Ikonos 2 swath. Swath width for Ikonos is 11.

Ikonos 2 swath CORONA - IKONOS-2, historical and recent very high resolution satellite data for change 129 detection applications good base- to-height ratio are not guaranteed by the GeoEye Inc. </p> Plangraphics is a reseller of Space Imaging’s IKONOS imagery. Compared IKONOS-2 was the world’s first commercial satellite to collect panchromatic images with 80 cm resolution and multispectral imagery with 3. 2 km at nadir Capacity: 680,000 km 2 per day Stereo Collection: Yes. ikonos, GeoEye 1, worldview-1, worldview-2. Mission Life. The GIS and remote sensing fields saw a paradigm shift with the launch of the Ikonos satellite where its multispectral capabilities, Swath Width: The satellite covered a swath width of 11. 1. In nadir swath: 11. ESA's Heritage Space Programme preserves historical data GSD: 0. . </p> WorldView-2 Satellite Sensor (0. IMAGE SIMULATION OF IKONOS IMAGERY The IKONOS Satellite is a typical representative of the linear stereo imaging systems. 4 minutes Semi major axis: 6963 km RCS: 4. 1 80 185 Question 42 (2 points) Listen The ground resolution of IKONOS panchromatic image at Nadir is 3. Its capabilities include capturing a 3. 7m 7 km Pan KOMPSAT-2 2006 685 km 1m 15km Pan, 4ms Resurs DK 1 2006 330-585 km 1m at 350km 30 km Pan, 3ms WorldView-1 2007 494 km 0. 5) /10 60 +/-27° across 830 IKONOS-2 was a three-axis stabilised spacecraft, using the LM900 satellite bus system (also referred to as Block-1). Swath width (at nadir) CartoSat-2A is a follow-up optical imaging mission of CartoSat-2 (launch Jan. In the center of the storm’s path was Enterprise High Discover the ALOS-2 (Daichi) satellite mission and its advanced SAR capabilities for Earth observation and disaster monitoring. EOMOnline sells several imagery such as Landsat 5, IRS Imagery and Landsat 7. 8 kilometers (4. QuickBird-2 was an Earth-imaging satellite of DigitalGlobe Inc. 5 m pixel size and have repeat Launch Pan. A pioneer in earth-observation satellites, IKONOS was the first to collect publicly available high-resolution imagery at 1-(panchromatic) and 4-(multispectral) meter resolution. 62 m in panchromatic mode (Kramer, 2002). 3 free 680 EROS A ImageSat Int. 3 km at nadir ensuring wide coverage in a single pass and reducing the need for multiple satellite passes to map extensive regions. 3 kilometers at nadir 13. 6 meter to 1. 2m multispectral, Near-Infrared (NIR) /0. The satellite images the ground with 12 Swath width (km) 11 Table 1. , that provides high spatial resolution imagery of the Earth’s surface for commercial purposes. Accuracy with out ground control is 12 m horizontally, and 10 m vertically; with ground control it is 2 m horizontally, and 3 m vertically. The WorldView-2 sensor provides a high-resolution panchromatic band and eight (8) multispectral bands; four (4) standard colors (red, green, blue, and near-infrared 1) and four (4) new bands IKONOS imaged the city on September 2, 2005, demonstrating the widespread flooding. 0. 31 1. Swath Width: 13. 2 meter resolution. 3 kilometers at nadir; 13. of 10 km. 9 km Apogee: 596. Image Swath: 11. 3km pointing in track: +/-52°, across track +/-52° 680km flying height, sun-synchr. 2 ° Period: 96. Its capabilities include capturing a 0. 5′ quad DEM. Download icons in all formats or edit them for your designs. 0 meter (3. 5 years. IKONOS Satellit e was launched in September 1999. 46m panchromatic (B&W) mono and stereo satellite image data. [4]The company was founded in 1992 as a division of Orbital Sciences Corporation in the wake of the 1992 Land Remote Sensing Policy Act The first two (2) SuperView Neo Satellites were launched on April 29, 2022, from the Jiuquan Satellite Launch Center, People’s Republic of China, as part of an 28 satellite constellation. </p> With IKONOS, a new era of 1m spatial resolution imagery began for spaceborne instruments in the field of civil Earth observation. 5 3–7 QuickBird 2 2001 0. OrbView-2 (formerly SeaStar) Last updated: Jun 11, 2012. Imagery from the panchromatic and multispectral sensors can be merged to create . AWiFS covers a 740-km orbital swath at a resolution of 56 meters with a 5-day repeat cycle. Ikonos-2 was built in parallel with and as an identical twin to Ikonos-1, however failure to launch Ikonos-1 led to the renaming of Ikonos-2 to Ikonos following its launch. February 15, 2017 . 83 by 1. 6 free 600 QuickBird 2 DigitalGlobe 2001 pan / 4ms 0. 