41. NGS Remote Sensing Division The National Geodetic Survey remote sensing Division main page. http://geodesy.noaa.gov/RSD/rsd_home.shtml

January 24 2008 Home Resources Text Contact ... National Geodetic Survey Last modified: Wednesday, 28-Apr-2004 13:17:40 EDT Scopes of Work input requested: Digital Imagery Acquisition Airport LIDAR Coastal LIDAR

42. Naval Research Laboratory Remote Sensing Division The mission of the Naval Research Laboratory remote sensing Division is research and development utilizing remotely sensed information or leading to remote http://rsd-www.nrl.navy.mil/

43. National Center For Remote Sensing, Air And Space Law WELCOME to the National Center for remote sensing, Air and Space Law. The Center serves the public good and the remote sensing and space industry by http://www.spacelaw.olemiss.edu/

Home Journal of Space Law Blog: Res Communis ... Contact Us Upcoming Events 17-18 Jan 2008 - The Second International Conference on the State of Remote Sensing Law Agenda Registration Form New Publications Journal of Space Law Volume 33, No. 1 Remote Sensing, Air, and Space Law International Bibliography 1930-2007: A Special Publication of the Journal of Space Law - includes a searchable CD-ROM Order Now via email WELCOME to the National Center for Remote Sensing, Air and Space Law. The Center serves the public good and the remote sensing and space industry by addressing and conducting research, education and outreach activities related to the legal aspects of applying remote sensing, air, and space technologies to human activities. Space, remote sensing and aviation subjects that the Center addresses include, among others. Data Policies Privacy International Law Use of Imagery as Legal Evidence Intellectual Property Liability Environmental Issues Licensing Comments Text Only Last Modified: 14 Jan 08 by Michelle L. Aten

44. ES 771 Remote Sensing Index remote sensing of the Earth s surface utilizing the electromagnetic spectrum. Techniques of photography, multispectral scanning, and microwave imagery from http://academic.emporia.edu/aberjame/remote/

ES 771 Remote Sensing James S. Aber Remote sensing of the Earth's surface utilizing the electromagnetic spectrum. Techniques of photography, multispectral scanning, and microwave imagery from airplane, satellite, and manned-spacecraft platforms. Image interpretation, practical applications in earth science, and use of remotely sensed data in geographic information systems. ES 771 course syllabus ES 771 is presented by the Earth Science Department for the use and benefit of students enrolled at Emporia State University . All are welcome to view and enjoy course materials; however, any other use of text, imagery or curriculum is prohibited without permission of the instructor.

45. Introduction - What Is Remote Sensing? An interactive tutorial module on remote sensing technology and its applications. http://www.ccrs.nrcan.gc.ca/resource/tutor/fundam/chapter1/01_e.php

@import url(../../../../_sys/css/base2.css); Natural Resources Canada www.nrcan.gc.ca Skip to content Skip to institutional links Common menu bar links Home Contact us Help Search ... Canada Centre for Remote Sensing Fundamentals of remote sensing Institutional links Site map Contact us Help Outreach Materials Home Tutorials Fundamentals of remote sensing Home Introduction What is remote sensing? Electromagnetic radiation Electromagnetic spectrum Interactions with the atmosphere Interaction ... Acknowledgements Related links Canada Centre for Remote Sensing Glossary of remote sensing terms Optical Imaging Systems Radar Imaging Systems ... Earth Observation Data Services Canada Centre for Remote Sensing Introduction What is Remote Sensing? So, what exactly is remote sensing ? For the purposes of this tutorial, we will use the following definition: "Remote sensing is the science (and to some extent, art) of acquiring information about the Earth's surface without actually being in contact with it. This is done by sensing and recording reflected or emitted energy and processing, analyzing, and applying that information." In much of remote sensing

