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Satellite Remote Sensing Data Bootcamp With Opensource Tools
By Packt
- 30 Day Money Back Guarantee
- Completion Certificate
- 24/7 Technical Support
Highlights
On-Demand course
4 hours
All levels
Description
Pre-process and Analyze Satellite Remote Sensing Data with Free Software
Enroll in my latest course on how to learn all about Basic Satellite Remote Sensing or perhaps you have prior experiences in GIS or tools like R and QGIS? You don't want to spend 100s and 1000s of dollars on buying commercial software for imagery analysis? The next step for you is to gain proficiency in satellite remote sensing data analysis. This course is hands-on training with real remote sensing data with open source tools! This course provides a foundation to carry out practical, real-life remote sensing analysis tasks in popular and free software frameworks with real spatial data. By taking this course, you are taking an important step forward in your GIS journey to become an expert in geospatial analysis. Why Should You Take My Course? The author is an Oxford University MPhil (Geography and Environment), graduate. She also completed a Ph.D. at Cambridge University (Tropical Ecology and Conservation). She has several years of experience in analyzing real-life spatial remote sensing data from different sources and producing publications for international peer-reviewed journals. In this course, actual satellite remote sensing data such as Landsat from USGS and radar data from JAXA will be used to give practical hands-on experience of working with remote sensing and understanding what kind of questions remote sensing can help us answer. This course will ensure you learn and put remote sensing data analysis into practice today and increase your proficiency in geospatial analysis. Remote sensing software tools are very expensive, and their cost can run into thousands of dollars. Instead of shelling out so much money or procuring pirated copies (which puts you at risk of prosecution), you will learn to carry out some of the most important and common remote sensing analysis tasks using a number of popular, open-source GIS tools such as R, QGIS, GRASS, and ESA-SNAP. All of which are in great demand in the geospatial sector and improving your skills in these is a plus for you. You will also learn about the different sources of remote sensing data there are and how to obtain these free of charge and process them using free software. All the code and supporting files for this course are available at -
https://github.com/PacktPublishing/Satellite-Remote-Sensing-Data-Bootcamp-with-Opensource-Tools
What You Will Learn
Download different types of satellite remote sensing data for free
Have a thorough knowledge of remote sensing- theoretical concepts and applications
Implement pre-processing techniques using R and QGIS
Carry out the unsupervised classification of satellite remote sensing data
Carry out the supervised classification of satellite remote sensing data
Implement machine learning algorithms on satellite remote sensing data in R
Carry out habitat suitability mapping using remote sensing and machine learning
Use other freely available software tools such as Google Earth Engine and SNAP for RS data analysis
Audience
This course is for people with prior experience of working spatial data such as GIS analysts, Ecologists, Forestry and Conservation Practioners, Geographers, and Geologists.
Approach
This is an introductory course, i.e. we will focus on learning the most important and widely encountered remote sensing data processing and analyzing tasks in R, QGIS, GRASS and ESA-SNAP.
Key Features
A good starter course to explain the fundamentals & properly understand the applications of remote sensing * Short lectures and practicals which are good to ensure the attention of the audience is still there.
Github Repo
https://github.com/packtpublishing/satellite-remote-sensing-data-bootcamp-with-opensource-tools
About the Author
Minerva Singh
Minerva Singh is a PhD graduate from Cambridge University where she specialized in Tropical Ecology. She is also a part-time Data Scientist. As part of her research, she must carry out extensive data analysis, including spatial data analysis. For this purpose, she prefers to use a combination of freeware tools: R, QGIS, and Python. She does most of her spatial data analysis work using R and QGIS. Apart from being free, these are very powerful tools for data visualization, processing, and analysis. She also holds an MPhil degree in Geography and Environment from Oxford University. She has honed her statistical and data analysis skills through several MOOCs, including The Analytics Edge and Statistical. In addition to spatial data analysis, she is also proficient in statistical analysis, machine learning, and data mining.
