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22 |
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23 | We furthermore suggest for convenience reasons that you configure your system
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24 | to automatically start BNC when you double-click a file with the filename
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25 | extension '.bnc'. The following describes what to do on Windows systems to
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26 | associate the BNC program to such configuration files:
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27 |
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28 |
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29 | 1. Right-click a file that has the extension '.bnc' and then click 'Open'. If
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30 | the 'Open' command is not available, click 'Open With' or double-click the
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31 | file.
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32 |
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33 | 2. Windows displays a dialog box that says that the system cannot open this
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34 | file. The dialog box offers several options for selecting a program.
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35 |
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36 | 3. Click 'Select the program from a list', and then click 'OK'.
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37 |
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38 | 4. The 'Open With' dialog box is displayed. Click 'Browse', locate and then
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39 | click the BNC program, and then click 'Open'.
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40 |
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41 | 5. Click to select the 'Always use the selected program to open this kind
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42 | of file' check box.
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43 |
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44 | 6. Click 'OK'.
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45 |
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46 | Some of the presented example configuration files contain a user ID 'Example'
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47 | with a password 'Configs' for accessing a few GNSS streams from public Ntrip
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48 | Broadcasters. This generic account is arranged for convenience reasons only.
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49 | Please be so kind as to replace the generic account details as well as the
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50 | place holders 'User' and 'Pass' by the personal user ID and password you
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51 | receive following an online registration through
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52 | http://register.rtcm-ntrip.org.
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53 |
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54 | Note that the account for an Ntrip Broadcaster is usually limited to
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55 | pulling a specified maximum number of streams at the same time. As running
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56 | some of the example configurations requires pulling several streams, it
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57 | is suggested to make sure that you don't exceed your account's limits.
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58 |
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59 | Make also sure that sub-directories 'Input' and 'Output' which are part of
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60 | the example configurations exist on your system or adjust the affected
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61 | example configuration options according to your needs.
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62 |
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63 | Some BNC options require antenna phase center variations as made available
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64 | from IGS through so-called ANTEX files at ftp://igs.org/pub/station/general.
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65 | An example ANTEX file 'igs08.atx' is part of the BNC package for convenience.
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66 |
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67 | The example configurations assume that no proxy protects your BNC host.
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68 | Should a proxy be operated in front of BNC then you need to introduce its
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69 | name or IP and port number in the 'Network' panel.
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70 |
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71 | (A) Working with Configuration Files
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72 |
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73 | You should be able to run all configuration file examples without changing
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74 | contained options. However, configurations 'Upload.bnc' and 'UploadPPP.bnc' are
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75 | exceptions because they require an input stream from a connected network engine.
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76 |
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77 | 1. Configuration File 'RinexObs.bnc'
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78 | Purpose: Convert RTCM streams to RINEX Observation files. The configuration
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79 | pulls streams from Ntrip Broadcasters using Ntrip Version 1 to generate 15min
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80 | 1Hz RINEX Version 3 Observation files. See
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81 | http://igs.bkg.bund.de/ntrip/observations for observation stream resources.
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82 |
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83 | 2. Configuration File 'RinexEph.bnc'
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84 | Purpose: Convert a RTCM stream with navigation messages to RINEX Navigation
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85 | files. The configuration pulls a RTCM Version 3 stream with Broadcast Ephemeris
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86 | coming from the real-time EUREF and IGS networks and saves hourly RINEX Version
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87 | 3 Navigation files. See http://igs.bkg.bund.de/ntrip/ephemeris for further
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88 | real-time Broadcast Ephemeris resources.
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89 |
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90 | 3. Configuration File 'BrdcCorr.bnc'
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91 | Purpose: Save Broadcast Corrections from RTCM SSR messages in hourly plain
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92 | ASCII files. See http://igs.bkg.bund.de/ntrip/orbits for various real-time IGS
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93 | or EUREF orbit/clock correction products.
