| Session |
Submitting/Additional Authors |
Affiliation |
Title |
|
Session 1.1 - E2R Systems, Chair: Didier Bourse
|
| 1.1 |
Dolwin, C. |
Toshiba Research Europe |
POWER EFFICIENT AND REAL-TIME CONFIGURATION OF RESOURCES IN AN END-TO-END RECONFIGURABLE SYSTEM |
| 1.1 |
Gultchev, S. |
University of Surrey |
CONTROL MECHANISM TO ENABLE EQUIPMENT RECONFIGURATION AND FACILITATE OPERATION OF E2R SYSTEMS |
| 1.1 |
Bourse, D., Karim El-Khazen, Klaus Moessner, N. Alonistioti |
Motorola |
END-TO-END RECONFIGURABILITY (E2R) II: TOWARDS SEAMLESS EXPERIENCE |
| 1.1 |
Bourse, D., Karim El-Khazen, Klaus Moessner, N. Alonistioti |
Motorola |
END-TO END RECONFIGURABILITY: KEY ACHIEVEMENTS AND LEARNING OF PHASE I (2004-2005) |
|
Session 1.2 - Reconfigurable HW, Chair: Christophe Moy
|
| 1.2 |
Pelt, R. |
Altera |
LOW POWER SOFTWARE DEFINED RADIO DESIGN USING FPGAS |
| 1.2 |
Lin, Y., Yoav Harel, Mark Woh, Nadav Baron, Hyunseok Lee, Scott Mahlke, Trevor Mudge, Kristian Flautner |
University of Michigan |
A SYSTEM SOLUTION FOR HIGH-PERFORMANCE, LOW-POWER SDR |
| 1.2 |
Neel, J., Jeff Reed, Max Robert |
Virginia Tech |
A FORMAL METHODOLOGY FOR ESTIMATING THE FEASIBLE PROCESSOR SOLUTION SPACE FOR A SOFTWARE RADIO |
| 1.2 |
Moy, C., Jean-philippe Delahaye, Pierre Leray, Jacques Palicot |
Supelec |
MANAGING DYNAMIC PARTIAL RECONFIGURATION ON HETEROGENEOUS PLATFORMS |
|
Session 1.3 - Circuits & Chips 1, Chair: Changsik Yoo
|
| 1.3 |
harris, f., Kartik Nagappa |
San Diego State University |
ON THE MOST EFFICIENT M-PATH RECURSIVE FILTER STRUCTURES AND USER FRIENDLY ALGORITHMS TO COMPUTE THEIR COEFFICIENTS |
| 1.3 |
Wegener, A. |
Samplify |
SAMPLIFY: LOSSLESS AND LOSSY SAMPLED DATA COMPRESSION FOR SDR |
| 1.3 |
Linn, C. |
Harris |
CLOCK CORRECTION DESIGN CONSIDERATIONS IN SOFTWARE-DEFINED RADIO COMMUNICATIONS SYSTEMS |
| 1.3 |
Hole, C. |
HYPRES |
SIGNAL PROCESSING IN WIRELESS COMMUNICATIONS - THE CASE FOR THE HIGHEST CLOCK SPEEDS |
|
Session 1.4 - Circuits & Chips 2, Chair: Hyeongdong Kim
|
| 1.4 |
Palat, R., Jina Kim, Jong Suk Lee, Dr. Dong S. Ha, Dr. Cameron Patterson, Dr. Jeffrey H. Reed |
Virginia Tech |
RECONFIGURABLE MODEM ARCHITECTURE FOR CDMA BASED 3G HANDSETS |
| 1.4 |
Ye, Z., John Grosspietsch |
Motorola |
AN ALL DIGITAL QAM MODULATOR WITH RADIO FREQUENCY OUTPUT |
| 1.4 |
Kunisawa, Y. |
KDDI |
STUDY ON A MULTIPLE SIGNAL RECEIVER USING UNDERSAMPLING SCHEME |
| 1.4 |
Hickling, R.,O. Panfilov, T. Turgeon, M. yagi |
TechnoConcepts |
DESIGN CONSIDERATIONS FOR THE FRONT END OF FREQUENCY AGILE SDR RECEIVERS |
|
Session 1.5 - Circuits & Chips 3, Chair: Jaehoon Choi
|
| 1.5 |
Bluethgen, H.-M., W. Raab, D. Langen, A. Schackow, M. Loew, U. Hachmann |
Infineon |
FINDING THE OPTIMUM PARTITIONING FOR MULTI-STANDARD RADIO SYSTEMS |
