Utilising convolutions of random functions for calculations on the RF-channel: Difference between revisions
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(Created page with "== Details == {{Project Description |supervisor=[http://www.stephansigg.de Stephan Sigg] |duration=3-6 months |type=Bachelor/Master Thesis or Student Project |status=open }} == ...") |
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{{Project Description | {{Project Description | ||
|supervisor=[http://www. | |supervisor=[http://www.net.informatik.uni-goettingen.de/people/stephan_sigg Stephan Sigg] | ||
|duration=3-6 months | |duration=3-6 months | ||
|type=Bachelor/Master Thesis or Student Project | |type=Bachelor/Master Thesis or Student Project | ||
Latest revision as of 15:44, 22 September 2014
Details
| Supervisor: | Stephan Sigg |
| Duration: | 3-6 months |
| Type: | Bachelor/Master Thesis or Student Project |
| Status: | open |
Project Description
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 [1]. USRP Software Defined Radio nodes will be provided to serve as network nodes in this project.
Required Skills
- Natural curiosity, high motivation and a good sense of creativity :)