2006 IEEE Aerospace Conference Papers
|
Presentation |
# |
Presenter First Name |
Presenter Last Name |
Organization |
Paper Title |
|
|
|
|
|
|
|
|
10.0101 |
1502 |
Jirapun |
Daengdej |
Faculty of Science and Technology, Assumption University |
Coverall Algorithm for Test Cases Reduction |
|
10.0102 |
1488 |
Guillaume |
Brat |
USRA/RIACS |
Verification of Autonomous Systems for Space Applications |
|
10.0103 |
1215 |
Julian |
Richardson |
RIACS |
Flexible Generation of Kalman Filter Code |
|
10.0201 |
1364 |
Debra |
Schreckenghost |
Metrica |
Multi-agent System for Managing Human Activities in Space Operations |
|
10.0202 |
1274 |
Jidé |
ODUBIYI |
Bowie State University |
COGENCY - Collaborative Communities of Grid-aware Intelligent Agents |
|
10.0203 |
1298 |
Jidé |
ODUBIYI |
Bowie State University |
AEGONE - Agent-Enabled, Grid-Oriented, and just-in-time Network of Experts |
|
10.0204 |
1448 |
Raymond |
Budd |
BBN Technologies |
An Agent-Based Approach to Distributed UAV and Sensor Planning Systems |
|
10.0205 |
1331 |
Charles |
Sebens |
MIT |
An Agent-based Tetrahedral Walker |
|
10.0206 |
1227 |
Liviu |
Nedelescu |
Lockheed Martin |
Using Agent-Based Simulation to Evaluate Airline Dispatch Technology and Collaborative Rerouting Concepts for the National Airspace System |
|
10.0301 |
1335 |
Peter |
Willett |
UCONN |
On Detection Networks and Iterated Influence Diagrams: Application to a Parallel Distributed Structure |
|
10.0302 |
1042 |
Seungwon |
Lee |
Jet Propulsion Laboratory |
Low-Thrust Mission Design with Parallel, Evolutionary Computing Methods |
|
10.0303 |
1081 |
Lorenz |
Drack |
Defence Science and Technology Organisation |
A Framework for the Design Optimisation of Aerospace Platforms using Intelligent Technologies |
|
10.0401 |
1363 |
Paul |
Phister |
Air Force Research Laboratory |
Command and Control Concepts within the Network Centric Operations Construct |
|
10.0501 |
1650 |
Mike |
Daily |
HRL Laboratories |
A Review of Time Critical Decision Making Models and Human Cognitive Processes |
|
10.0502 |
1418 |
Aaron |
Lawson |
Air Force Research Laboratory |
Automatic Speech Recognition Fusion Approach to Unsupervised Speaker Clustering and Labeling |
|
10.0503 |
1295 |
David |
Maluf |
NASA |
Sensing Super-Position: Visual Instrument Sensor Organ Replacement |
|
10.0601 |
1296 |
William |
McDermott |
NASA |
Knowledge Mining Application in a IVHM Testbed |
|
10.0701 |
1356 |
Richard W. |
La Valley |
SAIC, Inc. |
Operationally Significant Patterns of Association in Counter-Terrorist Data Bases |
|
10.0702 |
1468 |
Thomas |
Garwin |
Advanced Systems and Concepts / SAIC |
Experience with an Integrated Metrics-Based System for Test and Evaluation of Group Detection Sofware for Counter-Terrorism |
|
10.0703 |
1420 |
Thuong |
Doan |
Dept of Computer Science & Engineering |
Applying LSI and Data Reduction to XML for Counter Terrorism |
|
10.0704 |
1208 |
Greg |
Mack |
SAIC |
An Infrastructure for Automating Information Sharing in Analytic Collaboration |
|
10.0801 |
1271 |
Tapanan |
Yeophantong |
Faculty of Science and Technology, Assumption University |
An Approach to Handling Surprises in Asymmetric Attacks through Creative Activity Modeling |
|
10.0802 |
1608 |
John |
Lockwood |
Washington University |
Results of High-volume Semantic Processing to detect Emerging Threats |
|
10.0803 |
1635 |
Richard |
Rohwer |
HNC Software / Fair Isaac Corporation |
An Architecture for Streaming Coclustering in High Speed Hardware |
|
10.0804 |
1573 |
David |
Cousins |
BBN |
A Survey of Techniques to Visualize Streaming Intelligence Data |
|
10.0805 |
1385 |
Dana |
Moore |
BBN Technologies |
Considerations for a Framework To Provide Enhanced Perception of NLOS Threats and Targets |
|
10.0901 |
1565 |
Robert |
Popp |
Aptima, Inc. |
Assessing Nation-State Fragility |
|
10.0902 |
1216 |
Gregory |
Mack |
SAIC- Advanced Systems and Concepts |
Automated Population of Dynamic Bayes Nets for Pre-Conflict Analysis and Forecasting |
|
10.0907 |
1641 |
Steven |
Bankes |
Evolving Logic |
Supporting Decisions with (Less Than Perfect) Social Science Models |
|
10.0908 |
1278 |
Michael |
Siegel |
MIT |
Understanding the Dynamics of State Stability |
|
10.1001 |
1157 |
Allyson |
Hoss |
Louisiana State University |
Ontological Approach to Improving Design Quality |
|
10.1002 |
1262 |
Faisal |
Akkawi |
Northwestern University |
An Executable Choreography Framework for Dynamic Service-Oriented Architectures |
|
10.1003 |
1168 |
Charles |
Lee |
SAIC / NASA Ames Research Center |
Software Architecture of Sensor Data Distribution In Planetary Exploration |
|
10.1004 |
1345 |
Semion |
Kizhner |
NASA Goddard Space Flight Center |
On the Hilbert-Huang Transform Theoretical Developments |
|
10.1005 |
1289 |
Jacob |
Torrez |
Ball Aerospace and Technologies Corp. |
The Deep Impact Flight Software Architecture - The adoption of industry best practices and their contribution to the Deep Impact mission. |
|
10.1006 |
1384 |
Dana |
Moore |
BBN Technologies |
Agile Language Based Development, the Next Generation |
|
10.1101 |
1233 |
Kirk |
Swanson |
Architecture Technology Corp |
CompreX: Further Developments in XML Compression |
|
10.1102 |
1620 |
Scott |
McDermott |
AeroAstro Inc. |
AAstroLogic: Using XML in a Spacecraft-Focused Client-Server System |
|
10.1201 |
1263 |
Jirapun |
Daengdej |
Assumption University |
An Approach for Detecting Deception in Agents |
|
10.1202 |
1302 |
Sriram |
Gopalan |
Booz Allen Hamilton |
Realizing Organizational Collaboration Through Semantic Mediation |
|
10.1203 |
1403 |
John |
Hebeler |
BBN Technologies |
Geospatial Semantic Web: Architecture of Ontologies |
|
10.1205 |
1381 |
Kym |
Pohl |
CDM Technologies Inc. |
Perspective Models and Supportive Development Process As a Means For Achieving True and Realistic Representational Accuracy |
|
11.0101 |
1104 |
Brian |
Larder |
Smiths Aerospace |
An integrated approach to the development of an intelligent Prognostic and Health Management System |
|
11.0102 |
1045 |
Torbjorn |
Fransson |
Saab AB |
Integrating development- and support tools for PHM in Saab 39 Gripen. |
|
11.0103 |
1507 |
Zachary |
Williams |
The Boeing Company |
Benefits of IVHM: An Analytical Approach |
|
11.0106 |
1619 |
Philip |
Wysocki |
NASA/ASRC |
Value proposition for wire integrity management using sensors on-board manned aerospacecraft |
|
11.0201 |
1668 |
Bala |
Chidambaram |
Boeing |
Recorders, Reasoners, and Artificial Intelligence – Strategies for Integrated Diagnostics on the C-17 Military Transport Aircraft |
|
11.0202 |
1020 |
P. |
BANERJEE |
Univ of Illinois at Chicago |
Discriminant Analysis for Helicopter Rotor Vibration Prognostics |
|
11.0203 |
1209 |
Kerry |
Westervelt |
NAWCAD |
Fixing BIT on the V-22 Osprey |
|
11.0301 |
1368 |
Rolf |
Orsagh |
Impact Technologies |
Case Studies on Developing Bearing Prognosis and True Incipient Fault Detection in Engines and Drivetrains |
|
11.0302 |
1219 |
Brian |
Beachkofski |
AFRL/PRTS |
Propulsion Safety and Affordable Readiness Engine Health Management Plan |
|
11.0303 |
1107 |
Alan |
Pisano |
General Electric Aviation |
The SECAD Project – Vulnerability Reduction via Propulsion Control Logic |
|
11.0304 |
1637 |
Somnath |
Deb |
Qualtech Systems, Inc. |
Validation of a COTS EHM Solution for the JSF Program |
|
11.0306 |
1351 |
Nancy |
Lybeck |
Sentient Corporation |
Modeling and Simulation of Vibration Signatures in Propulsion Subsystems |
|
11.0401 |
1119 |
Paula |
Dempsey |
NASA Glenn Research Center |
Investigation of Tapered Roller Bearing Damage Detection Using Oil Debris Analysis |
|
11.0402 |
1374 |
Carl |
Byington |
Impact Technologies |
Improving the Maintenance Process and Enabling Prognostics for Control Actuators using CAHM™ Software |
|
11.0403 |
1270 |
Michael |
Roemer |
Impact Technologies, LLC |
Simulation-Based Health and Contingency Management for Unmanned Vehicles |
|
11.0501 |
1378 |
Herbert |
Hecht |
SoHaR Incorporated |
Why Prognostics for Avionics? |
|
11.0502 |
1128 |
Rolf |
Orsagh |
Impact Technologies |
Prognostic Health Management for Avionics Systems |
|