35% F. 4 agile identical satellites in constellation Launch date: April 28, 2021 Orbit altitude: 620 km GSD: 0. 82m 11. ALOS-2 maintains a sun-synchronous orbit with an inclination of 97. Thornton and named IKONOS-2 (Kramer, 2002). van der Sande et al. Search. 5 km (450 km altitude), 2. IKONOS, the world’s first high-resolution commercial color imaging satellite, Swath Width. Off-Nadir Imaging. 8m panchromatic and 3. Both roll tilt and pitch tilt is employed. Space Imaging was ORBIMAGE to DIGITALGLOBE CONSTELLATION » IKONOS DS-IKONOS 06/13 Design and specifications Launch information Date: September 24, 1999 Launch vehicle: Athena 2 Launch site: Vandenberg Air Force Base, California Mission life 12+ years Spacecraft size 1. working from swath, multibeam or side-scanning sonars (Hamilton, IKONOS-2 11-bit multispectral satellite image of 4-m pixel. The spacecraft body was a hexagonal design of 1. 82m panchr. 42-0. The attitude was measured by two star trackers and a Sun sensor and The IKONOS satellite simultaneously collects 1-m panchromatic and 4-m multispectral images, providing the commercial and scientific community with a dramatic improvement in spatial resolution over previously available satellite imagery. 28 11. Published March 7, 2008 Summit Close Ups of Two African Volcanoes. 12o: Camera: Pushbroom array (11 bit pixels) Pushbroom arrays (11 bits x 4) Detector Array: 27,000 pixels: 6,700 pixels x 4: At the time of its launch, IKONOS-2 brought imagery rivalling that of military satellites to the commercial market. Acoustic ground discrimination can be based exclusively on backscatter working from swath, multibeam or side-scanning sonars (Hamilton, The image-base underlying our research consisted of an IKONOS-2 11-bit multispectral satellite image of 4-m pixel resolution in the red, green and blue bands and 1-m resolution in the QuickBird II (also QuickBird-2 or Quickbird 2, QB-2, COSPAR 2001-047A) or as it was later known, simply QuickBird, was launched for DigitalGlobe October 18, 2001 from the Vandenberg Air Force Base, California, aboard a Boeing Delta II rocket. 2m multispectral, Near-Infrared (NIR) imagery. Benefits. 60 0. 2 meters (10. 61 / 2. 2 m multispectral at nadir High geolocational accuracy Stable platform for precise location measurement Fast large area collection - 11. ASTER has 14 bands of information. 2 m for its 4 multispectral bands. working from swath, multibeam or side-scanning sonars (Hamilton, 2001; Lyons & Anderson, 1994; Preston et al. in nadir swath: 11. It is the successor to Ikonos spacecraft 2 carries a 1-meter resolution black-and-white camera and a 4-meter resolution color camera, with a 13 km swath width. Four reaction wheels stabilized the spacecraft's altitude, which was measured by two star trackers and a Sun sensor. Sensor Specifications. solar time Revisit Time Approximately 3 days at 40° latitude The IKONOS-2-derived land cover map was used as input for the flood simulation model LISFLOOD-FP to produce a Manning roughness factor map of inundated areas. Technical specifications of IKONOS used for the experiment It is necessary to select an area within the established test field in which the aerial A comparative analysis of high spatial resolution IKONOS and WorldView-2 imagery for mapping urban tree species. 44 Swath width (at nadir) IKONOS-2 was the world’s first commercial satellite to collect panchromatic images with 80 cm resolution and multispectral imagery with 3. 44 16. 82 m panchromatic resolution at nadir and 3. 3 km imaging swath width High collection capacity Captures up to 240,000 sq km per day Acquire high quality satellite imagery At the time of its launch, IKONOS-2 brought imagery rivalling that of military satellites to the commercial market. 3 km at Nadir Scene: 11km X 11km Repeat Cycle: 1. 2. 2° COSPAR ID . IKONOS best DEM is specified at 3-m LE90. IKONOS Stability better than 1% per Year. 82 /3. Orbital position information was provided by a GPS receiver. / Remote Sensing of Environment 88 (2003) 23–36 The nadir swath will be increased from 11 to 15 km. 5 feet) multispectral 26° Off-Nadir 1. 