| Session |
Submitting/Additional Authors |
Affiliation |
Title |
|
Session 1.1 - Testbeds, Chair: J. Reed
|
| 1.1 |
Muir, S., J. Steinheider, V. Bose |
Vanu |
An SDR-based Commercial Cellular Distributed Antenna System Testbed |
| 1.1 |
Zhong, S., C. Dolwin, R. Burgess |
Toshiba REL |
A Software Defined Radio Proof-of-Concept Demonstration Platform |
| 1.1 |
Huber, K. |
Array Systems |
SDR TEST-BED FOR REGENERATIVE SATELLITE COMMUNICATIONS |
| 1.1 |
Balister, P., M. Robert, J. Reed |
Virginia Tech |
Impact of the use of CORBA for Inter-Component Communication in SCA Based Radio |
| 1.1 |
Palchak, D.R., B. Farhang-Boroujeny |
University of Utah |
Implementation of a Low-Cost SDR MIMO Testbed |
|
Session 1.2 - Circuits and Chips 1, Chair: C. Dick
|
| 1.2 |
Sathappan, R., M. Dumas, M. Uhm |
Texas Instruments |
NEW ARCHITECTURE FOR DEVELOPMENT PLATFORM TARGETED TO PORTABLE APPLICATIONS |
| 1.2 |
Dick, C., f harris |
Xilinx |
Architecture and Simulation of Timing Synchronization Circuits for the FPGA Implementation of Narrowband Waveforms |
| 1.2 |
Shanton III, L., H. Wang |
Thales |
Design Considerations for Size weight and Power (SWAP) constrained radios |
| 1.2 |
Novo, D., B. Bougard, P. Raghavan, T. Schuster, H. S. Kim, H.Yang, L. Van der Perre |
IMEC |
Energy-performance exploration of a CGA-based SDR processor |
| 1.2 |
Dolwin, C. |
Toshiba REL |
The application of a novel Adaptive Dynamic Voltage Scaling scheme to Software Defined Radio |
|
Session 1.3 - Circuits & Chips 2, Chair: f harris
|
| 1.3 |
harris,f., C. Dick, R. Jakel |
San Diego State University |
Ultra Low Phase Noise DDS |
| 1.3 |
Kunisawa, Y. |
KDDI |
SAMPLING FREQUENCY SELECTION SCHEME FOR A MULTIPLE SIGNAL RECEIVER USING UNDERSAMPLING |
| 1.3 |
Raja, T., J. Glossner |
Sandbridge |
Trends in Low Power Handset Software Defined Radios |
| 1.3 |
McLean, M., Jason Moore |
NSA, Xilinx |
FPGA-Based Single Chip Cryptographic Solution |
|
Session 1.4 - Circuits & Chips 3, Chair: J. Ector
|
| 1.4 |
Jenkins, C., C. Plante |
Altera |
Military Anti-Tampering Solutions Using Programmable Logic |
| 1.4 |
Lau, D., J. Blackburn, C. Jenkins |
Altera |
Using C to Hardware Acceleration in FPGAs for Waveform Baseband Processing |
| 1.4 |
Jenkins, C., P. Ekas |
Altera |
Low Power Software Defined Radio Design Using FPGAs |
|
Session 1.5 - SDR HW Implementation 1, Chair: C. Anderson
|
| 1.5 |
Anderson,C. R., J. H. Reed |
Virginia Tech |
Development of and initial performance results for a Software Defined Ultra Wideband Receiver |
| 1.5 |
Moy, C., S. ZABRE, Y. LOUET, J. PALICOT, C. LEREA |
SUPELEC |
Carrier per Carrier Analysis of SDR Signals Creast Factor |
| 1.5 |
Maurer,L., T. Dellsperger, T. Burger R. Knopp H.Callewaert |
Eurecom |