11.0503 |
1380 |
Kirby |
Keller |
Boeing |
Aircraft Electrical Power Systems Prognostics and Health Management (AEPHM) |
|
11.0504 |
1537 |
Chiman |
Kwan |
Intelligent Automation Inc. |
An Intelligent Hierarchical Approach to Actuator Fault Diagnosis and Accommodation |
|
11.0505 |
1052 |
Dinkar |
Mylaraswamy |
Honeywell Laboratories, Minneapolis, USA |
A Hybrid Prognostic Model Formulation, System Identification and Health Estimation of Auxiliary Power Units |
|
11.0506 |
1461 |
John |
Morrison |
Montana Tech |
Real Time Estimation of Battery Impedance |
|
11.0507 |
1462 |
Richard |
Hoffmann |
Montana Tech |
Development and Test of A Real Time Battery Impedance Estimation System |
|
11.0508 |
1634 |
Philip |
Dussault |
AMRDEC |
Field Data Evaluation and Continuous Health Assessment of Critical Avionics Subsystem Degradation |
|
11.0601 |
1198 |
Hesham |
Azzam |
Smiths Aerospace |
Optimisation of Fusion and Decision Making Techniques for Affordable Structural Prognostic Health Management (SPHM) |
|
11.0602 |
1288 |
Christopher |
Gouldstone |
Mesoscribe Technologies, Inc. |
Embedded resistive strain sensors for harsh environments |
|
11.0603 |
1313 |
Wenyi |
Wang |
Defence Science and Technology Organisation |
Disk Crack Detection and Diagnosis for Gas Turbine Engines |
|
11.0701 |
1337 |
Stephen |
Chiu |
Rockwell Scientific |
Adaptive Control of Actuator Lifetime |
|
11.0702 |
1370 |
Carl |
Byington |
Impact Technologies, LLC |
Layered Classification for Improved Diagnostic Isolation in Drivetrain Components |
|
11.0703 |
1118 |
David |
Hochmann |
Goodrich Corp. FUS |
Analytical Mechanical Diagnostic Benefits: Case Studies |
|
11.0704 |
1068 |
Eric |
Bechhoefer |
Goodrich Fuels and Utilities |
Mechanical Diagnostics System Engineering in IMD-HUMS |
|
11.0705 |
1136 |
Dinkar |
Mylaraswamy |
Honeywell |
On handling dependent evidence and multiple faults in knowledge fusion for engine health management |
|
11.0706 |
1433 |
Joel |
Bock |
Intelligent Automation Corporation |
False alarm control — theory and pragmatism |
|
11.0711 |
1130 |
Eric |
Bechhoefer |
Goodrich Fuels and Utilities |
Use of the Non-Gaussian Distributions for Analysis of Shaft Components |
|
11.0801 |
1224 |
Richard |
Milford |
Boeing |
An Efficient Framework for the Conversion of Fault Trees to Diagnostic Bayesian Network Models |
|
11.0802 |
1469 |
Haiqin |
Wang |
The Boeing Company |
Using Sensitivity Analysis to Validate Bayesian Networks for Airplane Subsystem Diagnosis |
|
11.0803 |
1572 |
John |
Sheppard |
Johns Hopkins University |
Not-So-Naïve Bayesian Networks and Unique Identification in Developing Advanced Diagnostics |
|
11.0901 |
1471 |
Liang |
Tang |
Impact Technologies, LLC. |
An Intelligent Agent-based Self-evolving Maintenance and Operations Reasoning System |
|
11.0902 |
1571 |
Timothy |
Wilmering |
The Boeing Company |
Recent Advances in Ieee Standards for Diagnosis and Diagnostic Maturation |
|
11.0903 |
1254 |
Kai |
Goebel |
GE Global Research |
Framework for Post-Prognostic Decision Support |
|
11.0904 |
1480 |
Ashok |
Srivastava |
NASA |
Discovering Atypical Flights in Sequences of Discrete Flight Parameters |
|
11.0905 |
1269 |
Gautam |
Biswas |
Vanderbilt University |
A Systematic Model-Based Approach to Building Per-formance Monitoring Systems |
|
11.0906 |
1440 |
David |
Throop |
David Throop |
Using IVHM Ontologies to Support Enterprise Search |
|
11.0907 |
1359 |
Johann |
Schumann |
RIACS/NASA Ames |
Analysis of Aircraft Control Performance using a Fuzzy rule base representation of the Cooper-Harper Aircraft Handling Quality Rating |
|
11.1001 |
1106 |
Ari |
Novis |
Pratt & Whitney |
PHM Sensor Implementation in the Real World – a Status Report |
|
11.1002 |
1100 |
Honor |
Powrie |
Smiths Aerospace, Electronic Systems - Southampton |
Gas Path Debris Monitoring for Joint Strike Fighter Engine PHM |
|
11.1003 |
1197 |
Jonathan |
Cook |
Materials and Structures Group, UK MOD |
FUMS Fusion And Decision Support for Intelligent Management of Aircraft Data |
|
11.1004 |
1593 |
Kai |
Goebel |
GE Global Research |
Fusing Competing Prediction Algorithms for Prognostics |
|
11.1005 |
1287 |
Jonathan |
Gutleber |
Mesoscribe Technologies, Inc. |
Embedded Temperature and Heat Flux Sensors for Advanced Health Monitoring of Turbines and Space Systems |
|
11.1101 |
1032 |
Sue |
George |
RLW, Inc. |
Development of a Vibration-Powered, Wireless Sensor with an Integral Temperature Sensor and Accelerometer for Health Monitoring |
|
11.1102 |
1568 |
Amir |
Fijany |
Jet Propulsion Laboratory |
A New Efficient Algorithm for Analyzing and Optimizing the System of Sensors |
|
11.1103 |
1520 |
Rebecca |
Oostdyk |
ASRC Aerospace |
A Kennedy Space Center Implementation of IEEE 1451 Networked Smart Sensors and Lessons Learned |
|
11.1201 |
1350 |
Brogan |
Morton |
Sentient Corporation |
Predicting the Remaining Life of Propulsion System Bearings |
|
11.1202 |
1120 |
David |
He |
University of Illinois at Chicago |
Development of Computational Intelligence for Aircraft Prognostics |
|
11.1203 |
1407 |
Jarrod |
Line |
Lockheed Martin |
Prognostics Usefulness Criteria |
|
11.1204 |
1489 |
Andrew |
Hess |
Joint Strike Fighter Program Office |
Challenges, Issues, and Lessons Learned Chasing the "Big P": Real Predictive Prognostics Part 2. |
|
11.1205 |
1222 |
Margret |
Curtin |
VEXTEC Corporation |
Electronics Reliability Prognosis Through Material Modeling and Simulation |
|
11.1206 |
1618 |
Jeffrey |
Simons |
SRI International |
Prognostics Modeling of Solder Joints in Electronic Component |
|
11.1207 |
1630 |
Russell |
Graves |
Ridgetop Group, Inc. |
A Board-Level Prognostic Monitor for MOSFET TDDB |
|
11.1301 |
1019 |
Jeffrey |
Banks |
Penn State Applied Research Laboratory |
A Demonstration of Embedded Health Management Technology for the HEMTT LHS Vehicle |
|
11.1302 |
1138 |
Daniel |
Caguiat |
NAVSEA-PHILA |
Application of Neural Networks to Marine Gas Turbine Stall Algorithm Development |
|
11.1303 |
1174 |
Brian |
Murphy |
Penn State University |
Diagnostic End to End Monitoring & Fault Detection for Hydraulic Braking Systems |
|
11.1304 |
1205 |
Yevgeny |
Macheret |
IDA |
Prognostics and Intelligent Maintenance Approach for Improving Steady State and Pulse Reliability of Military Vehicles |
|
11.1305 |
1328 |
Brian |
Murphy |
Penn State University |
Modeling of Hydraulic Systems Tailored to Diagnostic Fault Detection Systems |
|
11.1401 |
1441 |
Lawrence |
Markosian |
QSS Group, Inc. |
Maturing Technologies for V&V of ISHM Software for Space Exploration |
|
11.1402 |
1543 |
Carlos |
Garcia-Galan |
Honeywell |
ISS as a testbed for advance Health Management and Automation Technologies |
|
11.1403 |
1594 |
Kagan |
Tumer |
NASA Ames Research Center |
Entropy Based Anomaly Detection Applied to Space Shuttle Main Engines |
|
11.1404 |
1424 |
Ashok |
Srivastava |
NASA |
Enabling the Discovery of Recurring Anomalies in Aerospace System Problem Reports using High-Dimensional Clustering Techniques |
|
11.1405 |
1164 |
Karen |
Richardson |
The Aerospace Corp. |
Real-Time Limit Checking System for Launch Vehicles |
|
11.1406 |
1352 |
Sean |
Marble |
Sentient Corporation |
Bearing Monitoring and Life Extension in Satellite Gyro Devices |
|
12.0101 |
1048 |
Curtis |
Fatig |
Goddard Space Flight Center |
James Webb Space Telescope XML Database: From the Beginning to Today |
|
12.0102 |
1156 |
Jean-Pierre |
Chamoun |
GMV Space Systems |
Bridging ESA and NASA worlds: Lessons learned from the integration of hifly/SCOS-2000 in NASA’s GMSEC |
|
12.0201 |
1154 |
Jean-Pierre |
Chamoun |
GMV Space Systems |
SCOS-2000 Release 4.0 |
|
12.0202 |
1558 |
Jim |
Cater |
ADGA |
Satellite Procedure Cost Reduction Through Standardization |
|
12.0203 |
1643 |
Timothy |
Esposito |
Emergent Space Technologies, Inc. |
Lessons Learned from Engineering a Multi-Mission Satellite Operations Center |
|
12.0301 |
1153 |
Jean-Pierre |
Chamoun |
GMV Space Systems |
hiflyViews: New Generation Telemetry Visualization |
|
12.0302 |
1063 |
Lyle |
Jenkins |
Jenkins Enterprises |
Thunderstorm Solar Power Satellite: Issues Dealing with Weather Modification |
