wiki:ClusterECall061411

Version 6 (modified by hmussman@bbn.com, 13 years ago) (diff)

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WiMAX and Cluster E Deployment Calls

June 14 - June 17, 2011

Description

The projects involved in deploying WiMAX base stations reviewed their current status and progress towards their Spiral 3 roadmap goals in separate conference calls.

Attendees

BBN Technologies Harry Mussman
Columbia Univ Jan Janak (June 15)
Polytechnic Institute of NYU Thanasis Korakis (June 16)
UCLA Giovanni Pau (June 15)
Colorado Dirk Grunwald, Derek Philips (June 15)
UMass Amherst Brian Lynn (June 14)
Wisconsin Derek Meyer (June 17)

Agenda

Deployment Status

Columbia University (1770) PI: Henning Schulzrinne, Sung-Hoon Seo and Jan Janak:
After many delays, finally gained access and completed installation outdoors; see Columbia deployment. Now on the air; starting outdoor measurements.
Server available for OMF/OML.

Polytechnic Institute of NYU (1751) PI: Thanasis Korakis
slides
Installed; using WiMAX RF AggMgr, and available OMF/OML.
Completed basic range and throughput measurements; see below.
Begun work on two additional experiments; see below.

UCLA (1797) PI: Mario Gerla, Giovanni Pau
slides
slides
Antenna on 10th floor, -5deg tilt; have huge shadow; plan to move to hill side of campus.
Windows laptop with USB-connected 6250.
Measurements begun.
$40k to install link to I2.
Ready to load OMF/OML when available.
Issue: HTC EU EVO handset is not WIMAX, but is LTE. Exploring path to HTC with Mauro Sentinelli, vice-chair of GSM Forum.

Colorado: (1768) PI: Dirk Grunwald, Caleb Philips
slides
NEC BTS installed, single node on Eng Bldg; was on-the-air, but currently down, since server crashing due to power problems.
Operating in A4/B4 block; also Clearwire; also U Colorado private network, built by Airspan.
Starting data modeling using Anritsu MS2721B with WiMAX demodulator; acquiring propagation based model from Airspan deployment.
Reference: Airspan plan for U Colorado slides.
Reference: MS thesis on "Field Study of WiMAX Performance"
text.

UMass Amherst (1731) PI: Mark Corner, Brian Lynn
slides
Working inside, data path from client, to base station, to ASN GW.
Ready to sign contract for installation on top of 17-story building.
Both omni and sector antennas, manual switch; expect shading near building, but CS building not in shadow, approx 0.5 mi away.
Will deploy on x3 DOME busses later this year; currently antenna will be inside of the bus.
Issue: Send info on remote antenna switch.
Issue: Would like coverage to downtown Amherst, 1 mi away; can this be done?
Issue: Can antenna be moved outside of bus for better range? Check with how UW Madison puts antennas on buses.

Wisconsin (1724) PI: Suman Banerjee and Derek Meyer:
slides
Have base station installed and working, with sector antenna 150 ft high, 10 deg tilt.
Using dongle with Windows 7 PC; seen RSSI from -40 dbm down to -60 dbm; have seen connectivity up to 300 yds.
Existing Cisco system: Connectivity to buses, equipped with large client antenna, up to 500M, for coverage over 1.25 sq mi.
Poster from demo session: poster

BBN Technologies, Cambridge MA Manu Gosain and Harry Mussman:
Installed and operating.
Have completed range and throughput measurements completed; see below.
supporting experimenters from MIT and Clemson; see below.

