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| Paper: | SS-3.6 |
| Session: | Wireless Communications over Rapidly Time-Varying Channels |
| Time: | Tuesday, May 18, 16:55 - 17:12 |
| Presentation: |
Special Session Lecture |
| Topic: |
Special Sessions: Wireless Communications over Rapidly Time-Varying Channels |
| Title: |
ON THE DESIGN OF NON-(BI)ORTHOGONAL PULSE-SHAPED FDM FOR DOUBLY-DISPERSIVE CHANNELS |
| Authors: |
Philip Schniter; Ohio State University | | |
| Abstract: |
We consider the design of max-SINR pulse-shaped (PS) frequency domain modulation (FDM), where signal to interference-plus-noise ratio (SINR) is defined in accordance with inter-symbol and inter-carrier interference (ISI/ICI) shaping rather than complete ISI/ICI suppression. Because the transmitter is assumed to know the channel scattering function but not the channel realization, the resulting max-SINR pulses are non-(bi)orthogonal. For this case, numerical results suggest that max-SINR systems designed for ISI/ICI-shaping achieve higher outage capacity than those designed for ISI/ICI-suppression. An outage capacity analysis is also used to obtain rough design guidelines for max-SINR non-(bi)orthogonal PS-FDM, since the design paradigm differs from that of (bi)orthogonal PS-FDM. |
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