| 2.0101 | Formulation of Discovery-Class Mission Concepts | Terry | Gamber | Lockheed Martin Astronautics |
| 2.0102 | Implementation Approach for Discovery-class Missions | Joseph | Vellinga | Lockheed Martin Astronautics |
| 2.0103 | Micromission Spacecraft -- A Low-Cost, High-Capability Platform for Space Science Missions | William | Deininger | Ball Aerospace |
| 2.0104 | Phased-Array Antenna System for the MESSENGER Deep Space Mission | Robert | Wallis | Johns Hopkins Applied Physics Lab |
| 2.0105 | To Fly to the Sun: | James | Randolph | JPL |
| 2.0106 | STEREO Observatory Trade Studies and Resulting Architecture | Andrew | Driesman | Applied Physics Laboratory |
| 2.0107 | The CONTOUR Radio Communications System | Matthew | Reinhart | Johns Hopkins University |
| 2.0201 | Applying A Revised RFC Metric to Redesign An OO Design | Ghassan | Alkadi | Southeastern Louisiana University |
| 2.0202 | Establishing Ultra-Reliability by Fault Injection Experiments | Allan | White | NASA Langley Research Center |
| 2.0203 | Algorithms that Compute Test Drivers in Object Oriented Testing | Ihssan | Alkadi | Nicholls State University |
| 2.0301 | The CLARAty Architecture for Robotic Autonomy | Richard | Volpe | Jet Propulsion Laboratory, California Institute of |
| 2.0302 | Coordinated Continual Planning Methods for Cooperating Rovers | Anthony | Barrett | Jet Propulsion Laboratory |
| 2.0303 | Enabling Onboard Spacecraft Autonomy through Goal-based Architectures | Russell | Knight | Jet Propulsion Laboratory |
| 2.0401 | Automated Planning for the Modified Antarctic Mapping Mission | Anthony | Barrett | Jet Propulsion Laboratory |
| 2.0402 | In-situ Electric Power Generation to Support Solar System Exploration and Colonization | Alex | Ignatiev | Space Vacuum Epitaxy Center |
| 2.0403 | Balloon Precursor Mission for Venus Surface Sample Return | Viktor | Kerzhanovich | Jet Propulsion Laboratory |
| 2.0404 | STRV-2 Payload Early Orbit Experience and Findings | Kathleen | Kelleher | JPL |
| 2.0405 | STRV-1d QWIP Technology Validation in Space Flight | James | Kenny | JPL |
| 2.0406 | Description of the StarLight Mission and Spacecraft Concept | William | Deininger | Ball Aerospace |
| 2.0407 | The Effects of Solar Variability on Technology: Objectives of NASAs Space Environment Testbed | Kenneth | LaBel | Goddard Space Flight Center |
| 2.0408 | Proactive Rideshare Opportunity Brokering Services (PROBS) for Secondary Payloads | Brian | Horais | Schafer Corporation |
| 2.0409 | A Self-Sustaining Earth-Mars Architecture Utilizing Martian Colonies Based on The North Polar Cap | James | Powell | Ultra Plus Technologies |
| 2.0501 | Martian Aerobot Missions: First Two Generations | James | Cutts | Jet Propulsion Laboratory |
| 2.0502 | Second Generation Mars Landed Missions | James | Graf | JET PROPULSION LABORATORY |
| 2.0503 | Atmospheric Electron X-ray Spectrometer Development | Jason | Feldman | JPL |
| 2.0504 | Ultrasonic/Sonic Driller/Corer (USDC) as a Sampler for Planetary Exploration | Yoseph | Bar-Cohen | Jet Propulsion Laboratory(JPL) |
| 2.0505 | MEMS-based Force-detected Nuclear Magnetic Resonance Spectrometer for In situ Planetary Exploration | Thomas | George | Jet Propulsion Laboratory |
| 2.0506 | In-situ Chemical Imager | Dmitri | Kossakovski | JPL |
| 2.0507 | Earth Contamination Free Sample Acquisition from an Earth Contaminated Spacecraft | Benjamin | Dolgin | Jet Propulsion Laboratory |
| 2.0508 | ISHMAEL: In-situ Sample Handling Modular Analytical Experimental Laboratory | Gregory | Bearman | JPL |
| 2.0509 | Inductive and Capacitive Sensor Arrays for In-Situ Composition Sensors | Michael | Van Steenberg | NASA`s Goddard Space Flight Center |
| 2.0510 | Cryobot: An Ice Penetrating Robotic Vehicle for Mars and Europa | Wayne | Zimmerman | Jet Propulsion Laboratory |
| 2.0511 | The Antarctic Ice Borehole Probe | Alberto | Behar | JPL |
| 2.0512 | Designing a Water-Quality Monitor with Ion Selective Electrodes | Martin | Buehler | Jet Propulsion Laboratory |
| 2.0601 | Development of the Standard CubeSat Deployer and a CubeSat Class PicoSatellite | Jordi | Puig-Suari | Aerospace Engineering Dept. CalPoly |
| 2.0602 | New Technology for Increased Delivery Potential and Access into Space | Eric | Anderson | One Stop Satellite Solutions |
| 2.0603 | In Orbit Performance of the UNISAT Terrestrial Technology Solar Panels | Fabio | Santoni | Universita di Roma |
| 2.0701 | NASA Sun-Earth Connection Program Strategic Mission & Technology Requirements (2006-2015) | Michael | Calabrese | Goddard Space Flight Center |
| 2.0702 | NASA's Cosmic Journeys Missions: A Quest for the Nature of Gravity | Steven | Horowitz | NASA HQ |
| 2.0702 | NASA's Cosmic Journeys Missions: A Quest for the Nature of Gravity | Steven | Horowitz | NASA HQ |
| 2.0703 | Taming Tornadoes: Storm Abatement from Space | Lyle | Jenkins | Jenkins Enterprises |
| 2.0704 | Odyssey - A Comet Nucleus Orbiter | Erik | Nilsen | Jet Propulsion Laboratory |
| 2.0705 | The Challenge of Landing on Europa | Robert | Oberto | JPL |
| 2.0706 | Interplanetary Small Mission Studies | Jennifer, Matthew | Owens, Johnson | Jet Propulsion Laboratory |
| 2.0707 | Future Mars Outpost Architecture | Tracy | Williams | Jet Propulsion Laboratory |
| 2.0801 | DDP A Tool for Life-Cycle Risk Management | Steven | Cornford | JPL |
| 2.0802 | Programmatic Risk Analysis to Search for Life on Mars | Elisabeth | Paté-Cornell | Stanford University |
| 2.0803 | A Systematic Risk Management Approach Employed on the CloudSat Project | Ralph | Basilio | Caltech - Jet Propulsion Laboratory |
| 2.0804 | X2000/IFDP System Engineering Process for Risk Management | Tom | Hoffman | JPL |
| 2.0805 | How EO-1 Used Operations to Cost-Effectively Mitigate Risk | Daniel | Mandl | Daniel Mandl |
