- GSoC Frequently Asked Questions
- GSoC Mentor guide
- GSoC student guide
- ns-3's GSoC Student guide
- GSoC Student application template
- GSoC 2012 page
- NSoC 2011 Ideas page | NSoC 2011 Accepted Projects
- GSoC 2010 Ideas page | GSoC 2010 Accepted Projects
- GSoC 2009 Ideas page | GSoC 2009 Accepted Projects
- GSoC Organization Administrator guide
- Get in contact with the ns-3 team: ns-developers mailing list | IRC #ns-3 on freenode.net
GSoC 2012 Ideas
This webpage highlights project ideas for ns-3's Google Summer of Code 2012 effort.
About the ns-3 project
ns-3 is a discrete-event network simulator, with a particular emphasis on network research and education.
Users of ns-3 can construct simulations of computer networks using models of traffic generators, protocols such as TCP/IP, and devices and channels such as WiFi, and analyze or visualize the results. Simulation plays a vital role in the research and education process, because of the ability for simulations to obtain reproducible results (particularly for wireless protocol design), scale to large networks, and study systems that have not yet been implemented. A particular emphasis in ns-3 is the high degree of realism in the models (including frameworks for real application and kernel code) and integration of the tool with virtual machine environments and testbeds; we view that researchers need to move more effortlessly between simulation, testbeds, and live experiments, and ns-3 is designed to facilitate that.
ns-3 has been in development since 2005 and has been making quarterly releases since June 2008 (our last release was ns-3.10 in January 2011). ns-3 is replacing the popular ns-2 tool which was developed in the 1997-2000 timeframe but became out of date and unmaintained. The tool is coming into wide use; our web server logged almost 71000 successful downloads of our released software between January 2010 and January 2011, and we have a users mailing list of about 900 members now averaging 200-300 posts per month.
The following are project ideas which the ns-3 team has identified as important and is most interested in working on as part of the 2012 Google Summer of Code. Applicants are however free to propose their own ideas. In addition, please note that these ideas are not limited to GSoC, anyone is welcome to work on them. Please email the ns-developers list if you have an idea that you'd like to work on. Applicants are encouraged to look over this list, pick one that especially interests them, think about it, and discuss potential approaches on the ns-developers list. Previous experience with the Google Summer of Code programmes suggest that the more you discuss and refine your proposal on the mailing list beforehand, the more stronger a proposal it will develop into, and the higher your chances of being accepted into the programme.
Each project idea has been tagged with the following properties:
- Required Experience: Languages, concepts, or packages with which applicants must be familiar.
- Bonus Experience: Other experience or familiarity which would be greatly helpful to applicants for this project.
- Interests: Areas of particular relevance to this project, and an indicator of where successful students might apply their experiences coming out of this project.
- Difficulty: easy, medium or difficult
- Recommended reading: pointers to documentation, papers, specific bugs, etc.
Note that all of the projects require some experience and comfort with C++. Project ideas for which C++ is noted as a required experience will require more and deeper familiarity with the language. A similar notion applies to computer networking, BSD sockets, etc: Familiarity is strongly preferred, but is not required except where explicitly noted due to the topic being more advanced in that regard.
Priority Project Ideas
The following are work areas the ns-3 project has identified as the highest priorities, has several mentors available, and would be especially interested in having students work on.
- Project name: Detailed description of project goes here.
- Technical Requirements
- Required Experience:
- Bonus Experience:
- Recommended reading:
Mentor: Tommaso Pecorella
- SCTP implementation and testing: SCTP is a message-based L4 protocol with features similar to both TCP and UDP. It was originally developed as a reliable protocol to transport PSTN control streams, and it's currently used to carry 3G and 4G signaling over IP networks. The use of SCTP, however, is not limited to signaling transport, as its features makes it very interesting for a lot of other applications where UDP or TCP fails.
Currently there is no SCTP implementation for ns-3. An SCTP implementation would have to comply with the IPv4 and IPv6 layers and have programming APIs toward the application layer similar to the ones defined in the available SCTP implementations for Linux.
- Technical Requirements: none
- Required Experience: C++
- Bonus Experience: L4 protocols understanding
- Interests: L4 protocols modeling and simulation
- Difficulty: medium
- Recommended reading:
Vehicular Ad-hoc Networks
Mentors: Guillaume Rémy
- Wireless Access in Vehicular Environments (WAVE) The IEEE 1609 Family of Standards for Wireless Access in Vehicular Environments (WAVE) defines the architecture, communications model, management structure, security mechanisms, and physical access for wireless communications in the vehicular environment. Some components of this specification has already been implemented for ns-3. However, we are still far from the simulation of WAVE on ns-3. The current status is as follows and it is up to the student to decide how much he/she wants to implement: 1) The PHY is ready as-is: the 5 MHz and 10 Mhz channel options (i.e., 802.11p) are already implemented, with a corresponding error model. 2) As for the PHY-specific parameters (slot duration etc.), currently only coverage class 0 is supported . 3) The MAC needs to be modified. First, some trivial reworking is needed , and the rest depends on what the student wishes to implement. One possible approach is to use  as a guideline for implementing what is discussed in . The most complex piece to implement are the channel switch logic (the execution of the channel switch command is already implemented) 4) higher layers: nothing specific to WAVE is currently available. 5) mobility models: no mobility model specific for vehicular scenarios is included in ns-3. But given that ns-3 can work with ns-2 mobility traces, it should be possible to find a mobility trace generator for vehicular scenarios that can be reused with ns-3.
- Required experience: C++.
- Bonus experience: Wireless networking, WAVE.
- Interests: Wireless networking, VANETs.
- Difficulty: medium to hard, depending on what the student proposes to implement.
- Recommended reading
Additional Project Ideas
The following are additional project ideas that the ns-3 team has highlighted as important projects to support, and are suggested for students to extend. Not all of them have specific mentors assigned yet but we would seek out mentors from our mentor pool if high quality applications came in on these topics (or any ns-3 topic, for that matter).