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94 |
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95 | 4. Configuration File 'RinexConcat.bnc'
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96 | Purpose: Concatenate several RINEX Version 3 files to produce one compiled file
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97 | and edit the marker name in the file header. The sampling interval is set to 30
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98 | seconds. See section 'RINEX Editing & QC' in the documentation for examples on
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99 | how to call BNC from command line in 'no window' mode for RINEX file editing,
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100 | concatenation and quality check.
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101 |
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102 | 5. Configuration File 'RinexQC.bnc'
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103 | Purpose: Check the quality of a RINEX Version 3 file by means of a multipath
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104 | analysis. Results are saved on disk in terms of a plot in PNG format. See
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105 | section 'RINEX Editing & QC' in the documentation for examples on how to call
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106 | BNC from command line in 'no window' mode for RINEX file editing, concatenation
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107 | and quality check.
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108 |
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109 | 6. Configuration File 'RTK.bnc'
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110 | Purpose: Feed a serial connected receiver with observations from a nearby
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111 | reference station for conventional RTK. The stream is scanned for RTCM
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112 | messages. Message type numbers and latencies of incoming observations are
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113 | reported in BNC's logfile.
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114 |
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115 | 7. Configuration File 'FeedEngine.bnc'
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116 | Purpose: Feed a real-time GNSS engine with observations from remote reference
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117 | stations. The configuration pulls a single stream from an Ntrip Broadcaster.
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118 | You could also pull several streams from different casters. Incoming
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119 | observations are decoded, synchronized, output through a local IP port and also
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120 | saved into a file. Failure and recovery thresholds are specified to inform
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121 | about outages.
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122 |
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123 | 8. Configuration File 'PPP.bnc'
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124 | Purpose: Precise Point Positioning from observations of a rover receiver. The
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125 | configuration reads RTCM Version 3 observations, a Broadcast Ephemeris stream
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126 | and a stream with Broadcast Corrections. Positions are saved in the logfile.
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127 |
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128 | 9. Configuration File 'PPPNet.bnc'
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129 | Purpose: Precise Point Positioning for several rovers or receivers from an
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130 | entire network of reference stations in one BNC job. The possible maximum
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131 | number of PPP solutions per job depends on the processing power of the hosting
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132 | computer. This example configuration reads two RTCM Version 3 observation
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133 | streams, a Broadcast Ephemeris stream and a stream with Broadcast Corrections.
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134 | PPP Results for the two stations are saved in PPP logfiles.
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135 |
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136 | 10. Configuration File 'PPPQuickStart.bnc'
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137 | Purpose: Precise Point Positioning in Quick-Start mode from observations of a
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138 | static receiver with precisely known position. The configuration reads RTCM
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139 | Version 3 observations, Broadcast Corrections and a Broadcast Ephemeris stream.
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140 | Positions are saved in NMEA format on disc. They are also output through IP
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141 | port for real-time visualization with tools like RTKPLOT. Positions are saved
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142 | in the logfile.
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143 |
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144 | 11. Configuration File 'PPPPostProc.bnc'
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145 | Purpose: Precise Point Positioning in post processing mode. BNC reads RINEX
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146 | Version 3 Observation and 3 Navigation files and a Broadcast Correction file.
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147 | PPP processing options are set to support the Quick-Start mode. The output is
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148 | saved in a specific post processing logfile and contains coordinates derived
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149 | over time following the implemented PPP filter algorithm.
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150 |
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151 | 12. Configuration File 'PPPGoogleMaps.bnc'
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152 | Purpose: Track BNC's point positioning solutions using Google Maps or
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153 | OpenStreetMap as background. BNC reads a RINEX Observation file and a RINEX
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154 | Navigation file to carry out a 'Standard Point Positioning' solution in post
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155 | processing mode. Although this is not a real-time application it requires the
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156 | BNC host to be connected to the Internet. Specify a computation speed, then hit
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157 | button 'Open Map' to open the track map, then hit 'Start' to visualize receiver
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158 | positions on top of GM/OSM maps.