| 2.0806 | Managing Schedule and Financial Risk: Lessons Learned on X2000 | Robert | Boyd | Jet Propulsion Laboratory |
| 2.0901 | Orion-Emerald: Carrier Differential GPS for LEO Formation Flying | Franz | Busse | MIT |
| 2.0902 | A Formation Flying Strategy for CloudSat/Picasso-Cena | Donald | Keenan | The Aerospace Corp. |
| 2.0903 | Flight Software Development for the ION-F Formation Flying Mission | Vincentz | Knagenhjelm | University of Washington |
| 2.0904 | Confluence of Navigation, Communication, and Control in Distributed Spacecraft Systems | Patrick | Stadter | The Johns Hopkins University Applied Physics Laboratory |
| 2.0905 | A Preliminary Formation Flying Orbit Dynamics Analysis for Leonardo-BRDF | Steven | Hughes | NASA/GSFC |
| 2.0906 | Navigation Validation Using the Distributed Spacecraft Modeling and Simulation Testbed | Patrick | Stadter | The Johns Hopkins University Applied Physics Laboratory |
| 2.0907 | Development of a Testbed for Distributed Satellite Command and Control | Paul | Zetocha | Air Force Research Lab |
| 2.0908 | A Hardware-in-the-Loop Testbed for Spacecraft Formation Flying Applications | Jesse | Leitner | NASA GSFC |
| 2.1001 | Nonlinear Estimation of Aircraft Models for On-line Control Customization | Shelby | Brunke | University of Washington |
| 2.1002 | Automated Planning for Interferometer Configuration and Control | Gregg | Rabideau | JPL |
| 2.1003 | The TRAC Mission Manager Autonomous Control Executive | Hunt | Sutherland | GE Corp R&D, K-1, 5C2A |
| 2.1004 | Flight Mishap Prevention for UAVs | Richard | Colgren | Lockheed Martin Aeronautics Co. |
| 2.1005 | Generalized Cross-Signal Anomaly Detection on Aircraft Hydraulic System | Ryan | Mackey | Jet Propulsion Laboratory |
| 2.1006 | Gray-box Approach to Fault Diagnosis of Dynamical Systems | Michail | Zak | Jet Propulsion Laboratory |
| 3.0101 | A 94 GHz Spaceborne Cloud Profiling Radar Antenna System | Suzanne | Spitz | Jet Propulsion Laboaratory |
| 3.0101 | A 94 GHz Spaceborne Cloud Profiling Radar Antenna System | Suzanne | Spitz | Jet Propulsion Laboaratory |
| 3.0102 | Concurrent Storm Damage Data Collection by High Altitude Airborne IFSAR | Harold | Malliot | High Altitude Mapping Missions, Inc. |
| 3.0103 | A Hybrid Genetic Algorithm for Generating Optimal Synthetic Aperture Radar Target Servicing Strategies | William | Jackson | Ball Aerospace & Technologies Corp. |
| 3.0104 | Dual Frequency Synthetic Aperture Radar (SAR) Mission for Monitoring Earth | Jeffrey | Hilland | Jet Propulsion Laboratory |
| 3.0105 | Pattern Synthesis for TechSat21 A Distributed Space-Based Radar System | Hans | Steyskal | Air Force Research Lab. /SNHA |
| 3.0106 | Utilizing Off-the-Shelf Parts for the Next Generation of Space Exploration | Dorothy | Stosic | Jet Propulsion Lab |
| 3.0107 | Modeling and Simulation for Sensor Craft Multi-Mission Radar | Gerard | Genello | Air Force Research Laboratory |
| 3.0201 | Phased Array Antennas for Next-Generation Space Based Radar | Steve | Levin | Raytheon Electronic Systems |
| 3.0202 | An Advanced Electromagnetic Tool for Design of Multilayer Printed Antenna Arrays | Kazem | Sabet | EMAG Technologies Inc. |
| 3.0203 | A Novel Multi-Mode Interferometer System | Robert | Penno | University of Dayton |
| 3.0204 | Modeling of Complex Antenna on a Handheld Telephone Close to Human Tissue | Krys | Caputa | University of Victoria |
| 3.0205 | Ultra-Wideband for Navigation and Communications | Walt | Gregorwich | Lockheed Martin Missiles and Space, Co. |
| 3.0205 | Ultra-Wideband for Navigation and Communications | Walt | Gregorwich | Lockheed Martin Missiles and Space, Co. |
| 3.0206 | Methods for Automated Testing of Phased-Array Subarrays | Walt | Gregorwich | Lockheed Martin Advanced Technology Center |
| 3.0301 | Distortion Compensation Techniques for Large Reflector Antennas | William | Imbriale | JPL |
| 3.0302 | Local Defect Study of Membrane Antennas and Reflectors | Christopher | Jenkins | S.D. School of Mines and Technology |
| 3.0303 | New 20-kW CW Transmitter for NASA's Deep Space Network | David | Losh | Jet Propulsion Laboratory |
| 3.0304 | Cryogenic, X-band and Ka-Band InP HEMT Based LNAs for the Deep Space Network | J. | Bautista | Jet Propulsion Laboratory |
| 3.0305 | Small Omni-directional Antenna Development for Mars Sample Return Mission | Vahraz | Jamnejad | Jet Propulsion Lab |
| 3.0401 | Techniques to Screen for Moving and Large Stationary Discretes in Space-Time Adaptive Estimation Data | Thomas | Morton | Air Force Research Lab |
| 3.0402 | Performance Prediction of Smart Antennas in Micro- and Pico-Cellular Propagation Environments | Safieddin | Safavi-Naeini | University of Waterloo, Department of Electrical and Computer Engineering |
| 3.0402 | Performance Prediction of Smart Antennas in Micro- and Pico-Cellular Propagation Environments | Safieddin | Safavi-Naeini | University of Waterloo, Department of Electrical and Computer Engineering |
| 3.0403 | An Overview of Smart Antenna Technology for Wireless Communication | Patrick | Perini | Qwest Worldwide Emerging Technologies |
| 3.0501 | Modeling of Near-Field Sources in the Finite-Difference Time-Domain (FDTD) | Mike | Potter | University of Victoria |
| 3.0502 | Modeling and Application of 2D Photonic Band Gap Structures | Maria | Stuchly | University of Victoria |
| 3.0503 | Integrated Design and Simulation for Millimeter-wave Antenna Systems | Thomas | Cwik | Jet Propulsion Laboratory |
| 4.0101 | On the Link Budget Calculation for CDMA Systems | Tien | Nguyen | The Aerospace Corporation |
| 4.0102 | Space-Based Hyperspectral Imaging and its Role in the Commercial World | Dustin | Ballinger | SMC/XRC |
