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Image Processing Comet Finding Group: Supernova. Sheena Patel Keith Hawkins Joey Starnes Daniel Jacobs. Introduction. The goal of this project is to create a suite of programs using MATLAB to find possible comets from images taken by the SOHO satellite.
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Image Processing Comet Finding Group: Supernova Sheena Patel Keith Hawkins Joey Starnes Daniel Jacobs
Introduction • The goal of this project is to create a suite of programs using MATLAB to find possible comets from images taken by the SOHO satellite. • MATLAB- a program that has integrated image processing toolboxes. • Image Processing
The SOHO Satellite • SOHO stands for the Solar and Heliospheric Observatory. • SOHO is an international collaboration between ESA and NASA • SOHO studies the Sun from its deep core to the solar winds • SOHO orbits in a special orbit called L1 Lagrangian point, which allows it to observe the sun 24/7 • We used data from the Large Angle and Spectrometric Coronagraph (LASCO) to run through our programs. Figure 1: Example input picture Courtesy of: http://sohowww.nascom.nasa.gov/data/realtime/c2/1024/latest.html
General Introduction to Comets a. b. • Comets are small, irregularly shaped astronomical bodies • Most Comets are composed of a mixture of small grains and frozen gases. • Comets have highly eccentric orbits which make them extremely bright and visible to the naked eye • Therefore comets have a unique structure built of two parts: • Nucleus • Tail Figure 2: (a) example of a circle and ellipse. (B) Structure of a comet Courtesy of: http://www.solarviews.com/eng/comet.htm
Concepts Behind the Project • Images coming from LASCO, once masked, have bright dots that can either be stars or comets • In order to extract the comets from the background stars the project makes use running images in sets of four and the program will watch the dots to see which dots are not moving in harmony with the background dots or stars Figure 3: picture of SOHO comet Courtesy of: http://www.cnn.com/2005/TECH/space/01/26/comet.contest/
Procedure: Step 1 • Get pictures from directory • Isolate date and time from picture name • Calculate time between images • Store date, time, and elapsed time for later use *See Animations
Procedure: Step 2 • involves using MATLAB to determine the coordinates of all of the bright spots on the masked images. • writing code to seek out all the bright spots Figure 4: Masked SOHO image *See Animations
Procedure: Step 3 • takes the output of step 2 • takes multiple masked images and calculates distances • applies distance constraints to make a list of possible trajectories *See Animations
Procedure: Step 4 • Take input of points in 2 images • Connect into paths through 4 images • Check for consistent distance • Check for angles and linear relationship *See Animations
Procedure: Step 5 • Take in coordinates of comet paths • Make circle around coordinates • Change contrast inside circle • Results in highlighted comet *See Animations
Procedure: Step 6 • Main Loop • Connects previous five steps • Coordinates inputs and outputs • Prints final comet images *See Animations
Applications • Program used to find comets • Increased knowledge of galactic neighborhood • NASA can keep tabs on objects close to earth 3. Programs can be modified for other purposes .
Conclusions • Although there was not enough time to go through new data, the programs that was written by team supernova was able to identify previously known comets from SOHO data!! Figure : Picture of a SOHO comet Courtesy of: http://www.esa.int/esaCP/ESA26YTM5JC_FeatureWeek_1.html
1 Comets from May 6, 2005 2 3 4