| 1.5 |
Choi, B., Dongsoo Kim, Wonseok Lim |
Hangyang University |
PRINTED CIRCUIT BOARD WINDINGS-BASED ULTRA LOW-PROFILE POWER CONDITIONING CIRCUITS FOR SDR APPLICATION SYSTEMS |
| 1.5 |
McNamara, B., Chris Ward |
Stretch Inc. |
IMPLEMENTING 802.16-2004 SDR USING A SOFTWARE-CONFIGURABLE PROCESSOR |
|
Session 1.6 - Circuits and Chips 4, Chair: Byungjo Choi
|
| 1.6 |
Baheshti, B., John Glossner |
Sandbridge |
SOFTWARE DEFINED RADIO IMPLEMENTATION CONSIDERATIONS AND PRINCIPLES USING THE SANDBLASTER™ SDR BASEBAND PROCESSOR |
| 1.6 |
Eichenberg, T. |
Morpho Technologies |
MOBILE SOFTWARE DEFINED RADIO SOLUTION USING HIGH PERFORMANCE LOW POWER RECONFIGURABLE DSP ARCHITECTURE |
| 1.6 |
Lau, D. |
Altera |
THE USE OF HARDWARE ACCELERATION IN SDR WAVEFORMS |
|
Session 2.1 - Comm Theory 1, Chair: Seungwon Choi
|
| 2.1 |
Chan, A., Raghu Madyastha, Piotr Indyk, David Karger |
Vanu |
LOCAL DECODING OF WALSH CODES TO REDUCE CDMA DESPREADING COMPUTATION |
| 2.1 |
Choi, S., Yusuk Yun |
Hangyang University |
ON ENHANCING THE PN CODE ACQUISITION UTILIZING THE SMART ANTENNA SYSTEM IN DS/CDMA SIGNAL ENVIRONMENT |
| 2.1 |
Nicolay, T., Thomas Kuhwald, Andrew Schaefer, Thorben Detert |
Rohde&Schwarz |
BROADBAND HIGH DATA RATE SIGNALS IN SPACE FOR MILITARY APPLICATIONS WITH CODED OFDM |
| 2.1 |
Matthews, S. |
RF Engines |
FLEXIBLE ARCHITECTURES FOR WIDEBAND SDR CHANNELISATION |
|
Session 2.2 - Comm Theory 2, Chair: fred harris
|
| 2.2 |
harris, f., Sinjeet Parekh, Itzhak Gurantz |
San Diego State University, Entropic |
I-Q BALANCING TECHNIQUES FOR BROADBAND RECEIVERS |
| 2.2 |
Ryu, N.K., Seungwon Choi, Jeffrey H. Reed, Bruce Fette |
Hangyang University |
SMART ANTENNA API FOR SDR NETWORK |
| 2.2 |
harris f., Chris Dick, S. Seshagir, Karl Moerder |
San Diego State University, Xilinx, Broadband Innovations |
AN IMPROVED SQUARE-ROOT NYQUIST SHAPING FILTER |
|
Session 2.3 - Signal Processing For SDR, Chair: Ruediger Leschhorn
|
| 2.3 |
Lee, C.H., HyungRok Park, Jong Ho Park, Jeong Kim, Seong Keun Kim |
SeoKyeong Univ |
A NOVEL SPACE-TIME MIMO CHANNEL MODEL |
| 2.3 |
Lee, C.H., HyungRok Park, Jong Ho Park, Jeong Kim, Seong Keun Kim |
SeoKyeong Univ |
SDR BASED MIMO-OFDM SYSTEM FOR FUTURE WIMAX |
| 2.3 |
Pucker, L. |
Spectrum Signal Processing |
FINDING MIMO: A PROPOSED MODEL FOR INCORPORATING MULTIPLE INPUT, MULTIPLE OUTPUT TECHNOLOGY INTO SOFTWARE DEFINED RADIOS |
|
Session 2.4 - Waveform Design, Chair: John Bard
|
| 2.4 |
Le, B., T. Rondeau, D. Maldonado, C. Bostian |
Virginia Tech |
MODULATION IDENTIFICATION USING NEURAL NETWORKS FOR COGNITIVE RADIOS |
| 2.4 |
Cesear, T., Ramon Uribe |
AccelChip |
EXPLORATION OF LEAST-SQUARES SOLUTIONS OF LINEAR SYSTEMS OF EQUATIONS WITH FIXED-POINT ARITHMETIC HARDWARE |
| 2.4 |