46. Remote Sensing Techniques To Monitor Volcanoes Describes and illustrates the way in volcanoes are monitored by remote sensing technqiques, especially for tracking eruption clouds (ash clouds). http://volcanoes.usgs.gov/About/What/Monitor/RemoteSensing/RemoteSensing.html

Monitoring: Gas Ground Deformation Hydrologic Remote Sensing ... Seismicity Remote Sensing for Monitoring Volcanoes This composite satellite image shows the movement of an eruption cloud from Mount Spurr Volcano in Alaska (upper left). The cloud of volcanic ash and gas was erupted at about midnight local Alaska time on September 16, 1992, and was carried by strong winds eastward across Canada and the United States. This eruption cloud is noteworthy because it traveled as a coherent mass for 5 days after the eruption and disrupted commercial air traffic in Canada and the United States. Increasingly, satellites are being used by scientists around the world to track eruption clouds in near real time, especially from Alaskan volcanoes. Alaska daylight time equals GMT (Greenwich Mean Time) minus 8 hours. Satellites Complement Ground-Based Monitoring Methods The launch of new satellites each year and new developments in remote-sensing techniques have expanded the capability of scientists worldwide to monitor volcanoes using satellites. For the purpose of studying volcanoes, remote sensing is the detection by a satellite's sensors of electromagnetic energy that is absorbed, reflected, radiated, or scattered from the surface of a volcano or from its erupted material in an eruption cloud. A variety of sensors are used to measure wavelengths of energy that are beyond the range of human vision; for example ultra- violet, infrared, and microwave. The application of remote-sensing techniques for volcano monitoring is far from routine at volcano observatories and the techniques are not likely to replace conventional ground-based monitoring methods. For well-monitored volcanoes, satellite observations are complementary in nature and they can be extremely important for tracking eruption clouds. For many of the world's volcanoes that are either extremely remote or not monitored well, satellite observations of volcanic activity may be all that is available because of the extensive coverage they provide.

47. USGS Astrogeology: Remote Sensing Research Links to remote sensing Research web pages on the Astrogeology Research Program web sites. http://astrogeology.usgs.gov/Research/RemoteSensing/

Remote Sensing Research Mars' Northern Polar Cap Astrogeology Research Program New! Learn about our involvement in planning the mission and what we'll be doing in the months ahead as Cassini visits Saturn and its moons, and the Huygens Probe heads for the surface of Saturn's moon, Titan 2003 Mars Exploration Rovers : Our involvement in the MER 2003 mission payload, scientific investigations, and image processing Io's Aurorae : Images and observations about Cassini images of Io's visible aurorae during an eclipse Lunar Pyroclastic Volcanism Project : Study to learn more about pyroclastic volcanism on the Moon Global Land Ice Measurements from Space (GLIMS) : Using the World's Glaciers to Monitor Climate Change Workshop on Remote Sensing of Planetary Ices: Earth and other Solid Bodies - information and abstracts from the 1997 workshop held at the USGS Flagstaff Field Center Laboratory Spectroscopy of Dust Coatings and Shocked Minerals : Exploration of the laboratory thermal infrared and visible/near-infrared spectroscopy of palagonitic dust coatings on rock substrates and experimentally shocked pyroxene and Ca-rich plagioclase feldspar Other Web Sites NASA: Remote Sensing Data and Information WWW Virtual Library: Remote Sensing ... U.S. Department of the Interior

48. Intro And Subscriptions formerly Mapping Sciences remote sensing (ISSN 07493878) To subscribe to GIScience remote sensing (ISSN 1548-1603) please send a check or money http://www.bellpub.com/msrs/index.html