| 4.0103 | Comparison of Commercial High Resolution Satellite Imagery | John | Nolan | The Aerospace Corp |
| 4.0201 | Space Internet Architectures and Technologies for NASA Enterprises | Jeffrey | Hayden | PresciPoint Solutions, L.L.C. |
| 4.0202 | Considerations on Communications Network Protocols in Deep Space | Loren | Clare | Jet Propulsion Laboratory/California Institute of Technology |
| 4.0203 | Transport Protocols and Applications for Internet Use in Space | Edward | Criscuolo | Computer Sciences Corp. |
| 4.0203 | Transport Protocols and Applications for Internet Use in Space | Edward | Criscuolo | Computer Sciences Corp. |
| 4.0204 | Link and Routing Issues for Internet Protocols in Space | Keith | Hogie | Computer Sciences Corp. |
| 4.0205 | Internet-Type Protocol Testing in a Simulated Small Satellite Environment | Stephen | Horan | New Mexico State University |
| 4.0206 | Network Configuration Analysis for Formation Flying Satellites | Vijay | Konangi | Cleveland State University |
| 4.0207 | A Perturbative Analysis of Geopotential Disturbances for Satellite Cluster Formation Flying | Samuel | Schweighart | MIT Space Systems Lab |
| 4.0301 | Commercial and Internet Trends and the NASA Spaceflight Ground Network | Chris | Spinolo | NASA, Goddard Space Flight Center |
| 4.0302 | Application of Mobile-ip to Space and Aeronautical Networks | William | Ivancic | NASA Glenn Research Center |
| 4.0303 | Performance of a Regional Aeronautical Telecommunications Network | Vijay | Konangi | Cleveland State University |
| 4.0304 | Wireless Applications using Internet Protocol and Voice over IP | Patrick | Perini | Qwest Worldwide Emerging Technologies |
| 4.0401 | Comparing Multicast Protocols in Mobile Ad hoc Networks | Cauligi | Raghavendra | The Aerospace Corporation, University of Southern California |
| 4.0401 | Comparing Multicast Protocols in Mobile Ad hoc Networks | Cauligi | Raghavendra | The Aerospace Corporation, University of Southern California |
| 4.0402 | Modeling and Simulation Analyses of the Joint Tactical Radio System (JTRS) | Scott | Hansen | SAIC |
| 4.0403 | Communication System Architecture for Planetary Exploration | Richard | Alena | NASA Ames Research Center |
| 4.0404 | Mobile Network Field Testing at HMP-2000 | Bruce | Gilbaugh | SAIC Project Engineer at Ames Research Center |
| 4.0405 | Space Networking and Protocols for Planetary Exploration and Analog Planetary Sites | Stephen | Braham | PolyLAB, TIME Centre |
| 4.0501 | Using Active Networking to Thwart Distributed Denial of Service Attacks | Adam | Hovak | BAE SYSTEMS |
| 4.0502 | On-line Network Simulation for Active Fault Tolerant Networks | Gary | Warren | SAIC |
| 4.0503 | Secure and Fault-Tolerant Voting in Distributed Systems | Kevin | Kwiat | Air Force Research Laboratory |
| 4.0504 | A Novel Approach to Fault Tolerant Computing | Hans-Joachim | Kolinowitz | Astrium GmbH |
| 4.0601 | Distributed Multi-Resolution Data Integration Using Mobile Agents | Hairong | Qi | The University of Tennessee |
| 4.0701 | Dynamic Telemetry Bit Rates for Deep Space Communications | Jeff | Berner | JPL |
| 4.0702 | Deep Space Network Turbo Decoder Implementation | Jeff | Berner | JPL |
| 4.0703 | Telemetry and Command Subsystem for a Mexican Experimental Microsatellite | Enrique | Pacheco | CICESE Research Center |
| 4.0704 | Improved Carrier Tracking for Low-Threshold Telemetry Using a Smoother | William | Hurd | Jet Propulsion Laboratory |
| 4.0705 | An Architecture for an Autonomous Ground Station Controller | Anthony | Barrett | Jet Propulsion Laboratory |
| 4.0706 | Performance of Dielectric Resonator Oscillator for Spacecraft Transponding Modem | Selahattin | Kayalar | Jet Propulsion Laboratory |
| 4.0707 | Frequency Bands for Mars In-Situ Communications | Michael | Connally | JPL |
| 4.0708 | Prediction and Adaptation of Satellite Channels with Weather-Induced Impairments | Jihwan | Choi | MIT |
| 4.0801 | Dynamic Bandwidth Allocation in a Satellite Communication Network | Thomas and David | Huynh and Gillen | Lockheed Martin Management and Data Systems |
| 4.0802 | Development of Linear Phase Modulator for Spacecraft Transponding Modem | Selahattin | Kayalar | Jet Propulsion Laboratory |
| 4.0901 | Spectrum Management and International Filing: A Program Management Perspective on Process and Recent Developments | Michael | Riccio | Aerospace Corp. |
| 4.0901 | Spectrum Management and International Filing: A Program Management Perspective on Process and Recent Developments | Michael | Riccio | Aerospace Corp. |
| 4.0902 | Political and Economic Dimensions of Global Navigation Satellite System (GNSS) | Muhammad | Khan | GPS Joint Program Office |
| 4.0903 | Using Digital Signal Processor Technology to Simplify Deep Space Ranging | Scott | Bryant | Jet Propulsion Laboratory |
| 4.1001 | Test Results of F/A-18 Autoland Trials for Aircraft Carrier Operations | Jeff | Taylor | Raytheon Company, Navigation & Landing Systems |
| 4.1101 | Use of DGPS Corrections with Low Power GPS Receivers in a Post SA Environment | Hazen | Gehue | SiRF Technology, Inc. |
| 4.1101 | Use of DGPS Corrections with Low Power GPS Receivers in a Post SA Environment | Hazen | Gehue | SiRF Technology, Inc. |
| 4.1102 | Performance Comparison of Multipath Mitigating Receiver Architectures | Michael | Braasch | Ohio University |
| 4.1102 | Performance Comparison of Multipath Mitigating Receiver Architectures | Michael | Braasch | Ohio University |
| 4.1103 | Validation of Theoretical GPS Multipath Bias Characteristics | Joseph | Kelly | Ohio University |
| 4.1103 | Validation of Theoretical GPS Multipath Bias Characteristics | Joseph | Kelly | Ohio University |
| 4.1201 | Communication System Architecture for Air Traffic Management and Weather Information Dissemination | Seana | Gallagher | SAIC |
