Changes between Version 34 and Version 35 of GENILTE/LTEDeployment
- Timestamp:
- 06/16/17 08:07:04 (7 years ago)
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GENILTE/LTEDeployment
v34 v35 293 293 @@ -205,4 +206,7 @@ S-GW : 294 294 # S-GW binded interface for S11 communication (GTPV2-C), if none selected the ITTI message interface is used 295 SGW_IPV4_ADDRESS_FOR_S11 = "127.0.11. 2/8"; # YOUR NETWORK CONFIG HERE295 SGW_IPV4_ADDRESS_FOR_S11 = "127.0.11.1/8"; # YOUR NETWORK CONFIG HERE 296 296 297 297 -}; … … 386 386 = Base Station Configuration via NetSpan Tool = 387 387 388 The GPO Base Station was configured with Rutgers NetSpan configuration management tool, which is accessibleover the LTE Multipoint VLAN at this address:388 The GPO Base Station was configured with [http://www.airspan.com/netspan/ NetSpan}, which is an SNMP based Web interface tool delivered by [http://www.airspan.com Airspan] to manage Radio Access Network elements in the RAN (4G & 5G) and Backhaul domains. The Rutgers installation of NetSpan was used in this procedure and was accessible from BBN over the LTE Multipoint VLAN at this address: 389 389 390 390 {{{http://10.3.0.252}}} … … 392 392 This section captures the NetSpan Configuration for the BBN base station, other site will have different Node Types, Radio Profiles and Network Profiles. In particular for the Radio profile, the site's assigned frequency must be considered, more details in the Cell Radio Profile section below. 393 393 394 The BBN Node had already been added before out first access, we assume some existing eNodeB was cloned and expect that additional site will start by cloning the BBN or other eNodeB entry and then modify its configuration.395 396 394 == Configure eNodeB settings == 397 395 398 This section captures the procedure used for the BBN eNodeB node and it is assumed other site will use this as a reference, keeping in mind changes required for their sites Node Types, Radio Profiles and Network Profiles.396 This section captures the procedure used for creating the BBN eNodeB node entry in NetSpan and it is assumed other site will use this as a reference, keeping in mind changes required for your sites Node Types, Radio Profiles and Network Profiles. Instructions below assume access to a Netspan system, which Airspan’s Element Management System. 399 397 400 398 == Select a Node to Clone == … … 420 418 421 419 422 The "BBN_band-41" Cell Radio Profile was created for our setup. Each site must create its own Cell Ratio Profile and requires that you first know the EUTRA Absolute radio-frequency channel number (EARFCN) assignment for your site. A list of allocated upper and lower frequencies (MHz) is found at [http://wimax.orbit-lab.org/wiki/aaOperations#IPaddressassignment Orbit-Lab Site Operation Resources] page. For example the BBN Base Station configured in this example has the Lower Frequency 2573 MHz and the Upper Frequency 2583 MHz, a 10 MHz range. To calculate the BBN EARFCN an [http://niviuk.free.fr/lte_band.php LTE Frequency Calculator] was used where the Lower Frequency entered to determine te Bandto be used in our Radio Cell Profile:420 The "BBN_band-41" Cell Radio Profile was created for our setup. Each site must create its own Cell Ratio Profile and requires that you first know the EUTRA Absolute radio-frequency channel number (EARFCN) assignment for your site. A list of allocated upper and lower frequencies (MHz) is found at [http://wimax.orbit-lab.org/wiki/aaOperations#IPaddressassignment Orbit-Lab Site Operation Resources] page. For example the BBN Base Station configured in this example has the Lower Frequency 2573 MHz and the Upper Frequency 2583 MHz, a 10 MHz range. To calculate the EARFCN for the BBN Cell Radio Profile a [http://niviuk.free.fr/lte_band.php LTE Frequency Calculator] was used and the '''center frequency''' was entered to determine the Band and EARFCN values to be used in our Radio Cell Profile: 423 421 424 422 [[Image(EARFCN.jpeg)]]