Home Contact Us Price List Get Acrobat ... (ISSN 0749-3878) Home Tables of Contents Contacts Editorial Board Information for Authors ... Related Links Intro and Subscriptions Editor-in-Chief John R. Jensen University of South Carolina Quarterly research journal devoted to publishing original, peer-reviewed articles associated with geographic information systems (GIS), cartography, remote sensing of the environment, geocomputation, and geographical and environmental modeling. Published since 1964. Subscription Information Pricing Individuals: $95 (U.S., Canada, and Mexico) Institutions: $571 (U.S., Canada, and Mexico) and $609 (elsewhere) Personal subscription rates apply only to individuals certifying that the journal is ordered for their personal use. A personal check must accompany such order. Library subscription rates apply to all institutions and organizations. A library order requesting shipment to individuals will be honored only if subscription at institutional rate is also received at such library. All prices include periodicals postage and complimentary online access. All subscription orders are payable in advance in U.S. dollars through a U.S. bank; credit cards are not currently accepted. All prices are subject to change without notice. Air-mail and back volume rates are quoted upon request. Click here or on the logo at the left to access the online edition.

49. Rutgers: CRSSA Facilities for remote sensing and geographic information systems teaching and research. http://www.crssa.rutgers.edu/

@import url("http://ruweb.rutgers.edu/css/ruweb2.css"); The Grant F. Walton Center for Remote Sensing and Spatial Analysis (CRSSA) is located in a dedicated two-story section of the Environmental and Natural Resource Sciences building on the Cook campus of Rutgers University in New Brunswick, New Jersey. CRSSA provides students, faculty, staff, and other researchers with state-of-the-art facilities for remote sensing and geographic information systems (GIS) teaching and research. In its 25th year, CRSSA continues to have an active research and development program advancing the application of geospatial technologies to land use planning, natural resource management, agriculture, and the environment. For questions or comments about this site, contact webboy@crssa.rutgers.edu Last Updated: CRSSA Projects Data/Resources Faculty/Staff ... Contact Us Featured Links More about CRSSA Spatial Dimensions of the American Revolution in New Jersey Riparian Zone Assessment final report available LiDAR Workshop '07 presentations available on-line ... Certificate Program

50. GIS And Remote Sensing For Archaeology: Burgundy, France-Introduction Detailed information regarding a multidisciplinary research project Applications of Geomatics for Long Term Regional Archaeological Settlement Pattern http://www.informatics.org/france/france.html

For over twenty years research has been conducted in the applications of remote sensing and GIS in the Burgundy region of France. This long term research project: "Applications of Geomatics for Long Term Regional Archaeological Settlement Pattern Analysis" is the work of Dr. Scott Madry of Informatics International, Inc . and the University of North Carolina at Chapel Hill Department of Anthropology (formerly of the Center for Remote Sensing and Spatial Analysis of Rutgers University and the International Space University of Strasbourg, France). This research program is one aspect of a larger on-going project in the study area that was originally conceived by Dr. Carole Crumley of the Department of Anthropology , University of North Carolina at Chapel Hill, who has conducted research in the area for over 20 years. It involves the assistance and collaboration of several different researchers, former students, and others from different institutions. An American interdisciplinary team has conducted research in the Arroux River Valley region of Burgundy France ) for over two decades. The team uses an integrative approach termed

51. OALS: Arizona Remote Sensing Center (ARSC) The Arizona remote sensing Center was established in 1972 through a $50000 NASA grant awarded to the Office of Arid Lands Studies (OALS) for the purpose of http://www.arid.arizona.edu/Divisions/division.asp?div=ARSC

52. Remote Sensing Dr. Nolan T. Atkins Lyndon State College Lyndonville, VT 05851 (802)626-6238 or atkinsn@mail.lsc.vsc.edu. Last update August 02, 2000 1632. http://apollo.lsc.vsc.edu/classes/remote/index.html

53. Hydrology And Remote Sensing The home page of the Hydrology and remote sensing Laboratory has changed. Please update your bookmarks to reflect this change. http://hydrolab.arsusda.gov/

The home page of the Hydrology and Remote Sensing Laboratory has changed. Please update your bookmarks to reflect this change. If you are not redirected to the new HRSL site in the next several seconds, please click http://www.ars.usda.gov/ba/anri/hrsl