0 At the time of its launch, IKONOS-2 brought imagery rivalling that of military satellites to the commercial market. In this study, we explored the potential of the newly developed high resolution satellite sensor, WorldView-2 (WV2) imagery for identifying and mapping urban tree species/groups in the City of Tampa, FL, USA by comparing capabilities between high resolution IKONOS (IKO, ESA maintains an archive of IKONOS Geo Ortho Kit data previously requested through the TPM scheme and acquired between 2000 and 2008, over Europe, North Africa and the Middle East. Optical system parameters. It is part of ESA's Third Party Missions Programme, in which ESA has an agreement with DigitalGlobe Ikonos-2 carried the Optical Sensor Assembly (OSA) instrument, which had four multispectral bands and one panchromatic band offering simultaneous imaging in both panchromatic and multispectral modes. m. 2 m MS Swath width: 15 km. These satellites can also provide multi-spectral imagery using individual bands in the visible (blue, green, red) and near infrared wavelengths to provide true color and infrared imagery. Track IKONOS 2 now! 10-day predictions IKONOS 2 is classified as: Earth resources. WorldView-1 was the successor of QuickBird-2 and was launched from DigitalGlobe in 2007. 3 km at nadir. 7 feet) panchromatic 3. 1 feet) multispectral Get free Two color icons in iOS, Material, Windows and other design styles for web, mobile, and graphic design projects. which launched in 1999 and ceased operations in 2015. (m) VNIR (m) SWIR & Spectral Swath Repeat thermal (m) bands size(Km) Time (days) IKONOS 2 1999 1 4 4 11 3–5 Terra (ASTER) 1999 15 30, 90 14 60 16 Terra (MODIS) 1999 The swath width of 13. launched QuickBird-2 satellite that acquires images with spatial resolution of 0. The LM900 spacecraft design was based on the CRSS imaging bus. In the center of the storm’s path was Enterprise High The IKONOS satellite was launched on 24 September 1999 from the Vandenberg Air Force Base in California. Swath width (at nadir) Спутник Ikonos запущен 24 сентября 1999 году. 5 m GSD. NORAD ID: 25919 Int'l Code: 1999-051A Perigee: 587. To do this requires that the sensor collect images at extreme angles off nadir. IKONOS Orbit Swath Width: 11 km nominal at nadir: IKONOS is a commercial satellite launched in 1999 by Space Imaging, providing high-resolution data used for various applications such as monitoring wildfires, studying coral reef health, and planning city growth. IKONOS 2. The satellite was built, launched and maintained by the Indian Space Research Organisation (ISRO). Swath width is 16. 8 kilometers at 26° off-nadir: Equator Crossing Time: Nominally 10:30 AM solar time: Revisit Time: DIGITALGLOBE CONSTELLATION » IKONOS DS-IKONOS 06/13 Design and specifications Launch information Date: September 24, 1999 Launch vehicle: Athena 2 Launch site: Vandenberg Air Force Base, California Mission life 12+ years Spacecraft size 1. High collection capacity - Captured up to 240,000 sq km per day. These free images are pixel perfect to fit your design and available in both PNG and vector. 63-069 0. [21] More information Band, 0. Images from IKONOS are some of the IKONOS-2 satellite sensor, operated by Maxar, was the first sub-meter commercial earth imaging satellite. 90 Pan 1 1 IKONOS 12. Dynamic Range. Swath width for Ikonos is 11. Alchetron . Discover the vessel's particulars, including capacity, machinery, photos and ownership. Launch: A launch of Landsat-7 took place on a Delta 2 vehicle from VAFB, CA on April 15, 1999. 2000 pan 1. At the time of its launch, IKONOS-2 brought imagery rivalling that of military satellites to the commercial market. 5 4 16. Gross mass: 726 kg (1,600 lb). 82 m panchromatic at nadir 3. SATCAT no. 1 km Other Sensors • Fine-resolution satellite systems – IKONOS (1m – pan; 4m – MS) Cartosat-2 was an Earth observation satellite in a Sun-synchronous orbit and the second of the Cartosat series of satellites. 5 days at 1. The multispectral images consist of four bands in the blue, green, red and Swath width for Ikonos is 11. IKONOS panchromatic Sensor resolution is 1 m, and multispectral scanner resolution is 4 m. EO | Ocean colour Launched by Space Imaging in 1999, Ikonos-2 was the world’s first commercial high-resolution imaging satellite. Image footprint or swath width. 2000. 45m 17. With IKONOS, a new era of 1m spatial resolution imagery began for spaceborne instruments in the field of civil Earth observation. (formerly Orbital Imaging Corporation, or ORBIMAGE) was an American commercial satellite imagery company based in Herndon, Virginia. Return interval. Like. For IKONOS GEOMETRIC ACCURACY J. 52-0. Swath width 11 km. 3 m Location accuracy: <5m CE90 at nadir Swath width: 14 km. 1999 Ikonos MS 4 0. 4km. swath [km] pointing height [km] IKONOS 2 Space Imaging 1999 pan / 4ms 0. , 29 1999 sensor: Kodak linear array pixel size: 0. IKONOS Satellite is a high-resolution satellite and has the capabilities of capturing 0. At 40 degrees latitude the revisit time is 2. 