|
12.0303 |
1627 |
Alexandre |
Popov |
Canadian Space Agency |
Commercial-Off-the-Shelf Workflow Package As a Platform for Mission Planning Data Integration. |
|
12.0304 |
1080 |
Leslie |
Wickman |
Azusa Pacific University |
Human Performance Considerations for a Mars Mission |
|
12.0401 |
1155 |
Jean-Pierre |
Chamoun |
GMV Space Systems |
SmartRings: Advanced tool for Communications Satellite Payload Reconfiguration |
|
12.0402 |
1419 |
Darcie |
Durham |
Orbital Sciences |
MAESTRO: The Versatile Command and Control System Software for Mission Operations and Testing |
|
12.0403 |
1575 |
Jim |
Cater |
ADGA |
Automation of Satellite Requirement Verification |
|
12.0404 |
1013 |
Mariagrazia |
Spada |
University of Rome |
Development in space projects and the insurance market: new frontiers in risk management |
|
12.0501 |
1086 |
Paula |
Pingree |
JPL |
The Deep Impact Test Benches -- Two Spacecraft, Twice the Fun |
|
12.0502 |
1110 |
Yared |
Mesfin |
The Boeing Company |
Investigation of the source of a “phantom” disturbance torque on the International Space Station (ISS) during Russian Extravehicular Activities (EVAs) |
|
12.0503 |
1614 |
Nujoud |
Merancy |
The Boeing Co. |
ISS GN&C Control System Interaction with Crew Induced Disturbances |
|
12.0504 |
1483 |
Fred |
Hammer |
JPL |
Achieving Operability via the Mission System Paradigm |
|
13.0101 |
1436 |
Kristina |
Alemany |
Guggenheim School of Aerospace Engineering |
Probabilistic Analysis and Optimization Capability for Lunar Transportation Architectures |
|
13.0102 |
1062 |
Gary |
Stump |
Applied Research Laboratory |
A Group Decision-Making Interface for Conceptual Design |
|
13.0103 |
1496 |
Jane |
Malin |
NASA-Johnson Space Center |
Tools to Support Human Factors and Systems Engineering Interactions During Early Analysis |
|
13.0104 |
1148 |
Ben |
Bieber |
JPL/Caltech |
Collaborative Model-Based Space Systems Engineering for Technology Trades |
|
13.0105 |
1175 |
Elisabeth |
Morse |
Jet Propulsion Laboratory |
Next-Generation Concurrent Engineering: Developing Models to Complement Point Designs |
|
13.0106 |
1058 |
Matthew |
Tetlow |
The University of Adelaide |
Orbital Payload Delivery Using Hydrogen and Hydrocarbon Fuelled Scramjet Engines |
|
13.0201 |
1438 |
Kar-Ming |
Cheung |
Jet Propulsion Laboratory |
Problem Formulation for Large Array Modeling and Planning |
|
13.0301 |
1602 |
Sammy |
Kayali |
Jet Propulsion Laboratory |
Experiences in Managing the Prometheus Project |
|
13.0302 |
1010 |
Randall |
Taylor |
Jet Propulsion Laboratory |
Acquisition Strategy and Source Selection for Co-designing a New-development Spacecraft |
|
13.0303 |
1284 |
Robert |
Thompson |
Georgia Institute of Technology |
System Architecture Modeling for Technology Portfolio Management using ATLAS |
|
13.0304 |
1039 |
Lynn |
Baroff |
NASA Jet Propulsion Laboratory |
Project-Line Interaction – Implementing Projects in JPL’s Matrix |
|
13.0305 |
1564 |
Don |
Greer |
Greer Black Company |
Improving Inter-Organizational Baseline Alignment in Large Space System Development Programs |
|
13.0306 |
1056 |
Gisele |
Mohler |
Federal Aviaiton Administration |
Aligning Technology, Procedures, Operations, Programs, and People to Grow Capacity |
|
13.0307 |
1294 |
David |
Bell |
USRA/RIACS |
The NASA Program Management Tool: A New Vision in Business Intelligence |
|
13.0308 |
1517 |
Yuri |
Gawdiak |
NASA |
Context Based Configuration Management System |
|
13.0309 |
1031 |
P. A. `Trisha` |
Jansma |
Jet Propulsion Laboratory |
Advancing the Practice of Systems Engineering at JPL |
|
13.0310 |
1064 |
Donald |
Mendoza |
NASA Ames Research Center |
Using a lessons learned process to develop and maintain institutional memory and intelligence |
|
13.0401 |
1450 |
Jane |
Malin |
NASA Johnson Space Center |
Vulnerabilities, Influences and Interaction Paths: Failure Data for Integrated System Risk Analysis |
|
13.0402 |
1201 |
Robin |
Dillon |
Georgetown University |
Investigating Project Risk from a Near-Miss Bias in Decision Making |
|
13.0403 |
1388 |
Karl |
Davey |
Strategic Thought Ltd |
Improving the Application of Risk Management |
|
13.0404 |
1030 |
Irem |
Tumer |
NASA Ames Research Center |
Risk Assessment Practices at NASA: Studies of Design and Review Methods |
|
13.0501 |
1369 |
Michael S |
Anderson |
Boeing |
Simulation Based Acquisition For The Rest of Us |
|
13.0502 |
1232 |
Michal |
Bangham |
Boeing |
Simulated Moon, Mars, and Beyond |
|
13.0503 |
1569 |
James |
Pederson |
Boeing |
Creating a Tool Independent System Engineering Environment |
|
13.0504 |
1527 |
Norman |
Rioux |
NASA |
Application of ANSI/AIAA Guide for Estimating and Budgeting Weight and Power Contingencies for Spacecraft Systems to the NASA GLAST Mission |
|
13.0505 |
1528 |
Richard |
Terrile |
Jet Propulsion Lab |
Automated Design of Spacecraft Power Sub-Systems |
|
13.0506 |
1421 |
Riley |
Duren |
Jet Propulsion Laboratory |
Validation (not just verification!) of Deep Space Missions |
|
13.0601 |
1410 |
Michael |
Ross |
Galorath Inc. |
Integrating Three Level 2 CMMI™ Process Areas: Closing the Loop on Software Project Management |
|
13.0602 |
1037 |
Douglas |
Howarth |
Lockheed Martin Aeronautics Company |
Financial Catscans and Time |
|
13.0603 |
1482 |
Mark |
Jacobs |
SAIC |
Do higher cost reserve levels for space science missions ensure good cost performance? |
|
14.8901 |
1466 |
Eric |
MacDonald |
UTEP |
A Solar-Power Design Competition to Inspire Interest in Engineering, Science and Mathematics of Pre-College Students |
|
2.0101 |
1582 |
Greg |
Mungas |
Firestar Engineering |
Prototype development and testing of the SILVRCLAW inflatable, rigidizable rover wheel concept |
|
2.0102 |
1073 |
Richard |
Madison |
Jet Propulsion Laboratory |
Improved Target Tracking for Single Cycle Instrument Placement |
|
2.0103 |
1161 |
ADRIAN |
STOICA |
JET PROPULSION LABORATORY |
Humanoids with support of Human Master for Lunar and Planetary Surface Operations |
|
2.0104 |
1185 |
Michael |
Rilee |
NASA GODDARD SFC |
Mobile Science Platforms for Impassable Terrain |
|
2.0105 |
1412 |
Mark |
Maimone |
Jet Propulsion Lab |
The Mars Exploration Rover Surface Mobility Flight Software: Driving Ambition |
|
2.0106 |
1423 |
Daniel |
Helmick |
Jet Propulsion Lab |
A Comparison of Force Sensing Techniques for Planetary Manipulation |
|
2.0107 |
1312 |
Paul |
Backes |
Jet Propulsion Laboratory |
Concept for Coring from a Low-mass Rover |
|
2.0108 |
1460 |
Matt |
DiCicco |
Jet Propulsion Laboratory |
Vision-Based End-Effector Position Error Compensation |
|
2.0201 |
1054 |
David |
Bundas |
NASA/GSFC |
Global Precipitation Measurement Mission – Systems Engineering Challenges |
|
2.0202 |
1121 |
Astrid |
Heske |
ESTEC/ESA |
The Herschel/Planck Programme – Technical Challenges for two Science Missions - The Spacecraft |
|
2.0203 |
1540 |
Juan Martín |
Canales Romero |
German Space Agency |
An Architecture Program for the Robotic Exploration of Venus |
|
2.0204 |
1190 |
Michael |
Calabrese |
NASA |
Exploring the Possibilities: Earth and Space Missions in the Context of Exploration |
|
2.0205 |
1322 |
Peter |
Lawson |
Jet Propulsion Laboratory |
Navigator Program: Exploring New Worlds |
|
2.0206 |
1091 |
Ravi |
Prakash |
Jet Propulsion Laboratory |
Design of a Long Endurance Titan VTOL System |
|
2.0207 |
1348 |
Bjorn |
Lambrigtsen |
Jet Propulsion Laboratory |
GeoSTAR: Developing A New Payload for GOES Satellites |
|
2.0208 |
1176 |
Elisabeth |
Morse |
Jet Propulsion Laboratory |
Architecting Space Exploration Campaigns: A Decision-Analytic Approach |
|
2.0209 |
1014 |
Mariagrazia |
Spada |
University of Rome |
Human Spaceflights Will Extend Regulatory and Legal Framework Governing Civil Aviation |
|
2.0301 |
1320 |
Ralph |
Lorenz |
University of Arizona |
What Titan is Really Like : In-Situ Measurements of the Titan Environment by the Huygens Probe |
|
2.0302 |
1009 |
David |
Stephenson |
NASA Marshall Space Flight Center |
Mars Ascent Vehicle Key Elements of a Mars Sample Return Mission |
|
2.0303 |
1279 |
Albert |
Haldemann |
Jet Propulsion Laboratory |
