Agenda
Agenda last updated:
January 7, 2010
Tuesday, 12 January 2010 |
0700 - 0800 |
Continental Breakfast |
0700 - 1700 |
Registration |
0800 - 1200 |
Plenary Session |
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Presenters include:
- Dr. Brian Kent, Chief Scientist, Sensors Directorate, Air Force Research Laboratory, Wright-Patterson Air Force Base, Ohio
- Dr. Thomas J Bogdan, Director, Space Weather Prediction Center National Weather Service Oceanic and Atmospheric Administration (NOAA)
- Fred Lewis, SES, Ph.D., United States Air Force, Director of Weather
- William Murtagh, Program Coordinator for the National Oceanic and Atmospheric Administration Space Weather Prediction Center
- Dr. Cassandra Fesen, Air Force Office of Scientific Research RSE
- Dr. Jill Dahlburg, SES, Superintendent, Space Science Division, Naval Research Laboratory
- Col Stephen Butler, Air Force Space Command and Mr. Kelly Hand, Air Force Space Command
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1010 - 1030 |
Break |
1200 - 1300 |
Lunch |
1300 - 1330 |
Distinguished Presenter: David J. Thomson, Ph.D., Professor, Department of Mathematics and Statistics, Tier 1 Canada Research Chair in Statistics and Signal Processing |
1330 - 1510 |
Ionospheric Effects on GPS
Session Chairs: Keith Groves, Ph.D., Research Engineer, AFRL/RVBXI, Hanscom AFB and Paul M. Kintner, Ph.D., Professor, Electrical and Computer Engineering, Cornell University
This session will address space weather impacts on GPS signals, prediction of these space weather impacts, engineering robust GPS receivers and systems in the presence of space weather, and the significance of these impacts on the GPS user community and their operations. Space weather effects include but are not limited to scintillation, ionospheric density gradients or rapidly changing ionospheric density, and solar radio bursts. Topics may include:
- Space weather impacts on GPS signals
- Impacts of space weather on GPS PNT emphasizing DOD applications.
- Prediction of space weather impacts
- Engineering robust GPS receivers and systems in the presence of space weather
- Impact on GPS user community and GPS operations.
Presenters include:
- Riding Out the Rough Spots: Scintillation-robust GNSS Carrier Tracking, Dr. Todd Humphreys (University of Texas)
- Ionospheric Impacts on GPS Positioning Accuracy, Charles Carrano (Boston College Institute for Scientific Research)
- Triple-Frequency GPS Data Collection System for Ionosphere Monitoring, Frank van Graas (Avionics Engineering Center, Ohio University)
- Ionospheric Effects on the Wide-Area Augmentation System (WAAS): Preparations for Solar Maximum, Dr. Patricia Doherty (Institute for Scientific Research, Boston College)
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1510 - 1530 |
Break |
1530 - 1730 |
Ionospheric Effects on Space-based Radar
Session Chairs: Ron Caton, AFRL/RVBXI, Hanscom AFB and Xiaoqing Pi, Jet Propulsion Laboratory, California Institute of Technology
The partially ionized upper atmosphere can cause a variety of well-known propagation effects on radio waves including refraction, polarization rotation, group delay, scattering, and phase and amplitude fluctuations. For radar applications utilizing trans-ionospheric ray paths, these effects may result in range and look-angle errors, multi-path, non-stationary clutter and Doppler and cross-section fluctuations. The severity of these effects and their potential impact on system performance are strongly dependent on ionospheric conditions, radar parameters and the specific application under consideration. Talks in this session will provide an overview of ionospheric effects on space-based radars over a broad frequency spectrum derived from a combination of modeling techniques and actual measurements. Topics may include:
- Trans-ionospheric Imaging in L, UHF, and VHF Bands.
- Range of Effects in Detailed Imaging Across Frequency Bands.
- Phase Screen Modeling of the Trans-ionospheric Propagation Channel.
- Situational Awareness Tools for Space-based Radar Operators.
Presenters include:
- Fundamental Concepts of SAR and First-Order Ionospheric Impacts, Barton Huxtable & Kancham Chotoo (User Systems, Inc.)
