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Description

Synthetic Aperture Radar (SAR) has the capability to observe the Earth's surface both day and night and through most weather conditions, making it an ideal sensor to support a wide range of science and applications. Additionally, unique capabilities of SAR include its ability to penetrate through various mediums (such as vegetation, snow, and soil), measure surface deformation and small movements on the order of centimeters, and its sensitivity to structure and to moisture content. These capabilities are valuable for monitoring vegetation structure and land use, detecting surface deformation and movements in land (e.g., earthquakes, landslides) and ice (e.g., glacier movement), flooding, and soil moisture, to name a few.

Historical and operational SAR data have been used to support numerous science and applications questions and needs. However, upcoming SAR satellite sensors, such as NISAR and BIOMASS, will enhance these capabilities with their unique observing frequencies and spatial and temporal resolutions.

This online webinar will provide an introduction to SAR, including interferometric SAR (InSAR), as well as a review of the characteristics of historical, current and upcoming openly available SAR satellite data. It will also explore the type of applications that each sensor can best address. Additionally, this webinar will discuss online sources of openly available SAR data, along with tools, software, and other resources to understand, explore, and facilitate the analysis of SAR data.

Register 11:30-13:30 EST (UTC-5:00)

This training is also available in Spanish.

Agenda

Citation
(2024). ARSET - An Introduction to Synthetic Aperture Radar (SAR) and Its Applications. NASA Applied Remote Sensing Training Program (ARSET). http://disasters.nasa.gov/get-involved/training/english/arset-introduction-synthetic-aperture-radar-sar-and-its-applications
Objective

By the end of this training attendees will be able to:

  1. Recognize basic features and functionality of Synthetic Aperture Radar (SAR)
  2. Evaluate SAR sensor characteristics for addressing different science questions and application areas
  3. Interpret the information content in SAR images to distinguish different features (e.g., vegetation, water, inundation) detected by the sensor
  4. Evaluate creation of an interferogram through interferometric SAR (InSAR)
  5. Interpret an interferogram to measure surface deformation and small movements 
  6. Compare and contrast the capabilities of historic, current, and upcoming SAR data 
  7. Access and visualize SAR data for a given location and time
Audience

Remote sensing end users, geospatial analysts, academics and students, managers from local, state, federal government, and NGO’s

Course Format
  • Three, 2-hour parts
  • Each part includes a 30-min Q&A session.
  • Each day of the training will have an English session from 11:30am-1:30pm EST (UTC-5:00) and a Spanish session from 2:30pm-4:30pm EST (UTC-5:00).
Sessions
Part 1: Introduction to Synthetic Aperture Radar (SAR)
11:30 am ~ 01:30 pm
EST (UTC-5:00)

ARSET Instructors: Erika Podest

Objectives:

  1. Identify radar remote sensing signal characteristics
  2. Recognize how the radar signal interacts with the surface
  3. Interpret a SAR image to distinguish different features (e.g., vegetation, water, inundation) detected by the sensor
  4. Identify application areas where different SAR sensors are most applicable
  5. Compare and contrast the capabilities and characteristics of historic, current, and upcoming SAR data
Part 2: Introduction to Interferometric SAR (InSAR)
11:30 am ~ 01:30 pm
EST (UTC-5:00)

ARSET Instructors: Erika Podest

Guest Instructors: Eric Fielding (JPL)

Objectives:

  1. Identify the basics concepts of Interferometric SAR
  2. Identify the steps to generate a SAR interferogram
  3. Interpret an interferogram to measure surface deformation
  4. Identify the applications that InSAR can address
Part 3: An Overview of SAR Data Sources and Tools
11:30 am ~ 01:30 pm
EST (UTC-5:00)

ARSET Trainers: Erika Podest

Guest Instructors: Franz Meyer (ASF, University of Alaska, Fairbanks), Heidi Kristenson (ASF)

Objectives:

  1. Access openly available SAR data from the Alaska Satellite Facility (ASF) Distributed Active Archive Center (DAAC)
  2. Explore tools to visualize and download openly available SAR data from the ASF DAAC

 

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