| 4.1202 | Future Applications and the Aeronautical Telecommunication Network | Roy | Oishi | ARINC |
| 4.1203 | Potential for the Use of Internet Protocols in Aviation | Chris | Wargo | Computer Networks & Software, Inc. |
| 4.1204 | Air Traffic Control Improvement Using Prioritized CSMA | Steven | Mainger | NASA Glenn Research Center |
| 4.1205 | Satellite Communications for Aeronautics Applications - Technology Development and Demonstration | Robert | Kerczewski | NASA Glenn Research Center |
| 4.1206 | Aero-SAPIENT Project: The Initial Trials | Michael | Zernic | NASA Glenn Research Center |
| 4.1301 | Performance of the FFT-based SDPSK Receiver in Fading Channels | Hen-Geul | Yeh | Aerospace Corp. |
| 4.1302 | Super High Speed Dynamic Nodal Communication in Multidimensional Digital Scatter Media | Ashok | Gupta | SIGCOM Company |
| 5.0101 | Fundamentals of Wide-Field Sparse-Aperture Imaging | Robert | Lucke | Naval Research Lab |
| 5.0102 | Origins of Sparse Aperture Imaging | Thomas | Pauls | Naval Research Laboratory |
| 5.0103 | Signal to Noise in Sparse Aperture Imaging | Robert | Hindsley | Naval Research Lab |
| 5.0104 | Preliminary Stray Light Analysis for the StarLight Mission | Charley | Noecker | Ball Aerospace |
| 5.0105 | The Wide-Field Imaging Interferometry Testbed | Xiaolei | Zhang | Raytheon ITSS /NASA`s GSFC |
| 5.0201 | A Photonic Wideband Analog-to-Digital Converter | Henry | Zmuda | University of Florida |
| 5.0202 | Gamma-Ray Induced Responses in an Erbium-Doped Fiber Laser | Rebecca | Bussjager | Air Force Research Laboratory |
| 5.0203 | Electro-Optic Modulator Coupling Loss Improvement by Tapering Waveguides and Fibers | Araz | Yacoubian | IPITEK |
| 5.0301 | Overview of the NCSTs New Optical Research Facility | Michael | Vilcheck | Naval Research Laboratory |
| 5.0302 | Covering a Sphere with Retroreflectors | Daniel | Clouse | Jet Propulsion Laboratory |
| 5.0303 | Cloud Penetration Laser Radar Experiments | Michael | Salisbury | AFRL/SNJM |
| 5.0401 | A High Frame Rate CCD Camera with Region-of-Interest Capability | Steve | Monacos | Jet Propulsion Laboratory |
| 5.0402 | Effects of Proton Irradiation on InGaAs/AlGaAs Multiple Quantum Well Modulators | Peter | Goetz | Naval Research Laboratory |
| 5.0403 | Retromodulator for Optical Tagging for LEO Consumables | G. | Gilbreath | Naval Research Laboratory |
| 5.0404 | Fine Pointing Control for Optical Communications | Steve | Monacos | Jet Propulsion Laboratory |
| 5.0405 | Optical Communications Payload for the SATEX I Experimental Microsatellite | Enrique | Pacheco | CICESE Research Center |
| 5.0406 | Accelerometer-Assisted Tracking and Pointing for Deep Space Optical Communications | Shinhak | Lee | Jet Propulsion Laboratory |
| 5.0501 | MEMS Based Sun Sensor | Carl Christian | Liebe | Jet Propulsion Laboratory |
| 5.0502 | Trends in Instrument Systems for Deep Space Exploration | Len | Dorsky | JPL |
| 5.0601 | Design of Optical Phased Array Beam Steering with Limited Dispersion | Paul | McManamon | Air Force Research Laboratory |
| 5.0602 | New Imaging Modalities for Laser-Based Systems | Edward | Watson | Air Force Research Laboratory, Sensors Directorate |
| 6.0101 | Overview of the Tropospheric Emission Spectrometer Ground System | Steve | Larson | Jet Propulsion Laboratory |
| 6.0102 | The Relationship between Ground Data Systems and Flight Operations for the Aura Project TES Instrument | Steven | Tyler | Jet Propulsion Laboratory |
| 6.0103 | Integrated Tools and Techniques Applied to the TES Ground Data System | Brian | Morrison | Caltech/JPL |
| 6.0104 | Design and Implementation of the TES Science Data Processing Framework | Stephen H. | Watson | Jet Propulsion Laboratory |
| 6.0105 | Strategy Builder Software for Atmospheric Retrievals | Sassaneh | Poosti | Jet Propulsion Laboratory |
| 6.0106 | Science Data Visualization Tools for the Tropospheric Emission Spectrometer Ground Data System | John | Wright | Jet Propulsion Lab |
| 6.0201 | IR Sounder Technology Trends | Carl | Schueler | Raytheon Santa Barbara Remote Sensing |
| 6.0202 | AIRS, the First Hyper-spectral Infrared Sounder for Operational Weather Forecasting | Hartmut | Aumann | JPL M.S.233-302 |
| 6.0203 | Architectural Trades for an Advanced Geostationary Atmospheric Sounding Instrument | Michael | MacDonald | MIT Lincoln Laboratory |
| 6.0204 | Imaging Geostationary Fourier Transform Spectrometer - Revolutionary Tool for Tropospheric Chemistry | Nikita | Pougatchev | Christopher Newport University |
| 6.0301 | Improving Tracking Behavior with Virtual Sensors in the Loop | Getachew | HAILU | Villanova University |
| 6.0401 | Efficacy Analysis of the Power-Law Detector for Non-Rayleigh Distributed Reverberation in Active Sonar Systems | Douglas | Abraham | The Pennsylvania State University |
| 6.0402 | Synthetic Aperture Sonar The Modern Method of Underwater Remote Sensing | Angela | Putney | Dynamics Technology, Inc. |
| 6.0403 | Target Detection Enhancements using In-Situ Environment Adaptive Clutter Modeling | Michael | Datum | Anteon Corporation |
| 6.0403 | Target Detection Enhancements using In-Situ Environment Adaptive Clutter Modeling | Michael | Datum | Anteon Corporation |
| 6.0404 | A New Tracker for Multiple Frequency Line | Sébastien | Paris | Université de Toulon et du Var |
| 6.0405 | Approximate CFAR Signal Detection in Strong Low Rank Non-Gaussian Interference | Ivars | Kirsteins | NUWC |
| 6.0406 | Trajectory Estimation for Ultrashort Baseline Acoustic Positioning Systems | Sébastien | Paris | Laboratoire SIS |
| 6.0501 | The 94-GHz Cloud Profiling Radar for the CloudSat Mission | Eastwood | Im | Jet Propulsion Laboratory |