- Dual Carrier Probing for Spaceborne SAR Imaging,
Dr. Semyon Tsynkov (North Carolina State University)
- Imaging Ionospheric Variations Using Spaceborne SAR, Dr. Xiaoqing Pi (JPL)
- Phase Screen Modeling of Transionospheric Effects, Keith Groves (AFRL) and Charlie Carrano (Boston College):
- A Multiple-Phase Screen Model for VHF/UHF Impulsive Signal Propagation through the Ionosphere, Max Light (LANL)
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1745 - 2100 |
Dinner at the National Museum of the United States Air Force (Transportation Provided) Dinner Speaker: Dr. Steve Butler, Executive Director, Air Force Materiel Command |
Wednesday, 13 January 2010 |
0700 - 0800 |
Continental Breakfast |
0700 - 1700 |
Registration |
0800 - 0940 |
Satellite Communications
Session Chairs: Professor Bela Fejer, Center for Atmospheric and Space Sciences Utah State University, and
Charles S. Carrano, Senior Research Physicist, Boston College Institute for Scientific Research
This session will address ionospheric impacts on satellite communications, with particular emphasis on UHF SATCOM and its anticipated successor the Mobile User Objective System (MUOS). MUOS will employ CDMA spread spectrum technology operating at 300-320 MHz for the uplink and 360-380 MHz for the downlink. Satellite communications systems which operate in the UHF frequency band are subject to performance degradation due to scattering of the radio signal by random electron density variations encountered along the signal path. This scattering produces scintillation, or random enhancements and fading of the received satellite signal. When these scintillations exceed the fade margin of the equipment, users of UHF satellite communication links may experience message errors at unacceptable levels lasting for up to several hours. The focus of this session will be on experimental techniques, simulation results, and nowcast/forecast systems which further Air Force objectives to predict and mitigate the impacts of ionospheric scintillation on UHF satellite communications. Topics may include:
- Global Morphology and Climatology of Ionospheric Scintillation
- Scintillation Specification and Forecasting
- Characterization of the Ionospheric Channel for Narrowband and Wideband Signals
- Mitigation Strategies and Countermeasures
Presenters include:
- Specification of Scintillation Impacts on UHF SATCOM from the Global SCINDA Network, Ronald G. Caton (AFRL/RVBXI) and Keith M. Groves (AFRL/RVBXI)
- Morphology and Forecasting of Low Latitude Scintillations and Plasma Irregularities, Bela G. Fejer (Center for Atmospheric and Space Sciences Utah State University)
- Predicting the Occurrence of Equatorial Irregularities, Professor Roderick Heelis (University of Texas at Dallas)
- Forecasting SATCOM Scintillation Globally: The Next Level, Clayton Coker (Naval Research Laboratory)
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0940 - 1000 |
Break |
1000 - 1210 |
Space Situational Awareness (SSA) for Satellite Operations – Environmental Effects on Orbits and Systems
Session Chairs: Joe Koesters, AFRL/RYZ, Wright Patterson AFB and Stephen Quigley, Space Weather Forecast Laboratory (SWFL), AFRL/RVBXR, Hanscom AFB
Space weather may affect the operations and mission capability of various DoD assets, to include orbiting spacecraft. This session will address the data, models, and system-impact products employed for SSA on satellite orbits and system operations. Presentations should cover environmental and engineering aspects of satellite drag, satellite charge/discharge anomalies, and other environmentally-induced satellite effects. Topics may include:
- Satellite Orbit Atmospheric Density and Drag
- Charged Particle Environments and Spacecraft Charging
- Single Event Upsets (SEUs) on Satellite Systems
- Meteors/Meteor Shower Effects on Satellite Operations
- Satellite Orientation and Environmental Effects
- Space Environmental Effects on Spacecraft Surveillance/Monitoring
- Satellite System to Component Design: CAD Files, Materials, Specs and Thresholds with regard to Environmental Effects
- Satellite Sensor Error Bars
- Satellite Anomaly Events/Case Files
Presenters include:
- Providing Space Weather Effects to the Warfighter, Lt Col Steve Highley (Space & Missile Systems Center)
- Satellite Drag, Dr. Frank Marcos (Boston College, Institute for Space Research) and Dr. Chin Lin (AFRL Space Vehicles Directorate)
- Dr. Robert McCoy (Ocean Sensing and Systems Applications Division, Office of Naval Research)
- Satellite Charge and Discharge, Dr. David Cooke and Dr. Bob Hilmer
- Future Space Environmental Effects Fusion System (SEEFS) Satellite Operations System-Impact Products, Dr. Stephen Quigley (AFRL Space Vehicles Directorate, space Weather Forecast Laboratory)
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1210 - 1330 |
Lunch |
1330 - 1610 |
Over The Horizon Radar (OTHR)
Session Chairs: Bill Borer, AFRL/RVBXI, Hanscom AFB and
Braham Himed, AFRL/RVRT, Wright Patterson AFB
Over the Horizon Radars require timely and accurate specification of ionospheric electron densities between themselves and the targets they monitor. Improvements in our ability to specify these densities have derived primarily from improvements in our ability to measure electron densities in the region of interest as well as new methods for optimally combining measurements of different types with empirical ionospheric models. This session will review the current state of the art and discuss avenues for research most likely to provide the next generation of technology improvement.
