More Information
More information can be obtained through the brochure and by contacting the organisers. Please return here as further announcements will be made from time to time.
Location
The Wireless Winter School will be held in the Innovations Building building number 124.
This building is located in map CD32 at grid reference C3.
The Innovations Building is located centrally on the ANU campus, and is within a short walking distance to the union food facilities and accomodation. The map (right) provides relative locations of the lecture theatre and the accomodation.
Poster Session
A poster session is scheduled for Tuesday July 12, from 10:45am until 2pm.
The poster session is an opportunity for attendees to provide recent results in an open and informal atmosphere. The poster allocation is 4xa4 landscape pages across and 3xa4 landscape pages tall or approximately a0 landscape. Poster submissions will not be pubblished.
Please contact Mr. Roy Timo with title and contact details for the session. As there are a limited Posters spots will be allocated on a first-come, first-served basis. Attendees are encouraged to provide posters although this is not required.
WWS Brochure
Download Brochure Here
Downloads
Below are missing presentations and other items mentioned during the WWS
Roslyn Hughes' Presentation Slides
Jamie Evans' Presentation Slides (Random Matrices)
Jinhong Yuan's Presentation Slides(Precoder design for Multiuser MIMO)
Stan Skafidas' Presentation Slides(mm Communication)
Kandeepan's Presentation Slides (DSP Techniques)
Mathematica workbook that was developed during the Mathematica Tutorial
Int. Mathematica Symposium 2005, Aug 3-4 (training), Aug 5, Conference
Functions at Wolfram
Mathworld at Wolfram
Link to Random Matrices Overview by Tulino and Verdu
ANU Student Assignment
To qualify for the 2 points of Graduate training you need to answer the following questions and then email the work to Dr. Mark Reed. Deadline is 29th July 2005.
Do one of the following three tasks (provide software and plots of
results):
1) Implement the LMS algorithm and compare it to the Natural Gradient
LMS algorithm
2) Implement a MMSE Filter for either a multi-user CDMA channel or an
ISI channel
3) Use MATLAB or Mathematica to plot the Ergodic Capacity of a 4x4 MIMO
system over SNR
(optional - develop the analytical algorithm to plot this
also)
Do three of the following tasks: (1/2 page per question is adequate)
1) Explain the concept of water filling. (use external literature
if needed)
2) Explain the purpose of a Rake Receiver
3) Explain the benefits of OFDM modulation and detection over
conventional transmission methods such as BPSK transmission
4) Explain the benefits of seamless networks for mobility
5) Explain the benefits of cross-layer optimisation of radio networks
Enquiries
Posters:
Mr. Roy Timo
General enquiries may be made through either of the organisers:
Dr Mark Reed
T: +61 2 6125 8803
F: +61 2 6230 6121
E: mark.reed at nicta.com.au
Dr Leif Hanlen
T: +61 2 6125 8806
F: +61 2 6230 6121
E: leif.hanlen at nicta.com.au
Wireless Signal Processing Program
National ICT Australia
Canberra Laboratory
Level 2, Nouvelle House
216 Northbourne Ave
Braddon ACT 2612