8 cm diameter. 3 km imaging swath width. 25919. An important application of DEM is to correct imagery for terrain displacement during orthorectification. 2 km at nadir Capacity: 680,000 km – 15. 61<br>2. Bus With both QuickBird and IKONOS decommissioned in 2015, the decision was made to remove GeoEye-2 (renamed to WorldView-4) from storage and launch the satellite on November 11, 2016. Currently, spaceborne satellites such as IKONOS 2, EROS, QuickBird 2, SPOT 5, and OrbView 3 can provide panchromatic imagery with 0. Ikonos. g. 6 3 2. Inclination . Orbit: Sun-synchronous polar orbit (AM orbit), altitude = 705 km, inclination = 98. 2m multispectral bands on a swath of 45 km. The swath a of size about At the time of its launch, IKONOS-2 brought imagery rivalling that of military satellites to the commercial market. 2 m Question: Question 41 (2 points) Listen The swath width of WorldView-4 Satellite image is (in KM) 13. IKONOS is used to study land use types. 2º, period = 99 minutes, repeat coverage = 16 days, the nominal descending equator crossing IKONOS, QuickBird, OrbView, CARTOSAT-1, ALOS PRISM, SPOT5 HRS, ASTER are main along-track stereo cartographic applications satellites. 2 Swath width (at nadir) 11 km: The IKONOS satellite is the world’s first commercial satellite to collect panchromatic (black-and-white) images with 0,80 m resolution and multispectral imagery with 3,2-meter resolution. Pleiades Neo. Earth observation. To learn more about how Maxar supports first responders in dozens of post disaster events annually, check out our Open Satellite Mission - OrbView-2 (formerly SeaStar) eoPortal. Swath nadir Pan/ms channels IKONOS 2 1999 681 km 0. 82 m Multispectral: 3. 10, 2007), representing India's first dedicated military satellite (funding by the Ministry of Defense of the Government of India). Spectral range of blue band is 455-520 µm, green band is 510-600 µm, red band is 630-700 µm, NIR band 1 Comparison of Performance of Various Image Fusion Techniques using IKONOS-2 Data is 760-850 µm and, PAN band is 760-850 µm. Timeline to over 40 years of historical satellite missions. Design life. The instrument also had pushbroom detector technology that generated 6 IKONOS was a three-axis stabilized spacecraft designed by Lockheed Martin Space Systems. 3meter, the resolution of SPOT5 HRS, ASTER is 10 to 15 meter. It was decommissioned in March 2015 ending a 15 year mission life. IKONOS. All launch events occurred as planned resulting in the placement of the IKONOS satellite into an extremely accurate orbit. 00 0. 1 1. It was launched by the Polar Satellite Launch Vehicle PSLV C7 launch ESA maintains an archive of IKONOS Geo Ortho Kit data previously requested through the TPM scheme and acquired between 2000 and 2008, over Europe, North Africa and the Middle East. 8 12. Nominal swath width at 1 m GSD is 13 km. to 10. IKONOS-2 was an Earth-imaging satellite of DigitalGlobe Inc. , formed by a merger between MDA (MacDonald Dettwiler and Associates) Holdings Company, and DigitalGlobe Inc. J. 80 m color imagery (pan-sharpened). When launched in 2001, it was then the highest resolution commercial satellite. Dark Response Calibration (Images Taken with Door Closed) Number: 2 . Keywords: CORONA, IKONOS-2, photogrammetry, change detection, very high resolution ABSTRACT: The monitoring and explanation of changes is a very basic topic in environmental studies. Sensor characteristics. Namun, Ikonos-1 gagal diluncurkan dan digantikan Ikonos-2, 1999. 5 - 3 days, near polar, IKONOS 2 1999 1 4 4 11 3–5 Terra (ASTER) 1999 15 30, 90 14 60 16 Terra (MODIS) 1999 250 500,1000 36 2300 1–2 EROS A 2000 1. S. Vessel MCS SWATH 2 is a Offshore Supply Ship, Registered in United Kingdom. [4] The satellite was initially expected to collect at 1 meter resolution but after a license was granted in 2000 by the U. IKONOS-2 was the world’s first commercial satellite to collect panchromatic images with 80 The IKONOS Satellite is a highresolution satellite operated by GeoEye. One can imagine a number of disincentives for SI to promote the use of Geo imagery for higher accuracy applications. SWIR (ShortWave Infrared), a single fixed aspheric refracting telescope. WV-3 has a predicted absolute geolocation accuracy of less than 3. 6 15. 57 m (hexagonal configuration) Spatial resolution Panchromatic: 0. Featured. 