- Ambient Ionospheric Measurement Techniques
- Data Assimilation for Regional Specification
- Travelling Ionospheric Disturbances (TIDs)
- Space Weather effects
Presenters include:
- Dr. Rod Barnes (Riverside Research Institute)
- Overview of NWRA Activities in HF Propagation and OTH Radar, Dr. L.J. Nickisch (NorthWest Research Associates)
- Managing the Impact of Ionospheric Variability, Dr. Robert Gardiner-Garden (Defense Science and Technology Organisation, Australia)
- OTHR Ionospheric Modeling using Known Reference Points ,
Dr. Sergey Fridman (NorthWest Research Associates)
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1515 - 1530 |
Break |
1610 - 1800 |
Poster Session and Light Reception
A Vision of Future Radio Beacon Equipment and Systems, Michael Cousins (SRI International)
A Forecasting Ionospheric Real-time Scintillation Tool (FIRST), David Anderson (University of Colorado/CIRES and NOAA/SWPC)
A Multi-Stage Approach for Advancing Ionospheric Science with Nanosatellites, Dr. Larry Paxton (JHU APL)
A Simple and Accurate Model of the South Atlantic Anomaly Intensity for Low Earth Orbit, Robert Schaefer (JHU APL)
Active Laser Imaging in Obscurants and Turbulence using MIMO Structure, Mr. Jarir Fadlullah (The Pennsylvania State University)
An Auroral Scintillation Observation by Precise Collocated GPS Receivers, Dr. Trevor Garner ARL (The University of Texas Austin)
An Empirical Ionosphere-Plasmasphere Ne Model for IRI, Bodo Reinisch (University of Massachusetts Lowell)
Arctic Navigation: Ionospheric Forecasting and GPS Requirements, Suzanna Diener (Raytheon Company)
Coincident Observations of MSTIDs using HF Radar and Nightglow, Dr. Ethan Miller (JHU APL)
Compensation of Faraday Rotation in Multi-Polarization Scatterometry, Mark Frankford (The ElectroScience Laboratory, Ohio State University)
Derived Space Weather Products and Effects from a Global Data Assimilation Model, Gary Bust (Atmospheric & Space Technology Research Associates)
Developing Ionospheric Reconstructions: Lessons Learned from IDA3D, Dr. Trevor Garner (ARL, The University of Texas Austin)
Development of the Spatial Heterodyne Spectrometer for CubeSat Payloads, Steve Watchorn (Scientific Solutions, Inc.)