| 6.0502 | Technologies for the Next Generation of Spaceborne Precipitation Radars | Gregory | Sadowy | Jet Propulsion Laboratory |
| 6.0503 | SeaWinds: The QuikSCAT Wind Scatterometer | Michael | Spencer | Jet Propulsion Laboratory |
| 6.0504 | Advanced Design Concepts for a SeaWinds Scatterometer Follow-On Mission | Bryan | Stiles | Jet Propulsion Laboratory |
| 6.0505 | A Spaceborne L-band Radiometer-Radar Concept for Land and Ocean Surface Monitoring | Michael | Spencer | Jet Propulsion Laboratory |
| 6.0506 | A High Stability ka-band Radiometer for Tropospheric Water Vapor Measurements | alan | tanner | jpl, california institute of technology |
| 6.0601 | Estimating Road Networks using Archived GMTI Data | Sean | O`Neil | MITRE Corporation |
| 6.0602 | Advances in Asynchronous and Decentralized Estimation | Mahendra | Mallick | ALPHATECH, Inc. |
| 6.0603 | An Improved PMHT Using an Idea from Coding | Peter | Willett | University of Connecticut |
| 6.0604 | Tracking on Intensity-Modulated Sensor Data Streams | Roy | Streit | NUWC |
| 6.0605 | Enhanced Accuracy GPS Navigation Using the Interacting Multiple Model Estimator | Thia | Kirubarajan | University of Connecitcut |
| 6.0701 | Estimation of Sea Surface Temperature Using the AVHRR Mid-wave IR Band | Jennifer | Davis | SciTec, Inc. |
| 6.0702 | Automated Event Classification for Multi-Gigabyte per Day Data Streams | Donald | Frankel | Photon Research Associates |
| 6.0703 | Geo-location using Synthetic Maps | James | Draper | Photon Research Associates |
| 6.0704 | Real-Time Classification of Multiple Non-Separated Battlefield Ordnance Events Using ELMO | Jeanne | Atwell | Ball Aerospace & Technologies Corp |
| 6.0705 | The Development of a Hyperspectral Sensor: A Data Processing Viewpoint | Edwin | Winter | Tech. Research Assoc. Inc. |
| 6.0706 | Effect of Cloud Polarization Properties on Target Discrimination | A | Stair | Visidyne, Inc. |
| 6.0801 | Far-IR/Submillimeter Space Interferometry: Scientific Motivation and Technology Requirements | David | Leisawitz | NASA Goddard Space Flight Center |
| 6.0802 | The Terrestrial Planet Finder | Peter | Lawson | Jet Propulsion Laboratory |
| 6.0803 | Nulling Interferometry for Extra-solar Planet Detection: Sensitivity & Image Reconstruction | Thangasamy | Velusamy | Jet Propulsion Laboratory |
| 6.0804 | Progress Toward Space-based Nulling Interferometry: Comparison of Null Stabilization Approaches | gene | serabyn | jpl |
| 6.0805 | The SRTM Sub-arcsecond Metrology Camera | Riley | Duren | JPL/Caltech |
| 6.0806 | Space Based GMTI Using Scanned Pattern Interferometric Radar (SPIR) | Karen | Marais | MIT Space Systems Laboratory |
| 6.0807 | Converting from a Lab Experiment to a Flight Instrument | Brian | Cox | Jet Propulsion Laboratory |
| 6.0808 | Technology Development for the Space Interferometry Mission (SIM) - Status and Plans | Robert | Laskin | Jet Propulsion Laboratory |
| 6.0809 | Real-time Command, Data and Control Concepts for the Instrument on the Space Interferometry Mission | Matt | Wette | Jet Propulsion Laboratory |
| 6.0810 | Integrated Dynamics and Controls Modeling for the Space Interferometry Mission (SIM) | Olivier | de Weck | Space Systems Laboratory, M.I.T. |
| 6.0811 | White Light Fringe Estimation: Algorithms, Error Sources, and Mitigation Strategies | Mark | Milman | Jet Propulsion Laboratory |
| 6.0901 | The Passive Sensor Subsystem for DITP Current Status and Projected Performance | Paul | LeVan | Air Force Research Laboratory |
| 6.0902 | Advanced Cryogenic Technology for Space Based Infrared Surveillance and Stored Cryogens | Benny | Tomlinson | Air Force Research Laboratory |
| 6.0903 | High Operating Temperature FPAs for Lighter, Lower Power Satellite Surveillance in the Infrared | Franklin | Roush | AFRL |
| 6.0904 | Raytheon 95K High Efficiency Cryocooler Program | Vladimir | Urbancek | Kirtland AFB |
| 6.1001 | MFR IRST Integration in the Naval Environment | Steve | Symons | DERA |
| 6.1002 | Efficient Data Fusion For Multi-Sensor Management | Marcel | Hernandez | DERA |
| 6.1003 | Asynchronous Multi-sensor Tracking in Clutter with Uncertain Sensor Locations | Alan | Marrs | DERA |
| 6.1003 | Asynchronous Multi-sensor Tracking in Clutter with Uncertain Sensor Locations | Alan | Marrs | DERA |
| 6.1004 | Measurement Fusion for Target Tracking Under Bandwidth Constraints | Peter | Willett | University of Connecticut |
| 7.0101 | Level-0 Telemetry Collection for Spacecraft Command and Data Handling Subsystems | Michael | Epperly | Southwest Research Institute |
| 7.0102 | A Standard Product Approach to Spaceborne Payload Processing | Edward | Prado | Honeywell Inc. |
| 7.0103 | Networking Intelligent Components to Create Intelligent Spacecraft | Robert | Hammett | C.S. Draper Laboratory |
| 7.0104 | Reconfigurable Semi-Virtual Computer Architecture for Long Available Small Space Vehicles | Esaú | Vivas | Instituto de Ingeniería, UNAM |
| 7.0105 | A Hybrid PCI / VME Architecture for Space | Buddy | Walls | Southwest Research Institute |
| 7.0201 | A Systematic-DSP for Satellite On-Board Application | Philippe | KAJFASZ | THALES Communications |
| 7.0202 | Multiprocessor Digital Signal Processing on Earth Orbiting Scatterometers | ALEX | BACHMANN | Jet Propulsion Laboratory, California Institute of |
| 7.0202 | Multiprocessor Digital Signal Processing on Earth Orbiting Scatterometers | ALEX | BACHMANN | Jet Propulsion Laboratory, California Institute of |
| 7.0203 | Radiation Hardened PowerPC 603e (tm) Based Single Board Computer | Gary | Brown | Honeywell |
| 7.0204 | The RAD750 - A Radiation Hardened PowerPC Processor for High Performance Spaceborne Applications | Richard | Berger | BAE SYSTEMS |
| 7.0301 | Radiation Hardened Memory Development at Honeywell | Hassan | Kaakani | Honeywell Solid State Electronics Center |