54. USC Remote Sensing Welcome to the online remote sensing resources within the Center for GIS and remote sensing at University of South Carolina. Research http://www.cas.sc.edu/geog/rslab/

Welcome to the online remote sensing resources within the Center for GIS and Remote Sensing at University of South Carolina. Research NASA Affiliated Research Center NASA REASoN Project Current Course Pages GEOG 551: Principles of Remote Sensing GEOG 751: Digital Image Processing Techniques Educational Resources John R. Jensen's Textbook Materials Remote Sensing Core Curriculum Last updated: November 06, 2006 Send comments to imj@sc.edu

55. MIRSL Home Playing a leading role in developing unique microwave and millimeterwave sensors. Such sensors can observe the earth s surface through clouds and rain, http://mirsl.ecs.umass.edu/

The Microwave Remote Sensing Laboratory Department of Electrical and Computer Engineering University of Massachusetts Amherst Already registered? Login register login MIRSL Home ... Publications Welcome to MIRSL MIRSL AND MICROWAVE REMOTE SENSING an Introduction Tools for studying the environment have been with us for centuries, but only recently have technologies enabled scientists to study the environment on a global scale. Traditional sensors such as thermometers, anemometers, and rain gauges, do not provide a view of geophysical processes over large areas of the earth. Today, such views are obtained through microwave sensors mounted on aircraft, spacecraft, and satellites. MIRSL has been developing a wide range of microwave sensors to remotely sense many different kinds of geophysical processes. One example of MIRSL's ongoing research is their creation of microwave sensors to gather data on clouds. Atmospheric scientists are interested in clouds because they have a direct effect on earth's energy budget. Clouds reflect incident sunlight back into space, while at the same time forming a blanket over the earth below, restraining the rate of heat radiation from the earth. This results in the minimization of wide fluctuations in temperature on the earths' surface. Typical data that can be collected by millimeter-wave radar includes cloud dimensions and the freeze and melt regions within clouds. Most of MIRSL's millimeter-wave radars also

56. NASA Observatorium Education-History This Observatorium Exhibit gives some hallmarks in thehistory of remote sensing, which, when tied to human history, haveprofoundly changed the way we view http://observe.arc.nasa.gov/nasa/exhibits/history/history_0.html

Comments to: Observatorium Curator (curator@rspac.ivv.nasa.gov)

57. USGS TerraWeb Homepage Arid SemiArid Lands remote sensing techniques can be used to better understand the role of these fragile environments on a regional and global scale. http://terraweb.wr.usgs.gov/

T E R R A W E B Terrestrial Remote Sensing Flagstaff Field Center INFORMATION About Us Search Contact Us Site Map ... Other Resources WHAT'S NEW! 6/1/2001 - Coral Reefs: Remote Sensing Applications to Coral Reef Environments 2/21/2001 - Open Spaces: Studying Big Game Open Space Habitat Change ... Landsat TM Satellite Image Mosaic of the Southwestern U.S. and Capturing Dust Storms with Digital Cameras! Remotely sensed data help scientists and researchers map the seafloor, and learn more about our nation's coastal and marine habitats. Remote sensing techniques can be used to better understand the role of these fragile environments on a regional and global scale. Other Land Environments Digital image products for practical applications, such as resource evaluation and mapping, help generate information and data that can be used by various fields and disciplines for research, mapping, exploration, and education. Software Learn about the United States Geological Survey's MIPS Image Processing System, access online documentation and source code, and view image processing examples. JUST FOR KIDS!

