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Implementation of OFDM Transmitter based on the IEEE 802.16d Standard
Presented by: Altamash Janjua, Umar Chohan
Supervisors: Dr. Brian L. Evans and Mr. Ian Wong
Technical TA:Mr. Youngok Kim
Date: 2nd December, 2004
Why is it Important to You?
Tremendous Growth of Wireless Communications
Wireless Metropolitan Area Networks (WMANs)
Future Projects in the Industry www.gettyimages.com
Presentation Organization
Introduction Transmitter Block Diagram IEEE 802.16d Standards Transmitter Implementation Design Testing and Validation Budget Constraints and Safety Features Future Recommendations Conclusion
Signals and Modulation
Continuous-time and Discrete-time signals
Modulation : Carrier Amplitude and/or Frequency
t
x(t)
http://www.ece.utexas.edu/~bevans
What Is Orthogonal Frequency Division Multiplexing (OFDM)?
Multi-carrier Amplitude modulationscheme– Each Carrier’s amplitude is modulated
Well-suited for Wireless Communication
www.iec.org/online/ tutorials/ofdm/topic04.html
Am
plitu
de
Frequency
How OFDM works?
Parallel Data Streams
Data Encoding is based on Amplitude Modulation
Multiple Carriers are combined through the Fourier Series– Computed by Inverse Fast
Fourier transform4-QAM modulation
Our Simple Transmitter Block Diagram
Channel
SerialTo
Parallel
Encoding Bank
IFFT Parallel To
Serial
CyclicPrefixSerial
Data Source
Transmitter based on the IEEE 802.16d Standard
Upcoming Standard for Wireless Metropolitan Area Networks (WMANs)
Specifications Used– 256 FFT– 56 guard carriers– 16- QAM– Pilots and Guards
Transmitter Implementation
National Instruments Lab VIEW FPGA
VHDL and Lab VIEW programming
One Main Virtual Instrument (VI)– 16-QAM Encoding Bank – 256 point Complex IFFT core developed by
Xilinx Inc.– Cyclic Prefix Module
Testing and Validation
Individual Modules Tested through Software Simulations
Developing a Host PC VI for the Testing of final Hardware
Sample test results provided in the IEEE 802.16d Standard
Safety Precautions
Fundamental Canon of Engineering:
“Hold Paramount Public Health and Safety”
Repeated Design Testing for Functional Verification and Robustness
Additional Indicators for Warningswww.gettyimages.com
Budget Constraints
No Purchases Involved
Hardware and Software Provided by Supervisors
Time-Consuming
Currently testing the designwww.gettyimages.com
Future Transmitter Implementations
Conventional Field Programmable Gate Arrays
Digital Signal Processors
Application Specific Integrated Circuits
www.gettyimages.com
Acknowledgements
Supervisors:– Dr. Brian L. Evans – Mr. Ian Wong
Technical Teacher Assistant:– Mr. Youngok Kim
Conclusion
Thank You!!
Questions??
www.gettyimages.com
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