Seminar on Internet Technologies (Summer 2014): Difference between revisions

Line 36: Line 36:
|{{Hl2}} |'''Topic advisor'''
|{{Hl2}} |'''Topic advisor'''
|{{Hl2}} |'''Initial readings'''
|{{Hl2}} |'''Initial readings'''
|-
|-
|style="width: 60%;"|
'''NDN - A content centric networking proposal (selected by Hossein Salahi & Mohammad Abouzar & Eeran Maiti & Sripriya)'''
Content Centric Networking (CCN) is a new ambitious proposal to replace the IP protocol. A better and faster content distribution, improved privacy, integrated cryptography and easy P2P communication are among the key elements of this architecture. On the other hand problems like efficiency and scalability of the name-based routing, support of existing application and new ones and the possibility to actually deploy this technology are still open and actively discussed, making CCN one of the most active research field in networking.
By choosing this topic you will gain a general knowledge of the architecture proposed by the NDN researchers and will have to gain insight into one of the problems like routing or security, or solutions (i.e. applications on top of NDN).
  - Topics available: Routing, Congestion control, network management, security, Mobile&vehicular, Evaluation strategy
  -- DTN: Hossein Salahi
  -- Routing: Mohammad Abouzar
  -- Congestion control: Sripriya
  -- Network Management: Prabhu Sharma
- [http://named-data.net/wp-content/uploads/2013/10/ndn-annualreport2012-2013.pdf NDN technical report]
- [http://tools.ietf.org/pdf/draft-pentikousis-icn-scenarios-04.pdf  ICN Base line scenarios]
| [https://www.net.informatik.uni-goettingen.de/people/edo_monticelli Edo Monticelli]
|For general introduction:
*[http://named-data.net/a-new-way-to-look-at-networking/ Video presenting NDN]
*[http://named-data.net/wp-content/uploads/Jacob.pdf First proposal on Content Centric Networking]
*[http://tools.ietf.org/pdf/draft-pentikousis-icn-scenarios-04.pdf  ICN Base line scenarios]
|-
|
'''Random Matrix Theory for signal processing '''
Random matrix theory has numerous applications in physics, statistics and engineering.
Although initially motivated by practical experimental problems, random matrices are now used in very diverse fields including physics, mathematics, but also neural networks, information theory and signal processing.
The student will recapitulate the basic concepts of random matrix theory and summarise recent advances in this field with relation to signal processing, in particular in communications.
| [http://www.stephansigg.de Stephan Sigg]
|For general introduction:
*[http://books.google.de/books/about/Random_Matrix_Methods_for_Wireless_Commu.html?id=_j7pT9HjKAUC&redir_esc=y]
|-
|
'''Software defined networking for an environment-reactive system behaviour (selected by Mostafizur Rahman)'''
With the advancement of Software Defined Networking (SDN) research over recent years, network components have become accessible and controllable from the application layer.
With this flexibility, a network could now react on environmental stimuli.
Therefore, it might be possible to configure network parameters spontaneously
* to adapt to instantaneous needs
* for proactive network behaviour
* to maintain network operation in the case of disaster
* ...
The student will summarise the chances and challenges of Software Defined Networking with special focus on environment-reactive behaviour.
| [http://www.stephansigg.de Stephan Sigg]
|For general introduction:
*[http://bit.ly/LpV2lD]
|-
|
'''Amazon Mechanical Turk, oDesk and others: The Use of Crowd-Sourcing in Research (selected by Alberto Riuera Diaz)'''
| [http://user.informatik.uni-goettingen.de/~dkoll/ David Koll]
|For general introduction:
*[http://en.wikipedia.org/wiki/Crowdsourcing]
*[http://dl.acm.org/citation.cfm?id=1864504]
|-
|
'''Community detection in Delay Tolerant Networks'''
| [http://user.informatik.uni-goettingen.de/~kzhu/ Konglin Zhu]
|For general introduction:
*[http://mcn.cse.psu.edu/paper/xiaomei-zhang/zhang-icnp13.pdf]
*[http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.121.6879&rep=rep1&type=pdf]
|-
|
'''Virtual Machine Allocation (Selected by Thack, Nauyen)'''
| [http://www.net.informatik.uni-goettingen.de/people/ Yuan Zhang]
|For general introduction:
*[http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6566848&tag=1]
*[http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6566850]
|-
|
'''The Architecture of Mobile Crowd Sensing'''
An emerging category of devices at the edge of the Internet are consumer-centric mobile sensing and computing
devices, such as smartphones, music players, and in-vehicle sensing devices. These devices will fuel the evolution of the Internet
of Things as they feed sensor data to the Internet at a societal scale. However, deploying mobile crowdsensing appli-
cations in real life is not a trivial task.
The student will gain a general knowledge of existing Crowdsensing Architectures and should summarise the chances and challenges
of exploiting the cloud or social relation for Mobile Crowdsensing.
| [http://www.net.informatik.uni-goettingen.de/people/ Lingjun Pu]
|For general introduction:
*[https://wiki.engr.illinois.edu/download/attachments/180846616/paper_fanye.pdf?version=1]
*[http://delivery.acm.org/10.1145/2510000/2505502/p25-tuncay.pdf]
*[http://www.hotmobile.org/2014/papers/full/1.pdf]
|-
|}


==Workflow==
==Workflow==
599

edits