Grassmann, C. |
Infineon |
MAPPING WAVEFORMS TO MOBILE PARALLEL PROCESSOR ARCHITECTURES |
| 2.4 |
Bard, J. |
Space Coast Communication |
DEPLOYMENT OF RE-ENTRANT WAVEFORMS |
|
Session 2.5 - Networking & Security 1, Chair: Christian Serra
|
| 2.5 |
Rhee, B., Mungi Kim |
Hangyang University |
DESIGN OF SECURITY ARCHITECTURE FOR SDR SYSTEM |
| 2.5 |
Welch, V., Patrick Flanigan |
National Center for Supercomputing Applications |
DYNAMIC POLICY ENFORCEMENT FOR SOFTWARE DEFINED RADIO |
| 2.5 |
Feng, J. |
Altera |
DESIGN SECURITY WITH WAVEFORMS |
|
Session 2.6 - Networking & Security 2, Chair: David Murotake
|
| 2.6 |
Gandi, M. |
Booz Allen Hamilton |
A HOLISTIC NETWORKING PERSPECTIVE ON MOBILE TACTICAL NETWORKS FOR THE DEPARTMENT OF THE DEFENSE |
| 2.6 |
Falk, R., François Haettel, Ulf Lücking, Eiman Mohyeldin |
Siemens |
AUTHORIZATION OF SDR SOFTWARE USING COMMON SECURITY TECHNOLOGY |
| 2.6 |
Murotake, D., A. Martin |
SCA Technica |
UPDATED SYSTEM THREAT AND REQUIREMENTS ANALYSIS FOR HIGH ASSURANCE SOFTWARE DEFINED RADIOS |
| 2.6 |
Gallery, Eimar, Allan Tomlinson |
University of London |
PROTECTION OF DOWNLOADABLE SOFTWARE ON SDR DEVICES |
|
Session 3.1 - SCA 1, Chair: Rodger Hosking
|
| 3.1 |
Hosking, R. |
Pentek |
ACHIEVING SCA COMPLIANCE FOR FPGA AND DSP COTS HARDWARE |
| 3.1 |
Turner, M. |
Harris |
SOFTWARE DEFINED RADIO SOLUTIONS EXPERIENCE MAKING JTRS WORK, FROM THE SCA, TO WAVEFORMS, TO SECURE RADIOS |
|
Session 3.2 - SCA 2, Chair: Mark Turner
|
| 3.2 |
Moore, M., Mike Pilcher, Max Robert |
Southwest Research Institute |
"SDR ON A CD": AN SDR TEST-BED FOR WAVEFORM PROTOTYPING |
| 3.2 |
Bicer, M. |
Mercury Company |
USING GENERIC COMPONENT ENVIRONMENTS IN JTRS RADIOS |
| 3.2 |
Belanger, L., Maxime Dumas |
Lyrtec |
DEVELOPMENT OF A SCA 3.1 COMPLIANT W-CDMA WAVEFORM ON DSP/FPGA SPECIALIZED HARDWARE |
| 3.2 |
Cole, A., Steven Franklin, Lyle Wagner, Robin Addison |
MDA Corp |
IMPLEMENTATION OF A 2 MBPS SCA-ENABLED OVER-THE-AIR MILITARY SATELLITE COMMUNICATIONS TERMINAL |
|
Session 3.3 - Middleware 1, Chair: Sam Aslam Mir
|
| 3.3 |
Gultchev, S., K. Moessner, R. Tafaz |
|
VERIFICATION OF SOFTWARE RECONFIGURATION PLATFORMS |
| 3.3 |
Aubrey, D. |
General Dynamics C4 Systems |
CLUSTER 5: CONTROLLING THE PROGRAM THROUGH MANAGING REQUIREMENTS |
| 3.3 |
Aslam-Mir S. |
PrismTech |
ON A LOW PROFILE MAPPING OF THE OMG BASED SOFTWARE BASED COMMUNICATIONS MODELS FOR ACHIEVING ASPECTS OF COMMERCIAL SDR |
|
Session 3.4 - Middleware 2, Chair: Murat Bicer
|
| 3.4 |
Gelonch, A., Vuk Marojevik |
Iniversitat Politecnica de Catalunya |
P-HAL: A MIDDELWARE FOR SDR APPLICATIONS |
| 3.4 |
Schinnenburg, M., F. Debus, A. Otyakmaz, L. Berlemann |
Aachen University |
A FRAMEWORK FOR RE-CONFIGURABLE FUNCTIONS OF MULTI-MODE PROTOCOL |
