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* Prepare a '''written report''' on the selected topic (12-15 pages, Template:[ftp://ftp.springer.de/pub/tex/latex/llncs/latex2e/llncs2e.zip]) (30%) | * Prepare a '''written report''' on the selected topic (12-15 pages, Template:[ftp://ftp.springer.de/pub/tex/latex/llncs/latex2e/llncs2e.zip]) (30%) | ||
* It is mandatory for all students to '''stick to the deadlines''' mentioned in [[#Schedule]]'''. | * It is mandatory for all students to '''stick to the deadlines''' mentioned in [[#Schedule]]'''. | ||
==Presentation Schedule(26 Feb. 2015)== | |||
*Student Team Supervised by Steph Sigg 2:00pm ~~ 2:30pm | |||
*Student Team Supervised by David Koll 2:30pm ~~ 3:00pm | |||
==Schedule== | ==Schedule== | ||
* '''23 October 2014, 14:00-16:00''': Informational meeting | * '''23 October 2014, 14:00-16:00''': Informational meeting | ||
** Introduction to the course, selection of topics, formation of teams, and discussion of open questions | ** Introduction to the course, selection of topics, formation of teams, and discussion of open questions | ||
* ''' | * '''11 December 2014, 14:00 - 16:00''': Project mid-term presentation | ||
** 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 + | ** Time limit: 15 min presentation + 5 min Q&A | ||
* '''26 February 2015, 14:00 - 16:00''': Project final presentation | **Presentation Schedule | ||
***Implementation and analysis of a location-based community organizer (Hari Raghavendar rao Bandari and Seshagiri Prabhu) | |||
***Recognition of activities and gestures from WiFi RSSI (Gipsa Joseph and Amitbhai Pethani) | |||
* '''26 February 2015, 14:00 - 16:00''': Project final presentation | |||
** 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 | ||
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|The project was asked to crawl news from internet and then recommend them to users according to their interest. | |The project was asked to crawl news from internet and then recommend them to users according to their interest. | ||
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|Research genealogy system | |||
|[http://www.net.informatik.uni-goettingen.de/people/hong_huang Hong Huang] | |||
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|The project was asked to crawl advisor-advisee relationship information from internet and get a genealogy tree for the researchers. | |||
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In case studies, it was observed, that the parameters of the approach need to be adapted in order to provide a good tradeoff between security and usability in environments with varying characteristics such as background noise figure. | In case studies, it was observed, that the parameters of the approach need to be adapted in order to provide a good tradeoff between security and usability in environments with varying characteristics such as background noise figure. | ||
In this project, the students will derive a mechanism to automatically adapt the parameters of the audio-based ad-hoc secure pairing mechanism. | In this project, the students will derive a mechanism to automatically adapt the parameters of the audio-based ad-hoc secure pairing mechanism. | ||
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| Utilising the channel as a calculator for mathematical functions | |||
| [http://www.stephansigg.de Stephan Sigg] | |||
| [http://dx.doi.org/10.1109/IOT.2012.6402311] | |||
| In traditional wireless communication systems, communication load is limited for its large impact on energy resources of nodes. | |||
However, for passive, such as, RFID, backscatter or parasitic nodes, which constitute a significant share of devices in the upcoming Internet of Things (IoT), the main constraint will be computational load rather than energy. | |||
In this project, students will develop and deploy a network of distributed nodes that compute functions on the wireless channel. | |||
USRP Software Defined Radio nodes will be provided to serve as network nodes in this project. | |||
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| Bringing offline social networks on-line | |||
| [http://www.stephansigg.de Stephan Sigg] | |||
| [http://dl.acm.org/citation.cfm?id=2536873] [http://dl.acm.org/citation.cfm?id=2633674] | |||
| Interaction with online social networks has become common in our modern society. | |||
However, continuously updating and maintaining a profile in online social networks can become tedious. | |||
The upcoming Internet of Things may constitute the infrastructure for the next evolution of online-social networks: seamless coalescence with offline social networks. | |||
In this project, the concept of Social Centric Networking to support this development is studied and a demonstrator is developed. | |||
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| Opportunistic social sensing as an enabling technology for smart cities | |||
| [http://www.stephansigg.de Stephan Sigg] | |||
| [http://link.springer.com/chapter/10.1007%2F978-3-662-43984-5_31] [http://dl.acm.org/citation.cfm?id=2633674] | |||
| In recent years, with tremendous advances in areas like mobile devices, algorithms for distributed systems, communication technology or protocols, all basic technological pieces to realise a Smart City are at hand. Missing, however, is a mechanism that bridges these pieces to ease the creation of Smart Cities at a larger scale. In our previous work, an opportunistic sensing platform has been proposed as an enabling technology for smart cities. | |||
In this project, students will develop such opportunistic social sensing platform. | |||
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