Журнал

About Editorial Board Information for authors and reviewers Publication ethics Contacts User Account: send / review a manuscript

Study of Resurs-P wide-swath multispectral equipment data applicability to spectrometric tasks

A.I. Vasilyev¹ , A.S. Stremov¹ , V.P. Kovalenko¹

¹ JSC “Russian Space Systems”, Research Center for Earth Operative Monitoring, Moscow, Russia

Accepted: 17.05.2017
DOI: 10.21046/2070-7401-2017-14-4-36-51

The paper describes the results of applicability study of the optoelectronic wide-swath multispectral equipment (KShMSA) carried by the Resurs-P spacecraft in spectrometric tasks. For this purpose, the procedure to estimate the absolute radiometric calibration parameters of the Resurs-P medium resolution wide-swath multispectral instrument (ShMSA-SR) by comparing with the data of Landsat 8 Operational Land Imager (OLI) was developed. The sensors’s spectral bands consistency was estimated using the MODTRAN software: test-object imaging was simulated under the same conditions and the top-of-atmosphere (TOA) spectral radiances of both sensors were calculated. The imaging of several test sites was carried out during the period between May to August 2016. The dynamics of the ShMSA-SR absolute calibration parameters was analyzed using the space imagery results. The results obtained demonstrate the absolute calibration parameter stability (by sensitivity — RMSE is no more than 7% of spectral band averaged sensitivity and by dark current — RMSE is within 5.6 W/(m²•sr•μm)) and the applicability of the KShMSA data in solving spectrometric tasks (with the accuracy of no worse than 0.068 using NDVI as an example).

Keywords: remote sensing, spectroradiometer, wide-swath multispectral equipment, Resurs-P spacecraft, absolute calibration parameters, cross-calibration, dynamics of absolute calibration parameters

Full text

References:

