 POSTDOCTORAL |
|
|
| DOCTORAL |
|
|
| POSTGRADUATE |
|
|
| UNDERGRADUATE |
|
|
| OTHER RESOURCES |
|
|
| INCOMING KEYWORDS |
Degree British Sponsorship University, Beasiswa S2 Kepri Ke Malaysia 2013, Bea Siswa, SEKOLAH SIEMENS, Beasiswa Paris, Bursa Beasiswa S1, Bursa Beasiswa S1, Beasiswa, Asian Institute Of Management Scholarship, Yhs Ifm1, Postdoc Fellowship Biology Malaysia, Master Of Public Health In Netherland, Scholarship For International Students In Malaysia, Scolarship P Hd International Student Latvia And Malashia, Scholarship Program In The Philippines In MBA, Beasiswa Komunikasi S1, Beasiswa, Beasiswa, Bursa Beasiswa 2013, Bursa Beasiswa 2013, ...
|
|
| Table './bbsvects_bbsnewdb/nuke_iptracking' is marked as crashed and should be repaired
Table './bbsvects_bbsnewdb/nuke_iptracking' is marked as crashed and should be repaired
Table './bbsvects_bbsnewdb/nuke_iptracking' is marked as crashed and should be repaired
 |
|
|
[France] PhD Position at CITI Lab - INSA Lyon, France; and Ranplan Wireless Network Design Ltd.- UK
In the framework of the iPLAN European project the aim of this thesis is to enhance the computational efficiency and to adjust the complexity-accuracy trade-off of the MR-FDPF (Multi-Resolution Frequency Domain Partial Flows) method for indoor radio coverage prediction. This method, particularly efficient for indoor propagation, is devoted to be implemented in a radio network planning tool. This tool needs to propose all kind of modern radio link conditions: indoor, outdoor, indoor to outdoor, outdoor to indoor, for 3G/4G, WLAN or WMAN (WiMax), from macrocells to femtocells.
Thus, the study will contain four main parts:
- computational efficiency enhancement of the MR-FDPF method;
- implementation of statistical analysis of radio channel behaviour rather than only considering mean power level;
- integration of our indoor propagation tool into a wide areas simulation tool with other propagation methods such as ray-tracing in collaboration with other partners;
- measurement campaigns and model calibration.
The PhD candidate will work the first year in the CITI Lab of INSA Lyon in order to propose all possible enhancements on the MR-FDPF method and will be associated to the SWING INRIA project team (at INSA Lyon, France). Then he will spend two years seconded in Ranplan Wireless Network Design Ltd, partnet of the iPLAN project (located in Luton, UK). Ranplan`s R&D department is expected to launch an automatic planning tool, and the results of this work will contribute to this innovating tool.
References:
- G. de La Roche, K. Jaffres-Runser and J-M. Gorce. "On predicting Indoor WLAN coverage with a fast discrete approach," International Journal of Mobile Network Design and Innovation. Vol 2, No 1, 2007, pp.3-12
- J-M. Gorce, K. Jaffres-Runser and G. De La Roche. "Deterministic Approach for Fast Simulations of Indoor Radio Wave Propagation," IEEE Transactions on Antennas and Propagation. Vol 55, Issue 3, Part 2, March 2007, pp.938-948.
Contacts: guillaume.villemaud{a-t}insa-lyon.fr; jean-marie.gorce{a-t}insa-lyon.fr
|
|
| |
|
|