Medium Term Evolution for Reconfigurable RF Transceivers |
| 1.5 |
Halimic, M., A. Al-Adnani, Y. Harada, D. Arvind, J. Mann |
Panasonic |
Emulators based ENVIRONMENT for HW/SW Partitioning |
| 1.5 |
Jeong, C., M. S. Lee, Y. Kim, S. Bang |
ETRI |
AN EFFICIENT UE MODEM PLATFORM ARCHITECTURE FOR 3GPP LTE |
|
Session 1.6 - SDR HW Implementation 2, Chair: S. Choi
|
| 1.6 |
Hosking, R. |
Pentek |
New FPGAs Boost Software Defined Radio Performance |
| 1.6 |
Kim, J., S. Mun, N. Ryu, S. Choi |
Hanyang University |
Implementation of a Dual Mode SDR Smart Antenna Base Station Supporting WiBro and HSDPA |
| 1.6 |
Yu, B. G., J.U. Kim, S.W. Ra |
ETRI |
Implementation of a Digital IF Transceiver for SDR-based WiMAX Base Station |
| 1.6 |
Han, Y., T. Oh, S. Choi |
Hanyang University |
Implementation of a Tripple-mode SDR Handset Modem |
| 1.6 |
Egg, B., f. harris, C. Dick |
Cubic |
Moore or Less? A Critical Comparison of Bandwidth vs. Resolution |
|
Session 2.1 - SW & Waveform Components Design 1, Chair: F. Jondral
|
| 2.1 |
Baheshti, B., S. Jintukar |
Sandbridge |
SIMULTANEOUS BASEBAND PROCESSING CONSIDERATIONS IN A MULTI-MODE HANDSET USING THE SANDBLASTER™ BASEBAND PROCESSOR |
| 2.1 |
Berthold, U., F. Jondral |
U Karlsruhe |
Signaling Efficiency In OFDM Based Overlay Systems |
| 2.1 |
Farhang-Boroujeny, B. |
U of Utah |
A Universal Square Root Nyquist (M) Filter Design for Digital Communication Systems |
| 2.1 |
Talbot, S., B. Farhang-Boroujeny |
University of Utah |
A Pulse-shaping Filter Design Method to Achieve Nyquist (M) Characteristics in Cascade with CIC Filters |
| 2.1 |
harris, f., E. Kjeldsen |
SD State University |
A Novel Interpolated Tree Orthogonal Multiplexing (ITOM) Scheme
with Compact Time-Frequency Localization: an Introduction and Comparison to Wavelet Filter Banks and Polyphase Filter Banks |
|
Session 2.2 - SW & WF Components Design 2, Chair: J. Bard
|
| 2.2 |
Kalavai, R., M. Senthilvelan, S. Agrawal, S. Jinturkar, J. Glossne |
Sandbridge |
GSM/GPRS PHYSICAL LAYER ON SANDBLASTER DSP |
| 2.2 |
Chen, J., R. Morelos-Zaragoza |
San Jose State University |
Design and Implementation of an Algorithm for Modulation Identification of Analog and Digital Signals |
| 2.2 |
Suzuki, Y., A. Bostamam, M. Inamori, Y. Sanada |
Keio U |
Direct Sequence Spread Spectrum Communications System with Sampling Rate Selection Diversity |
| 2.2 |
Bhaskar, P. |
LMCO |
Architectural Alternatives for Wideband SDRs |
|
Session 2.3 - SW & WF Components Design 3, Chair: K. Anderson
|
| 2.3 |
Anderson, K., J. Kleider, T. Wang, G. Giannakis |
GDC4S |
TRANSMIT DIVERSITY ENHANCEMENT FOR TACTICAL WIRELESS NETWORKING USING MULTI-CARRIER DISTRIBUTED SPACE-FREQUENCY CODING |
| 2.3 |