| 3.4 |
Aslam-Mir S. |
PrismTech |
PRACTICAL EXPERIENCES OF USING THE OMG's EXTENSIBLE TRANSPORT FRAMEWORK (ETF) UNDER A REAL-TIME CORBA ORB TO IMPLEMENT QOS SENSITIVE CUSTOM TRANSPORTS FOR SDR |
| 3.4 |
Beckwith, W. |
Objective Interface Systems |
MIDDLEWARE FOR DSPs AND FPGAs |
|
Session 3.5 - SW Tools & Languages 1, Chair: Lee Pucker
|
| 3.5 |
Hogg, J. |
Zeligsoft |
CONNECTING THE DOTS: NATURALLY REPRESENTING YOUR SCA CONNECTIONS |
| 3.5 |
Trask, B., Dominick Paniscotti, Angel Roman, Vikram Bhanot |
PrismTech |
USING DOMAIN-SPECIFIC MODELING AND MODEL DRIVEN DEVELOPMENT TO DEVELOP SOFTWARE DEFINED RADIO COMPONENTS AND APPLICATIONS |
| 3.5 |
Uhm, M., David Haessig, Jim Hwang, Robert Regis, Sean Gallagher, Andrew Comba |
Xilinx |
A CASE STUDY OF XILINX’S SYSTEM GENERATOR DESIGN FLOW FOR RAPID DEVELOPMENT OF SDR WAVEFORM |
| 3.5 |
Wesseling, M. |
Siemens |
MODELING LANGUAGE FOR SOFTWARE DEFINED RADIO APPLICATIONS |
|
Session 3.6 - SW Tools & Languages 2, Chair: TBD
|
| 3.6 |
Kostic, Z., Alex Rodriguez |
MathWorks |
SDR-TARGETED DESIGN FLOW: FROM EXECUTABLE SPECIFICATION TO SIGNAL PROCESSING SUBSYSTEM CODE GENERATION AND SCA-FOCUSED TOOL INTEGRATION |
| 3.6 |
McNamara, B., Joe Hanson |
Stretch Inc |
ACCELERATING COMPUTE INTENSIVE FUNCTIONS USING "C" AND SOFTWARE-CONFIGURABLE PROCESSORS |
| 3.6 |
Moy, C., Samuel Rouxel, Jean-Philippe Diguet, Nicolas Bulteau, Jonathan Carre-Gourdin, Jean-Etienne Goubard |
Supelec |
UML FRAMEWORK FOR PIM & PSM VERIFICATION OF SDR SYSTEMS |
| 3.6 |
Giddings, V. |
Objective Interface Systems |
HIGH-ASSURANCE CORBA FOR SOFTWARE-BASED COMMUNICATIONS |
|
Session 4.1 - System Implementation 1, Chair: Chris Anderson
|
| 4.1 |
Lee, B.W., Sung Ho Cho |
Hangyang University |
AN IMPLEMENTATION OF THE SDR BASEBAND PLATFORM FOR OFDM COMMUNICATION SYSTEMS |
| 4.1 |
Palum, L. |
Harris |
CRITICAL FACTORS FOR APPLICATION INSTALLATION ON SOFTWARE DEFINED RADIO PLATFORMS |
| 4.1 |
Anderson, C. R., Jeffrey H. Reed |
Virginia Tech |
PERFORMANCE ANALYSIS OF A TIME-INTERLEAVED SAMPLING ARCHITECTURE FOR A SOFTWARE DEFINED ULTRA WIDEBAND RECEIVER |
| 4.1 |
harris, f., B. Egg |
San Diego State University |
ROBUST FPGA IMPLEMENTATION: ULTRA-WIDEBAND 1.6 GHZ CHANNELIZER |
|
Session 4.2 - System Implementation 2, Chair: John Chapin
|
| 4.2 |
Brannon, B. |
Analog Devices Inc. |
UNDERSTANDING STATE OF THE ART IN ADCS |
| 4.2 |
Chapin, J., Gerald Britton, Byron Kubert |
Vanu |
RF OVER ETHERNET FOR WIRELESS INFRASTRUCTURE |
| 4.2 |
Belisle, C., Stéphane Paquet, Joe Seregelyi, Guohua Qi, Jianping Yao |
CRC |
ALL-OPTICAL MICROWAVE FRONT END FOR SDR |
| 4.2 |
Pilcher, M., Gary Ragsdale |
Southwest Research Institute |
TEST RESULTS FOR A DIGITAL PREDISTORTION SYSTEM FOR 3G CELLULAR TELEPHONY |