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159 |
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160 | 13. Configuration File 'SPPQuickStartGal.bnc'
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161 | Purpose: Single Point Positioning in Quick-Start mode from observations of a
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162 | static receiver with quite precisely known position. The configuration uses
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163 | GPS, GLONASS and Galileo observations and a Broadcast Ephemeris stream.
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164 |
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165 | 14. Configuration File 'SaveSp3.bnc'
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166 | Purpose: Produces SP3 files from a Broadcast Ephemeris stream and a Broadcast
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167 | Correction stream. The Broadcast Correction stream is formally introduced in
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168 | BNC's 'Combine Corrections' table. Note that producing SP3 requires an ANTEX
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169 | file because SP3 file content should be referred to CoM.
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170 |
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171 | 15. Configuration File 'Sp3ETRF2000PPP.bnc'
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172 | Purpose: Produce SP3 files from a Broadcast Ephemeris stream and a stream
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173 | carrying ETRF2000 Broadcast Corrections. The Broadcast Correction stream is
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174 | formally introduced in BNC's 'Combine Corrections' table. The configuration
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175 | leads to a SP3 file containing orbits also referred to ETRF2000. Pulling in
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176 | addition observations from a reference station at precisely known ETRF2000
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177 | position allows comparing an 'INTERNAL' PPP solution with a known ETRF2000
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178 | reference coordinate.
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179 |
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180 | 16. Configuration File 'Upload.bnc'
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181 | Purpose: Upload orbits and clocks from a real-time GNSS engine to an Ntrip
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182 | Broadcaster. For that the configuration reads precise orbits and clocks in
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183 | RTNET format. It also reads a stream carrying Broadcast Ephemeris. BNC converts
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184 | the orbits and clocks into Broadcast Corrections and encodes them to RTCM
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185 | Version 3 SSR messages to finally upload them to an Ntrip Broadcaster. The
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186 | Broadcast Correction stream is referred to satellite Antenna Phase Center (APC)
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187 | and reference system IGS08. Orbits are saved on disk in SP3 format and clocks
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188 | are saved in Clock RINEX format.
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189 |
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190 | 17. Configuration File 'Combi.bnc'
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191 | Purpose: Pull several streams carrying Broadcast Corrections and a Broadcast
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192 | Ephemeris from an Ntrip Broadcaster to produce a combined Broadcast Correction
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193 | stream. BNC encodes the combination product in RTCM Version 3 SSR messages and
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194 | uploads that to an Ntrip Broadcaster. The Broadcast Correction stream is
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195 | referred to satellite Antenna Phase Center (APC) and not to satellite Center of
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196 | Mass (CoM). Its reference system is IGS08. Orbits are saved in SP3 format
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197 | (referred to CoM) and clocks in Clock RINEX format.
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198 |
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199 | 18. Configuration File 'CombiPPP.bnc'
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200 | Purpose: This configuration equals the 'Combi.bnc' configuration. However, the
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201 | combined Broadcast Corrections are in addition used for an 'INTERNAL' PPP
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202 | solutions based on observations from a static reference station with known
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203 | precise coordinates. This allows a continuous quality check of the combination
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204 | product through observing coordinate displacements.
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205 |
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206 | 19. Configuration File 'UploadEph.bnc'
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207 | Purpose: Pull a number of streams from reference stations to get hold of
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208 | contained Broadcast Ephemeris messages. They are encoded to RTCM Version 3
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209 | format and uploaded for the purpose of providing a Broadcast Ephemeris stream
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210 | with an update rate of 5 seconds.
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211 |
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212 | 20. Configuration File 'CompareSp3.bnc'
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213 | Purpose: Compare two SP3 files to calculate RMS values for orbit and clock
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214 | differences. GPS satellite G05 and GLONASS satellite R18 are excluded from this
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215 | comparison. Comparison results are saved in a logfile.