Deployment Summary

On June 24:

Campus Who Indoors Outdoors Intel 6250 modem? New WiMAX RF AggMgr? Add OMF/OML? Access to GENI backbone? Comments
Columbia University Jan Janak Yes Waiting for contract Yes Yes x ? Indoor testing started; received info request from Clearwire
Polytechnic Institute of NYU Thanasis Korakis - Yes Yes Yes Yes ? Outdoor measurements and experiments underway
University of California, Los Angeles Giovanni Pau - Yes Intel 5130 modem Installed, not yet using x Campus via CENIC to I2 for Internet; $40k charge Outdoor measurements underway
University of Colorado, Boulder Dirk Grunwald - Ready to turnup ? x x Pricing campus tunnel to I2 Working with campus IT on testing their network.
University of Massachusetts Brian Lynn Yes Waiting for contract Yes, with USB, under Xen x NA Requesting 2nd VLAN Facility plan revised; prelim shading analysis completed
University of Wisconsin, Madison Derek Meyer - Yes Windows dongle Yes x I2 is in next lab Outdoor measurements underway
BBN Technologies Manu Gosain - Yes Yes Yes started I2, NLR Outdoor measurements and experiments underway
Rutgers University Ivan Seskar - Yes Yes Yes Yes I2 Plan Bush Campus install when?

WiMAX Range and Throughput Measurements, and Site Planning

Columbia University (1770) PI: Henning Schulzrinne, Sung-Hoon Seo and Jan Janak:
Starting outdoor measurements; see Columbia measurements.
Measurements of RSSI and throughput show good campus coverage.

Polytechnic Institute of NYU (1751) PI: Thanasis Korakis
slides
Throughput from 0.5 to 12Mbps; asymmetry on the uplink and downlink; many variations in urban area; sometimes significant packet losses even with good signal strength.
Have begun experiment to compare WiMAX and WiFi.
Also studying power meter reading application.

UCLA (1797) PI: Mario Gerla, Giovanni Pau
slides
slides
Measurement started with dual-mode vehicular node; seeing 14Mb/s DL, 2 - 3 Mb/s UL; connect to vehicle up to 300 m; client always receives, but cannot always connect; helped by setting client IP address; windows client works better than Linux client.
Done handoff WiMAX to WiFi; heavy rain doubled delay (why?)
Using WINLAB script with improvements; will publish.
Have software to assess coverage on map: Radio Mobile for Windows.
Working with MIT group on network coding experiment over WiMAX/WiFi/Satellite.

Colorado: (1768) PI: Dirk Grunwald Univ. of Colorado, Boulder
Studying U Colorado private network, built by Airspan.
Reference: Airspan plan for U Colorado slides.
Starting data modeling using Anritsu MS2721B with WiMAX demodulator; acquiring propagation based model from Airspan deployment.
Goal: use drive-by measurements to create accurate coverage map with minimum effort.
Reference: MS thesis on "Field Study of WiMAX Performance"
text.

Starting data modeling using Anritsu MS2721B with WiMAX demodulator; acquiring propagation based model from Airspan deployment.

Reference: Airspan plan for U Colorado slides.
Reference: MS thesis on "Field Study of WiMAX Performance"
text.

UMass Amherst (1731) PI: Mark Corner, Brian Lynn
NA Issue: Would like coverage to downtown Amherst, 1 mi away; can this be done?
Issue: Can antenna be moved outside of bus for better range? Check with how UW Madison puts antennas on buses.

Wisconsin (1724) PI: Suman Banerjee and Derek Meyer:
Using dongle with Windows 7 PC; seen RSSI from -40 dbm down to -60 dbm; have seen connectivity up to 300 yds.
Existing Cisco system: Connectivity to buses, equipped with large client antenna, up to 500M, for coverage over 1.25 sq mi.
Poster from demo session: [ poster]

BBN Technologies, Cambridge MA Manu Gosain and Harry Mussman:
slides
Range and throughput experiment uses script in mobile station and server behind base station to evaluate connection with ping and iperf. Seeing good throughput (up to 14Mb/s DL and 1 - 2 Mb/s UL) to 0.25 mi, but not yet further. Soon, will vary BTS and iperf parameters to see if can find a set for greater distances at lower rates. Do not expect range beyond 0.6mi.

