wiki:GEC14Agenda/WiMAXTutorial

Version 11 (modified by hmussman@bbn.com, 7 years ago) (diff)

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WiMAX Tutorial

Schedule

Wednesday, July 11

8:30 am - 10:30 am

Room:

Active participants: max 6x3 = 18?

Auditors: max?

Session Leaders

Fraida Fund (Polytechnic Institute of NYU)

Manu Gosain (Raytheon BBN Technologies)

Ivan Seskar (Rutgers Univ WINLAB)

Abstract

The purpose of this tutorial is to provide hands-on experience with step-by-step guidance in designing and conducting a GENI WiMAX experiment. Participants will learn how to reserve WiMAX resources, configure a GENI WiMAX base station, and develop and execute an OMF experiment using WiMAX-equipped clients.

Active participants will be divided into three groups. Each group will work closely with an instructor to develop a non-trivial experiment in one of these three areas:

  • HetNets
  • Wireless Sensor Networks
  • Education

This tutorial is quite different from the WiMAX tutorial at GEC13, so participants in the GEC13 tutorial are welcome to attend this tutorial as well!

Prerequisites

Participants in this tutorial will benefit from some familiarity with OMF. Attendees with no previous OMF experience should consider attending the OMF tutorial on Monday.

Attendees are also advised to familiarize themselves with the GENI WiMAX testbeds by making an account at a GENI WiMAX site and running the preliminary experiments (link).

Active participants will need a laptop equipped with an SSH client (such as Putty for Windows) and a web browser.

1. Introduction to GENI WiMAX

Aim: Motivation for GENI WiMAX, and brief overview.

In this section, we will introduce the motivation for GENI WiMAX sites also give a brief overview of the architecture of the WiMAX testbeds.
(slides)

2. Arrangements for this tutorial

Aim: Divide participants into groups for the rest of the tutorial and login to testbeds using assigned credentials.

Participants will divide into three groups. Each groups will work closely with an instructor to develop an experiment showcasing the use of GENI WiMAX testbeds for wireless research or education.

Participants for each group will login to designated sites using their assigned credentials, to begin the hands-on portion of the tutorial.

3. Designing an experiment for GENI WiMAX

Aim: Participants will work in groups, guided by an instructor, to develop and execute an experiment to answer a significant research question or serve some educational purpose.

The three tracks are:

  • HetNets Track: Design an experiment to evaluate a protocol for cooperative recovery over WiFi and WiMAX networks (WINLAB sb4) (link)
  • WSN Track: Design an experiment that sets up a wireless sensor network at one testbed site (NYU-Poly) and transmits sensor measurements over the WiMAX link and the GENI backbone to nodes at another site (BBN) for processing and serving a meaningful display on the public Internet (link)
  • Education track: Design an instructional lab experiment that students can run to learn about key properties and capabilities of wireless broadband networks (e.g. modulation and coding, ARQ) (WINLAB sandboxes) (link)

Each group will cover the following lessons in the context of their given track:

Experiment design

  • Choosing a connectivity option for testbed nodes (local network, public Internet, GENI backbone) that makes sense for the given experiment
  • Choosing resources (sb4, wireless sensor network, etc.)
  • Selecting OML-ized applications (iperf, HTTP server/client, sensor app, social app, BitTorrent) to use for the experiment

Setting up a WiMAX testbed in preparation for an experiment

  • Load baseline disk image
  • Restart base station to default settings
  • Assign WiMAX clients to the selected VLAN

Use basic WiMAX functionality in OMF

  • Connect to the WiMAX network
  • Assign an IP address to a WiMAX client
  • Configure a WiMAX base station
  • Use an OML-instrumented application from OMF

Conducting ongoing experiments

  • Saving a disk image for later use
  • Extending and revising an OMF script
  • Retrieving experimental results from OML and post-processing

4. Review

Aim: Solidify lessons learned and communicate results between groups.

One or more representatives from each group will briefly describe the experiment design process and demonstrate the experiment.

Attachments (4)