Brown, A., C. Matthews, L. Stricklan, M. Lisowiec, D. Babich, |
NAVSYS |
Implementing a GPS Waveform under the Software Communication Architecture |
| 2.3 |
Lin, Y., R. Mullenix, S. Seo, H. Lee, S. Mahlke, T. Mudge, A. Reid, K. Flautner |
University of Michigan |
SPEX: A Programming Language for Software Defined Radio |
| 2.3 |
Bougard, B., L. Hollevoet, F. Naessens, T. Schuster, C. Ho, L. VanDerPerre |
IMEC |
A Low Power Signal Detection and Pre-Synchronization Engine for Energy Aware Software Defined Radio |
| 2.3 |
Giddings, V. |
OIS |
CORBA/e, New CORBA Profiles for SDR |
|
Session 2.4 - SCA & SW 1, Chair: M. Turner
|
| 2.4 |
Neel, J., J. H. Reed, C.A. Gonzales |
Virginia Tech |
Automated Waveform Partitioning and Optimization for SCA waveforms |
| 2.4 |
Aguayo, C., J. Reed, F. M. Portelinha |
Virginia Tech |
Design and Implementation of an SCA Core Framework for a DSP Platform |
| 2.4 |
Nicollet, E. |
Thales |
TRANSCEIVER SUB-SYSTEM PIM DESCRIPTION |
| 2.4 |
Turner, M. |
Harris |
Software Defined Radio Solutions “Taking JTRS to the Field” with Current and Future Capabilities |
|
Session 2.5 - SCA & FPGAs, Chair: C. Belisle
|
| 2.5 |
Noseworthy, J. |
Mercury |
Implementing SCA Components on FPGAs |
| 2.5 |
Humcke, F. |
PrismTech |
MAKING FPGAs “FIRST CLASS” SCA CITIZENS |
| 2.5 |
Hermeling, M. |
Zeligsoft |
Component-based support for FPGA and DSP |
| 2.5 |
Mourikas, G., D. Lund, B. Honary |
Lancaster University |
FiZZWARE – A HAL Approach Applied to SCA |
|
Session 2.6 - Evolving SCA, Chair: J. Bickle
|
| 2.6 |
Scoville, M. |
L-3 |
THE SOFTWARE-DEFINED RADIO & COGNITIVE RADIO INTER-CONSORTIA AFFILIATION |
| 2.6 |
Bernier, S., C. Belisle |
CRC |
TAKING THE SCA TO NEW FRONTIERS |
| 2.6 |
Paniscotti, D. |
PrismTech |
EVOLUTION AND STANDARDIZATION OF THE SCA |
| 2.6 |
Bickle, J. |
PrismTech |
NEXT GENERATION SCA OPERATING ENVIRONMENTS |
| 2.6 |
Serra, C. |
Thales |
SDR KEY FACTORS – ADVANCED STUDIES & RESULTS RELATED TO THE IMPLEMENTATIONS OF THE SCA |
|
Session 3.1 - Adaptive & Cognitive Radio in Americas, Chair: C. Bostian
|
| 3.1 |
Poston, J.D., A.Ginsberg, W. D. Horne |
MITRE |
COGNITIVE RADIO, SPECTRUM POLICY SPECIFICATION, AND THE SEMANTIC WEB |
| 3.1 |
Rondeau, T., B. Le, D. Maldanado, A MacKenzie, C. Bostian |
Virginia Tech |
OPTIMIZATION, LEARNING, AND DECISION MAKING IN COGNITIVE ENGINE |
| 3.1 |
Zhao, Y., J. Gaeddert, J. H. Reed |
Virginia Tech |
Radio Environment Map-enabled Situation-aware Cognitive Radio Learning Algorithms |
|
Session 3.2 - Adaptive & Cognitive Radio in Asia, Chair: R. Kohno
|
| 3.2 |
Fujii, T. |
University of Electro-Communications |
Multi-band Routing for Ad-hoc Cognitive Radio Networks |
| 3.2 |
WATANABE, K., K. ISHIBASHI, R. KOHNO |
Yokohama National University |
