-------- Forwarded Message --------
Subject: 	NASA Earthdata Webinar 10/4: Topic- Monitoring Earth’s 
Ionosphere for Natural Hazards in Near Real-Time
Date: 	Tue, 26 Sep 2023 16:26:39 +0000
From: 	Brennan, Jennifer L. (GSFC-423.0)[ADNET SYSTEMS INC] 
<[log in to unmask]>



Good morning, afternoon, and evening,

You are invited to the NASA Earthdata webinar, “GUARDIAN: Monitoring 
Earth’s Ionosphere for Natural Hazards in Near Real-Time” to be held 
Wednesday, October 4, 2023, at 2:00 PM EDT (UTC/GMT-4).

*/*Please excuse any duplicates for those of you on the original invite 
list* /*

*Webinar POC:*Jennifer Brennan, Host, NASA ESDIS Communications Lead

*Email:*[log in to unmask]

*Registration: 
https://www.earthdata.nasa.gov/learn/webinars-and-tutorials/webinar-guardian-cddis-04-Oct-2023 
<https://www.earthdata.nasa.gov/learn/webinars-and-tutorials/webinar-guardian-cddis-04-Oct-2023>*


*Description:*Several natural phenomena on Earth and in space, such as 
tsunamis, volcanic eruptions, earthquakes, and geomagnetic and solar 
storms leave a readily-detectable signature in the Earth's ionosphere. 
Monitoring the ionosphere in real-time can therefore greatly enhance our 
early warning systems for these events. Traditionally, the ionospheric 
response to these sources has been studied several days to weeks after 
the event occurs. For the ionosphere to be used as a medium for hazard 
warning, it must be monitored in near-real-time with analyses provided 
in a timelier fashion.


The GNSS-based Upper Atmospheric Realtime Disaster Information and Alert 
Network (GUARDIAN) is a state-of-the-art near-real-time monitor designed 
to provide estimates of the ionospheric line of sight total electron 
content (TEC) from L-band radio-frequency signals transmitted by the 
Global Navigation Satellite System (GNSS) satellites. We combine, clean, 
and filter phase data to generate TEC time-series for multiple 
constellations from nearly 90 stations around the Pacific Ring of Fire 
with an approximate latency of 3 minutes. GUARDIAN builds on JPL's 
Global Differential GPS (GDGPS) capability and the International GNSS 
Service (IGS) network, which aggregate GNSS phase data from a network of 
real-time worldwide stations.


In this presentation, we will discuss the architecture of the GUARDIAN 
system, highlight several examples and use cases, and share future plans 
for its development, with the hopes of enhancing existing hazard warning 
frameworks to safeguard communities around the world.

*
*

*Speaker: *

**

*Dr. Siddharth Krishnamoorthy, Research Technologist, Ionospheric and 
Atmospheric Remote Sensing Group, NASA’s Jet Propulsion Laboratory 
(JPL), California Institute of Technology (Caltech)***

**

Dr. Krishnamoorthy is a Research Technologist at the Ionospheric and 
Atmospheric Remote Sensing group at NASA’s Jet Propulsion Laboratory. He 
holds a PhD in Aeronautics and Astronautics from Stanford University and 
a Masters in Physics from the Indian Institute of Technology Delhi, 
India. Siddharth is developing remote sensing methods for Earth and 
planetary applications. He serves as a technical lead on the GUARDIAN 
project and also supports Deep Space Network operations.

*
*

*Q & A Panelists: *

**

*Dr. Léo Martire, Research Technologist, Ionospheric and Atmospheric 
Remote Sensing Group, NASA JPL, Caltech *

Dr. Léo Martire, a Research Technologist at JPL and the Deputy Director 
of the International GNSS Service's Central Bureau, holds a PhD with 
honors in Astrophysics, Space Science, and Planetary Science. Their 
expertise bridges applied mathematics, numerical modeling, and 
geophysical acoustics, with a focus on the propagation of mechanical 
waves from planetary bodies’ near-interior to their ionosphere's outer 
bounds. In addition to their scientific and technical contributions, Dr. 
Martire also chairs an international Task Force on Applications of GNSS 
for Disaster Risk Reduction, operating under the United Nations' Office 
for Outer Space Affairs.

**

*Dr. Attila Komjathy, Group Supervisor, Near Earth Tracking Systems 
Group, NASA JPL, Caltech *

Attila Komjathy is a JPL Principal and Supervisor of the Near Earth 
Tracking Systems Group at the NASA Jet Propulsion Laboratory. He 
received his Ph.D. from the Department of Geodesy and Geomatics 
Engineering of the University of New Brunswick, Canada. He has been 
active in space research and GNSS applications for 30 years specializing 
in various aspects of GNSS ionospheric and atmospheric remote sensing 
techniques. He is a Fellow of the U.S. Institute of Navigation and 
served Commission Chair at USNC-USRI. He works as an Associate Editor 
for AGU’s Radio Science.

**

For more information and to register 
<https://www.earthdata.nasa.gov/learn/webinars-and-tutorials/webinar-guardian-cddis-04-Oct-2023>

Please do not hesitate to reach out to me with any questions.   Also, 
feel free to share this invite with your colleagues.


Best Regards,



Jennifer Brennan, NASA Earthdata Webinar Host, ESDIS Communications Lead




Jennifer Brennan, NASA ESDIS Communications Lead
Contractor, ADNET Systems Inc.
Telephone: 301-352-4628
Fax: 301-352-0871

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earthdata.nasa.gov

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