0 IOCCG 2003 Yongseung Kim Remote Sensing Department Korea Aerospace Research Institute High Resolution Visible and IR Sensors (HiRVIS) on Geostationary.

Slides:



Advertisements
Similar presentations
Environmental Application of Remote Sensing: CE 6900 Tennessee Technological University Department of Civil and Environmental Engineering Course Instructor:
Advertisements

NOAA National Geophysical Data Center
GMES Marine Service MY OCEAN 5th GEO European projects Workshop Frédéric ADRAGNA MyOcean Project Manager London – 8/9 February 2011.
Marine and Coastal Studies MR1510 The Role of Geospatial Technologies in Coastal and Marine Applications.
Marine and Coastal Studies MR1510 The Role of Geospatial Technologies in Coastal and Marine Applications.
GOFC/GOLD - Fire Requirements for Fire Observations.
Lightning Imager and its Level 2 products Jochen Grandell Remote Sensing and Products Division.
Meteorological Service of Canada – Update Meteorological Service of Canada – Update NOAA Satellite Proving Ground/User-Readiness June 2, 2014 David Bradley.
Ecology, Climate, Physical Oceanography. Bering Sea, Alaska SeaWifs Image (Norman Kuring image, NASA, April 25, 1998) Turquoise = phytoplankton bloom.
Some Basic Concepts of Remote Sensing
Detector Configurations Used for Panchromatic, Multispectral and Hyperspectral Remote Sensing Jensen, 2000.
Introduction, Satellite Imaging. Platforms Used to Acquire Remote Sensing Data Aircraft Low, medium & high altitude Higher level of spatial detail Satellite.
IOOS Application to Harmful Algal Blooms and Ecosystem Health Monitoring Josh Kohut Rutgers University, Institute of Marine & Coastal Science Bob Connell.
Institute of remote sensing applications, CAS China Earth Observation Satellite Program Dr. Yuan Zeng Institute of Remote Sensing Applications,
Meteorological satellites – National Oceanographic and Atmospheric Administration (NOAA)-Polar Orbiting Environmental Satellite (POES) Orbital characteristics.
Use of Remote Sensing for Routine Coastal Water Monitoring by a State Agency Bob Connell New Jersey Department of Environmental Protection Bureau of Marine.
Satellite basics Estelle de Coning South African Weather Service
Presentation to the 26 th CEOS Plenary at Bengaluru, India October, 2012 Recent Development of EO Satellite in Vietnam Assoc. Prof. Dr. Pham Anh.
Remote Sensing & Geodesy. What is remote sensing? History of satellite remote sensing Satellite orbits Geophysical Examples: Multispectral, GPS, Radar/INSAR,
1 KARI Proprietary Material COMS-1 Program, Introduction to COMS Development Plan COMS Program Office Korea Aerospace Research Institute.
Satellite Imagery and Remote Sensing NC Climate Fellows June 2012 DeeDee Whitaker SW Guilford High Earth/Environmental Science & Chemistry.
Km’s; hours to weeks 100-km; years 1000-km, decades Two-Way Interactions Global ocean and climate dynamics strongly influence processes at local scales.
Coastal Water Quality Remote Sensing Welcome Dr. Jeff Payne Deputy Director NOAA Coastal Services Center October 7, 2003.
Real-Time Coastal Ocean Data Products for Tampa Bay, West Florida, and the Southeast US Mark E. Luther College of Marine Science University of South Florida.
10/12/2015 GEM Lecture 10 Content Other Satellites.
Christine Urbanowicz Prepared for NC Climate Fellows Workshop June 21, 2011.
PLANS FOR RUSSIA’s GEOSTATIONARY SATELLITE PROGRAM: GOMS/ELECTRO #2 RUSSIAN FEDERAL SERVICE for HIDROMETEOROLOGY & ENVIRONMENTAL MONITORING SRC PLANETA.
The Future of NOAA Coastal and Ocean Services in the GOES-R Era Mary Culver NOAA Coastal Services Center.
Landsat Studying the Earth from Space Ratko Jagodic University of Illinois at Chicago.
1 Applications of Remote Sensing: SeaWiFS and MODIS Ocean Color Outline  Physical principles behind the remote sensing of ocean color parameters  Satellite.
Translation to the New TCO Panel Beverly Law Prof. Global Change Forest Science Science Chair, AmeriFlux Network Oregon State University.
1 MACOORA ANNUAL MEETING November GROWING A NATIONAL NETWORK OF REGIONAL SYSTEMS.
GIFTS - The Precursor Geostationary Satellite Component of a Future Earth Observing System GIFTS - The Precursor Geostationary Satellite Component of a.
EG2234: Earth Observation Introduction to RS Dr Mark Cresswell.
Imagery.
Future Satellite Capabilities for Air Quality Applications Future Satellite Capabilities for Air Quality Applications ARSET - AQ Applied Remote SEnsing.
Satellite Imagery and Remote Sensing DeeDee Whitaker SW Guilford High EES & Chemistry