80 m resolution and multispectral (color) imagery with 3. The imagery products gathered from IKONOS are categorised according to positional accuracy, which is determined by the reliability of an object in the image to be within the specified QuickBird-2 collected high-resolution commercial-focused imagery and was a source of BHRC 60 offered a ground swath of 15 km at 400 km orbital altitude or 34 km at (Digital Processing Unit), with FPU and DPU designed and custom-built by Kodak (same, except for size, as that used on IKONOS). 2 Swath width (at nadir) 11 km: Table 2 IKONOS SNR and MTF measurements Band SNR Nyquist MTF Pan Blue Green Red NIR 89 94 143 103 67 17% 26% 28% 29% 28% 26 G. Since the launch of Ikonos by Space Imaging, LLC on 24 September 1999, the very high resolution (VHR) satellite imagery has been IKONOS The IKONOS satellite is the world’s first commercial satellite to collect panchromatic (black-and-white) images with . 5 3 Spot 5 2002 2. Spotlight mode provides a resolution of 1 m x 3 m for a swath of 25 km x 25 km. It carried a 1-m resolution panchromatic camera and a 4-m resolution color imager, with a 13 km swath width. Ikonos-2 was scheduled for launch in 2000, but was renamed Ikonos and was on 24 September 1999 by Space Launch Complex 6 sun-synchronous 681-kilometer orbit and the two sensors have a swath width of 11 km. Launched by Space Imaging in 1999, Ikonos-2 was the world’s first commercial high-resolution imaging satellite. Dial Space Imaging 12076 Grant Street, Thornton, CO 80241, U. B4). PSLV- C37 . After this stage, the concept was followed by Lockheed Martin and Raytheon. One meter imagery enables more accurate viewing and mapping of houses, automobiles and aircraft, and makes it possible to create precise digital products. 12. Satellite Missions Catalogue. 0 by 5. AI generated definition based on: 60×110 km swath; 2. 1 km at nadir coupled with very high scan acquisition rate (20,000 lines/second) for panchromatic WV-2 WV-1 GeoEye-1 Ikonos Quick Bird GSD (cm) 31 46 50 41 82 61 Swath Width (km) 16. Swath width. IKONOS is operated by the company GeoEye, whose fleet of satellites also includes the OrbView and GeoEye series of satellites. 3. Four meter multispectral imagery provides The ASTER instrument consists of three separate instrument subsystems: VNIR (Visible Near Infrared), a backward looking telescope which is only used to acquire a stereo pair image. Get the details of the current Voyage of MCS SWATH 2 including At the time of its launch, IKONOS-2 brought imagery rivalling that of military satellites to the commercial market. BHRC 60 has a However, IKONOS-1 didn’t succeed in even making it to space. E. Figure 4: A newly generated Landsat-1/ERTS spacecraft (image credit: The Aerospace Corporation) 9) Launch. IKONOS is the first of the next generation of high spatial resolution satellites. Dari keempat perusahaan, Space Imaging yang paling cepat meluncurkan satelit Ikonos serta memasarkan datanya. 5 Bands Pan Pan 8MS Pan8SWIR Pan Figure 3: Artist's view of the Landsat-7 satellite (image credit: NASA, USGS) Launch. 2. Built on an LM-900 bus. The spacecraft was built by Lockheed Martin/Sunnyvale using the LM900 bus and carries 6 MR-103G 0. 11 bit per pixel. 0meter, the resolution of CARTOSAT-1 and ALOS PRISM is 2. Listen to the post-launch news 6. The basis for this scheme was adapted from the land use classification system of the ‘United States Geological Service (USGS) land use and land cover classification system for use with remotely sensed data’ proposed by Anderson et al. The satellite itself was Urban forest tree species mapping has benefitted from advances in remote sensing techniques. Satellite Missions. Regions wider than this will need to be collected in successive swaths. 8<br>3. 9° at an altitude of 628 km and a period of 97 Of bands Spectral range Resolution Swath (km) Revisit DAYS IKONOS 2 24 sept. The revisit times OrbView-3 collected one meter panchromatic (black and white) or four meter multispectral (color) imagery at a swath width of 8 km for both sensors. Worldview 2 has a swath width of 16. 2012, Remote Sensing of Environment. 4 17. Up to 60 degrees Higher angles selectively available. 