| 7.0302 | Radiation Hardened Memories for Space Applications | Nadim | Haddad | BAE SYSTEMS |
| 7.0303 | Chalcogenide-Based Non-Volatile Memory Technology | Jonathan | Maimon | Ovonyx, Inc. |
| 7.0303 | Chalcogenide-Based Non-Volatile Memory Technology | Jonathan | Maimon | Ovonyx, Inc. |
| 7.0304 | SONOS Nonvolatile Semiconductor Memories for Space and Military Applications | Dennis | Adams | Northrop Grumman Corporation |
| 7.0401 | Evolution of Analog Circuits on a Programmable Analog Multiplexer Array | Ricardo | Zebulum | Jet Propulsion Lab |
| 7.0402 | Evolutionary Mechanisms for Smart On-board Adaptive Sensing applied to the MECA Electrometer | Didier | Keymeulen | JPL |
| 7.0403 | Experiments on the Evolution of Digital to Analog Converters | Ricardo | Zebulum | Jet Propulsion Lab |
| 7.0404 | In-Situ Evolution of a Reconfigurable Antenna | Derek | Linden | Linden Innovation Research |
| 7.0405 | Modular Telecommunication Satellite Network using On-Orbit Telerobotic Assembly | Eric | Romo | Laboratory for Spacecraft & Mission Design |
| 7.0406 | An Absolute High Performance, Self-Calibrating Optical Rotary Positioning System | Asad | Madni | BEI Technologies Inc. |
| 7.0501 | Low Power 0.25 ASIC Technology for Space Applications | Nadim | Haddad | BAE SYSTEMS |
| 7.0601 | New Technologies for Board Level Interconnect and Packaging | Bill | Bjorndahl | TRW |
| 7.0602 | Dimpled Ball Grid Array Qualification Testing for Space Flight Applications | Sharon | Barr | Jet Propulsion Laboratory |
| 7.0701 | Goal-Based Fault Tolerance for Space Systems using the Mission Data System | Robert | Rasmussen | Jet Propulsion Laboratory |
| 7.0702 | Using Model-Based Reasoning for Autonomous Instrument Operation | Michael | Johnson | NASA / Goddard Space Flight Center |
| 7.0703 | Onboard Guarded Software Upgrading: Motivation and Framework | Leon | Alkalai | Jet Propulsion Laboratory, California Institute of Technology |
| 7.0704 | The Effect of Faults on Plasma Particle Detector Data Reduction | Michael | Rilee | NASA GODDARD SFC |
| 7.0705 | A Reliable Infrastructure Based On COTS Technology For Affordable Space Application | David | Ngo | Sanders, a Lockheed Martin Company |
| 7.0901 | Extreme Temperature (-170C to 125C) Electronics for Nanorover Operation | Michael | Newell | Jet Propulsion Laboratory |
| 7.0902 | Semiconductor Device Reliability in Extreme High Temperature Space Environments | Wallace | Anderson | Naval Research Laboratory |
| 8.0101 | High-Temperature Superconductor-Magnet Momentum Wheel for Micro Satellite | Eunjeong | Lee | University of Texas at San Antonio |
| 8.0102 | An Ultra Low Weight/Low Cost Three Axis Attitude Readout System for Nano-Satellites | Gerald | Falbel | Optical Energy Technologies Inc. |
| 8.0103 | Micro-wheels for Attitude Control and Energy Storage in Small Satellites | Andrzej | Peczalski | Honeywell Laboratories |
| 8.0104 | Micro-Satellite Ground Test Vehicle for Proximity and Docking Operations Development | Arno | Ledebuhr | Lawrence Livermore National Laboratory |
| 8.0105 | DS1 Ion Propulsion Emissions Characterization | Michael | Henry | Jet Propulsion Laboratory |
| 8.0106 | GPS Micro Navigation and Communication System for Clusters of Micro and Nanosatellites | Ray | Zenick | AeroAstro, Inc. |
| 8.0107 | A Third Generation, Highly Monitored, Micromachined Quartz Rate Sensor for Safety-Critical Vehicle Stability Control | Asad | Madni | BEI Technologies Inc. |
| 8.0108 | AeroAstro's X-Band Transponder - Meeting the Communication Needs of Tomorrow's Small Spacecraft | Ray | Zenick | AeroAstro, Inc. |
| 8.0201 | Developments in Elastic Memory Composite Materials for Spacecraft Deployable Structures | Michael | Tupper | Composite Technology Development, Inc. |
| 8.0202 | Novel Composites for Space Microelectronics and Optics | Witold | Kowbel | MER |
| 8.0301 | Small Payload Orbit Transfer (SPORT) System: Lowering Launch Cost without Increased Risk | Kimberly | Kohlhepp | AeroAstro, Inc. |
| 8.0302 | EELV Secondary Payload Adapter (ESPA): Providing Increased Access to Space | Peter | Wegner | AFRL/VSSV |
| 8.0401 | StarTram: A New Approach for Low-Cost Earth-to-Orbit Transport | James R. | Powell | Plus UltraTechnologies, Inc. |
| 9.0101 | Flight Testing of the F/A-18E/F Automatic Carrier Landing System | Joe | Prickett | Naval Air Systems Command |
| 9.0102 | Web-Based Flight Test Training & Mishap Investigation Support | Dean | Carico | Naval Air Warfare Center/Aircraft Division |
| 9.0103 | SUU-25F/A Dispenser Pod Flight Test Program on the F/A-18A Aircraft | David | Roberts | Naval Air Warfare Center Aircraft Div |
| 9.0104 | The Computer Replacement Program for the Joint Surveillance Target Attack Radar System | Brian | Kish | Joint STARS Test Force |
| 9.0105 | YCH-60 HELICOPTER AIRBORNE MINE COUNTERMEASURES PROOF OF CONCEPT TOW DEMONSTRATION | Wade | McConvey | Naval Rotary Wing Aircraft Test Squadron |
| 9.0106 | The Engine Air-Start test of XF-2 | Jiro | Miyano | 3rd Reseach Center, Technical R&D Inst., Japan Def |
| 9.0201 | Adaptive Guidance Systems for Hypersonic Reusable Launch Vehicles | John | Schierman | Barron Associates, Inc. |
| 9.0202 | Adaptive Guidance and Control for Autonomous Launch Vehicles | J. Eric | Corban | Guided Systems Technologies, Inc. |
| 9.0203 | Dynamic Inversion-Based Adaptive/Reconfigurable Control of the X-33 on Ascent | David | Doman | U.S. Air Force Research Laboratory |
| 9.0204 | Unmanned Air Vehicles: New Challenges in Design | Thomas | Cord | AFRL/VAAA |
| 10.0101 | A Benchmark Evaluation of Network Intrusion Detection Systems | Terrence | Champion | Skaion Corporation |
| 10.0102 | Data Embedding in Audio Signals | Daniel | Benincasa | Air Force Research Laboratory |