Construction and Resource Utilization EXplorer (CRUX): Implementing Instrument Suite Data Fusion to Characterize Regolith Hydrogen Resources |
|
2.0304 |
1651 |
Andrea |
Belz |
JPL |
Planning for Planetary Protection: Challenges Beyond Mars |
|
2.0305 |
1653 |
Louise |
Hamlin |
JPL |
Design Tools for Cost-Effective Planetary Protection Implementation |
|
2.0306 |
1503 |
Roger |
Kern |
Jet Propulsion Laboratory |
Cleaning to Achieve Sterility |
|
2.0307 |
1501 |
Roger |
Kern |
Jet Propulsion Laboratory |
Sensitivity and Applicability of a Rapid Micro-Detection System for the Enumeration of Bacterial Endospores |
|
2.0308 |
1485 |
Suresh |
Pillai |
Texas A&M University |
High Energy (10 MeV) Electron Beam Ionizing Irradiation to Decontaminate Spacecraft Components and Materials for Planetary Protection |
|
2.0309 |
1605 |
John |
Rummel |
NASA Headquarters |
Preventing the Forward Contamination of Mars (while sending missions): Concerns, Questions, and Required Actions |
|
2.0401 |
1414 |
Darcie |
Durham |
Orbital Sciences |
The Glory Program: Global Science from a Unique Spacecraft Integration |
|
2.0402 |
1464 |
Phillip |
Sabelhaus |
GSFC/NASA |
An Overview of the James Webb Space Telescope (JWST) Project |
|
2.0403 |
1562 |
Robin |
Vaughan |
Johns Hopkins University Applied Physics Laborator |
Return to Mercury: The Messenger Spacecraft and Mission |
|
2.0404 |
1255 |
Claudia |
Alexander |
Jet Propulsion Laboratory |
The U.S. Rosetta Project: First Year in Flight |
|
2.0405 |
1541 |
Robert |
Shotwell |
Jet Propulsion Laboratory |
Phoenix- The First Mars Scout Mission |
|
2.0501 |
1616 |
Jeff |
Summers |
MicroSat Systems Inc. |
The AFRL Demonstration and Science Experiment (DSX) for DoD Space Capability in the MEO |
|
2.0601 |
1395 |
David |
Lawrence |
Los Alamos National Laboratory |
Surface and Borehole Neutron Probes for the Construction and Resource Utilization eXplorer (CRUX) |
|
2.0602 |
1400 |
Martin |
Buehler |
Jet Propulsion Laboratory |
An Electrical Properties Cup (EPC) for Characterizing the Water Content of Martian Soil Simulants |
|
2.0603 |
1396 |
Donald |
Albert |
USA ERDC-CRREL |
A Seismic Profiler for the Construction and Resource Utilization Explorer (CRUX) |
|
2.0604 |
1365 |
Soon Sam |
Kim |
Jet Propulsion Laboratory |
Miniature Ground Penetrating Radar, CRUX GPR |
|
2.0605 |
1399 |
Jaroslava |
Wilcox |
Jet Propulsion Laboratory |
Atmospheric Electron-Induced X-Ray Spectrometer (AEXS) Development |
|
2.0606 |
1591 |
Yang |
Gao |
Surrey Space Center, University of Surrey, UK |
Deployable wood wasp drill for planetary subsurface sampling |
|
2.0607 |
1476 |
Greg |
Mungas |
JPL |
Pulsed Cavity Ringdown Laser Absorption Spectroscopy in a Hollow Waveguide |
|
2.0701 |
1220 |
Lawrence |
Townsend |
Department of Nuclear Engineering, The University of Tennessee, Knoxville |
Forecasting of Solar Particle Event Integral Proton Fluences Using Bayesian Inference |
|
2.0702 |
1306 |
Lawrence |
Townsend |
University of Tennessee |
Characterization of the Lunar Radiation Environment Using the CRaTER Detector |
|
2.0703 |
1398 |
Ram |
Tripathi |
NASA Langley Research Center |
lectrostatic Active Radiation Shielding - Revisited |
|
2.0704 |
1358 |
Stephen |
Guetersloh |
Lawrence Berkeley National Lab |
Effectiveness of Shielding Materials for Dose Reduction |
|
2.0705 |
1645 |
Witold |
Kowbel |
MER |
Boron-based Advanced materials for radiation protection |
|
2.0706 |
1012 |
Lawrence |
Pinsky |
University of Houston |
FLUKA Status and Results from the High Energy AGS July 2005 Runs |
|
2.0801 |
1510 |
John |
Samson, Jr. |
Honeywell Inc. |
Technology Validation: NMP ST8 Dependable Multiprocessor Project |
|
2.0802 |
1550 |
Linda |
Herrell |
Jet Propulsion Laboratory, Caltech |
Formulation Refinement and Access to Space for the ST8 Mission |
|
2.0803 |
1493 |
Linda |
Herrell |
JPL |
Access to space for technology validation missions, Part II: Exploring the possibilities of sub-orbital flights |
|
2.0804 |
1544 |
Stephen |
Franklin |
JPL |
The Space Technology-8 Mission |
|
2.0805 |
1521 |
Candace |
Carlisle |
NASA/GSFC |
Space Technology 5—Technology Validation Update |
|
2.0806 |
1628 |
Rob |
Sherwood |
Jet Propulsion Laboratory |
Autonomous Science Agents and Sensor Webs: EO-1 and Beyond |
|
2.0807 |
1636 |
Andrew |
Carmain |
Jet Propulsion Lab |
Space Technology 7 Disturbance Reduction System |
|
2.0901 |
1599 |
Giancarmine |
Fasano |
University of Naples |
Relative motion model accounting for J2 effects: derivation and application to the design of formation-based INSAR missions |
|
2.0902 |
1239 |
Seungwon |
Lee |
Jet Propulsion Lab |
Orbit Design and Optimization Based on Global Telecom Performance Metrics |
|
2.0903 |
1046 |
Marina |
Ruggieri |
University of Rome-Tor Vergata |
New Developments in the WAVE W-Band Mission |
|
2.0904 |
1656 |
Giovanni |
Palmerini |
Universita` di Roma |
Control Effort Evaluation for Low-Altitude Formation Flying |
|
2.0905 |
1026 |
Balaji |
Shankar Kumar |
Astronautics Research Group, Southampton |
Modelling of Periodic Relative Orbits using Orbital Element Method |
|
2.1001 |
1047 |
Giorgio |
Perrotta |
IMT |
Early experiments with W-band satellite links |
|
2.1002 |
1226 |
Vittorio |
Dainelli |
Oerlikon Contraves Spa |
Innovative Technologies for the Development of W Band Radars and Communication Payloads |
|
2.1101 |
1247 |
Dimitrios |
Antsos |
Jet Propulsion Laboratory |
MTP Communications and Tracking Technology Development for Mars Exploration |
|
2.1102 |
1342 |
William |
Kuhn |
Kansas State University |
A UHF Proximity Micro-transceiver for Mars Exploration |
|
2.1103 |
1252 |
Phillip |
De Leon |
New Mexico State University |
Physical Layer Effects on MAC Layer Performance of IEEE 802.11 a and b WLAN on the Martian Surface |
|
2.1104 |
1338 |
Paul |
Schenker |
Jet Propulsion Laboratory |
Advances in Rover Technology for Space Exploration |
|
2.1105 |
1212 |
Ron |
Li |
Mapping and GIS Lab, The Ohio State University |
Object Modeling and Matching from Multi-view Ground Images for Automated Mars Rover Localization |
|
2.1106 |
1349 |
Suparna |
Mukherjee |
JPL |
Technologies for Exploring the Martian Subsurface |
|
2.1107 |
1101 |
Cheng-Chih |
Chu |
Jet Propulsion Laboratory |
Development of Advanced Entry Descent, and Landing Technologies for Future Mars Missions |
|
2.1108 |
1360 |
Elizabeth |
Kolawa |
JPL |
Extreme Low Temperature and High Thermal Cycle Brushless Motors Integrated with Drive Electronics |
|
2.1109 |
1301 |
Soon Sam |
Kim |
Jet Propulsion Laboratory |
Mars Miniature Science Instruments |
|
2.1110 |
1256 |
Ying |
Lin |
Jet Propulsion Lab |
Mars Technology Program Planetary Protection Technology Development |
|
2.1111 |
1029 |
Adrian |
Ponce |
Jet Propulsion Laboratory |
A Rapid Single Spore Enumeration Assay |
|
2.1112 |
1291 |
E. Jay |
Wyatt |
Jet Propulsion Laboratory |
Telecommunications II and Navigation for Future Mars Exploration Missions |
|
2.1301 |
1076 |
Robert |
Braun |
Georgia Institute of Technology |
Mars Exploration Entry, Descent and Landing Challenges |
|
2.1302 |
1428 |
Michael |
Wright |
NASA Ames Research Center |
Status of Aerothermal Modeling for Current and Future Mars Exploration Missions |
|
2.1303 |
1585 |
Allen |
Witkowski |
Pioneer Aerospace Corporation |
Mars Deployable Decelerator Capability Roadmap Summary |
|
2.1304 |
1661 |
Aron |
Wolf |
Jet Propulsion Laboratory |
Performance Trades for Mars Pinpoint Landing |
|
2.1305 |
1434 |
Andres |
Huertas |
Jet Proplusion Laboratory |
Passive Imaging Based Multi-cue Hazard Detection for Spacecraft Safe Landing |
|
2.1306 |
1427 |
Navid |
Serrano |
Jet Propulsion Laboratory |
A Novel Tiered Sensor Fusion Approach for Terrain Characterization and Safe Landing Assessment |
|
2.1307 |
1497 |
Adam |
Steltzner |
Jet Propulsion Laboratory |
Mars Science Laboratory Entry, Descent and Landing System |
|
2.1308 |
1447 |
Alicia |
Dwyer Cianciolo |
NASA |
Mars Science Laboratory Launch-Arrival Space Study: A Pork Chop Plot Analysis |
|
2.1309 |
1465 |
David |
Way |
NASA Langley Research Center |
