Indian Remote Sensing Programme
{{Short description|Series of Earth Observation satellites}}
{{Use Indian English|date=July 2022}}
India's remote sensing program was developed with the idea of applying space technologies for the benefit of humankind and the development of the country. The program involved the development of three principal capabilities. The first was to design, build and launch satellites to a Sun-synchronous orbit. The second was to establish and operate ground stations for spacecraft control, data transfer along with data processing and archival. The third was to use the data obtained for various applications on the ground.{{Cite journal|last1=Navalgund|first1=R. R.|last2=Kasturirangan|first2=K.|date=1983-12-01|title=The Indian remote sensing satellite: a programme overview|journal=Proceedings of the Indian Academy of Sciences Section C: Engineering Sciences|language=en|volume=6|issue=4|pages=313–336|doi=10.1007/BF02881137|issn=0973-7677|bibcode=1983InES....6..313N|s2cid=140649818}}
India demonstrated the ability of remote sensing for societal application by detecting coconut root-wilt disease from a helicopter mounted multispectral camera in 1970. This was followed by flying two experimental satellites, Bhaskara-1 in 1979 and Bhaskara-2 in 1981. These satellites carried optical and microwave payloads.{{Cite book|url=https://books.google.com/books?id=x9skDwAAQBAJ&q=root-wilt+disease+coconut+isro&pg=PA280|title=Comprehensive Remote Sensing|date=2017-11-08|publisher=Elsevier|isbn=978-0-12-803221-3|language=en|access-date=2020-11-01|archive-date=2022-05-18|archive-url=https://web.archive.org/web/20220518091751/https://books.google.com/books?id=x9skDwAAQBAJ&q=root-wilt+disease+coconut+isro&pg=PA280|url-status=live}}
India's remote sensing programme under the Indian Space Research Organization (ISRO) started off in 1988 with the IRS-1A, the first of the series of indigenous state-of-art operating remote sensing satellites, which was successfully launched into a polar Sun-synchronous orbit on March 17, 1988, from the Soviet Cosmodrome at Baikonur.
It has sensors like LISS-I which had a spatial resolution of {{Convert|72.5|m|ft}} with a swath of {{Convert|148|km|mi}} on ground. LISS-II had two separate imaging sensors, LISS-II A and LISS-II B, with spatial resolution of {{Convert|36.25|m|ft}} each and mounted on the spacecraft in such a way to provide a composite swath of {{Convert|146.98|km|mi}} on ground. These tools quickly enabled India to map, monitor and manage its natural resources at various spatial resolutions. The operational availability of data products to the user organisations further strengthened the relevance of remote sensing applications and management in the country.{{Cite web|url=https://www.isro.gov.in/saga-of-indian-remote-sensing-satellite-system|title=The Saga of Indian Remote Sensing Satellite System - ISRO|website=www.isro.gov.in|access-date=2019-12-27|archive-date=2019-06-27|archive-url=https://web.archive.org/web/20190627192046/https://www.isro.gov.in/saga-of-indian-remote-sensing-satellite-system|url-status=dead}}
IRS System
Following the successful demonstration flights of Bhaskara-1 and Bhaskara-2 satellites launched in 1979 and 1981, respectively, India began to develop the indigenous Indian Remote Sensing (IRS) satellite program to support the national economy in the areas of agriculture, water resources, forestry and ecology, geology, water sheds, marine fisheries and coastal management.
Towards this end, India had established the National Natural Resources Management System (NNRMS) for which the Department of Space (DOS) is the nodal agency, providing operational remote sensing data services.{{Cite web |url=http://www.fas.org/spp/guide/india/earth/irs.htm |title=FAS website on IRS |access-date=2007-05-04 |archive-date=2016-08-20 |archive-url=https://web.archive.org/web/20160820111046/http://fas.org/spp/guide/india/earth/irs.htm |url-status=live }} Data from the IRS satellites is received and disseminated by several countries all over the world. With the advent of high-resolution satellites, new applications in the areas of urban sprawl, infrastructure planning and other large scale applications for mapping have been initiated.
The IRS system is the largest constellation of remote sensing satellites for civilian use in operation today in the world, with 11 operational satellites. All these are placed in polar Sun-synchronous orbit and provide data in a variety of spatial, spectral and temporal resolutions. Indian Remote Sensing Programme completed its 25 years of successful operations on March 17, 2013.
IRS data applications
Data from Indian Remote Sensing satellites are used for various applications of resources survey and management under the National Natural Resources Management System (NNRMS). Following is the list of those applications:
- Space Based Inputs for Decentralized Planning (SIS-DP)
- National Urban Information System (NUIS)
- ISRO Disaster Management Support Programme (ISRO-DMSP)
- Biodiversity characterizations at landscape level - http://bis.iirs.gov.in {{Webarchive|url=https://web.archive.org/web/20150111055739/http://bis.iirs.gov.in/ |date=2015-01-11 }}
- Preharvest crop area and production estimation of major crops.
