Principles
What is being detected by remote sensing instruments?
Electromagnetic Radiation
Why, when comparing images from different years, is it important to try and have the images coincide on the same day and month of acquisition as closely as possible?
Seasonal variability – especially for vegetation
Define spectral signatures, with examples.
the pattern (graph) of different levels of reflectance of veg type throughout the EMR spectrum.
What are the different types of change?
Short term (weather)
Cyclic (seasonal)
Directional (Urban developments)
Multidirectional (deforestation and regression)
Events (natural hazards, disasters and fires)
Name and define the two Sensor Types.
Passive: Measuring Natural radiation (source= sun)
Active: Measuring radiation transmitted from sensor (LiDAR)
What regions of the spectrum show the largest reflectance of vegetation/soil/water
Green/NIR for Vegetation
Red for Soil
Depends on oceanic factors (phyto, salinity, sediment) Blue
Describe three ways remote sensing is used to monitor the Ocean.
Sea Surface Temperature: Measures thermal radiation
Ocean Salinity: Measures microwaves (change and amount received)
Sea Surface Height: Measures the time radar takes to return to sensor
What are the different approaches for change detection?
Two most simple/common
Spectral change detection – identifies changes on the spectral characteristics of the spatial units (i.e. pixels), includes techniques that account for the spatial arrangement of pixels (i.e. context)
Class change detection – consists of a post-classification comparison (i.e. GIS overlay)
What are the two types of satellite orbits? Give an example of each.
Near polar orbit: high inclination angles, altitude range 400-1000 km, orbital period of about 100 minutes, SUN SYNCHRONOUS, e.g. Landsat – repeat coverage every 16 days
Geostationary orbit: 35,786 km altitude exactly, same location relative to earth, coverage does not change, e.g. Geostationary Operational Environmental Satellites (GOES)
Most RS systems can collect data in both a panchromatic and a multispectral mode. What is one advantage of each mode?
Panchromatic = better spatial resolution (Detailed Maps)
Multispectral = better spectral resolution (Change detection and indices)
How can RS be used in agriculture and forestry? Give an example of each application and explain which data would be used for that application.
Agriculture
Mapping out crop/vegetation types
Precision agriculture
Crop yield estimation
Forestry
Land use change/ analysis
Deforestation tracking
Wildfire monitoring
Describe unsupervised image classification.
Algorithms work by grouping ‘similar’ pixels into the same class, while ensuring that each class is sufficiently ‘dissimilar’ to all others as to be considered separate
Different algorithms used, most common are K-means and ISODATA
List and define three types of atmospheric scattering.
What types of preprocessing steps may occur prior to main data analysis of a remotely sensed image?
Radiometric correction – scene illumination and reducing image noise
Atmospheric correction – statistical and complex radiative transfer-based methods
Geometric correction – accounting for systemic and random distortions, e.g. curvature of the earth
Explain the equations for NDVI, NDWI and NDDI.
NDVI (Normalized Difference Vegetation Index) = NIR-RED/ NIR+RED
NDWI (Normalized Difference Water Index) = NIR-SWIR/NIR+SWIR
NDDI (Normalized Difference Drought Index) = NDVI-NDWI/ NDVI+NDWI
How can classification accuracy be assessed?
Accuracy assessment is essential for both supervised and unsupervised; compares a classification with ground-truth data to evaluate how well the classification represents the real world
Most common method for assessment is a confusion/error matrix, which considers producer's accuracy (omission error), user's accuracy (commission error), and overall accuracy
Kappa coefficient as measure of agreement between classification map and reference data (highly used, highly debated)
Where are the atmospheric windows that we can effectively use in remote sensing?
Atmospheric windows: the wavelength regions outside the main absorption bands of the atmospheric gases ( H20, CO2,O3)
Four principal windows: 1. visible –NIR (0.4-2.5 micrometers), 2. mid-IR (3-5 micrometers), 3. thermal IR (8-14 micrometers), 4. microwave (1-30 cm)
Think of diagram
What are the 4 types of image resolution that we are concerned about when interpreting remote sensing data? Give examples of each.
Spatial resolution: ability to separate between objects (think pixel size)
Temporal resolution: time between observations (LandSat 16 day, MODIS 1-2)
Spectral resolution: location, width, and sensitivity of chosen wavelength bands (think number of bands, Landsat8: 11, Sentinel 2: 13, MODIS: 36),
Radiometric resolution: precision of observations (think number of grey levels: LandSat 12bit or 4,096)
Describe what a vegetation index is, how can they be used for distinguishing between veg types and conditions?
Calculation of reflectance of vegetation at different wavelengths
-1 to 1 value
NDVI vs NDWI vs NDDI
Describe supervised image classification.