5 m. 3 km (7 mi). Launch date . IKONOS-2 was the world’s first commercial satellite to collect panchromatic images with 80 cm resolution and multispectral imagery with 3. Karakteristik Satelit IKONOS Sistem IKONOS Orbit 680 km, 98,1o, sun-synchronous, 10:30 AM Crossing, Rotasi 14,7 every 24 hours Sensor Optical Sensor Assembly (OSA) Swath Width 11,3 kilometers at nadir; 13,8 kilometers at 26° off-nadir Dynamic Range 11-bits per pixel Revisit Time Approximately 3 days at 40° latitude Resolusi spasial 1 m Lengths or areas (depending on feature geometry) of these objects computed from OrbView-3 and IKONOS images were compared with the values of the Table 6 Comparison of areas and lengths of selected features Feature Geometry The IKONOS-2 images (PAN and MSI GEO products) over an area around the town of Zug, Central Switzerland were ordered for the period of 25. 83 m × 1. ESA's Heritage Space Programme preserves historical data Three data sets acquired from IKONOS and Worldview-2 and 11 benchmark pansharpening algorithms were used to provide a comprehensive assessment of the proposed OATPRK and a swath width of 60 km. Published December 11, 2007. IKONOS The IKONOS satellite is the world’s first commercial satellite to collect panchromatic (black-and-white) images with . Each spectral band has 12K element linear CCDs, each having a pixel size of 7µm x 7µm. The IKONOS project was managed by IKONOS simultaneously collects one-meter resolution black-and-white (panchromatic) images and four-meter resolution color (multispectral) images. IKONOS Satellites and Their Specification The IKONOS Satellite is a high-resolution satellite operated by GeoEye. TIR(Thermal Infrared). , in a table) Image footprint or swath width. It has both MX Mode (1/3rd swath) and Mono Mode (full swath) of operation as in Resourcesat-1. 6 MR-103G 0. 5 m pixel size and have repeat times of 3 to 14 days. The LISS-3 sensor covers a 140-km orbital swath at a spatial resolution of 24 meters with a 24-day repeat cycle. With the development of high The swath width of 13. 80m panchromatic and 3. Thus, several smaller images will need to be combined to get a seamless image for the larger area. This pair of high-resolution images from the commercial Ikonos satellite shows the craters of Nyamuragira and Nyiragongo, both of which are located at the far eastern edge of Democratic Republic of Congo, north of Lake Kivu. Swath Width, FOV: 16. Launch Vehicle . 2 ft) an IKONOS-2 was the first satellite to collect publicly-available high-resolution imagery at 1- and 4-metre resolution. 5 10 20 5 60 5–26 Aqua (MODIS) 2002 250 500,1000 36 2300 1–2 OrbView 3 2003 1 4 4 8 3 FORMOSAT 2 2004 2 8 4 24 14 ALOS 2006 2. IKONOS Information Sensor Type: Multispectral Visible, Near IR and Panchromatic Visible, Near IR Data Available: Jan 1, 2000 to present Data Formats: CD,DVD, Orbital and Swath Information Orbit Altitude: 681km Swath Width: 11. Ikonos-2 was decommissioned in March 2015, ending a 15-year mission life. 70 Km swath coverage for MX which uses onboard SSR is also designed for Resourcesat-2. Kelahiran satelit inderaja resolusi tinggi (lebih halus dari 10 meter) untuk keperluan sipil sebenarnya dipicu oleh kebijakan pascaperang dingin, bukan teknologi. It acquires panchromatic image with spatial resolution of 0. It is part of ESA's Third Party Missions Programme, in which ESA has an agreement with DigitalGlobe to distribute data products from the Launched by Space Imaging in 1999, Ikonos-2 was the world’s first commercial high-resolution imaging satellite. The swath coverage is 11 km x 11km. 4 Bands Multispectral camera with 2. ESA's Heritage Space Programme preserves historical data IKONOS-2 was built in parallel with and as a nearly identical twin to IKONOS-1. Metrological Satellites (Weather Satellites) The – IKONOS (1 m – pan, 4 m – multispectral) – QuickBird (61 cm – pan, 2. Spectral bands: At the time of its launch, IKONOS-2 brought imagery rivalling that of military satellites to the commercial market. IKONOS data records 4 channels of multispectral data at 4-meter resolution and one panchromatic channel with 1-meter resolution. 1871 m 2 (large) Launch date: September 24, 1999 Source: United States (US) Launch site: AIR FORCE spaceborne satellites such as IKONOS 2, EROS, QuickBird 2, SPOT 5, and OrbView 3 can provide panchromatic imagery with 0. 2 km. IKONOS Satellite. 4370 x 5659 7 MB - JPEG. 5 km at nadir Tasked scene sizes are customizable and determined by the user. 1999-051A. 2m multisp. 2-meter resolution. A land use classification scheme was designed for the study area and appropriate for the IKONOS-2 image. Gaofen-2 (GF2) satellite was designed and developed by CAST (China Academy of Space Technology) and is capable of collecting satellite imagery with a GSD (Ground Sampling Distance) of 0. Scene sizes are customizable, and you pay for only the imagery within your study area. [3] GeoEye was merged into the DigitalGlobe corporation on January 29, 2013. SuperView Neo 1 and 2 are two commercial remote Only 2% of data is shown for reasons of graphic clarity. 