Sensitivity Analysis of Design Parameters Affecting the Mars Science Laboratory Entry, Descent, and Landing System Altitude Performance and Timeline Margin |
|
2.1310 |
1498 |
Robert |
Mitcheltree |
Jet Propulsion Laboratory |
Mars Science Laboratory Entry Descent and Landing Verification and Validation Program |
|
2.1401 |
1361 |
Jasiunas |
Mark |
University of South Australia |
A Low Cost, High Performance Reconfigurable Computing Based Unmanned Aerial Vehicle |
|
2.1402 |
1079 |
Mitch |
Bryson |
Australian Centre for Field Robotics |
Active Localisation and Exploration for Unmanned Aerial Vehicles in Unknown Environments using Inertial SLAM |
|
2.1403 |
1499 |
Guillaume |
Brat |
USRA/RIACS |
A Robust Compositional Architecture for Autonomous Systems |
|
2.1404 |
1096 |
Gabriel |
Elkaim |
UC Santa Cruz |
A Lightweight Formation Control Methodology for a Swarm of Non-Holonomic Vehicles |
|
2.1405 |
1490 |
Kagan |
Tumer |
NASA Ames Research Center |
Robust Coordination of a Large Set of Simple Rovers |
|
3.0101 |
1530 |
J. Stevenson |
Kenney |
Georgia Institute of Technology |
Low-Voltage Ferroelectric Phase Shifters From L- To C-Band |
|
3.0102 |
1123 |
Janice |
Rock |
US Army Aviation and Missile Research Development |
Semiconductor Substrates in Phased Arrays - Integration Issues, Challenges and Laboratory Results |
|
3.0103 |
1105 |
Joel |
Booth |
U.S. Army Redstone asrenal |
Electromagnetic Study of Multilayer Media |
|
3.0104 |
1477 |
Neil |
Chamberlain |
Jet Propulsion Lab |
The UAVSAR Phased Array Aperture |
|
3.0201 |
1397 |
William |
Imbriale |
JPL |
Thermal Considerations for Hydroformed Reflectors |
|
3.0202 |
1199 |
Dayton |
Jones |
Jet Propulsion Laboratory |
Lower-Cost Architectures for Large Arrays of Small Antennas |
|
3.0203 |
1590 |
Vahraz |
Jamnejad |
Jet Propulsion Laboratory |
Mathematical gain models of large-aperture earth station antennas for space science services |
|
3.0301 |
1142 |
Anthony |
Jensen |
Ball Aerospace & Technologies Corp. |
Combined UHF and X-band Proximity Link Antenna for Future Mars Telecommunications Orbiters |
|
3.0302 |
1033 |
Lahcene |
HADJ ABDERRAHMANE |
National Centre of Space Techniques |
An S Band Antenna System Used for Communication on Earth Observation Microsatellite. |
|
3.0401 |
1207 |
alan |
tanner |
jpl |
Initial results of the GeoSTAR Prototype (Geosynchronous Synthetic Thinned Array Radiometer) |
|
3.0402 |
1151 |
Stephen |
Sekelsky |
Remote Sensing Solutions, Inc. |
High Power Electronic Scanning Millimeter-Wave Radar System Design |
|
3.0403 |
1163 |
Daniel |
Esteban-Fernandez |
NOAA/NESDIS |
IWRAP: the Imaging Wind and Rain Airborne Profiler for Remote Sensing of the Ocean and the Atmospheric Boundary Layer within Tropical Cyclones |
|
3.0404 |
1617 |
Chung-Lun |
Chuang |
Jet Propulsion Laboratory |
A Highly Capable Arbitrary Waveform Generator for Next Generation Radar Systems |
|
3.0501 |
1230 |
Nader |
Farahat |
Polytechnic University of Puerto Rico |
Numerical Analysis of Large Reflector System used as a Ground Station Antenna |
|
3.0502 |
1140 |
Nivia |
Colon-Diaz |
Air Force Research Laboratory |
Sum and Difference Beam-Pattern Synthesis with Side-Lobe Control |
|
3.0601 |
1066 |
Steven |
Weiss |
Army Research Lab |
Rotman Lens development at the Army Research Lab |
|
3.0602 |
1034 |
Peter |
Knott |
FGAN-FHR |
Antenna Design and Beamforming for a Conformal Antenna Array Demonstrator |
|
3.0603 |
1146 |
Daniel |
Spendley |
AFRL-SNHA |
Design and Performance of a 32-Channel X-Band Digital Beamforming (DBF) Plug-and-Play Receive Array |
|
3.0604 |
1067 |
Nan |
Froberg |
Photonic Systems, Inc. |
“Analysis of Signal to Noise Ratio in Photonic Beamformers” |
|
3.0701 |
1022 |
Mehrdad |
Jafarboland |
Malek_Ashtar University of technology |
Robust Tracking Control of Attitude Satellite with Using New SMC and EKF for Large Maneuvers |
|
3.0702 |
1023 |
Mehrdad |
Jafarboland |
Malek_Ashtar University of technology |
Disturbance and Parameter Estimation Algorithms for Attitude Control Model of the Satellite during Maneuvers |
|
3.0703 |
1038 |
Ted |
Heath |
GTRI - SEAL |
Nonlinear Oscillator Antenna Development at GTRI |
|
3.0704 |
1111 |
Ronald |
Pogorzelski |
Jet Propulsion Laboratory - Caltech |
Coupled Oscillator Based Agile Beam Transmitters and Receivers: A Review of Work at JPL |
|
3.0705 |
1141 |
A. A. (Louis) |
Beex |
Virginia Tech |
Adaptive Interference Mitigation with a Coupled Nonlinear Oscillator Array based on the Generalized Sidelobe Canceller |
|
3.0706 |
1116 |
Chris |
Tompkins |
Clemson University |
Improved Mutual Injection Locking Range for Voltage Controlled Oscillators in a Coupled Oscillator System |
|
4.0101 |
1444 |
Martinus |
Meerman |
Surrey Satellite Technology Ltd |
Constella, a quick configuration platform, for rapid response missions |
|
4.0102 |
1640 |
Edward |
Jones |
SMC/XRZ |
Pre-liminary On-orbit Maneuver Analysis for Responsive Space Applications |
|
4.0201 |
1552 |
Robert |
Romanofsky |
NASA - Glenn Research Center |
RF Technologies for Advancing Space Communication Infrastructure |
|
4.0202 |
1570 |
Farid |
Amoozegar |
Jet Propulsion Laboratory |
Applications and Operation Concepts of Large Transmit Phased Array of Parabolic Reflectors |
|
4.0203 |
1557 |
William |
Hurd |
Jet Propulsion Laboratory |
Exo-Atmospheric Telescopes for Deep Space Optical Communications |
|
4.0204 |
1273 |
Julian |
Breidenthal |
Jet Propulsion Laboratory |
End-to-End Information System Concept for the Mars Telecommunications Orbiter |
|
4.0301 |
1184 |
Jay |
Gao |
Jet Propulsion Laboratory |
Ka-Band Buffer Analysis and Link Optimization with Rate Adaptation |
|
4.0302 |
1018 |
Clayton |
Okino |
Jet Propulsion Laboratory |
An Advanced Orbiting Systems Approach to Quality of Service in Space-Based Intelligent Communication Networks |
|
4.0303 |
1253 |
Sandra |
Dykes |
Southwest Research Institute |
A Non-Broadcast Address Resolution Protocol for SpaceWire Networks |
|
4.0304 |
1211 |
Loren |
Clare |
Jet Propulsion Laboratory/CalTech |
The NASA Space Communications Testbed (SCT) |
|
4.0305 |
1061 |
Victor |
Hubenko |
Air Force Institute of Technology |
Adaptation, Modeling, and Analysis of Protocol Independent Multicasting – Dense Mode In a Low Earth Orbit Satellite Network Environment |
|
4.0306 |
1171 |
Jay |
Gao |
Jet Propulsion Laboratory |
Energy efficient transmission scheduling over Mars proximity links |
|
4.0307 |
1189 |
Raymond |
Gilstrap |
NASA Ames Research Center |
A Split Implementation of the Dynamic Source Routing Protocol for Lunar/Planetary Surface Communications |
|
4.0308 |
1200 |
Pitiporn |
Pakdeepinit |
Assumption University |
A Link-State Routing Approach for Formation Flying Spacecraft |
|
4.0401 |
1366 |
Dan |
Walkovitz |
Mainstay Software Corp |
Building Transformational Tools for Transformational Missions |
|
4.0402 |
1542 |
Ferit |
Yegenoglu |
Lockheed Martin |
TSAT Advanced Network Services and Routing Architecture |
|
4.0403 |
1548 |
Anshul |
Kantawala |
Lockheed Martin |
QoS Architecture for Session Oriented GIG Applications |
|
4.0601 |
1149 |
Robert |
Bokulic |
JHU/Applied Physics Laboratory |
Evolvable Navigation and Communication Infrastructure for Lunar Exploration |
|
4.0801 |
1077 |
Gregory |
Konesky |
SGK Nanostructures Inc. |
Application of Adaptive Optics to a Moon-to-Earth Optical Data Link |
|
4.0802 |
1611 |
Abhijit |
Biswas |
Jet Propulsion Laboratory |
Near Sun Optical Communications from Deep Space |
|
4.0803 |
1566 |
ali asghar |
eftekhar |
Georgia institute of technology |
Analysis of the Effect of Synchronization Errors on the Performance of Telescope Arrays for Optical Deep Space Communications |
|
4.0901 |
1131 |
Christopher |
Haskins |
JHU/APL |
Low Power, Coherent X-Band Digital Transceiver |
|
4.1001 |
1515 |
Lorenzo |
Simone |
Alenia Spazio |
A X/X Spread-Spectrum Transponder for Secure TT&C Commnunication |
|
4.1002 |
1481 |
Lorenzo |
Simone |
Alenia Spazio |
The Koreasat 5 Secure Communication System: Design, Development and Performance |
|
4.1101 |
1225 |
Ali |
Telli |
Tubitak-Bilten |
Link Analysis for Bilsat-1 |
|
4.1102 |
1238 |
Yogi |
Krikorian |
The Aerospace Corporation |