| 4.2 |
Ford, J R., Kyusun Choi, Steven M. Brown |
Penn State |
A SINGLE SEMESTER SOFTWARE DEFINED RADIO TRANSCEIVER IMPLEMENTATION IN A XILINX SPARTAN-3 FPGA |
|
Session 4.3 - Spectrum Management & Cognitive Radio 1, Chair: Tom Rondeau
|
| 4.3 |
Berthold, U., Friedrich K. Jondral |
Universitaet of Karlsruhe |
GENERALIZED SYSTEM MODEL OF AN OVERLAY ENVIRONMENT |
| 4.3 |
Gandetto, M., A. F. Cattoni, C. S. Regazzoni |
University of Genova |
A DISTRIBUTED APPROACH TO MODE IDENTIFICATION AND SPECTRUM MONITORING FOR COGNITIVE RADIOS |
| 4.3 |
Janka, R. |
Argon ST |
SYSTEM CONSIDERATIONS FOR AUTONOMOUS DYNAMIC SPECTRUM UTILIZATION |
| 4.3 |
Luo, J., C. Kloeck, K, Moessner, D. Grandblaise, P. Demestichas, G. Dimitrakopoulos, E. Mohyeldin, O. Sallent |
Siemens |
INTER-OPERATOR FLEXIBLE SPECTRUM MANAGEMENT V.S. ROAMING |
|
Session 4.4 - Spectrum Management & Cognitive Radio 2, Chair: Jody Neel
|
| 4.4 |
Moessner, K., V. Rodriguez, G.Dimitrakopoulos, P. Demestichas, J. Luo, D. Grandblaise |
University of Surrey |
DYNAMIC RADIO RESOURCE ALLOCATION STRATEGIES AND TIME SCALES |
| 4.4 |
Baclawski, K., D. Brady, M. Kokar |
Northeastern Univ. |
ACHIEVING DYNAMIC INTEROPERABILITY OF COMMUNICATION AT THE DATA LINK LAYER THROUGH ONTOLOGY BASED REASONING |
| 4.4 |
Ianculescu, C., Andy Mudra |
Booz Allen Hamilton |
COGNITIVE RADIO AND DYNAMIC SPECTRUM SHARING |
| 4.4 |
Nolan, K., Linda Doyle, Philip Mackenzie, Donal O’Mahony |
Trinity College |
FLUID WIRELESS - DYNAMIC SPECTRUM ALLOCATION AND SPECTRUM-MONITORING APPLICATION USING RECONFIGURABLE RADIO AND OFDM |
|
Session 4.5 - Special Applications 1, Chair: Sungho Cho
|
| 4.5 |
Farhang-Boroujeny, B., Peiman Amini, Rong-Rong Chen, Roland Kempter, Andy Laraway, Lekun Lin |
University of Utah |
FILTER BANK MULTITONE: A CANDIDATE FOR PHYSICAL LAYER OF COGNITIVE RADIO |
| 4.5 |
Jones, M. |
Booz Allen Hamilton |
SOFTWARE DOWNLOAD CONSIDERATIONS FOR PUBLIC SAFETY AND OTHER MARKETS |
|
Session 4.6 - Special Applications 2, Chair: TBD
|
| 4.6 |
Luo, Jijun, Eiman Mohyeldin, Wolfgang Koenig, Thomas Loewel |
Siemens |
FUNCTION REALLOCATION AND SIGNALLING SUPPORT FOR FUTURE NETWORK EVOLUTION |
| 4.6 |
Mortensen, D., Todd Quinn, Louis Handler, Muli Kifle |
ZIN Technologies |
DESIGN AND TESTING OF SPACE TELEMETRY SCA WAVEFORM |
| 4.6 |
Cook, P., S. Hope |
HYPRES |
SDR TECHNOLOGY DIRECTIONS FOR PUBLIC SAFETY COMMUNICATIONS |
| 4.6 |
Harada, H. |
National Institute of Information and Communications Technology |
SOFTWARE DEFINED RADIO PROTOTYPE FOR MULTI-MODE AND MULTI-SERVICE RADIO COMMUNICATION SYSTEMS |
|
Session 5.1 - Security, Chair: Bernie Eydt
|
| 5.1 |
Eydt, Bernard C. |
Booz Allen Hamilton |
A PROPOSED REGULATORY MODEL FOR FACILITATING THE INTER-JURISDICTIONAL MOBILITY OF SOFTWARE DEFINED RADIO (SDR) DEVICES |