Local Experiments and Experimenter Support

Have established an experiment exchange and experimenter mailing list, at http://groups.geni.net/geni/wiki/WiMAXExper

MIT experiments, using BBN BTS: evaluate ARQ and HARQ changes to better support video streaming

Clemson experiments, using BBN and/or Rutgers BTS: evaluate DOS attack susceptibility

Two experiments being planned at NYU Poly: slides

Measurements and Experimenter Support Summary

On June 17:

Campus Who Site planning Range and throughput measurements Local experiments Experimenter support Comments
Columbia University Jan Janak Tall building, urban setting; have had to move site - - - -
Polytechnic Institute of NYU Thanasis Korakis Tall building, urban setting Completed, up to 12Mbps DL, much less UL; many variations ParkNet completed for GEC9; two more being planned - -
University of California, Los Angeles Giovanni Pau Tall building, urban setting Completed, up to 14Mbps DL and 2 - 3 Mb/s UL; connections to 300M (0.xmi) Handover WiMAX to WiFi completed - -
University of Colorado, Boulder Dirk Grunwald ? story building, campus setting - - - Studying U Colorado private network, built by Airspan; starting data modeling using Anritsu MS2721B with WiMAX demodulator; acquiring propagation based model from Airspan deployment
University of Massachusetts Brian Lynn Both omni and sector antennas planned for top of 17-story building; prelim shading analysis completed; expect shading near building, but CS building not in shadow, approx 0.5 mi away - - - Would like coverage to busses in downtown Amherst, 1 mi away; can this be done?
University of Wisconsin, Madison Derek Meyer 150 ft high, campus setting Seen connectivity up to 300 yd - - Existing Cisco system: Connectivity to buses, equipped with large client antenna, up to 500M, for coverage over 1.25 sq mi.
BBN Technologies Manu Gosain 90 ft high, urban/suburban setting Good throughput (up to 14Mb/s DL and 1 - 2 Mb/s UL) to 0.25 mi, but not yet further Range and throughput, with scripts For MIT and possibly Clemson -
Rutgers University Ivan Seskar 1 story building, suburban setting RSSI measurements completed ParkNet Possibly Clemson When will install be completed on Busch campus?

Spiral 3 Roadmap

This roadmap shows the original and *current goals that apply to the GENI WiMAX projects:

Install and bring up WiMAX base station kit, including the ASN Gateway. (GEC10, or earlier)

Evaluate range and thoughput of WiMAX base station kit and Linux PC with Intel WiMAX modem card and/or mobile station used for for experiments. (GEC10, or earlier) (GEC11)

Install and bring up an instance of OMF/OML. (GEC10, or earlier) (*GEC11)

Operate and maintain the WiMax BS and the related GENI controller, using ORBIT Management Framework (OMF), with support for remote access by GENI users. (GEC11)

Present a mobility demo using WiMAX base station node, including the ASN Gateway, a Linux PC with Intel WiMAX modem card, or the dual-mode vehicular nodes, supporting both WiFi and WiMAX, required for your experiments, and a local instance of OMF/OML. (GEC10) (*GEC11)

Install and bring up experiment-controlled L2 (or OpenFlow) switch, to provide enhanced connectivity from the WiMAX testbed to the GENI backbone. (GEC11) (*GEC12)

Install and bring up Virtual Base Station (vBS)server, to support multiple simultaneous experiments (slicing) on the GENI WiMAX base station node. (GEC11) (*?)

Present mobility and/or application demos/experiments, showing support for multiple simultaneous experiments (slicing) of the GENI WiMAX base station node, and remote access by GENI users, utilizing experiment-controlled L2 (or OpenFlow) switch, and Virtual Base Station (vBS) server. (GEC11) (*?)

WiMAX Developer Support

WiMAX Developer Mailing List

To post to this list, send your email to: wimax-developer@winlab.rutgers.edu
PLEASE use this list for all questions, dialog, etc.

WiMAX Integration Wiki

PLEASE upload slides to this page, and make other contributions to the WiMAX Integration Wiki
Contact hmussman@bbn.com if you need a login

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