AN ANALYSIS OF SPECTRUM MANAGEMENT FOR COEXISTENCE OF FIXED AND COGNITIVE RADIO SYSTEMS |
| 3.2 |
Endo, M., R. Kohno |
Yokohama National University |
AN ALGORITHM TO AVOID INTERFERENCE BETWEEN WLAN AND WPAN BASED ON COGNITIVE RADIO TECHNIQUE |
| 3.2 |
Nakashima, O. M., A. C. GORDILLO, R. KOHNO |
Yokohama National University |
ADAPTIVE TIME ALLOCATION FOR AN ENVIRONMENT WHERE THE NEXT GENERATION OF LOW AND HIGH DATA RATE OF WIRELESS PAN COEXIST |
| 3.2 |
Enda, K., R. Kohno |
Yokohama National University |
A Novel Positioning Algorithm on Radio wave Monitoring in NLOS Environment |
|
Session 3.3 - Adaptive & Cognitive Radio in Europe, Chair: D. Bourse
|
| 3.3 |
Halimic, M., D. Bourse |
Panasonic |
OPTIMAL FUNCTIONAL MAPPING ONTO E2R EQUIPMENT HARDWARE PLATFORM |
| 3.3 |
Bourse, D. |
Motorola |
END-TO-END RECONFIGURABILITY –MANAGEMENT AND CONTROL OF ADAPTIVE COMMUNICATION SYSTEMS |
| 3.3 |
Mohyeldin, E., J. Luo, R. Falk |
|
Architecture and certification methods for Common Pilot Channel |
| 3.3 |
Bradford, J., C. Politos, D. Chandler, M. Ashukla, P. Levine, S. Weiss, M. Kennett, A. Altepkin |
Qnetiq |
A SUMMARY OF COGNITIVE RADIO WORK PERFORMED FOR THE UK REGULATOR OFCOM |
| 3.3 |
Nicollet, E. |
Thales |
A Framework for SDR Commercial Equipments: the Reconfigurable Equipment PIM (REP) |
|
Session 3.4 - Cognitive Radio 4, Chair: P. Cook
|
| 3.4 |
Cook, P. |
Hypres |
An Application-Independent Model of the Cognitive Radio Domain |
| 3.4 |
Cattoni, A.F., I. Minetti, M. Gandetto, R. Niu, P.K. Varshney, C.S. Regazzoni |
University of Genova |
A Spectrum Sensing Algorithm Based on Distributed Cognitive Models |
| 3.4 |
Briasco, M., A. F. Cattoni, G. Oliveri, M. Raffetto, C. S. Regazzoni |
University of Genova |
Sensorial Antennas for Radio-Features Extraction in Vehicular Cognitive Applications |
| 3.4 |
Shiba, H., K. AKABANE, M. MATSUI, K. UEHARA |
NTT |
EVALUATION OF A RESOURCE MANAGEMENT METHOD FOR An AUTONOMOUS ADAPTIVE BASE STATION |
|
Session 3.5 - Cognitive Radio 5, Chair: T. Rondeau
|
| 3.5 |
Amini, P., R. Kempter, B. Farhang |
University of Utah |
A Comparison of Alternative Filterbank Multicarrier Methods in Cognitive Radio Systems |
| 3.5 |
Kristensen, J., F. Fitzek |
Aalborg University |
The application of Software defined radio in a cooperative wireless network |
| 3.5 |
Le, B., T. Rondeau, D. Maldonado, D. Scaperoth, C. W. Bostian |
Virginia Tech |
Signal Recognition For Cognitive Radios |
| 3.5 |
Lechowicz, L., M. Kokar |
Northeastern University |
ACHIEVING DYNAMIC INTEROPERABILITY OF COMMUNICATION |
| 3.5 |
Nolan, K., P.D. Sutton, L. E. Doyle |
Trinity College |
A FRAMEWORK FOR IMPLEMENTING COGNITIVE FUNCTIONALTY |
|
Session 3.6 - Cognitive Radio 6, Chair: K. Nolan
|
| 3.6 |
