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Practical Course Advanced Networking (Winter 2013/2014): Difference between revisions
Practical Course Advanced Networking (Winter 2013/2014) (view source)
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== Details == | [[File:Example.jpg]]== Details == | ||
{{CourseDetails | {{CourseDetails | ||
|credits=180h, 6 ECTS | |credits=180h, 6 ECTS | ||
|module=M.Inf.805.6C: Fortgeschrittenenpraktikum Computernetzwerke (6C), M.Inf.1800.Mp: Fortgeschrittenen Praktikum Computernetzwerke | |module=M.Inf.805.6C: Fortgeschrittenenpraktikum Computernetzwerke (6C), M.Inf.1800.Mp: Fortgeschrittenen Praktikum Computernetzwerke | ||
|lecturer=[http://www.net.informatik.uni-goettingen.de/people/mayutan_arumaithurai Dr. Mayutan Arumaithurai] | |lecturer=[http://www.net.informatik.uni-goettingen.de/people/mayutan_arumaithurai Dr. Mayutan Arumaithurai] | ||
|ta=[http://www.net.informatik.uni-goettingen.de/people/jiachen_chen Jiachen Chen | |ta=[http://www.net.informatik.uni-goettingen.de/people/jiachen_chen Jiachen Chen] | ||
|time=start:24 October 2013, 14:00-16:00 | |time=start:24 October 2013, 14:00-16:00 | ||
|place=IfI 3.101 | |place=IfI 3.101 (The First course will take place in Mayutan Arumaithurai's/Xiaoming Fu's office in the 3rd floor and not in 3.101) | ||
|univz=[http://univz.uni-goettingen.de/qisserver/rds?state=verpublish&status=init&vmfile=no&moduleCall=webInfo&publishConfFile=webInfo&publishSubDir=veranstaltung&veranstaltung.veranstid=133331&expand=242118#242118] | |univz=[http://univz.uni-goettingen.de/qisserver/rds?state=verpublish&status=init&vmfile=no&moduleCall=webInfo&publishConfFile=webInfo&publishSubDir=veranstaltung&veranstaltung.veranstid=133331&expand=242118#242118] | ||
| | | | ||
}} | }} | ||
{{Announcement|'''The First course will take place in Mayutan Arumaithurai's/Xiaoming Fu's office in the 3rd floor and not in 3.101'''}} | |||
{{Announcement|'''Please do not hesitate to contact us if you want to take this course or join the Hawaii competition.'''}} | {{Announcement|'''Please do not hesitate to contact us if you want to take this course or join the Hawaii competition.'''}} | ||
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** Give a presentation on the project topic, motivation and project plan | ** Give a presentation on the project topic, motivation and project plan | ||
** Time limit: 15 min presentation + 10 min Q&A | ** Time limit: 15 min presentation + 10 min Q&A | ||
* ''' | * '''25 Feb 2014, 14:00 - 15:00''': Project final presentation (Might change) | ||
** Present and demonstrate your project, the motivation, the architecture, the program and the result | ** Present and demonstrate your project, the motivation, the architecture, the program and the result | ||
** Time limit: 25 min presentation (with demo) + 10 min Q&A | ** Time limit: 25 min presentation (with demo) + 10 min Q&A | ||
* '''28 February 2014, 23:59''': Submission of written report | * '''28 February 2014, 23:59''': Submission of written report | ||
==Student Projects Demos== | |||
===1.Content-centric Notification System (CNS)=== | |||
A '''scalable''', '''secure''' and '''timely''' notification system is always a necessary in daily communication. It is especially important in a disaster scenario. E.g., the government will notify the citizens about the status of the recovery, rescue and supply. The victims also need to notify their relatives (and whoever cares about them) their current status. They can also call for help (from ambulance service or any responsible service provided by the government) via such notification systems. | |||
But the authorization is a big concern in such extreme scenarios. Authorization on a person-by-person basis is obviously not (energy, computation, and networkload) efficient. In such a system, we propose a new authorization system. A person create groups and use his own features (e.g., family name, cellphone number, eye color, etc.) as the challenge question for the group. In another word, he assumes that everyone who wants to join the group should have the knowledge of that information. Via such mechanism, a requester of a group can get authorization from other members of the group or even the network cache, thus save the cost on the group owner. | |||
Another key feature of the project is the use of the Content-Centric Network (CCN). The new network architecture provides better support for a (topic-based) pub/sub system than the existing IP-based solutions. The demo system leverages the 6 machines in the network-lab running as CCN routers and hooks up with the HTTP translator on the edge of the network. | |||
[[File:CNS_0.png|200px]][[File:CNS_1.png|200px]][[File:CNS_2.png|200px]][[File:CNS_3.png|200px]][[File:CNS_4.png|200px]][[File:CNS_5.png|200px]][[File:CNS_6.png|200px]] | |||
For more details, please check: | |||
* Application definition of CNS: [[Media:CNSSlides.pdf]]. | |||