- Drought monitoring and assessment based on vegetation condition.
- Flood risk zone mapping and flood damage assessment.
- Hydro-geomorphological maps for locating underground water resources for drilling well.
- Irrigation command area status monitoring
- Snow-melt run-off estimates for planning water use in down stream projects
- Land use and land cover mapping
- Urban planning
- Forest survey
- Wetland mapping
- Environmental impact analysis
- Mineral prospecting
- Coastal studies
- Integrated Mission for Sustainable Development (initiated in 1992) for generating locale-specific prescriptions for integrated land and water resources development in 174 districts.
- North Eastern District Resources Plan (NEDRP)
IRS launch log
The initial versions are composed of the 1 (A, B, C, D). The later versions are named based on their area of application, including OceanSat, CartoSat, ResourceSat. Some of the satellites have alternate designations based on the launch number and vehicle (P series for PSLV). From 2020, the name was changed to the generic EOS, which stands for Earth Observation Satellite.{{Cite web|last=Jones|first=Andrew|date=2020-11-07|title=India back in action with launch of Earth observation satellite, nine rideshare small sats|url=https://spacenews.com/india-back-in-action-with-launch-of-earth-observation-satellite-nine-rideshare-small-sats/|archive-url=|archive-date=|access-date=2021-01-06|website=SpaceNews|language=en-US}}
| class="wikitable" style="font-size: 95%;"
! width=7% | Serial No. ! width=28% | Satellite ! width=15% | Date of Launch ! width=15% | Launch Vehicle ! width=35% | Status | ||
| 1
|17 March 1988 |Mission Completed | ||
| 2
|29 August 1991 |Mission Completed | ||
| 3
|IRS-P1 (also IE) |20 September 1993 |Crashed, due to launch failure of PSLV | ||
| 4
|15 October 1994 |Mission Completed | ||
| 5
|28 December 1995 |Mission Completed | ||
| 6
|21 March 1996 |Mission Completed | ||
| 7
|29 September 1997 |Mission Completed | ||
| 8
|IRS-P4 (Oceansat-1) |27 May 1999 |Mission Completed | ||
| 9
|Technology Experiment Satellite (TES) |22 October 2001 |Mission Completed | ||
| 10
|IRS P6 (Resourcesat-1) |17 October 2003 |Mission Completed | ||
| 11
|IRS P5 (Cartosat 1) |5 May 2005 |Mission Completed | ||
| 12
|IRS P7 (Cartosat 2) |10 January 2007 |Mission Completed | ||
| 13
|28 April 2008 |In Service | ||
| 14
|28 April 2008 |Mission Completed | ||
| 15
|20 April 2009 |In Service | ||
| 16
|23 September 2009 |In Service | ||
| 17
|12 July 2010 |In Service | ||
| 18 | 20 April 2011
| In Service | |
| 19 | 12 October 2011
| Mission Completed | |
| 20 | 26 April 2012
| Mission Completed | |
| 21 | 25 February 2013
| In Service | |
| 22
|22 June 2016 |In Service | ||
| 23
|26 September 2016 |In Service | ||
| 24 | 7 December 2016 | PSLV-C36
|In Service |
| 25 | 15 February 2017
| In Service | |
| 26
|23 June 2017 |In Service | ||
| 27
|12 January 2018 |In Service | ||
| 28
|22 May 2019 |In Service | ||
| 29
|27 November 2019 |In Service | ||
| 30
|11 December 2019 |In Service | ||
| 31
|7 November 2020 |In Service | ||
| 32
|12 August 2021 |Crashed, due to launch failure of GSLV | ||
| 33
|14 February 2022 |In Service | ||
| 34
|7 August 2022 |Crashed, due to launch failure of SSLV | ||
| 35
|26 November 2022 |In Service | ||
| 36
|10 February 2023 |In Service | ||
| 37
|March 2024 |Planned | ||
| 38
|2024 (TBD) |Planned | ||
| 39
|2024 (TBD) |Planned | ||
| 40
|Cartosat-3A (EOS-08) |2024 (TBD) |Planned | ||
| 41
|2024 (TBD) |Planned | ||
| 42
|2025 (TBD) |Planned | ||
| 43
|2025 (TBD) |Planned | ||
| 44
|2026 (TBD) |Planned | ||
| 45
|2026 (TBD) |Planned | ||
| 46
|2026 (TBD) |Planned | ||
| 47
|2027 (TBD) |Planned |
IRS Data Availability
Capacity Building for IRS and Other Remote Sensing Data
The capacity building programme of ISRO for IRS and other remote sensing applications is through Indian Institute of Remote Sensing (IIRS) Dehradun and UN affiliated Center of Space Science and Technology Education in Asia and the Pacific (CSSTEAP) Center located at Dehradun of Uttrakhand State in India.
Future IRS launches
References
{{Indian space programme}}
{{Indian spacecraft}}
Category:Earth observation satellites of India