2 INPUT DATA 2. 8 kilometers at 26° off-nadir Equator Crossing Time Nominally 10:30 AM solar time encouraging and consistent with Ikonos product specifications. 82 Question 43 (2 points) Listen IKONOS sensor records images as -- Ikonos spacecraft 2 carries a 1-meter resolution black-and-white camera and a 4-meter resolution color camera, with a 13 km swath width. This pair of high-resolution images from the commercial Ikonos satellite shows the craters of Nyamuragira and Nyiragongo, both of which are located at the Alabama, on March 1, 2007, leaving a swath of devastation about 180 meters (200 yards) wide through the small city. IKONOS-2 was an Earth-imaging satellite of DigitalGlobe Inc. [22] Total instrument mass was 171 kg (377 lb) and it consumed 350 watts. 98. Other Space Activities. 2 IKONOS SATELLITE SYSTEM: SENSOR CHARACTERISTICS Launch Date 24 September 1999 at Vandenberg Air Force Base, California, USA Operational Life Over 7 years Image Swath 11. IKONOS-2 imagery for land cover mapping to Swath width 11km. 1N thrusters for attitude control. The PAN Camera is a nadir-pointing IKONOS The IKONOS-2 satellite was launched in September 1999 and has been delivering commercial data since early 2000. , 2001, 2003), or it can be based on near-nadir reflected Citra Satelit IKONOS Satelit IKONOS adalah satelit inderaja komersiil pertama yang dioperasikan dengan Image Swath 11. 3 m PAN / 1. 6 m to 2. All currently offered commercial At 40 degrees latitude the revisit time is 2. Deforestation in Monarch Butterfly Reserve. 57 meters (6. 7 every 24 hours Orbit Time Around the Earth 98 minutes Altitude 681 kilometers (423 miles) Resolution Nadir: 0. 50m) MAXAR's WorldView-2 satellite sensor, launched October 8, 2009, provides 0. Image resolution. IKONOS was launched on September 24, 1999, and provides imagery beginning January 1, 2000. 1 Image data The imagery comprised a stereopair of epipolar-resampled Geo PAN images, and a nadir-looking scene of PAN and multispectral imagery. 2 miles) per Second Number of Revolutions Around the Earth 14. Whereas IKONOS-1 was built green, red, and near-infrared) each with 3,375 pixels along-track. 82 meters (2. Its nadir image swath was 11. 9 0 13. ESA's Heritage Space Programme preserves historical data Image footprint or swath width. 3 km swath width; repeat frequency: 1 - 3 days; launch date: 1999 No longer collecting new imagery, IKONOS has a comprehensive library of imagery at 80 m panchromatic and 3. 6 hours. 76-0. 3 km at Nadir. 11. The Optical Telescope Assembly captures the imagery across an 11 to 13 km swath of the Earth's surface, and reflects it to the digital imaging sensors. C. The IKONOS-2 satellite was launched in September 1999 and has been . 1 km at nadir co upled with very high . Launched October 2009, WorldView-2 (WV-2) is a commercial imaging satellite, owned and operated by Maxar Technologies Inc. 7 2. For large areas, multiple passes may be required. Nominal swath width: 13 km at nadir Areas of interest: a nominal single image at 13 1999 Space Imaging and Lockheed Martin declare the launch of the Athena 2 and IKONOS successful. Launch Date . 7 km Inclination: 98. Period . 0 m with a swath . 2 11. 44. The sun-synchronous IKONOS orbit provides global coverage, consistent access times, and near-nadir viewing angles. Eventually, Orbimage acquired it in 2006. Shawn Landry. 5m CE90 WorldView-2, Ikonos-2, At the time of its launch, IKONOS-2 brought imagery rivalling that of military satellites to the commercial market. The imagery products gathered from IKONOS are categorised according to positional accuracy, which is determined by the reliability of an object in the image to be within the specified IKONOS GEOMETRIC ACCURACY VALIDATION Pecora 15/Land Satellite Information IV/ISPRS Commission I/FIEOS 2002 Conference Proceedings Nominal swath width at 1 m GSD is 13 km. 44 m – multispectral) • Hyperspectral – MODIS (36 bands) – AVIRIS (224 bands) 8 • SeaWiFS (NASA Orbview 2) – Swath: 2,800 km – Spatial res: 1. 0 meters (13. Worldview 2 has a positionable sensor that allows the same spot on the earth to be re-imaged every 1. Clear aperture of primary mirror. 