58. Institute For Marine Remote Sensing (IMaRS) - Home Page Institute for Marine remote sensing (IMaRS), College of Marine Science, University of South Florida. http://imars.usf.edu/

Institute for Marine Remote Sensing (IMaRS) - University of South Florida IMaRS Home NEW! Education Sea Surface Temperature Imagery: Daily Composite Animations Modis Imagery: Modis Home SeaWiFS Imagery: (passwd protected) Daily Composite Animations Projects: Oceanic Atlas of the Gulf of Mexico Cariaco Millennium Corals Related Links ... Contact Us Imagery Sea Surface Temperature - Daily SeaWiFS - Daily MODIS The Institute for Marine Remote Sensing (IMaRS) of the College of Marine Science is located in the Knight Oceanographic Research Center (KORC) building at the University of South Florida (USF) in St. Petersburg, Florida. Our research activities focus on the analysis of digital data obtained by satellite and airborne sensors, and on the development of applications of these data at local, regional, and global scales. The main objective is to provide a better understanding of the world oceans on a large spatial and temporal scale. In situ optical and biological data are collected for ground truthing and to relate the apparent and inherent optical properties of water constituents with the remote sensors' signal. We specialize in coastal processes of highly variable regions like the Gulf of Mexico, the Caribbean Sea and Cuba using instruments such as AVHRR, CZCS, SeaWiFS, MODIS, and Landsat. We use other sensors such as altimeters and scatterometers to examine the physical environment in the adjacent deep ocean. IMaRS Home Knight Oceanographic Research Center Driving Directions University of South Florida College of Marine Science University of South Florida, College of Marine Science, Institute for Marine Remote Sensing (IMaRS)

59. Remote Sensing Institute At Michigan Tech The remote sensing Institute promotes research and education in imaging science, atmospheric science, data/signal processing, data visualization and remote http://www.rsi.mtu.edu/

About RSI RSI Members RSI Seminars RSI Projects ... RSI Charter The W3C World Wide Web Consortium has validated this as an interoperable Web page Email Webmaster ehgroth@mtu.edu January 16, 2007 The Remote Sensing Institute (RSI) promotes interdisciplinary research and education in remote sensing by bringing together individuals and groups from different departments and/or colleges Radarsat Image from Canadian Space Agency, Satellite Images from NOAA/Center for Coastal Monitoring and Assessment News RSI Seminars Fall 2007 Where Do RSI Funds Go? 2004-2005 Featured Projects ... College of Engineering Participating Departments Biological Sciences Chemistry Computer Science Civil and Environmental Engineering ... Physics RSI@Michigan Tech 1400 Townsend Drive Houghton, Michigan 49931

60. NWS JetStream - Introduction To The National Weather Service remote sensing is the science of obtaining information about a subject or object In the National Weather Service remote sensing equipment is used in the http://www.srh.noaa.gov/jetstream/remote/remote_intro.htm

Jump to main content weather.gov National Weather Service JetStream - Online School for Weather JetStream Home NWS Home Weather forecast by "City, St " or zip code Introduction Remote sensing is the science of obtaining information about a subject or object without actually being in contact with that subject or object. In the National Weather Service remote sensing equipment is used in the detection and measurement of weather phenomena with devices sensitive to electromagnetic energy such as... Light (satellite) Heat (infrared scanners on satellites) Radio Waves (doppler radar) Remote sensing provides a unique perspective from which to observe large regions. These sensors can measure energy at wavelengths which are beyond the range of human vision. In this section we will discover the various methods the National Weather Service uses to help us derive forecasts, weather watches, and warnings. Electromagnetic waves Electomagnetic waves are invisible forms of energy that travel though the universe. However, you can "see" some of the results of this energy. The light that our eyes can see is actually part of the electromagnetic spectrum. This visible part of the electromagnetic spectrum consists of the colors that we see in a rainbow - from reds and oranges, through blues and purples. Each of these colors actually corresponds to a different wavelength of light. The sound we hear is a result of waves which we cannot see. Sound waves need something to travel through in order for it to move from one place to the next. Sound can travel through air because air is made of molecules. These molecules carry the sound waves by bumping into each other, like dominoes knocking each other over. Sound can travel through anything made of molecules - even water! There is no sound in space because there are no molecules there to transmit the sound waves.

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