* Architectural description of CNS: [[Media:CNSPoster.pdf]]. | |||
* Demo abstract of CNS in ICNP 2013: [[Media:CNSPaper.pdf]]. | |||
== Topics == | == Topics == | ||
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|{{Hl2}} |'''Student''' | |{{Hl2}} |'''Student''' | ||
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| Large scale crawling and data analysis | | Large scale crawling and data analysis | ||
| [http://www.net.informatik.uni-goettingen.de/people/mayutan_arumaithurai Mayutan Arumaithurai] | | [http://www.net.informatik.uni-goettingen.de/people/mayutan_arumaithurai Mayutan Arumaithurai] | ||
|| | || | ||
|The team will have to perform a distributed large scale crawl of some popular service/webpage and analyze the obtained meta data. | |The team will have to perform a distributed large scale crawl of some popular service/webpage and analyze the obtained meta data. | ||
| | |Eeeran Maiti | ||
|- | |- | ||
| The Telepathic Phone: Recognition of activities and gestures from WiFi RSSI | | The Telepathic Phone: Recognition of activities and gestures from WiFi RSSI | ||
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[http://www.ettus.com Ettus research (USRP)] | [http://www.ettus.com Ettus research (USRP)] | ||
|Indoor positioning still remains a challenging task | |Indoor positioning still remains a challenging task since GPS does not work indoors and reliable. | ||
In addition, ubiquitously deployed alternatives are not yet available. | |||
Recenty, localisation techniques based on radio frequency measurements has been proposed. | |||
We will provide USRP software defined radio devices and further required hardware equipment to design an accurate RF-based passive indoor localisation system. | We will provide USRP software defined radio devices and further required hardware equipment to design an accurate RF-based passive indoor localisation system. | ||
The students will implement an indoor localisation system based on RF signals. | The students will implement an indoor localisation system based on RF signals. | ||
With the implemented prototype, the student team will participate in the Indoor Localisation Competition [http://ipsn.acm.org/2014/content/pdf/IndoorLocation-CFC.pdf] | With the implemented prototype, the student team will participate in the 2014 IPSN Indoor Localisation Competition [http://ipsn.acm.org/2014/content/pdf/IndoorLocation-CFC.pdf] | ||
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| Mobile phones based Content Notification system for disaster management | |||
| [http://www.net.informatik.uni-goettingen.de/people/mayutan_arumaithurai Mayutan Arumaithurai],[http://www.net.informatik.uni-goettingen.de/people/jiachen_chen Jiachen Chen] | |||
|| | |||
|The team will have to implement a content Notification system for Disaster Management on Mobile phones. | |||
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| [http://research.microsoft.com/en-us/um/redmond/projects/hawaii/students/] | | [http://research.microsoft.com/en-us/um/redmond/projects/hawaii/students/] | ||
| In this project, you will develop a deal sharing project. Different from online deal sharing, which usually concerns the online shopping over an area, this project considers the deal in the supermarket, shops and other real entity shopping places. The scenarios like a person needs to buy a pair of shoes in Goettingen, and he wants to know if there any discount over the city. The traditional way he going to look for the deal shop by shop. This would be time consuming (even online searching). Through our system, a person who see the discount information in the shop will upload it to the server. The server will reply the people asking for discount by push function. This system can also be used for peer-to-peer product trade, like online flea market. Other cloud function like label recognition, search, and location service will also be needed in this project. | | In this project, you will develop a deal sharing project. Different from online deal sharing, which usually concerns the online shopping over an area, this project considers the deal in the supermarket, shops and other real entity shopping places. The scenarios like a person needs to buy a pair of shoes in Goettingen, and he wants to know if there any discount over the city. The traditional way he going to look for the deal shop by shop. This would be time consuming (even online searching). Through our system, a person who see the discount information in the shop will upload it to the server. The server will reply the people asking for discount by push function. This system can also be used for peer-to-peer product trade, like online flea market. Other cloud function like label recognition, search, and location service will also be needed in this project. | ||
| | | thomas.denckev@stud.uni-goettingen.de, Georg Roth-kleyer (georokl@gwdg.de), a.wildschuetz1@stud.uni-goettingen.de | ||
|- | |- | ||