| 5.1 |
Rondeau, T., Timothy M. Bielawa, David Maldonado, Michael Hsiao, Charles W. Bostian |
Virginia Tech |
A METHODOLOGY FOR A VERIFIABLE SOFTWARE PLATFORM TO SECURE SOFTWARE DEFINED AND COGNITIVE RADIOS |
| 5.1 |
Bourse, D., Karim El-Khazen, Klaus Moessner, D. Grandblaise |
Motorola |
END-TO-END RECONFIGURABLE SYSTEMS: THE E2R RESPONSIBILITY CHAIN CONCEPT |
|
Session 5.2 - Propogation, Chair: TBD
|
| 5.2 |
Endo, M., Ryuji Kohno |
Yokohama National University |
TRANSMISSION POWER CONTROL OF UWB-PAN TO AVOID INTERFERENCE IN THE PRESENCE OF BOTH WIRELESS LAN AND PAN |
| 5.2 |
Carpenter, F., Chris Franz,Chuck Emary, Margaret Lisowiec, Alison Brown |
NAVSYS |
DESIGN AND TEST RESULTS OF A SOFTWARE DEFINED RADIO FOR INDOOR NAVIGATION |
| 5.2 |
Shiba, H., Kazunori Akabane, Kiyoshi Kobayashi, Katsuhiko Araki |
NTT |
ADAPTIVE SERVICE FUNCTION ASSIGNMENT WITH SOFTWARE DEFINED RADIO FOR COMPOSITE WIRELESS SYSTEMS |
| 5.2 |
Colon Osorio, F. C., Kerry McKay, Emmanuel Agu |
Worcester Polytechnic Inst |
TRADE-OFFS BETWEEN ENERGY AND SECURITY IN WIRELESS NETWORKS |
| 5.2 |
Tsunehara, K., Hirotake Ishii; Takashi Ishikawa; Manabu Kawabe |
Hitachi |
DEVELOPMENT OF SOFTWARE DEFINED RADIO PLATFORM |
|
Session 5.3 - Implementation 3, Chair: James Aberle
|
| 5.3 |
Anderson, K., W. Clark, S. Cox, M. Janny, P. Okrah |
GDC4S |
EXTENSION OF DIGITAL MODULAR RADIO TO HF DOMAIN |
| 5.3 |
Batruni, R. |
Optichron |
DIGITALLY-ASSISTED ANALOG TREND PROVES LEVERAGEABLE IN NEW SIGNAL PROCESSING BREAKTHROUGH |
| 5.3 |
Baroncini, N., Marco Solazzi |
Selex Communications |
INNOVATIVE TECHNOLOGIES FOR SDR PLATFORMS: SELEXCOMMS APPROACH |
| 5.3 |
Schettino, L., Virgilio Cruciani |
Selex Communications |
THE APPROACH OF SELEX COMMUNICATIONS ON SDR |
| 5.3 |
Vootukuru, M. |
Syneren |
FPGA BASED POWER EFFICIENT CHANNELIZER FOR SOFTWARE DEFINED RADIO |
|
Session 5.4 - Reconfigurable Antenna, Chair: Kathleen Melde
|
| 5.4 |
Kim, H.D., Seunghyun Yun, Sangjae Yun, Nadan Kang |
Hanyang University |
THE DESIGN OF DUAL-BAND CHIP ANTENNA FOR GSM/DCS MOBILE PHONE HANDSET |
| 5.4 |
Choi, J., Jihak Jung, Kyungmoon Seol, Wooyoung Choi |
Hangyang University |
A WIDEBAND MONOPOLE ANTENNA FOR SDR AND UWB APPLICATIONS |
| 5.4 |
Aberle, J. T., Bertan Bakkaloglu, Chaitali Chakrabarti, Sung-Hoon Oh, Graham A. Taylor, Hang Song, Kathleen Melde, Zhen Zhou |
Arizona State University |
AUTOMATICALLY TUNING ANTENNA FOR SOFTWARE-DEFINED AND COGNITIVE RADIO |
| 5.4 |
Melde, K.L. |
University of Arizona |
POWER EFFICIENT BEAMFORMER WEIGHTING SETS FOR SMART ANTENNA PATTERNS WITH LOW SIDELOBES |
| 5.4 |
Komara, M. |
Airnet |
GSM ADAPTIVE ARRAY TRIAL RESULTS USING AIRNET'S SUPERCAPACITY ADAPTCELL SDR BASESTATION |
