Remote Sensing

Remote Sensing 2010
"Participants will use remote sensing imagery, science and mathematical process skills to complete tasks related to an understanding of the causes and consequences of human interaction with forest biomes." - Remote Sensing rules 2010

Like 2009, 5 double sided sheets of paper are permitted, as well as a non-graphing calculator.

This year, the tests tend to comprise of a mix of image interpretation as well as questions regarding concepts of remote sensing and forest biome biology knowledge. Some ecology/biology background is useful. Knowledge of individual space programs and NASA satellites, in addition to the types of sensors used, is useful.

The Basics
Image interpretation and analysis is a huge part of the Remote Sensing event. It involves locating, identifying or measuring certain objects in images acquired using Remote Sensing. This isn't as straightforward as it may seem. There are plenty of features that can throw you off in each image. However, some features are the same in each image as well. There will always be a "target" to look for, which will always contrast with other parts of the image- making it "distinguishable". All images in the Remote Sensing event will be in analog format- photograph form- rather than digital.

According to the Canada Centre for Remote Sensing, whose tutorial you can find in the external links section, there are several things to look for to assist in image interpretation. These are tone, shape, size, pattern, texture, shadow, and association.


 * Tone is the brightness or color of an object. It's the main way to distinguish targets from backgrounds.
 * Shape is the shape of an object. Note that a straight-edged shape is usually man-made, such as agricultural or urban structures. Irregular-edged shapes are usually formed naturally.
 * Size, relative or absolute, can be determined by finding common objects in images, such as trees or roads.
 * Pattern refers to the arrangement of objects in an image, such as the spacing between buildings in an urban setting.
 * Texture is the arrangement of tone variation throughout the image.
 * Shadow can help determine size and distinguish objects.
 * Association refers to things that are associated with one another in photographs, which can assist interpretation, i.e. boats on a lake, etc.

Glossary
This is a list of some useful remote sensing vocabulary: All of this can be found in the ccrs tutorial


 * Absorption: when substances absorb radiation
 * Active sensing: giving off radiation, then sensing the backscatter
 * Electromagnetic radiation: most common energy source for remote sensing consisting of an electric and magnetic field perpendicular to each other and the direction of travel while traveling at the speed of light c (3.0 m/sec)
 * Frequency: the number of waves passing a given point in a given amount of time; measured in hertz
 * Image: any pictoral representing any wavelength used in sensing
 * Orbit: path followed by a satellite
 * Passive sensing: sensing naturally available radiation
 * Radiometric resolution: ability of sensor to discriminate very small differences in energy
 * Reflection: when radiation is redirected upon striking a target; this is the target interaction useful for remote sensing
 * Remote sensing: the science of acquiring data without being in contact with it
 * Scale: ratio of size on image to real-life size
 * Scattering (or atmospheric scattering): when particles in the atmosphere redirect radiation
 * Spatial resolution: smallest detail a sensor can detect
 * Spectral resolution: ability of sensor to distinguish between fine wavelength intervals
 * Swath: area imaged by a satellite with a fixed width
 * Temporal resolution: describes the time between which the same area is viewed twice
 * Transmission: when radiation passes through a target
 * Wavelength: the distance between two crests of a periodic

Examples of Instruments

 * RADAR: short for Radio Detection and Ranging. It transmits radio waves, which are scattered and reflected when they come into contact with something.
 * LIDAR: short for Light Detection and Ranging. It is similar to RADAR but uses laser pulses instead of radio waves.
 * TM: stands for Thematic Mapper. It was introduced in the Landsat program and involves seven image data bands that scan along a ground track.
 * MSS: stands for Multispectral Scanner. It was introduced in the Landsat program also, and each band responds to a different type of radiation, thus the name “multispectral”.

Examples of Satellites
Most of the satellites tested for are NASA-related.


 * A-Train: a satellite constellation scheduled to be with seven satellites working together in Sun synchronous (SS) orbit. Their compiled images can have high-resolution results.


 * Aqua: used for monitoring the water cycle.
 * Aura: measures air quality and climate.
 * CloudSat: uses RADAR to monitor clouds’ altitude and properties.
 * CALIPSO: measures materials within clouds
 * PARASOL: a satellite which studies clouds and aerosols. It has begun to leave the A-Train.