| 10.0201 | Automated Threat Response Using Intelligent Agents (ATRIA) | Alan | Quan | The Aerospace Corporation |
| 10.0202 | The Real-Time ObjectAgent Software Architecture for Distributed Satellite Systems | Derek | Surka | Princeton Satellite Systems |
| 10.0203 | A Process for Introducing Agent Technology into Space Missions | Christopher | Rouff | SAIC |
| 10.0204 | Distributed, Autonomous Control of Space Habitats | David | Kortenkamp | Metrica Inc./TRACLabs |
| 10.0205 | Operations Assistants for the Manned Space Program | Susan | Torney | NASA, Johnson Space Center |
| 10.0206 | Dynamic Control of the WIND CFD Code | Leonard | Wesley | Intellex |
| 10.0207 | Multi-Agent System for Formation Flying Missions | Sanda | Mandutianu | Jet Propulsion Laboratory |
| 10.0208 | Implementing a Multi-agent Systems Approach to Collaborative Autonomous Manufacturing Operations | Andrew | Lucas | Agent Oriented Software |
| 10.0301 | Comments on Modified Condition/Decision Coverage for Software Testing | Allan | White | NASA Langley Research Center |
| 10.0401 | Advances in Computational Resiliency | Stephen | Taylor | Syracuse University |
| 10.0501 | Developing and Validating Thousands of Executable Finite State Machines | Glenn | Semmel | NASA |
| 10.0502 | Object-Oriented Executives and Components for Fault Tolerance | Ralph | Duncan | Intensys Corporation (previously with Quality Research Associates, Inc.) |
| 10.0503 | Automated Reuse Support for Design of Embedded Avionics Systems | Praveen | Chawla | EDAptive Computing, Inc. |
| 10.0504 | The Real Cost of COTS | Arlene | Minkiewicz | PRICE Systems, L.L.C. |
| 10.0505 | COTS-based OO-Components Approach for Software Inter-operability and Reuse | Laverne | Hall | Jet Propulsion Laboratory |
| 10.0506 | A Software Architecture for Intelligent Synthesis Environments | Robert | Filman | RIACS |
| 10.0507 | A Component Based Implementation of Agents and Brokers for Design Coordination | Tanya | Vinogradova | Jet Propulsion Laboratory |
| 11.0101 | ICEMS: A Platform for Advanced Conditeion-Based Health Management | Link | Jaw | Scientific Monitoring, Inc. |
| 11.0102 | Advanced Test Cell Diagnostics for Gas Turbine Engines | Michael | Roemer | Impact Technologies, LLC |
| 11.0103 | The Revolution of the Aircraft Engine Ground Maintenance Station | John | Clinton | John T. Clinton |
| 11.0201 | Wideband Fiber Optic Vibration Measurement System Prototype Evaluation | Martin | Karchnak | Epoch Engineering, Inc. |
| 11.0301 | Hybrid Reasoning for Prognostic Learning in CBM Systems | Carl | Byington | Applied Research Lab |
| 11.0302 | A General Prognostic Tracking Algorithm for Predictive Maintenance | David | Swanson | The Applied Research Lab |
| 11.0303 | Assessment of Data and Knowledge Fusion Strategies for Prognostics and Health Management | Gregory | Kacprzynski | Impact Technologies |
| 11.0304 | BEAM: Technology for Autonomous Self-Analysis | Ryan | Mackey | Jet Propulsion Laboratory |
| 11.0305 | Case Study Methodology for Information Fusion Interface Definition | Barry | Ferrell | Lockheed Martin Aeronautics Company |
| 11.0306 | Data and Information Fusion for Gas Path Debris Monitoring | Celia | Fisher | Stewart Hughes Limited |
| 11.0307 | An Evolvable Tri-Reasoner IVHM System | George | Bloor | Boeing |
| 11.0401 | The IMD HUMS as a Tool for Rotorcraft Health Management and Diagnostics | David | Kogut | BFGoodrich Aerospace |
| 11.0401 | The IMD HUMS as a Tool for Rotorcraft Health Management and Diagnostics | David | Kogut | BFGoodrich Aerospace |
| 11.0402 | A USN Development Strategy and Demonstration Results for Propulsion and Mechanical Systems Diagnostics, Prognostics and Health Management | Andrew | Hess | NAVAIR 4.4.2 |
| 11.0403 | F/A-18E/F F414 Advanced Inflight Engine Condition Monitoring System (IECMS) | Charles | Hall | The Boeing Company |
| 11.0501 | HUMS - The Benefits -- Past, Present and Future | James | Land | Irvine Labs, Inc. |
| 11.0502 | Writing A Convincing Cost Benefit Analysis to Substantiate Autonomic Logistics | Leo | Fila | CENTRA Technology |
| 11.0503 | Extending FMECA - Health Management Design Optimization for Aerospace Applications | Gregory | Kacprzynski | Impact Technologies |
| 11.0601 | Anomaly Detection for Advanced Military Aircraft Using Neural Networks | Thomas | Brotherton | The Intelligent Automation Corp. |
| 11.0602 | Anomaly Detector Fusion Processing for Advanced Military Aircraft | Thomas | Brotherton | The Intelligent Automation Corp. |
| 11.0603 | Development of Diagnostic and Prognostic Technologies for Aerospace Health Management Applications | Micheal | Roemer | Impact Technologies |
| 11.0604 | Model-based Predictive Diagnostics for Electrochemical Energy Sources | Carl | Byington | Applied Research Laboratory |
| 11.0701 | Turbine Engine Research in the United States Air Force | Richard | Friend | Air Force Reseach Laboratory |
| 11.0702 | Diagnostics for Active Management of Aircraft System Failures | Sonja | Glavaski | Honeywell |
| 11.0702 | Diagnostics for Active Management of Aircraft System Failures | Sonja | Glavaski | Honeywell |
| 11.0703 | Basic System Identificaton for Condition Monitoring of Turbopumps | Samuel | DiMaggio | The Aerospace Corporation |
| 11.0801 | Use and Benefit of Seeded Fault Testing in Development of Advanced Diagnostic and Prognostic Algorithms | Greg | Colman | Rolls Royce |
| 11.0801 | Use and Benefit of Seeded Fault Testing in Development of Advanced Diagnostic and Prognostic Algorithms | Greg | Colman | Rolls Royce |
| 11.0802 | An Integrated Diagnostics Virtual Test Bench for Life Cycle Support | Kevin | Cavanaugh | Qualtech Systems, Inc. |