Nolan, K., L. E. Doyle |
Trinity College |
PRINCIPLES OF COGNITIVE NETWORK TEAMWORK |
| 3.6 |
Marques, P., L. Doyle, A. Gameiro |
U deAveiro |
SDR for Opportunistic use of UMTS Licensed Bands |
| 3.6 |
Clancy, T.C., B.D. Walker |
Lab for Telecom Sciences |
Predictive Dynamic Spectrum Access |
| 3.6 |
Clancy, T.C., B.D. Walker |
Lab for Telecom Sciences |
Spectrum Shaping for Interference Management in Cognitive Radio Networks |
| 3.6 |
Stuntbeck, E., T. C. Clancy |
Lab for Telecom Sciences |
Architecture for an Open Source Cognitive Radio |
|
Session 4.1 - SDR Systems in Public Safety, Chair: S. Reichert
|
| 4.1 |
Reichart, S., B. Youmans |
USAF |
A vhf/uhf/cellular/voip SMART radio bridge for public safety conflict and disaster management |
| 4.1 |
Brown, A., P. Brown, J. Griesbach, T. Boult |
NAVSYS |
A WIRELESS GPS WRISTWATCH TRACKING SOLUTION |
| 4.1 |
Hasan, S.M., P. Balister, K. Lee, J. Reed, S. Ellingson |
Virginia Tech |
A LOW cost MULTI-band/MULTI-mode radio for public safety application |
| 4.1 |
Taylor, R. |
M/A-COM |
SDR CONSIDERATIONS FOR PUBLIC SAFETY |
|
Session 4.2 - SDR Systems in Space and Aviation, Chair: A. Brown
|
| 4.2 |
Quinn, T., T. Kacpura |
ZIN Technologies |
STRATEGIC ADAPTATION OF SCA FOR STRS |
| 4.2 |
Brown, A., B. Mathews, D. Nguyen, S.Young |
NAVSYS |
INTEGRATED GPS/INS/STAR TRACKER SPACE NAVIGATION SYSTEM USING A SOFTWARE DEFINED RADIO |
| 4.2 |
McDaniel, B., P. Sholander, K. Smart |
Sandia National Lab |
PERFORMANCE ANALYSIS OF POLLING MAC FOR EXO-ATMOSPHERIC WIRELESS SENSOR NETWORK |
| 4.2 |
Schiel, J-C, F. Montaigne, G. Philippe |
EADS |
From the use of Multi-User Detection Algorithms in a WideBand Airborne Communication Node |
| 4.2 |
Schiel, J-C, F. Montaigne, G. Philippe |
EADS |
THE SDR approach in a wideband Airborne communication node |
|
Session 4.3 - SDR Systems in Networks & Telematics, Chair: M Alsliety
|
| 4.3 |
Org, E., R. J. Cyr, G. Dawe, J. Kilpatrick, |
Bitwave |
SOFTWARE DEFINED RADIO ARCHITECTURES FOR MOBILE COMMERCIAL APPLICATIONS |
| 4.3 |
Alsliety |
Harmon Becker |
AN OVERVIEW OF SDR OPPORTUNITIES AND CHALLENGES IN TELEMATICS |
| 4.3 |
Ramadura, V. |
SandBridge |
Software Implementation of 802.11a blocks on Sandblaster DSP |
| 4.3 |
Langguth, T., A. Bässler, E. Haas, H. Schober, T. Nicolay |
Rohde & Schwarz |
Novel Approach for Data Piggybacking in Manet |
| 4.3 |
Kempter, R., B. Farhang-Boroujeny |
University of Utah |
Random Packet CDMA: Reducing Delay and Increasing Throughput of WLAN Systems |
|
Session 4.4 - Global Perspectives of SDR & Cognitive Radio Regulation & Education, Chair: J. Miller
|
| 4.4 |
Bourse, D. |
Motorola |
END-TO-END RECONFIGURABILITY –CONVERGENCE OF Unified Business MODEL (UBM) AND RESPONSIBILITY CHAIN |