A Dynamic Proximity Communication Link Analysis Tool for Data Return Analysis Between Martian Ground Assets and Mars-Orbiting Satellites |
|
4.1103 |
1285 |
Shervin |
Shambayati |
Jet Propulsion Laboratory |
Continuity and Completeness for Deep Space Ka-band (32-GHz) Link |
|
4.1104 |
1202 |
Jonathan |
Bruzzi |
Johns Hopkins University Applied Physics Laboratory |
Initial Uplink and Downlink Acquisition of a Spacecraft Prior to Attitude Stabilization |
|
4.1301 |
1268 |
Claudio |
Sacchi |
University of Trento, DIT |
Use of Trellis-Coded Modulation for Gigabit/sec transmissions over W-Band Satellite Links |
|
4.1302 |
1134 |
Vijitha |
Weerackody |
Applied Physics Laboratory - Johns Hopkins University |
On a Method to Establish Satellite Links for Dynamic Bandwidth Allocation |
|
4.1303 |
1236 |
James |
Hant |
Aerospace Corporation |
Quantifying Packet Performance in Faded Satellite Channels: Interactions of Physical and Data-Link Layers |
|
4.1304 |
1601 |
Thomas |
Ketseoglou |
California State Polytechnic University, Pomona |
Performance Improvement through Oversampling in Antenna-Array Pilot-Assisted Multi-User OFDM. |
|
4.1305 |
1339 |
Dave |
Taggart |
Aerospace Corporation |
Modeling and Simulation of Amplifier Nonlinearities for Multicarrier Communication Systems |
|
4.1306 |
1087 |
Hua |
Hwang |
Eeltrical & Computer Engineering Depart. Californi |
Simulation Study of Wideband Interference Rejection using STAP |
|
4.1401 |
1411 |
Gregory |
Mayhew |
Boeing Phantom Works |
Probability Mass Functions for de Bruijn Weight Classes |
|
4.1402 |
1379 |
Rajendra |
Kumar |
The Aerospace Corporation |
Mitigation of Multipath Effects in Broadband Wireless Systems using Quantized State Adaptive Equalization Methods |
|
4.1403 |
1277 |
Eugene |
Grayver |
The Aerospace Corporation |
Effect of nonlinear and linearized amplification on turbo coding gain |
|
4.1404 |
1300 |
Victor |
Lin |
The Aerospace Corporation |
Efficient Modeling and Simulation of Nonlinear Amplifiers |
|
4.1405 |
1357 |
Rajendra |
Kumar |
The Aerospace Corporation |
Power Control Algorithm and Architecture for Fading Communication Channels |
|
4.1406 |
1526 |
Rajendra |
Kumar |
The Aerospace Corporation |
Analysis of FM Demodulator Output Noise |
|
4.1407 |
1672 |
waleed |
namoos |
Northrop Grumman |
A Parameterized Model for Efficient Over-Sampled Filter Bank Architectures |
|
4.1501 |
1486 |
Kendra |
Cook |
United States Air Force |
Characterizing the Impact of Precision Time and Range Measurements on Network Position Solutions |
|
4.1502 |
1377 |
Srinivasa |
Raghavan |
The Aerospace Corporation |
Spread Spectrum Codes for GPS L5 |
|
4.1601 |
1113 |
Alexander |
Utter |
Harvey Mudd College |
Adaptive Two-Channel Automatic Gain Control System |
|
4.1602 |
1179 |
Gennady |
Poberezhskiy |
Raytheon Company |
Influence of Weight Function Nonorthogonality on Performance of Sampling and Reconstruction with Internal Filtering |
|
4.1801 |
1276 |
Chris |
Wargo |
Computer Networks & Software, Inc. |
NASA Study for Establishing Baseline Requirements for future Terminal Airspace CNS Systems |
|
4.1802 |
1283 |
John |
Sorensen |
Sensis Corporation |
Traffic Management Automation for Non-Towered Airports |
|
4.1803 |
1652 |
Aditya |
Saraf |
University of Cincinnati |
Development of Efficient Combinatorial Algorithms for Optimal Aircraft Scheduling and Optimal Air Traffic Flow Management. |
|
4.1804 |
1097 |
Marco |
Lucente |
University of Rome Tor Vergata |
Airport Movement Management by A-SMGCS: the EMMA Project. |
|
4.1805 |
1638 |
Robert |
Kerczewski |
NASA Glenn Research Center |
Emerging Definition of Next-Generation of Aeronautical Communications |
|
4.1806 |
1286 |
Ken |
Samuelson |
Sensis Corporation |
Concept for an Integrated National Surveillance Infrastructure |
|
4.1807 |
1115 |
Robert |
Stamm |
Raytheon |
A Network-Centric Approach to Enhanced National Airspace Security |
|
4.1808 |
1248 |
Yang |
Wang |
Lockheed Martin Transportation & Security Solution |
Systematic Design of Airborne Networks for Aviation |
|
4.1809 |
1177 |
Arjan |
Durresi |
Louisiana State University |
AAC: Air to Air Communication Protocol |
|
4.1810 |
1382 |
William |
Ivancic |
NASA Glenn Research Center |
Modular, Cost-Effective, Extensible Onboard Architecture for Secure Mobile Communications |
|
4.1811 |
1622 |
Michael |
Lyu |
Chinese University of Hong Kong |
A Real-Time Communication Framework for Wireless Sensor-Actuator Networks |
|
4.1812 |
1282 |
Ken |
Samuelson |
Sensis Corporation |
Enhanced ADS-B |
|
4.1813 |
1112 |
Sinja |
Brandes |
German Aerospace Center (DLR) |
Techniques for Ensuring Co-existence Between B-VHF and Legacy VHF Systems |
|
5.0101 |
1425 |
Scott |
Uebelhart |
Massachusetts Institute of Technology |
Evaluating alternative architectures and technologies for lightweight space telescopes using parameterized models |
|
5.0102 |
1401 |
Michael |
Shepherd |
Air Force Institute of Technology |
Clear Aperture Design Criterion for Deformable Membrane Mirror Control |
|
5.0103 |
1554 |
Jerry |
Carek |
NASA Plum Brook Station |
Space Power Facility for Testing Large Space Optical Systems |
|
5.0104 |
1514 |
Lo |
Amy |
Northrop Grumman |
Architectures for Space Astronomical Telescopes Using Fresnel Optics |
|
5.0201 |
1621 |
Frederick B. (Rick) |
McCormick |
Sandia National Laboratories |
Fabrication and Characterization of Large-Area 3-D Photonic Crystals |
|
5.0202 |
1451 |
Yuchuan |
Chen |
Agiltron Inc. |
Investigation of millimeter wave difference frequency generation from a THz photonic band gap device |
|
5.0203 |
1367 |
Jason |
Schmidt |
University of Dayton |
High-Resolution Liquid Crystal Spatial Light Modulators for Adaptive Optics |
|
5.0204 |
1355 |
Laurence |
LaForge |
The Right Stuff of Tahoe, Incorporated |
Vertical Cavity Surface Emitting Lasers for Spaceflight Multi-Processors |
|
5.0205 |
1314 |
Kent |
Choquette |
University of Illinois |
Beam steering in photonic crystal vertical cavity semiconductor laser arrays |
|
5.0401 |
1041 |
Marco |
Lucente |
University of Rome |
Feasibility analysis of a HAP-LEO optical link for data relay purposes. |
|
5.0501 |
1071 |
Sergei |
Jerebets |
Jet Propulsion Laboratory |
Spacecraft Hazard Avoidance Utilizing Structured Light |
|
5.0502 |
1430 |
Grace |
Peng |
The Aerospace Corporation |
Upper tropospheric cloud detection by lidar, radiosonde, and GPS radio occultations. |
|
5.0506 |
1346 |
Barry |
Coyle |
NASA-GSFC |
The High Output Maximum Efficiency Resonator (HOMER) Developed for Long Life, Space-Based Vegetation and Surface Mapping |
|
5.0601 |
1114 |
BRETT |
BAGWELL |
SANDIA NATIONAL LABS |
Space-Based Imaging Using Active Optics |
|
5.0602 |
1580 |
Christopher |
Wilcox |
Naval Research Laboratory |
Measuring a deformable mirror’s surface while under physical vibrations |
|
5.0603 |
1534 |
William |
Sweatt |
Sandia National Lab |
Diamond Milling of Micro-Optics |
|
5.0604 |
1406 |
Nicholas |
Miller |
AFRL |
Resolution Enhanced Multiple Aperture Imaging Ladar System |
|
5.0701 |
1626 |
Michael |
Eismann |
Air Force Research Laboratory |
Strategies for Hyperspectral Target Detection in Complex Background Environments |
|
5.0702 |
1556 |
Adam |
MacDonald |
Air Force Institute of Technology (AFIT) |
Weighted frame averaging for motion compensation of laser radar image data |
|
5.0703 |
1561 |
Ernest |
Armstrong |
Optimetrics |
The Application of Wiener Filters to 3D Microscanning of LADAR Imagery |
|
5.0704 |
1473 |
Stephen |
Cain |
Air Force Institute of Technology |
Joint Blind Deconvolution and Image Correlography via a Bayesian Image Reconstruction Algorithm |
|
5.0801 |
1044 |
Justin |
Wehner |
University of Western Austrlia |
Responsivity of Resonant Cavity Enhanced HgCdTe Detectors |
|
5.0802 |
1206 |
John |
Enright |
Department of Aerospace Engineering |
Advanced Sun-Sensor Processing and Design for Super-Resolution Performance |
|
5.0803 |
1612 |
Robert |
Bonneau |
(315)3307750 |
An Analog Optical Computational Approach to RF Image Formation |
|
5.0804 |
1500 |
Tamara |
Payne |
Boeing LTS |
Electro-Optical Signatures Comparisons of Geosynchronous Satellites |
