Difference between revisions of "GSOC2010AcceptedProjects"
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+ | == Accepted Projects == | ||
This page links to more information on the projects accepted for ns-3's 2010 Google Summer of Code effort. | This page links to more information on the projects accepted for ns-3's 2010 Google Summer of Code effort. | ||
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− | + | ==== UAN Framework: AUV simulator and power management layer ==== | |
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+ | * Student: [mailto:andrea.sacco85@gmail.com Andrea Sacco] | ||
+ | * Mentor: [mailto:lentracy@u.washington.edu Leonard Tracy] | ||
+ | * Abstract: On of the priorities in Underwater Networking research, is to have a complete simulation framework. The NS-3 UAN module is a first step in this direction. This project aims to integrate the efforts of UAN module, extending it to make a simulation framework that researchers will be able to use for their aims. The extension will consists of an Autonomous Underwater Vehicle (AUV) simulator (navigation and movement) and a power management layer. | ||
+ | * Wiki Page: [[GSOC2010UANFramework | UAN Framework: AUV simulator and power management layer]] | ||
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+ | ==== ns-3-OpenFlow ==== | ||
− | * | + | * Student: [mailto:naimorai@gmail.com Blake Hurd] |
− | + | * Mentor: [mailto:jpelkey@gatech.edu Josh Pelkey] | |
− | + | * Abstract: This project will enable ns-3 simulations to use OpenFlow switches (McKeown et al.), widely used in research. OpenFlow switches are configurable via the OpenFlow API, and also have an MPLS extension for quality-of-service and service-level-agreement support. By extending these capabilities to ns-3 for a simulated OpenFlow switch that is both configurable and can use the MPLS extension, ns-3 simulations can accurately simulate many different switches | |
− | + | * Wiki Page: [[GSOC2010OpenFlow | ns-3-OpenFlow]] | |
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+ | ==== MAC and PHY models for LTE ==== | ||
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+ | * Student: [mailto:peppe.piro@gmail.com Giuseppe Piro] | ||
+ | * Mentors: [mailto:nbaldo@cttc.es Nicola Baldo] | ||
+ | * Abstract: Long Term Evolution represents an emerging and promising technology for providing a broadband ubiquitous Internet access. | ||
Unfortunately, no ns-3 modules have been developed to simulate LTE networks. | Unfortunately, no ns-3 modules have been developed to simulate LTE networks. | ||
This project consist of a development of a framework to simulate LTE networks on ns-3, composed by (i) a standard compliant LTE PHY layer, (ii) two LTE network devices (UE and eNB), (iii) a Bearer Manager and a MAC Queue structure, and (iv) a Frame Manager and a Downlink Resource Allocation. | This project consist of a development of a framework to simulate LTE networks on ns-3, composed by (i) a standard compliant LTE PHY layer, (ii) two LTE network devices (UE and eNB), (iii) a Bearer Manager and a MAC Queue structure, and (iv) a Frame Manager and a Downlink Resource Allocation. | ||
− | + | * Wiki Page: [[GSOC2010MACPHYforLTE |MAC and PHY models for LTE]] | |
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+ | ==== NS-3 Click Modular Router Integration ==== | ||
− | + | * Student: [mailto:suresh.lalith@gmail.com Lalith Suresh Puthalath] | |
− | + | * Mentor: [mailto:ruben@net.t-labs.tu-berlin.de Ruben Merz] | |
− | + | * Abstract: Click is a software architecture for building configurable routers. By using different combinations of packet processing units called elements, a Click router can be made to perform a specific kind of functionality. This flexibility provides a good platform for testing and experimenting with different protocols. This project aims to integrate ns-3 with the Click Modular Router so as to enable rapid protocol development. | |
− | + | * Wiki Page: [[GSOC2010Click | NS-3 Click Modular Router Integration]] | |
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[[Category:GSoC]] | [[Category:GSoC]] |
Revision as of 08:00, 27 April 2010
Main Page - Current Development - Developer FAQ - Tools - Related Projects - Project Ideas - Summer Projects
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GSoC 2010's accepted student projects have been announced at GSoC 2010 Site.Accepted students projects for the ns-3 project can be found at GSoC 2010 Accepted ProjectsThanks to all participating students for the effort and time invested.Community Bonding Period will last until May 24th.
- GSoC Frequently Asked Questions
- GSoC Mentors Guide
- GSoC Student guide
- GSoC Student application template
- GSoC 2010 Ideas page | GSoC 2010 Accepted Projects
- GSoC 2009 Ideas page | GSoC 2009 Accepted Projects
- Get in contact with the ns-3 team: ns-developers mailing list | IRC #ns-3 on freenode.net
- ns3's GSoC 2010 Flyer
Contents
Accepted Projects
This page links to more information on the projects accepted for ns-3's 2010 Google Summer of Code effort.
UAN Framework: AUV simulator and power management layer
- Student: Andrea Sacco
- Mentor: Leonard Tracy
- Abstract: On of the priorities in Underwater Networking research, is to have a complete simulation framework. The NS-3 UAN module is a first step in this direction. This project aims to integrate the efforts of UAN module, extending it to make a simulation framework that researchers will be able to use for their aims. The extension will consists of an Autonomous Underwater Vehicle (AUV) simulator (navigation and movement) and a power management layer.
- Wiki Page: UAN Framework: AUV simulator and power management layer
ns-3-OpenFlow
- Student: Blake Hurd
- Mentor: Josh Pelkey
- Abstract: This project will enable ns-3 simulations to use OpenFlow switches (McKeown et al.), widely used in research. OpenFlow switches are configurable via the OpenFlow API, and also have an MPLS extension for quality-of-service and service-level-agreement support. By extending these capabilities to ns-3 for a simulated OpenFlow switch that is both configurable and can use the MPLS extension, ns-3 simulations can accurately simulate many different switches
- Wiki Page: ns-3-OpenFlow
MAC and PHY models for LTE
- Student: Giuseppe Piro
- Mentors: Nicola Baldo
- Abstract: Long Term Evolution represents an emerging and promising technology for providing a broadband ubiquitous Internet access.
Unfortunately, no ns-3 modules have been developed to simulate LTE networks. This project consist of a development of a framework to simulate LTE networks on ns-3, composed by (i) a standard compliant LTE PHY layer, (ii) two LTE network devices (UE and eNB), (iii) a Bearer Manager and a MAC Queue structure, and (iv) a Frame Manager and a Downlink Resource Allocation.
- Wiki Page: MAC and PHY models for LTE
NS-3 Click Modular Router Integration
- Student: Lalith Suresh Puthalath
- Mentor: Ruben Merz
- Abstract: Click is a software architecture for building configurable routers. By using different combinations of packet processing units called elements, a Click router can be made to perform a specific kind of functionality. This flexibility provides a good platform for testing and experimenting with different protocols. This project aims to integrate ns-3 with the Click Modular Router so as to enable rapid protocol development.
- Wiki Page: NS-3 Click Modular Router Integration