 * Landsat: A series of 7 satellites using multiple spectral bands. Only two are operational today (Landsat 7 and Landsat 5).

Forest biome
The second portion of this event requires the use of knowledge of forest biomes and the interaction of humans with them.

Characteristics
There are three major types of forests, which are all characterized by the amounts of trees growing in them.


 * Tropical forests are near the equator. They have the greatest diversity in species, and only two seasons are present (rainy and dry).
 * Temperate forests are located in eastern North America, northeastern Asia, and western and central Europe. There are four defined seasons and a moderate climate. Precipitation (75-150 cm) is distributed evenly throughout the year.
 * Boreal forests (taiga) are in northern Eurasia and North America. There is a short, warm summer and a very long and cold winter.

Human Interaction
As humans have expanded their reign over the planet, the health of the forest biome has taken a hit. Effects of humans such as deforestation threaten the well-being of the planet, especially since forests play an important role in processes such as the water cycle, carbon cycle, and ecological diversity.



Remote Sensing 2009
"Participants will use remote sensing imagery, science and mathematical process skills to complete tasks related to an understanding of the causes and consequences of global warming." - Remote Sensing rules 2009

You may bring five (5) pages of double-sided paper with notes in any form. Each participant may bring any non-graphing calculator.

This event is essentially a test based on identifying satellite imagery. Be prepared to study about and memorize different NASA space programs aimed at imaging earth from space. Also, learn to identify different human constructions based on satellite photos. Test questions will often be open-ended, with answers to questions based on analysis of such satellite images in visible, infrared, and radio wavelengths. Other such images include but are not limited to charts of variation in average temperature and measure of chlorophyll concentration in the ocean.

Textbooks
Remote Sensing and Image Interpretation

Remote Sensing: Principles and Interpretation

2010 links

 * http://soinc.org/remote_sensing_c
 * Official Science Olympiad remote sensing page


 * http://www.ccrs.nrcan.gc.ca/resource/tutor/fundam/pdf/fundamentals_e.pdf
 * This remote sensing tutorial written by the Canada Centre for Remote Sensing is very useful. Covers basic concept of remote sensing, sensor types, image interpretation and analysis, and use of data. Section 5.3 on forests is a must.


 * http://rst.gsfc.nasa.gov/Front/tofc.html
 * The NASA tutorial is more advanced than the Canada one, and it is recommended reading after the Canada one has already been read. Difficult to read both due to time constraints, however, most substance in this tutorial will not be necessary on most tests. Good if time permits.

Older links
Most of these links are either no longer active or not relevant to the 2010 event
 * http://www.soinc.org/events/remotesense/index.htm
 * The official Science Olympiad website has many links, official rule clarifications, and tips on how to improve your binder.


 * http://cmex.ihmc.us/CMEX/index.html OR http://mars.jpl.nasa.gov
 * Mars Topographic Map, as referenced by the official rules. No longer applicable due to rule changes.


 * http://pubs.usgs.gov/imap/i2782/i2782_sh1.pdf and http://pubs.usgs.gov/imap/i2782/i2782_sh2.pdf
 * Direct links to the Mars Topographic Maps from pubs.usgs.gov - note they are large in file size. No longer applicable due to rule changes.


 * http://www.michiganso.org/mars_remote_sensing_course.htm or http://www.michiganso.org/resources.htm
 * The other link in the rules has probably moved here instead. There is a great online course dedicated to Remote Sensing and a great topographic map.
 * http://www.tx.ncsu.edu/science_olympiad/Tournament_information/Event_rules_nc/remote_sensing.cfm
 * Usually had good event resources.


 * http://www.tufts.edu/as/wright_center/products/sci_olympiad/upload_1_15_05/pdf/remote_sensing_2005.pdf
 * This is a good document for Remote Sensing in general, without any focus on Mars. There are two pages of links at the end for you to use.


 * http://www.scioly.org/obb/board.php?FID=35
 * Feel free to ask any additional questions you might have about Remote Sensing here, as long as you follow the rules.


 * http://newyorkscioly.org/SOPages/Events/Remote.html
 * New York Coaches Conference