| Record ID | marc_columbia/Columbia-extract-20221130-007.mrc:215207910:3513 |
| Source | marc_columbia |
| Download Link | /show-records/marc_columbia/Columbia-extract-20221130-007.mrc:215207910:3513?format=raw |
LEADER: 03513mam a22003494a 4500
001 3185805
005 20221020003743.0
008 011012s2002 maua b 001 0 eng
010 $a 2001053969
015 $aGBA1-U6872
020 $a0792376188 (alk. paper)
035 $a(OCoLC)ocm48176898
035 $9AUD0228CU
035 $a3185805
040 $aDLC$cDLC$dUKM$dC#P$dOrLoB-B
042 $apcc
050 00 $aTK5103.45$b.M83525 2002
082 00 $a621.382$221
245 00 $aMulti-carrier technologies for wireless communication /$cby Carl R. Nassar [and others].
260 $aBoston, MA :$bKluwer Academic Publishers,$c2002.
300 $axvi, 198 pages :$billustrations ;$c25 cm
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
504 $aIncludes bibliographical references and index.
505 00 $g1.$tIntroduction.$tMulti-Carrier Technology and Carrier Interferometry: A Quantum Leap?$tUnification --$g2.$tOverview of Multi-Carrier Technologies.$tMulti-Carrier Technologies: Past and Present.$tThe Carrier Interferometry (CI) Approach.$tCI/MC-CDMA: The Application of the CI Signal to MC-CDMA.$tCI/TDMA: Multi-Carrier Implementations of TDMA and the Demise of the Equalizer.$tCI/DS-CDMA: A Multi-Carrier Implementation of DS-CDMA and the Demise of the RAKE receiver.$tCI/OFDM: Increasing Performance and Throughput in OFDM and Eliminating the PAPR Problem --$g3.$tHigh-Performance High-Capacity MC-CDMA for Future Generations: The CI Approach.$tCI/MC-CDMA Signaling and Transmitter Model.$tChannel Model.$tReceiver Structures.$tPerformance Results.$tCrest Factor Considerations in CI/MC-CDMA.$gApp. 3A.$tDetermining the Phases Minimizing Root Mean Square Correlation --$gApp. 3B.$tHow to Generate Correlated Rayleigh Envelopes for Use in Simulations --
505 80 $gApp. 3C.$tDerivation of MMSE Combiner in CI/MC-CDMA Receiver --$g4.$tHigh Performance, High Throughput TDMA via Multi-Carrier Implementations.$tCI Pulse Shaping in TDMA.$tChannel Model.$tCI/TDMA Receiver.$tPerformance Results --$g5.$tHigh-Performance, High-Capacity DS-CDMA via Multicarrier Implementation.$tReview of DS-CDMA.$tNovel Multi-carrier Chip Shapes and Novel Transmitters for DS-CDMA.$tNovel Receiver Design for CI/DS-CDMA.$tHigh-capacity DS-CDMA via Pseudo-Orthogonal CI Chip Shaping.$tHigh Performance, High Capacity via a Second Pseudo-Orthogonal Chip Shaping.$tChannel Model.$tCharacterizing Performance Gains and Network Capacity Improvements in CI/DS-CDMA --$g6.$tHigh-Performance, High-Throughput OFDM with Low PAPR via Carrier Interferometry Phase Coding.$tNovel CI Codes and OFDM Transmitter Structures.$tNovel OFDM Receiver Structures.$tChannel Modeling.$tPerformance Results.$tPeak to Average Power Ratio Considerations --
505 80 $g7.$tThe Marriage of Smart Antenna Arrays and Multi-Carrier Systems: Spatial Sweeping, Transmit Diversity, and Directionality.$tSmart Antennas with Spatial Sweeping.$tChannel Modeling for Spatial Sweeping Smart Antennas: Establishing the Available Transmit Diversity.$tInnovative Combining of Multi-Carrier Systems and Smart Antennas with Spatial Sweeping.
650 0 $aSpread spectrum communications.$0http://id.loc.gov/authorities/subjects/sh85126995
650 0 $aMultiplexing.$0http://id.loc.gov/authorities/subjects/sh85088380
650 0 $aSignal processing.$0http://id.loc.gov/authorities/subjects/sh85122397
700 1 $aNassar, Carl,$d1968-$0http://id.loc.gov/authorities/names/n00005568
852 00 $boff,eng$hTK5103.45$i.M83525 2002