Course Outline
1. Introduction to Satellite Remote Sensing Data Analysis
1. Introduction to the Course and Instructor Introduction to Satellite Remote Sensing Data Analysis: Introduction to the Course and Instructor |
2. What is Remote Sensing? Introduction to Satellite Remote Sensing Data Analysis: What is Remote Sensing? |
3. Different Types of Remote Sensing Data Introduction to Satellite Remote Sensing Data Analysis: Different Types of Remote Sensing Data |
4. Different Tools for Working with Remote Sensing-Start with R and QGIS Introduction to Satellite Remote Sensing Data Analysis: Different Tools for Working with Remote Sensing-Start with R and QGIS |
5. Get Started with SNAP Toolbox-Brief Introduction Introduction to Satellite Remote Sensing Data Analysis: Get Started with SNAP Toolbox-Brief Introduction |
6. Get Started with GRASS GIS-Brief Introduction Introduction to Satellite Remote Sensing Data Analysis: Get Started with GRASS GIS-Brief Introduction |
7. Conclusions to Section 1 Introduction to Satellite Remote Sensing Data Analysis: Conclusions to Section 1 |
2. Introduction to Optical Remote Sensing Data
1. Principles Behind Collection of Optical Remote Sensing Data Introduction to Optical Remote Sensing Data: Principles Behind Collection of Optical Remote Sensing Data |
2. Different Types of Optical Remote Sensing Data Introduction to Optical Remote Sensing Data: Different Types of Optical Remote Sensing Data |
3. Downloading and Viewing Landsat Data Introduction to Optical Remote Sensing Data: Downloading and Viewing Landsat Data |
4. Different Landsat Sensors Introduction to Optical Remote Sensing Data: Different Landsat Sensors |
5. Downloading and Viewing Optical Data via QGIS Introduction to Optical Remote Sensing Data: Downloading and Viewing Optical Data via QGIS |
6. Conclusions to Section 2 Introduction to Optical Remote Sensing Data: Conclusions to Section 2 |
3. Pre-Processing Optical Data
1. Why is Pre-Processing Needed for Optical Data? Pre-Processing Optical Data: Why is Pre-Processing Needed for Optical Data? |
2. Implementing Atmospheric Correction on Landsat Data in R Pre-Processing Optical Data: Implementing Atmospheric Correction on Landsat Data in R |
3. QGIS For Pre-Processing Landsat Data: Semi-Automatic Classification Plugin Pre-Processing Optical Data: QGIS For Pre-Processing Landsat Data: Semi-Automatic Classification Plugin |
4. Atmospherically Corrected Outputs from QGIS Pre-Processing Optical Data: Atmospherically Corrected Outputs from QGIS |
5. What Can Pre-Processed Satellite Data Be Used For? Pre-Processing Optical Data: What Can Pre-Processed Satellite Data Be Used For? |
6. Conclusions to Section 3 Pre-Processing Optical Data: Conclusions to Section 3 |
4. The Many Uses of Optical Data
1. Stacking and Unstacking Bands in QGIS The Many Uses of Optical Data: Stacking and Unstacking Bands in QGIS |
2. Band Maths in R and QGIS The Many Uses of Optical Data: Band Maths in R and QGIS |
3. Texture Indices-Theory The Many Uses of Optical Data: Texture Indices-Theory |
4. Texture Indices-GRASS GIS The Many Uses of Optical Data: Texture Indices-GRASS GIS |
5. Texture Indices-ESA SNAP The Many Uses of Optical Data: Texture Indices-ESA SNAP |
6. Tasseled Cap Transformations-theory The Many Uses of Optical Data: Tasseled Cap Transformations-theory |
7. Tasseled Cap Transformations-GRASS GIS The Many Uses of Optical Data: Tasseled Cap Transformations-GRASS GIS |
8. Vegetation Indices in GRASS GIS The Many Uses of Optical Data: Vegetation Indices in GRASS GIS |
9. Vegetation Indices using RStoolbox The Many Uses of Optical Data: Vegetation Indices using RStoolbox |
10. Dimension Reduction-theory The Many Uses of Optical Data: Dimension Reduction-theory |
11. Dimension Reduction-QGIS The Many Uses of Optical Data: Dimension Reduction-QGIS |
12. Dimension Reduction-GRASS GIS The Many Uses of Optical Data: Dimension Reduction-GRASS GIS |
13. Conclusion to Section 4 The Many Uses of Optical Data: Conclusion to Section 4 |
5. Classification of Remote Sensing Satellite Data
1. Theory of Unsupervised Classification Classification of Remote Sensing Satellite Data: Theory of Unsupervised Classification |
2. Unsupervised Classification-ESA SNAP Classification of Remote Sensing Satellite Data: Unsupervised Classification-ESA SNAP |
3. Theory of Supervised Classification Classification of Remote Sensing Satellite Data: Theory of Supervised Classification |
4. Supervised Classification in QGIS: Preliminary Steps Classification of Remote Sensing Satellite Data: Supervised Classification in QGIS: Preliminary Steps |
5. Classification and Post Classification Accuracy in QGIS Classification of Remote Sensing Satellite Data: Classification and Post Classification Accuracy in QGIS |
6. Machine Learning Theory Classification of Remote Sensing Satellite Data: Machine Learning Theory |
7. Create Training Data in QGIS Classification of Remote Sensing Satellite Data: Create Training Data in QGIS |
8. Apply Machine Learning Techniques on Satellite Data Classification of Remote Sensing Satellite Data: Apply Machine Learning Techniques on Satellite Data |
9. Conclusion to Section 5 Classification of Remote Sensing Satellite Data: Conclusion to Section 5 |
6. Introduction to Active Remote Sensing Data: Synthetic Aperture Radar
1. Why Use Active Remote Sensing Data? Introduction to Active Remote Sensing Data: Synthetic Aperture Radar: Why Use Active Remote Sensing Data? |
2. Obtain ALOS PALSAR Data Introduction to Active Remote Sensing Data: Synthetic Aperture Radar: Obtain ALOS PALSAR Data |
3. Pre-processing of ALOS PALSAR data Introduction to Active Remote Sensing Data: Synthetic Aperture Radar: Pre-processing of ALOS PALSAR data |
4. Filtering for Speckles Introduction to Active Remote Sensing Data: Synthetic Aperture Radar: Filtering for Speckles |
5. Obtain back-scatter values from ALOS PALSAR data Introduction to Active Remote Sensing Data: Synthetic Aperture Radar: Obtain back-scatter values from ALOS PALSAR data |
Course Content
- Satellite Remote Sensing Data Bootcamp With Opensource Tools
About The Provider
Packt
Birmingham
Founded in 2004 in Birmingham, UK, Packt’s mission is to help the world put software to work in new ways, through the delivery of effective learning and i...
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