| 4.4 |
Nolan, K., E. Ambrose, L.E. Doyle |
Trinity College |
COGNITIVE RADIO: VALUE CREATION AND VALUE MIGRATION |
| 4.4 |
Houle, A., M. Bianchi, S. Dancause, S. Gingras, N. Lévesque, N. Madjlessi, F. Pham, C. Belisle |
University of Sherbrooke |
Tackling a SDR project as a last year project in an engineering curriculum |
| 4.4 |
Furman, M., J. Fryer |
Harris |
Global Frequency management |
|
Session 4.5 - SDR Development Environment & Tools 1, Chair: J. Hogg
|
| 4.5 |
Garvey, B. |
GDC4S |
Accelerated Simulation of Communication Waveforms using the MATLAB Distributed Computing Toolbox |
| 4.5 |
Burkhardt, S., T. Bleichner |
Rohde & Schwarz |
A Framework for developing SCA components |
| 4.5 |
Nimmer, J., N. Martin, B. Fallik, J. Chapin |
Vanu |
Continuous Automated Testing of SDR Software |
| 4.5 |
Hogg, J. |
Zeligsoft |
THE INTEGRATED SDR TOOLCHAIN |
|
Session 4.6 - SDR Development Environment & Tools 2, Chair: V. Kovarik
|
| 4.6 |
Haessig, D., R. Regis, M. Hermeling |
BAE |
A Case-Study comparing tradition to model-based Rapid Development of SDR Waveforms – Part II |
| 4.6 |
Hermeling, M., J. Rice, M. Clark, Y. Yan |
Zeligsoft |
Rapid Prototyping for SCA |
| 4.6 |
Kovarik, V. |
Harris |
SDR Architecture Impacts on Waveform Portability and Cost Modeling |
| 4.6 |
Murotake, D., A. Martin |
SCA Tehnica |
A High Assurance Wireless Computing System (HAWCS) For SDR |
|
Session 5.1 - SDR Standards and Systems, Chair: D. Stephens
|
| 5.1 |
Stephens, D., B. Salisbury, K Richardson |
JPEO |
JTRS INFRASTRUCTURE ARCHITECTURE AND STANDARDS |
| 5.1 |
Nicollet, E. |
Thales |
E²R commercial SDR Equipments: from advanced research to proof-of-concept and Standardization |
| 5.1 |
Trogolo, A., P. Goria, E.Buraacchini |
Telecom Italia |
PERFORMANCE EVALUATION of the software download procedure duration |
| 5.1 |
Jones, E. |
Sea Group |
The Use of the SCA For Sonar and Underwater Communications Applications |
| 5.1 |
KANAHASHI, Y., M. SHIRASU; K. SEKIMUKAI; S. NAKAMURA; M. GOAMI; T. FUJII |
Hitachi Kokusai |
PRODUCT OF SOFTWARE DEFINED RADIO |
|
Session 5.2 - Reconfigurable & Wideband Antenna, Chair: B. Egg
|
| 5.2 |
Egg, B., f. harris, C. Dick |
Cubic |
Dynamic Radio Location Under Extreme Multipath Conditions |
| 5.2 |
Pilcher, M. |
SWRI |
Novel Antenna Topologies for SDR |
| 5.2 |
Choi, H., D. Shin, M. Kim, H. Kim |
Hanyang University |
A DESIGN OF MINIATURIZED BUILT-IN PENTA-BAND CHIP ANTENNA FOR GSM850/GSM900/DCS/USPCS/WCDMA MOBILE HANDSET |
| 5.2 |
Kim, M., D. Shin, S. Park, H. Kim |
Hanyang University |
A DESIGN OF THE WIDE BAND SMALL CHIP ANTENNA USING THE BRANCH STRUCTURE FOR MOBILE PHONES |
| 5.2 |
Kang, N., H. Kim |
Hanyang University |
SMALL CHIP ANTENNA FOR PHS BAND MOBILE PHONE |