|
6.0101 |
1597 |
Lance |
Kaplan |
U.S. Army Research Laboratory |
Simulations Studies of Multisensor Track Association and Fusion Methods |
|
6.0102 |
1237 |
Sunshine |
Smith-Carroll |
NSWCDD |
Sensor Resource Management Using Cost Functions |
|
6.0103 |
1432 |
Wayne |
Blanding |
University of Connecticut |
ML-PDA Track Validation Thresholds |
|
6.0104 |
1333 |
Jed |
Kelsey |
Scientific Systems Company, Inc. |
Vision-Based Guidance, Navigation and Control for Automated Rendezvous and Docking |
|
6.0105 |
1028 |
Yaakov |
Bar-Shalom |
University of Connecticut |
Radar Measurement Noise Variance Estimation with Targets of Opportunity |
|
6.0201 |
1417 |
Jon |
Champion |
Air Force Institute of Technology |
Optimal Image Processing for Multi-Target Tracking of Dismounted Targets in an Urban Environment |
|
6.0202 |
1604 |
Peter |
Willett |
University of Connecticut |
Comparison of Soft and Hard Assignment ML Trackers on Multistatic Data |
|
6.0203 |
1456 |
Darin |
Dunham |
Vectraxx |
Advances in the PMHT as a Network-level Composite Tracker |
|
6.0301 |
1089 |
Petar |
Djuric |
Stony Brook University |
Comparison of EKF and PF in tracking maneuvering targets |
|
6.0302 |
1671 |
Rickard |
Karlsson |
Automatic Control |
The Marginalized Particle Filter in Practice |
|
6.0303 |
1193 |
Jack |
Li |
Cambridge University |
Online Multisensor-Multitarget Detection and Tracking |
|
6.0304 |
1265 |
Volkan |
Cevher |
Georgia Institute of Technology |
Multi Target Direction-of-Arrival Tracking using Road Priors |
|
6.0305 |
1108 |
Fred |
Daum |
Raytheon |
Meshfree Adjoint Methods for Nonlinear Filtering |
|
6.0306 |
1280 |
Artur |
Loza |
University of Bristol, Dept of EEE |
Multiple Objects Tracking using Particle Filters in Video Sequences |
|
6.0501 |
1069 |
Brian |
Smith |
US RDECOM |
Extended Area Protection System (EAPS) Program Overview |
|
6.0502 |
1512 |
Robert |
Richards |
Stottler Henke Associates, Inc. (SHAI) |
Intelligent Identification Software Module (IISM) for the Navy’s Task Force Combat Center (TFCC) and Combat Direction Center (CDC) |
|
6.0601 |
1316 |
Alan |
Schaum |
Naval Research Laboratory |
A Remedy for Nonstationarity in Background Transition Regions for Real Time Hyperspectral Detection Systems |
|
6.0602 |
1203 |
Oladipo |
Fadiran |
Clark Atlanta University |
A Statistical Approach to Quantifying Clutter in Hyperspectral Infrared Images |
|
6.0701 |
1454 |
Robert |
Lynch |
Naval Undersea Warfare Center |
Analytical Results in Detecting Broadband Signals in Reverberant Dispersive Environments |
|
6.0801 |
1057 |
Peter |
Zulch |
AFRL |
Transmit Waveform Diversity for Space-Based Radar |
|
6.0802 |
1567 |
Richard |
Schneible |
Stiefvater Consultants |
SBR Waveform and Processing Parameters as a Function of Array Distortion |
|
6.0803 |
1553 |
Hanna |
Witzgall |
SAIC |
Achieving sub-pixel registration accuracy for radar imagery |
|
6.0804 |
1579 |
William |
Ogle |
SAIC |
An Application of Advanced Spectrum Estimation to Multi-Channel Radar Detection and Location |
|
6.0805 |
1613 |
Robert |
Bonneau |
(315)3307750 |
A Rate Distortion Method for Waveform Design in RF Target Detection |
|
6.0901 |
1231 |
Stefan |
Martin |
Jet Propulsion Lab |
Progress in four-beam nulling: results from the Terrestrial Planet Finder Planet Detection Testbed |
|
6.0902 |
1078 |
Gene |
Serabyn |
Jet Propulsion Laboratory |
Testing the TPF Interferometry Approach Before Launch |
|
6.0903 |
1484 |
Chris |
Lindensmith |
Jet Propulsion Laboratory |
Development and Validation of High Precision Thermal, Mechanical, and Optical Models for the Space Interferometry Mission |
|
6.0904 |
1422 |
Renaud |
Goullioud |
Jet Propulsion Lab |
Results from the TOM3 testbed: thermal deformation of optics at the picometer level. |
|
6.0905 |
1408 |
Jordan |
Evans |
Jet Propulsion Laboratory |
Engineering the LISA Project: Systems Engineering Challenges |
|
6.0906 |
1452 |
Slava G. |
Turyshev |
Jet Propulsion Laboratory |
The Science, Technology and Mission Design for the Laser Astrometric Test of Relativity |
|
6.1001 |
1584 |
Clayton |
Okino |
Jet Propulsion Laboratory |
Reconfigurable Protocol Sensing for Space-based Networks |
|
6.1002 |
1210 |
Thanachai |
Thumthawatworn |
Assumption University |
Adaptive Sinkhole Detection on Wireless Ad Hoc Networks |
|
6.1003 |
1437 |
qiang |
le |
Georgia Tech |
Multiobjective Energy-aware Node Selection |
|
6.1004 |
1214 |
Piyakul |
Tillapart |
Assumption University |
Adaptive Working Schedule Modeling for Wireless Sensor Networks Using Nonlinear Regression Analysis |
|
6.1005 |
1055 |
Jon |
Adams |
- |
Microradio Sensor Nets for Exploration: Welcome to IEEE802.15.4 |
|
6.1006 |
1178 |
Mitchell |
Lebold |
Penn State University |
Development of A Wireless Torsional Sensing System for Machinery Health Monitoring |
|
6.1007 |
1088 |
Guangyan |
Huang |
Institute of Computing Technology,The Chinese Academy of Sciences |
Energy-Efficiency Analysis of Cluster-Based Routing Protocols in wireless sensor network |
|
7.0101 |
1588 |
Glenn |
Rakow |
NASA - Goddard Space Flight Center |
SpaceWire Protocol ID: What it means to you? |
|
7.0102 |
1137 |
Steve |
Braun |
L-3 Communications |
Advanced Optical Network |
|
7.0103 |
1642 |
Jamal |
Haque |
Honeywell Inc. |
Ultra Wide Band RF Design Challenges for wireless Chip to Chip Communications and Interconnects |
|
7.0104 |
1546 |
Joseph |
Marshall |
BAE SYSTEMS |
An Embedded Microcontroller for Spacecraft Applications |
|
7.0105 |
1217 |
Linda |
Theis |
Southwest Research Institute |
Development of a High-Speed Multi-Channel Analog Data Acquisitioning Architecture |
|
7.0301 |
1371 |
Karl |
Strauss |
Jet Propulsion Laboratory |
The Effect of Integartion of Strontium-Bismuth-Tantalate Capacitors on SOI Wafers |
|
7.0302 |
1495 |
Craig |
Hafer |
Aeroflex Colorado Springs |
Next Generation Radiation-Hardened SRAM for Space Applications |
|
7.0401 |
1416 |
David |
Czajkowski |
Space Micro, Inc. |
SEU Mitigation for Reconfigurable FPGAs |
|
7.0402 |
1592 |
Grant |
Smith |
Honeywell |
Radiation Hardened Triple Modular Redundant Voter with Automatic Configuration Manager ASIC for Space Based Processors using COTS VirtexII FPGAs |
|
7.0403 |
1511 |
John |
Samson |
Honeywell Aerospace, Defense and Space |
High-Performance, Dependable Multiprocessor |
|
7.0404 |
1648 |
James |
Greco |
University of Florida |
Hardware/software Interface for High-performance Space Computing with FPGA Coprocessors |
|
7.0407 |
1625 |
Abdel |
Ejnioui |
University of South Florida |
Design and Implementation of Double Precision Floating Point Multiplication, Division, and Square Root on FPGAs |
|
7.0501 |
1143 |
Wesley |
Millard |
JHU Applied Physics Laboratory |
Power Remote Input Output ASIC (PRIO) |
|
7.0502 |
1194 |
Martin |
Fraeman |
JHU/APL |
Radiation Tolerant Mixed Signal Microcontroller for Martian Surface Applications |
|
7.0601 |
1457 |
Sharon |
Ling |
Johns Hopkins University Applied Physics Laborator |
Reliability Assessment of COB Technology for Extreme Low Temperature Environment |
|
7.0602 |
1519 |
Janet |
Lumpp |
University of Kentucky |
Electrical and Mechanical Properties of Carbon Nanotube Filled Conductive Adhesives |
|
7.0603 |
1600 |
Robert |
Gerke |
Jet Propulsion Laboratory |
Embedded Resistors and Capacitors in Organic and Inorganic Substrates |
|
7.0701 |
1145 |
Richard |
Meitzler |
Johns Hopkins Applied Physics Laboratory |
Radiation-tolerant diffuse infrared optical backplane development |
|
7.0801 |
1516 |
James |
Lumpp, Jr. |
University of Kentucky |
Run-Time Behavior of ARDEA: A Dynamically Reconfigurable Architecture for Distributed Embedded Control Systems |
|
7.0802 |
1353 |
Laurence |
LaForge |
The Right Stuff of Tahoe, Incorporated |
Spaceflight Multi-Processors with Fault Tolerance and Connectivity Tuned from Sparse to Dense |
|
7.0803 |
1082 |
sajid |
baloch |
Edinburgh university |
Design of a Novel Soft Error Mitigation Technique for Reconfigurable Architectures |
|
7.0804 |
1124 |
Ricardo |
Zebulum |
Jet Propulsion Lab |
Extreme Temperature Electronics Using a Reconfigurable Analog Array |
