Changes between Version 35 and Version 36 of WiMAX


Ignore:
Timestamp:
10/21/09 09:56:54 (10 years ago)
Author:
hmussman@bbn.com
Comment:

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  • WiMAX

    v35 v36  
    4242
    4343The scope of work on this project is to leverage a commercial IEEE 802.16e WiMAX base station product to prototype an open, programmable and virtualizable base station node that could work over a metropolitan area and connect with off-the shelf WiMAX handsets and data cards.  This includes the following steps: 
    44  1) Develop an open/virtualizable WiMAX base station with external control and data API’s.   
    45  2) Import a control framework from the Orbit project, and implement GENI-specific software on an external Linux-based PC controller for the WiMAX base station, demonstrating basic GENI compliance:  virtualization, slice setup & resource management, L2/L3 programmability, and opt-in for off-the shelf terminals.  3) Integrate the GBSN with backhaul options to validate and demonstrate the total access networking solution, including VLAN connections to a GENI backbone network.  4) Demonstrate the GBSN capabilities in a phased manner, starting with controlled lab tests of each GENI feature and then migrating to a small-scale outdoor trial with off-the-shelf WiMAX
    46 terminal equipment.  5) Develop a deployment plan for multi-cell WiMAX services in GENI, including guidelines for site selection, frequency allocation, network backhaul and equipment/operating costs.
     44 1) Develop an open/virtualizable WiMAX base station with external control and data API’s.   [http://www.winlab.rutgers.edu/docs/focus/GENI.html  GENI Projects at WINLAB][[BR]]
     45 2) Import a control framework from the Orbit project, and implement GENI-specific software on an external Linux-based PC controller for the WiMAX base station, demonstrating basic GENI compliance:  virtualization, slice setup & resource management, L2/L3 programmability, and opt-in for off-the shelf terminals.  [http://www.winlab.rutgers.edu/docs/focus/GENI.html  GENI Projects at WINLAB][[BR]]
     46  3) Integrate the GBSN with backhaul options to validate and demonstrate the total access networking solution, including VLAN connections to a GENI backbone network.  [http://www.winlab.rutgers.edu/docs/focus/GENI.html  GENI Projects at WINLAB][[BR]]
     47  4) Demonstrate the GBSN capabilities in a phased manner, starting with controlled lab tests of each GENI feature and then migrating to a small-scale outdoor trial with off-the-shelf WiMAX
     48terminal equipment.  [http://www.winlab.rutgers.edu/docs/focus/GENI.html  GENI Projects at WINLAB][[BR]]
     49  5) Develop a deployment plan for multi-cell WiMAX services in GENI, including guidelines for site selection, frequency allocation, network backhaul and equipment/operating costs.[http://www.winlab.rutgers.edu/docs/focus/GENI.html  GENI Projects at WINLAB][[BR]]
    4750 
    4851