| 11.0803 | Applications of Microsystems and Signal Processing for Wiring Integrity Monitoring | Kenneth | Blemel | Management Sciences, Inc. |
| 11.0804 | Development of a Smart Wireless Networkable Sensor for Aircraft Engine Health Management | G. William | Nickerson | Oceana Sensor Technologies |
| 11.0805 | Damage Identification by NSMS Blade Resonance Tracking in Mistuned Rotors | Andy | von Flotow | Hood Technology Corporation |
| 11.0806 | Optimizing Model Size in Diagnosing Complex Aerospace Systems | Gregory | Provan | Rockwell Science Center |
| 11.0807 | Autonomous PHM with Blade-Tip Sensors: Algorithms and Seeded Fault Experience | Andy | von Flotow | Hood Technology Corporation |
| 12.0101 | Developing a Concept of Operations: Enabling Improvement | Ernie | Nichols | INTELSAT |
| 12.0102 | Mitigating Interference into Communication Satellites | Robert | Ames | INTELSAT |
| 12.0201 | Test Like You Fly | Allen | Bucher | Advanced Solutions, Inc |
| 12.0202 | Automated Rover Sequence Report Generation | Paul | Backes | Jet Propulsion Laboratory |
| 12.0203 | PTEP: The Parallel Telemetry Processor | Jeffrey | Norris | Jet Propulsion Laboratory |
| 12.0204 | Design and Implementation of the NEAR Command Load Generation Process | David | LaVallee | Johns Hopkins University |
| 12.0301 | Animated Software Training Via the Internet: Lessons Learned | Carol | Scott | Jet Propulsion Laboratory |
| 12.0401 | Automating Operations for NASA's Deep Space Network (DSN) | Eva | Bokor | NASA - JPL |
| 12.0402 | E-Scheduling the Deep Space Network | Jeffrey | Smith | Jet Propulsion Laboratory |
| 12.0403 | A Systematic Formulation of Spacecraft Health Management Decisions | Michael | Swartwout | Department of Mechanical Engineering, Washington University |
| 12.0501 | SCL Open Source One Year Later Lessons Learned | Patrice | Cappelaere | Interface & Control Systems |
| 12.0502 | A Space Solar Power Workshop | Darel | Preble | Space Solar Power Institute |
| 13.0101 | Design-Based Mission Operation | Meemong | Lee | Jet Propulsion Laboratory |
| 13.0201 | A Statistics of Rare Events Method for Transportation Systems | Allan | White | NASA Langley Research Center |
| 13.0202 | Automated Incremental Design FMEA | David, R | Throop | The Boeing Company |
| 13.0202 | Automated Incremental Design FMEA | David, R | Throop | The Boeing Company |
| 13.0203 | Multicasting with Advantaged Resources | Cauligi | Raghavendra | The Aerospace Corporation |
| 13.0204 | Relative Orbit Design Tool | Mark | Tollefson | Dynacs, Inc. |
| 13.0205 | Modeling and Simulation Tools for Rapid Space System Analysis and Design | Stuart | Stanton | US Air Force Academy |
| 13.0301 | Wearable Computers for NASA Applications | Barbara | Pfarr | NASA |
| 13.0401 | A Virtual Collaboration Testbed (VCT) for Joint Campaign Battle Management and Mission Planning | Lawrence | Filippelli | Ball Aerospace & Technologies Corp. |
| 13.0402 | Developing an Efficient Space System Rapid Design Center | Charles | Reynerson | Ball Aerospace & Technologies Corp. |
| 13.0403 | Fusion, Visualization and Analysis Framework for Large, Distributed Data Sets | Joseph | Jacob | Jet Propulsion Laboratory |
| 13.0404 | Mining the Gold of Human Knowledge | Lawrence | Jobson | PTC |
| 13.0405 | Development and Utilization Status of NASAs Advanced Engineering Environment - ISE | Douglas | Craig | NASA Langley Research Center |
| 13.0406 | Synthetic Environments for Simulated Missions | Robert | Gaskell | Jet Propulsion Laboratory |
| 13.0407 | Distributed Collaborative Environments for the 21st Century Laboratory | William | McQuay | USAF Research Laboratory |
| 13.0408 | NASA Goddard Space Flight Center Virtual System Design Environment | Jalal | Mapar | SAIC |
| 14.0201 | NASA's Gossamer Spacecraft Technology Program | Melvin D. | Montemerlo | NASA Headquarters |
| 14.0202 | NOAA Solar Sail Programs | Patricia | Mulligan | NOAA Headquarters |
| 14.0203 | Gossamer Spacecraft Technology for Space Solar Power Systems | Christopher | Moore | NASA Langley |
| 14.0204 | Astronaut Construction of Large Aperture Structures in Space | Mark | Lake | Langley Research Center |
| 14.0205 | NASA's Large Telescope Systems Initiative | Art | Chmielewski | Jet Propulsion Laboratory |
| 14.0206 | Solar Sail Technology at NASA | Humphrey | Price | Jet Propulsion Laboratory |
| 14.0207 | Solar Sail Technology in NASA's Advanced Spacecraft Technology Program | Randy | Baggett | NASA Marshall Space Flight Center |
| 14.0208 | Launching a 25-Meter Space Telescope | Mark | Lake | NASA Langley Research Center |
| 14.0301 | The Laser Interferometer Space Antenna Mission | Steven | Horowitz | NASA HQ |
| 14.0302 | Gamma-Ray Large Area Space Telescope (GLAST) Mission | Joy | Bretthauer | Goddard Space Flight Center |
| 14.0303 | The Constellation X-ray Mission: Exploring the Mysteries of Matter in the Universe | Govind | Gadwal | GSFC |
| 14.0304 | NASA Structure and Evolution of the Universe Theme: Science Overview | Nicholas | White | GSFC |
| 14.0305 | ACCESS: Advanced Cosmic-ray Composition Experiment for the Space Station | Ruth | Carter | NASA GSFC |
| 14.0401 | The NIST MEL: Assisting Aerospace Manufacturing through Measurements and Standards | David | Stieren | NIST Manufacturing Engineering Laboratory |
| 14.0402 | An Overview of NASA's Intelligent Systems Program | Daniel | Cooke | Texas Tech University |
| 14.0601 | Project Aria: Space Systems Research, Education and Public Outreach at Washington University | Michael | Swartwout | Department of Mechanical Engineering, Washington University |
| 14.0602 | Taking Atomic Force Microscope Advances to the University Classroom | Jesse | Adams | Stanford University |
| 14.0603 | Student Antenna Design for a Nanosatellite | Randy | Haupt | Utah State University |