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216 |
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217 | 21. Configuration File 'Empty.bnc'
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218 | Purpose: Provide an empty example configuration file for BNC which only
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219 | contains the default settings.
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220 |
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221 | (B) Working with Command Line configuration options
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222 |
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223 | The following configuration examples make use of BNC's 'Command Line Interface'
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224 | (CLI). Configuration options are exclusively specified via command line. No
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225 | configuration file is used. Examples are provided as shell scripts for a Linux
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226 | system. They call BNC in 'no window' batch mode (command line option -nw).
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227 | The scripts expect 'Example_Configs' to be the current working directory.
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228 |
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229 | 22. Shell Script 'RinexQC.sh'
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230 | Purpose: Equals configuration file example 'RinexQC.bnc', checks the quality of
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231 | a RINEX Version 3 file by means of a multipath analysis. Virtual X-Server
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232 | 'Xvfb' is operated while producing plot files in PNG format. BNC is offline.
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233 | All results are saved on disk.
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234 |
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235 | 23. Shell Script 'RinexConcat.sh'
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236 | Purpose: Equals configuration file example 'RinexConcat.bnc', concatenates
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237 | several RINEX Version 3 files to produce one compiled file and edit the marker
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238 | name in the file header. The sampling interval is set to 30 seconds. BNC is
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239 | offline.
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240 |
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241 | 24. Shell Script 'RinexEph.sh'
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242 | Purpose: Equals configuration file example 'RinexEph.bnc', converts a RTCM
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243 | stream with navigation messages to RINEX Navigation files. The configuration
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244 | pulls a RTCM Version 3 stream with Broadcast Ephemeris coming from the
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245 | real-time EUREF and IGS networks and saves hourly RINEX Version 3 Navigation
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246 | files. BNC runs online until it's terminated after 10 seconds. See
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247 | http://igs.bkg.bund.de/ntrip/ephemeris for further real-time Broadcast
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248 | Ephemeris resources.
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249 |
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250 | 25. Shell Script 'ScanLate.sh'
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251 | Purpose: Scan an observation stream for contained RTCM message types, print
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252 | observation latencies. The output is saved in a logfile. Latencies are
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253 | reported every 10 seconds. BNC runs online until it's terminated after 20
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254 | seconds.
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255 |
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256 | 26. Shell Script 'RinexObs.sh'
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257 | Purpose: Equals configuration file example 'RinexObs.bnc', converts RTCM
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258 | streams to RINEX Observation files. The configuration pulls streams from two
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259 | Ntrip Broadcasters using Ntrip Version 1 to generate 15min 1Hz RINEX Version 3
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260 | Observation files. See http://igs.bkg.bund.de/ntrip/observations for
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261 | observation stream resources. BNC runs online until it's terminated after 30
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262 | seconds.
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263 |
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264 | (C) Command Line configuration options overwriting Configuration File options
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265 |
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266 | For specific applications you may like to use your own set of standard
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267 | configuration options from a configuration file and update some of its content
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268 | via command line. When using a configuration file and command line configuration
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269 | options together in one BNC call, the command line configuration options will
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270 | always overrule options contained in the configuration file.
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271 |
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272 | 27. Shell Script 'CompareSp3.sh'
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273 | Purpose: Equals configuration file example 'CompareSp3.bnc', compares two SP3
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274 | files to calculate RMS values for orbit and clock differences. However, instead
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275 | of excluding GPS satellite G05 and GLONASS satellite R18 from the comparison as
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276 | specified in 'CompareSp3.bnc', GPS satellite G06 and all GLONASS satellites are
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277 | excluded via command line option. BNC runs offline. Comparison results are saved
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278 | in a logfile.
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279 |
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280 | Georg Weber, BKG
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281 | Frankfurt, April 2016
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282 | igs-ip@bkg.bund.de
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283 |
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