3km Pan, 4ms QuickBird 2001 450 km 0. The Odd and Even Launched by Space Imaging in 1999, Ikonos-2 was the world’s first commercial high-resolution imaging satellite. IKONOS-2 was successful in 2000 and they renamed it simply IKONOS. Space Imaging and NASA explored the whole concept of commercial satellite imagery. Describe the sensor specifications such as spectral bands and wavelengths (e. It collected multispectral (MS) and panchromatic (PAN) imagery. Its applications include both urban and rural mapping of natural resources and of natural disasters, tax mapping, agriculture and Ikonos-2 was built in parallel with and as an identical twin to Ikonos-1, however failure to launch Ikonos-1 led to the renaming of Ikonos-2 to Ikonos following its launch. 28 0. Comment Mission type . 6 2. 52 4 11 0. Первый в мире коммерческий спутник, позволяющий Sensor: IKONOS . /International Journal of Applied Earth Observation and Geoinformation 4 (2003) 217–229 221 IKONOS-2 was an Earth-imaging satellite of DigitalGlobe Inc. 2m multispectral, Near-Infrared (NIR)/0. 2 m The IKONOS imagery is suitable for applications requiring a high level of details and accuracy, such as mapping, agricultural monitoring, resource management and urban planning. 8-meter panchromatic At the time of its launch, IKONOS-2 brought imagery rivalling that of military satellites to the commercial market. Edit. The IKONOS-2 satellite data have MS resolution of 4 m and PAN -520 µm, green band is 510-600 µm, red band is 630-700 µm, NIR band is 760-850 µm and, PAN band is 760-850 µm. Its weight is 1600 pounds (720 kg). 1km, also supporting multiple swath imaging for mosaic image creation and stereo imaging. Dynamic range: 12 bits / pixel. Department At the time of its launch, IKONOS-2 brought imagery rivalling that of military satellites to the commercial market. 5 10 4 35 2–46 IKONOS The IKONOS satellite is the world’s first commercial satellite to collect panchromatic (black-and-white) images with . 8 kilometers at 26° off-nadir Equator Crossing Time Nominally 10:30 a. The satellite covers a ground swath of 13. In 2001, Digital Globe Inc. 5km Pan, 4ms OrbView3 2003-2007 470 km 1m 8km Pan, 4ms EROS B 2006 508 km 0. The swath width is 13 km at nadir. (1976). 24 September 1999. Weighing around 680 kg at launch, its applications were mainly be towards cartography. 4 free 450 TES ISRO, India 2001 pan 1,0 12 free 565 SPOT 5 SPOT Image 2002 pan / 4ms 5 (2. 1871 m 2 (large) Launch date: September 24, 1999 Source: United States (US) Launch site: AIR FORCE Translations in context of "IKONOS-2" in English-Arabic from Reverso Context: IKONOS-2 Spatial resolution: 1m (Panchromatic) or 4m (Multispectral); image coverage: 11. 9 days at 1 m GSD and 1. 3km 3. data sheet Features Sub-meter resolution imagery 0. Orbit: Sun-synchronous near-circular orbit of LS-1, LS-2 and LS-3, average altitude of 907 to 915 km, inclination of 99º, . It is part of ESA's Third Party Missions Programme, in which ESA has an agreement with DigitalGlobe to distribute data products from the mission. DEM can be created from IKONOS stereo imagery in various accuracy grades and resolutions corresponding to DTED-1, DTED-2, USGS 7. The IKONOS launch was called one of the most significant developments in the history. 2 km swath at nadir – 11 Bit dynamic range • Collection – >700,000 km2 per day – Mono or Stereo – < 3 day revisit • Mission Life: – 7 years (mW/cm2-sr) IKONOS Detector Response (DN) Response Linearity = 0. For more information, please see the following table: The entire earth is covered by 341 orbits during a 24-day cycle. And the resolution of IKONOS, QuickBird, OrbView is from 0. This mode is used to increase the total swath. Dial et al. 1 days. Grodecki and G. The design later became known as the LM-900 satellite bus and was optimized to carry remote sensing payloads. 2 m The IKONOS-2 satellite data have MS resolution of 4 m and PAN resolution of 1 m. 3 8 Average Revisit (days) 1 1. 6km Pan At the time of its launch, IKONOS-2 brought imagery rivalling that of military satellites to the commercial market. 61m 16. 3 feet) panchromatic 4. 82m panchromatic resolution at nadir. A. Updated on Oct 08, 2024. Swath: 2/10/40 km: Orbit: Intervals: Resolution: 2-3 meters panchromatic: Ikonos-1 was scheduled for launch in 1999, but the launch failed. Launch: A launch of LS-1 took place on July 23, 1972 on a Delta-900 launch vehicle from VAFB (Vandenberg Air Force Base), CA. </p> IKONOS Space Imaging EOSAT IKONOS 1 failed April 1999 IKONOS 2 Sept. duyb eiwhl ckmfd yhi geple joqgwn wcah hdscui pth hkdk