AWIPS-2 HF Radar Sea-Surface Current Product By Ross Van Til Contributions by: Nicole Kurkowski, OS&T Dr. Pablo Santos, WFO Miami Dr. Jack Harlan, NOAA.
Breakout Session IV: Applying Remote Sensing Observations to Impacts Assessment Background (1) The IPCC WG 2 Report (2008) “Climate Change Impacts, Adaptation.
Improvements of the Geostationary Operational Environmental Satellites (GOES)-R series for Climate Applications GOES-R data and products will support applications.
Remote Sensing SPOT and Other Moderate Resolution Satellite Systems
S.A.T.E.L.L.I.T.E.S. Project Students And Teachers Evaluating Local Landscapes to Interpret The Earth from Space Cloud Frog picture, research project name,
Science Questions Societal Relevance Observational Requirements Observational Strategies Satellite Missions Scientific Basis for NASA OBB Mission Planning.
NASA/NOAA/Navy/Forest Service/USDA Cooperative Mission for DEEP Instrument DEEP: Diurnal Earth Explorer Probe NASA: Instrument, Enhanced Telemetry, Data.
Satellites enabling the Global Earth Observation System of Systems (GEOSS) Michael Inggs, Department of Electrical Engineering, University of Cape Town,
EG5503: GIS & Earth Observation Introduction to RS Dr Mark Cresswell.
RMIB involvement in the Geostationary Earth Radiation Budget (GERB) and Climate Monitoring SAF projects Nicolas Clerbaux Remote sensing from Space Division.
RSSJ.
Satellite Oceanography Modified from a Presentation at STAO 2003 By Dr. Michael J. Passow.
State Agency Needs for Remote Sensing Data Related to Water Quality By Bob Van Dolah Marine Resources Research Institute South Carolina Department of Natural.
1 Recommendations from the 2 nd GOES-R Users’ Conference: Jim Gurka Tim Schmit NOAA/ NESDIS Dick Reynolds Short and Associates.
Violet:  m Blue:  m Green:  m Yellow:  m Orange:  m Red:
Science Enabled by New Hyperspectral Observations Related to Physiology and Functional Types (HyspIRI) Dar Roberts, Frank Muller-Karger Reiterate Break.
An Overview of Satellite Rainfall Estimation for Flash Flood Monitoring Timothy Love NOAA Climate Prediction Center with USAID- FEWS-NET, MFEWS, AFN Presented.
Marine Sciences Oceanography Marine Biology Geosciences Using the sciences and technology to solve problems and answer questions related to oceans, coasts.
KMA Proprietary Material 4 th GOES-R Users’ Conference 1 Introduction to Communication, Ocean & Meteorological Satellite Hee-Hoon Lee Korea Meteorological.
NOAA and HF Radar FY05 and Beyond Jack Harlan National Ocean Service Center for Operational Oceanographic Products and Services SCCOOS Meeting 18 October.
Assessment on Phytoplankton Quantity in Coastal Area by Using Remote Sensing Data RI Songgun Marine Environment Monitoring and Forecasting Division State.
Satellite Imagery and Remote Sensing DeeDee Whitaker SW Guilford High EES & Chemistry
Orbits and Sensors Multispectral Sensors. Satellite Orbits Orbital parameters can be tuned to produce particular, useful orbits Geostationary Sun synchronous.
EO Information Model Overview Concepts and Relations
Hyperspectral Sensing – Imaging Spectroscopy
Basic Concepts of Remote Sensing
EG2234 Earth Observation Weather Forecasting.
Meteosat Second Generation
Introduction to Remote-Sensing
IKONOS ~Derived from the Greek term eikōn, meaning image~
Tracking the Blue Whales Using ocean color satellite
Space and time scales in satellite oceanography
OCR-VC Paul DiGiacomo, NOAA, on behalf of Ewa Kwiatkowska, EUMETSAT
Presentation transcript:

0 IOCCG 2003 Yongseung Kim Remote Sensing Department Korea Aerospace Research Institute High Resolution Visible and IR Sensors (HiRVIS) on Geostationary Satellite

1 IOCCG 2003  Meteorological satellite  High Resolution Visible & IR sensor (tentatively, HiRVIS) for ocean observation  Communication satellite Mission Concepts

2 IOCCG 2003  Detecting, monitoring, predicting short-term marine natural hazards - toxic algal blooms, turbid water, low saline water, cold water, warm waste water/atomic power plant, dumping site monitoring, oil spill.  Marine ecosystem monitoring  Coastal resource management  Providing marine fishery information for fisherman HiRVIS’ Mission Goals

3 IOCCG 2003  Orbit : Geostationary satellite (launch in 2008)  Spatial resolution : 250m x 250m  Field of view : > 500km Frame transfer CCD array : 2000 x 2000  Spectral coverage : 0.4  m - 12  m  Number of spectral bands : 11 (Visible-NIR; 8, IR; 3)  Data download : < 15min  Digitization : 12 bit Requirements

4 IOCCG 2003 Coverage (global mode, 12,000km x 12,000km)

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com. Inc. All rights reserved.