Doppler Asymmetric Spatial Heterodyne (DASH) Spectrometers: A Novel Technique to Measure Upper Atmospheric Winds,
Dr. David Siskind (Naval Research Laboratory)
Early C/NOFS Results and Plans for a Future Equatorial Satellite Dedicated to Space Situational Awareness (SSA), Ms. Louise Gentile, (AFRL/RV)
Empirical Neutral Thermosphere Models; Then and Now, Douglas Drob (Space Division, NRL)
Exploitation of DMSP/SSUSI Ionosphere Data for HF/VHF/UHF Applications, Dr. Erin Taylor (JHU APL)
Forecasting Solar EUV for Neutral Density and Ionospheric Applications, John Fontenla (University of Colorado LASP)
Global Morphology and Climatology of Ionospheric Irregularities from DMSP/SSUSI Observations, Joe Comberiate (JHU APL)
Global Ultra-Violet Ionosphere-Thermosphere Observatory (GUVITO),Geoff Crowley (ASTRA)
Ingestion of HF Time-delay Data into IDA4D for Improved Regional Ionospheric Specification, Gary Bust (Atmospheric & Space Technology Research Associates)
Integrating the Sun-Earth System for the Operational Environment: A New Physics-Based Space Weather Model Development and Validation Program, Sarah McDonald (Naval Research L:aboratory)
Ionospher-Thermosphere Models at Community Coordinated Modeling Center, Dr. Ja Soon Shim (NASA GSFC)
Modeling Density Variation in the Thermosphere, Arthur Richmond (NCAR High Altitude Observatory)
Modeling High Latiude Neutral Density Enhancements, Sam Cable (AFRL/RVBXI)
Opportunities for Utilizing the International Space Station for Studies of F2- Region Plasma Science and High Voltage Solar Array Interactions with the Plasma Environment, Joseph Minow (NASA MSFC)
Phenomena-Based Environmental Effects Predictor (PBEEP) and its Application to Ground- and Space-based Sensor Networks, James Griffin (Atmospheric & Environmental, Inc.)
Polar and Equatorial Aeronomy Research Laboratory (PEARL): A CubeSat Sentinel for Ionospheric Specification, Chad Fish (Utah State University/Space Dynamics Laboratory)
Prediction of Atmospheric Density Variations in Low Earth Orbit Resulting from Auroral Heating, Prof. Daniel Weimer (Virginia Tech)
Promise and Peril of Scintillation Observations from LEO, Dr. Ethan Miller (JHU APL)
Satellite Scintillation Model Improvements, Charles Wetterer (Space & Missile Systems Center)
Space Environment and Effects Tool for STK (STK-SEET): A Commercial Tool Based on AFRL's AF-GeoSpace Software Suite, Richard Quinn (Atmospheric & Environmental, Inc.)
Space Weather Modeling System and Forecast Uncertainty During Solar Minimum Conditions of 2008, Dr. Craig Fry (Exploration Physics International, Inc.)
Space-Frequency Interferometrics for OTH Radar, Atindra Mitra (AFRL/RYAA)
Sun-to-Earth Imaging for Operational Space Weather Monitoring, Damien Chua (Naval Research Laboratory, Space Science Div.)
Tether Electrodynamic Propulsion CubeSat Experiment (TEPCE), Shannon Coffey (NRL)
The operational DMSP F18 SSULI UV Sensor, Patrick Dandenault (Naval Research Laboratory)
The Precision Expandable Radar Calibration Sphere (PERCS) Satellite for HF Radar Calibration, Paul Bernhardt (NRL, Plasma Physics Div.)
The Space Environment Monitor - NPOESS (SEM-N), Tom Sotirelis (JHU APL)
The SpaceBuoy Nanosatellite Space Weather Mission: Precursor to an LEO Satellite Constellation for Ionospheric Specification and Forecast,
Dr. David Klumpar (Montanas State University)
Thermospheric Density Enhancements from Energy Deposition During BZ Northward and Strong BY Conditions, Geoff Crowley (ASTRA)
Topside Ionospheric Specification with a Fleet of TIS Microsatellites, Bodo Reinisch (University of Massachusetts Lowell)
Use of Nonlinear Solitary Waves for Numerical Simulation of Short Waves Over Long Distances, Dr. John Steinhoff (University of Tennessee Space Institute)
Wavelet Methods for Detecting Ionospheric Disturbances using GPS Network Measurements, James Garrison (Purdue University) |
Thursday, 14 January 2010 |
0700 - 0800 |
Continental Breakfast |
0700 - 1100 |
Registration |
0800 - 1015 |
Next Generation Sensor and Observational Needs
Session Chairs: Odile De La Beaujardiere, Section Chief, C/NOFS, Head SSA Environmental Monitoring, AFRL/RVBXP, Hanscom AFB and Dr. Paul A. Bernhardt, Senior Research Physicist, Naval Research Laboratory, Plasma Physics Division
This session will address innovations in ground-based and satellite sensors for space weather applications, as well as results from recent missions. It will also explore engineering challenges for space weather sensors. Topics may include:
- Sensors for nanosatellites and cubesats
- Sensors planned for future missions
- Observational data for DoD space weather applications
- Respective roles of ground and space sensors
- Future needs in space weather sensing techniques
- Challenges for future DoD space weather missions
Presenters include:
- HICO and RAIDS Experiment Payload; Remote Atmospheric and Ionospheric Detection System, Scott Budzien (Naval Research Laboratory)
- ISOON: New Ground Based Operational Solar Monitors, Karatholuvu Balasubramaniam (AFRL/RVBXS)
- Small Sensors for Space Weather, Andrew Nicholas (Naval Research Laboratory)
- Scintillation and Energy Input for Space Situational Awareness and Monitoring Environment Suite (SESSAME), Odile De La Beaujardiere (AFRL/RVBXP)
- The AMPERE Project to Measure in Real-time the Currents that Flow in and Out of the Ionosphere, Lars Dyrud (JHU-APL)
- The C/NOFS Mission, Don Hunton (AFRL/RVBXT)
- Latest Results from the Air Force Academy Space Plasma Particle Sensors, the PLANE Turbulence Monitor and the WISPERS Ion Spectrometer, Linda Krause (USAF Academy)
- Measurements of Total Electron Content (TEC) and Radio Scintillations in the Ionosphere with the CERTO Beacons and CITRIS Beacon Receivers in Space , Paul Bernhardt (Naval Research Laboratory)
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1015 – 1030 |
Break |
1030 – 1250 |
Space Weather Models
Session chairs: Dave Cooke, AFRL/RVBXI, Hanscom AFB
and Robert Schunk, Professor/Director, CASS, Utah State University
The ionosphere-thermosphere (I-T) system displays a significant variation with altitude, latitude, longitude, universal time, season, solar cycle and geomagnetic activity. The system is coupled to the overlying magnetosphere by field-aligned currents, particle precipitation, and electric fields, and to the lower atmosphere by upward propagating planetary, tidal, and gravity waves. The variability of the I-T system is particularly intense during geomagnetic storms and substorms, and the variability results from localized ionization processes, plasma transport, nonlinear plasma processes that operate on a range of spatial scales, time delays associated with causes and effects, and feedback mechanisms between the different spatial domains. To describe the various phenomena, a range of models have been developed, including empirical, physics-based, data-driven, and data assimilation models. These models, which can provide both specifications and forecasts, are potentially useful for mitigating various problems associated with Air Force technological systems, including OTH radars, HF communications, GPS, and satellite drag. The focus of this session will be on the current status of the I-T models, with the emphasis on their suitability for use in engineering applications associated with Air Force needs. Topics may include:
- Global, Regional, and Local I-T Models
- Specifications and Forecasts
- M-I Coupling and Its Effect on the I-T System
- Model Metrics/Parameters to Fit Use Needs
- Phase Screen Modeling of the Trans-ionospheric Propagation Channel
Presenters include:
- Penetration Electric Fields, Dr. Stanislav Sazykin (Rice University)
- M-I and Lower Atmosphere Coupling with the I-T System,
Dr. Tim Fuller-Rowell (UC-Boulder)
- Ionosphere Specifications and Forecasts, Prof. Robert Schunk (USU)
- Physics-Based Ionospheric Model, Dr. Yi-Jiun Su (AFRL)
- Equatorial Irregularity Modeling, Dr. Joseph Huba (NRL)
- Space Weather Models at Community Coordinated Modeling Center, Dr. Masha Kuznetsova (NASA)
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Classified Session
Session chairs: Michael Bakich, AFRL/RYAA and Lloyd Clark, AFRL/RYAA
Only attendees with verified visit requests may attend the classified session. Please check with a staff member to confirm your visit request was received and verified.
Attendees of the classified session are responsible for their own transportation to Wright-Patterson Air Force Base. Building location and directions will be available at the Conference registration desk. |
1300 - 1330 |
Attendees with confirmed visit requests travel to WPAFB |
1330 - 1700 |
Classified presentations at WPAFB
Presenters include:
Paul Bernhardt, NRL, Plasma Physics Division
Gary Green, LinQuest Corporation
David Suszcynsky, Los Alamos National Laboratory |
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