|
7.0805 |
1127 |
Ricardo |
Zebulum |
Jet Propulsion Lab |
Data Converters Performance at Extreme Temperatures |
|
7.0806 |
1162 |
Didier |
Keymeulen |
JPL |
Tuning of MEMS Gyroscope using an Evolutionary Algorithm and Closed-Loop Control |
|
7.0901 |
1293 |
Yuan |
Chen |
JPL |
Design for A/D Converter Reliability for Low Temperature Applications |
|
7.0902 |
1310 |
Carissa |
Tudryn |
Jet Propulsion Laboratory |
Solder Joint Fatigue Analysis Under Low Temperature Martian Conditions |
|
7.0903 |
1075 |
Sergei |
Jerebets |
JPL |
Star Tracker Focal Plane Evaluation for the JIMO Mission |
|
7.0904 |
1386 |
Alan |
Mantooth |
University of Arkansas |
Model-Based Design Tools for Extending COTS Components to Extreme Environments |
|
7.0905 |
1362 |
Kouros |
Sariri |
Frequency Management International Inc. |
A Stable, Extreme Temperature, High Radiation, Compact, Low-Power Clock Oscillator for Space, Down-hole, Geothermal & Other High Reliability Applications |
|
7.0906 |
1475 |
Roberto |
Schupbach |
Arkansas Power Electronics International, Inc. |
Ultra-Lightweight, High Efficiency Silicon-Carbide (SiC) Based Power Electronic Converters for Extreme Environments |
|
7.0907 |
1539 |
Michael |
Mazzola |
SemiSouth Laboratories, Inc. |
SiC Devices for Converter and Motor Drive Applications at Extreme Temperatures |
|
7.0908 |
1347 |
Yogesh |
Tugnawat |
Sprint |
Low Temperature Performance of COTS Electronic Components for Future MARS Missions |
|
7.1001 |
1093 |
Mohamed |
Zayan |
NileSat Company (Egyptian Radio and T.V. Union) |
Resources Minimization in Satellite Navigation Process |
|
7.1002 |
1243 |
Enrico |
Stoll |
Technische Universität München |
Concept of an Algorithm to Determine the Signal Delay Time for Telepresence Applications |
|
7.1003 |
1092 |
Mohamed |
Zayan |
NileSat Company (Egyptian Radio and T.V. Union) |
Satellite Orbits Guidance Using State Space Neural Network |
|
7.1004 |
1409 |
Michael |
Oppenheimer |
AFRL/VACA |
Control of an Unstable, Non-Minimum Phase Hypersonic Vehicle Model |
|
7.1007 |
1659 |
Li |
Chaoyong |
Harbin Institute of Technology |
Application of 2D Differential Geometric Guidance to Tactical Missile Interception |
|
7.1008 |
1658 |
Li |
Chaoyong |
Harbin Institute of Technology |
Analytical Solution to 3D Differential Geometric Guidance Problem |
|
7.1101 |
1051 |
Marina |
Ruggieri |
University of Rome-Tor Vergata |
Aero-WAVE: A W-band Preliminary Test using HAP |
|
7.1102 |
1405 |
Bandi |
Reddy |
North Carolina A&T State University |
Minimal Fuel Consumption of Electric Propulsion Space Vehicles for Deep Space Exploration |
|
7.1103 |
1315 |
Laurence |
LaForge |
The Right Stuff of Tahoe, Incorporated |
Multi-Processors by the Numbers: Mathematical Foundations of Spaceflight Grid Computing |
|
8.0101 |
1192 |
Eunjeong |
Lee |
Korea Advanced Institute of Science and Technology |
A Micro High-Temperature Superconductor System: Fabrication and Operation |
|
8.0201 |
1596 |
Charles |
Hindman |
Air Force Research Laboratory |
Imagery Based Detection and Tracking for Multi-Access Laser Communications |
|
8.0202 |
1595 |
Charles |
Hindman |
Air Force Research Laboratory |
Atmospheric, Boundary Layer and Platform Jitter Effects on Laser Acquisition Patterns |
|
8.0301 |
1646 |
Douglas |
Campbell |
Composite Technology Development |
Development of a Novel, Passively Deployed Roll-Out Solar Array |
|
8.0401 |
1487 |
Daniel |
Scharf |
NASA - Jet Propulsion Laboratory |
Inertia and Mass Imbalance Estimation Via Constrained Least Squares |
|
8.0402 |
1629 |
Roy |
Smith |
Electrical & Computer Engineering Dept., University of California, Santa Barbara |
Parallel Estimation and Control Architectures in Deep-Space Formation Flying Spacecraft |
|
8.0403 |
1016 |
Marina |
Ruggieri |
Dept. Mechanical Engineering |
Positioning of Satellites through continuous firing |
|
8.0404 |
1655 |
Thawar |
Arif |
Al-Isra Private University |
A modified Minimal Controller Synthesis for Satellite Attitude Control |
|
8.0405 |
1442 |
Lorenz |
Drack |
Defence Science and Technology Organisation |
The Robustness of an Optimised Fuzzy Logic Controller to Plant Variations |
|
8.0501 |
1240 |
Brian |
Wilcox |
Jet Propulsion Laboratory |
Low-Cost Propellant Launch to LEO from a Tethered Balloon |
|
8.0601 |
1074 |
Kasemsan |
Siri |
The Aerospace Corporation |
Uniform Voltage Distribution Control for Series-Input, Parallel-Output Connected Converters |
|
8.0602 |
1024 |
Carlo |
Del Vecchio Blanco |
University of Naples-DISIS |
Distributed design architecture for Li-ion battery: integration of COTS ICs, mCs and CAN bus |
|
8.0603 |
1431 |
Luigi |
Schirone |
Università di Roma La Sapienza |
A PV power generation system for missions to Mercury |
|
8.0801 |
1195 |
William |
Hulsey |
HULSEY Intellectual Property Lawyers, P.C. |
International Intellectual Property Rights for Aerospace Nuclear Power Technologies: A Global Roadmap |
|
8.0802 |
1445 |
Robert |
Abelson |
Jet Propulsion Laboratory / CalTech |
Exploring Europa with an RPS-Powered Orbiter Spacecraft |
|
8.0803 |
1639 |
Patrick |
Frye |
Pratt & Whitney Rocketdyne |
Segmented Thermoelectric Power Conversion System Development - Phase 2 |
|
8.0901 |
1085 |
sajid |
baloch |
Edinburgh university |
Partial Triple Modular Redundancy (PTMR) Based on Signal Probability Projection Model for Reconfigurable Architectures targeting Space Missions |
|
8.0902 |
1538 |
John |
Ringelberg |
Lockheed Martin Space Systems |
Alignment, Capture and Mate (ACM) Docking System Development for Space Exploration |
|
8.0903 |
1463 |
Ella |
Atkins |
University of Maryland |
Space-Based Assembly with Symbolic and Continuous Planning Experts |
|
8.1001 |
1513 |
Castano |
Rebecca |
Jet Propulsion Laboratory |
Onboard detection of jarosite minerals with applications to Mars |
|
8.1002 |
1478 |
Rebecca |
Castano |
Jet Propulsion Laboratory |
Opportunistic Rover Science: Finding and Reacting to Rocks, Clouds and Dust Devils |
|
8.1004 |
1574 |
Seyed Mohammad |
Malaek |
Sharif University of Technology |
Near Optimal Terrain Collision Avoidance Trajectories Using Elevation Maps |
|
8.1101 |
1647 |
Dev |
Sen |
SAIC |
Rapid Development of an Event Tree Modeling Tool using COTS Software |
|
8.1102 |
1506 |
Lawrence |
Markosian |
QSS Group Inc., NASA AMES Research Center |
Infusing Software Assurance Research Techniques into Use |
|
8.1103 |
1304 |
Steven |
Cornford |
JPL |
Planning a Large-Scale Progression of R&D – a Pilot Study in the Aerospace Domain |
|
9.0101 |
1415 |
Brian |
Kish |
USAF Test Pilot School |
Autonomous Aerial Refueling based on the Tanker Reference Frame |
|
9.0102 |
1443 |
Luigi |
Schirone |
Università di Roma La Sapienza |
An on-board inverter controlled by the waveform switching technique |
|
9.0201 |
1015 |
Christopher |
Barrett |
Naval Air Warfare Center Aircraft Division |
AH-1Z Stores Compatibility Testing |
|
9.0202 |
1196 |
Dean |
Carico |
Naval Air Warfare Center/Aircraft Division |
Evaluating Landing Aids to Support Helicopter/Ship Testing and Operations |
|
9.0203 |
1266 |
Robert |
Richards |
Stottler Henke Associates, Inc. |
Innovative Aircraft/Ship Visual Landing Aid (VLA) Test Tool |
|
9.0204 |
1181 |
Raniel |
Hidalgo |
USAF Test Pilot School |
Aeroelastic Load Control Program: In-Flight Demonstration of Active Flow Control Technology |
|
9.0205 |
1021 |
Ernest |
Teichert |
USAF |
Raptor Supersonic JDAM: Faster, Further, Longer |
|
9.0301 |
1261 |
Johann |
Schumann |
RIACS/NASA Ames |
Autonomy Software: V&V Challenges and Characteristics |
|
9.0302 |
1305 |
Brian |
Kish |
USAF Test Pilot School |
Establishment of a System Operating Characteristic for Autonomous Wide Area Search Munitions |
|
9.0303 |
1559 |
Amit |
Agarwal |
Nanyang Technological University |
Parallel region coverage of a contiguous region using multiple UAVs |
|
9.0304 |
1036 |
Oleg |
Yakimenko |
Naval Postgraduate School |
Coordinated Control of Multiple UAVs for Time-Critical Applications |
|
9.0305 |
1059 |
Liang |
Tang |
IMPACT TECHNOLOGIES, LLC |
Hierarchical Decomposition Approach for Pursuit-Evasion Differential Game with Multiple Players |