Antonushkina S.V., Gurov V.S., Egoshkin N.A., Eremeev V.V., Zenin V.A., Knyaz’kov P.A., Kozlov E.P., Kuznetsov A.E., Makarenkov A.A., Moskvitin A.E., Pobaruev V.I., Poshekhonov V.I., Presnyakov O.A., Svetelkin P.N., Sovremennye tekhnologii obrabotki dannykh distantsionnogo zondirovaniya Zemli (Contemporary processing technologies of Earth remote sensing data), Moscow: Fizmatlit, 2015, p. 460.
Baklanov A.I., Afonin A.N., Blinov V.D., Zabiyakin A.S., KShMSA – kompleks shirokozakhvatnoi mul’tispektral’noi apparatury kosmicheskogo apparata “Resurs-P” (KShMSA – The system of wide swath multispectral apparatus “Resurs-P”), Vestnik Samarskogo gosudarstvennogo aerokosmicheskogo universiteta imeni akademika S.P. Koroleva (Vestnik of S.P. Korolev Samara State University), 2016, Vol. 15, No. 2, pp. 22–29. DOI: 10.18287/2412-7329-2016-15-2-22-29.
Blinov V.D., Kompleks shirokozakhvatnoi mul’tispektral’noi apparatury. Metodika rascheta vremeni nakopleniya. CTEA 1.701.074 D5 (The system of wide swath multispectral apparatus. Technique of acquisition interval estimation. CTEA 1.701.074 D5), NPP “OPTEKS” (SPE “OPTEKS”), 2012, 21 p.
Vasileiskii A.S., Zhukov B.S., Zhukov S.B., Kurkina A.N., Polyanskii I.V. Otnositel’naya radiometricheskaya kalibrovka kompleksa mnogozonal’noi sputnikovoi s"emki (Relative radiometric calibration of the system of many spectral satellite acquisition), Vserossiiskaya nauchno-tekhnicheskaya konferentsiya “Sovremennye problemy opredeleniya orientatsii i navigatsii kosmicheskikh apparatov” (All-Russian scientific-technical conference ”Modern problems of definition of spacecrafts orientation and navigation“), Tarusa, 22−25 September 2008, Sbornik trudov, IKI RAN, 2009, pp. 562−574.
Vasil’ev A.I., Kalibrovka s"emochnoi apparatury kosmicheskogo apparata “Kanopus-V” v protsesse ego ekspluatatsii (Calibration of “Kanopus-V” satellite sensor during its operation), Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 2015, Vol. 12, No. 1, pp. 203–214.
Vasil’ev A.I., Eksperiment po avtomaticheskoi otsenke oblachnosti na osnove dannykh ShMSA-SR KA “Resurs-P” (Experimentation of automatic cloud coverage assessment based on ShMSA-SR “Resurs-P” data), Tezisy dokladov Chetvertoi mezhdunarodnoi nauchno-tekhnicheskoi konferentsii “Aktual’nye problemy sozdaniya kosmicheskikh sistem distantsionnogo zondirovaniya Zemli” (Proceedings of 4th International Scientific-Technical Conference “Actual Problems of Space Earth Remote Sensing Systems Development”), Moscow, AO “Korporatsiya “VNIIEM”, 2016, pp. 172−174.
Vasil’ev A.I., Ol’shevskii N.A., Korshunov A.P., Stremov A.S. Programmnye tekhnologii sozdaniya i rasprostraneniya bazovykh produktov distantsionnogo zondirovaniya Zemli (Software Technologies for Generation and Distribution of Basic Earth Remote Sensing Data Products), Raketno-kosmicheskoe priborostroenie i informatsionnye sistemy, 2015, Vol. 2, Issue 3, pp. 23–32.
Vasil’ev A.I., Stremov A.S., Morozov E.A., Metody verifikatsii bazovykh produktov DZZ mezhvedomstvennogo ispol’zovaniya (Basic Earth Remote Sensing Data Products Verification Methods), 13 Vserossiiskaya nauchno-tekhnicheskaya konferentsiya “Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa” (13th Conf. “Current Problems of Remote Sensing of the Earth from Space”), Moscow, 16–20 November 2015, Book of Abstracts, available at: http://smiswww.iki.rssi.ru/d33_conf/thesisshow.aspx?page=109&thesis=5105 (2016).
Grishantseva L.A., Emel’yanov A.A., Emel’yanov K.S., Kurevleva T.G., Markov V.S., Rybkin A.S., K voprosu o spektral’noi kalibrovke dannykh GSA KA “Resurs-P” No. 1 (To the problem of spectral calibration of GSA “Resurs-P” data), 12 konf. “Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa” (12th Conf. “Modern Problems of Remote Sensing of the Earth from Space”), Book of Abstracts, available at: http://smiswww.iki.rssi.ru/d33_conf/thesisshow.aspx?page=91&thesis=4844 (2016).
Zhukov B.S., Kondrat’eva T.B., Polyanskii I.V., Permitina L.I., Poletnaya radiometricheskaya kross-kalibrovka kompleksa mnogozonal’noi sputnikovoi s"emki na KA “Meteor-M” No. 1 po spektroradiometru MODIS na KA Terra (In-flight radiometric cross-calibration of Multispectral Satellite Imaging System on-board “Meteor-M” No. 1 relative to spectroradiometer MODIS on-board Terra), Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 2014, Vol. 11, No. 2, pp. 123–137.
Katamanov S.N., Razrabotka avtomaticheskogo metoda geograficheskoi privyazki izobrazhenii MSU-MR polyarno-orbital’nogo sputnika “Meteor-M” No. 1 (Development of automatic navigation method for MSU-MR imagery of polar-orbital satellite “Meteor-M” No. 1), Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 2014, Vol. 11, No. 4, pp. 276–285.
Kondrat’eva T.V., Zhukov B.S., Polyanskii I.V., Forsh A.A., Sopostavlenie koeffitsientov yarkosti prirodnykh ob"ektov po dannym KMSS na KA “Meteor-M” No. 1 i MODIS na KA Terra (Comparison of reflectances of natural objects from “Meteor-M” No. 1 Multispectral Satellite Imaging System and Terra MODIS spectroradiometer), Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 2015, Vol. 12, No. 1, pp. 215−224.
Korolev E.E., Kochergin A.M., Kuznetsov A.E., Pobaruev V.I., Avtomaticheskaya segmentatsiya oblachnykh ob"ektov na snimkakh zemnoi poverkhnosti vysokogo prostranstvennogo razresheniya (Automatic segmentation of cloud objects on Earth imagery of high spatial resolution), Sovremennye problemy nauki i obrazovaniya, 2014, No. 5, available at: http://science-education.ru/ru/article/view?id=15042 (2016).
Kuznetsov A.E., Pobaruev V.I., Poshekhonov V.I., Presnyakov O.A. Programmnyi kompleks obrabotki informatsii ot skanerno-kadrovykh s"emochnykh sistem KA “Kanopus-V” i “BKA” (A software system for information processing from scanner-frame imaging systems “Kanopus-V” and “BKA”), Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa. 2014, Vol. 11, No. 1, pp. 287–300.
Kurevleva T.G., Rybkin E.S., Stremov A.S., Tikhonychev V.V., Kalibrovka dannykh MSS/“Kanopus-V” po dannym Landsat-8 (MSS/Kanopus-V data calibration on Landsat 8 data), XIII Vseros. otkrytaya konf. “Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa”, (13th Conf. “Modern Problems of Remote Sensing of the Earth from Space”), Moscow, 16−20 November 2014, Book of Abstracts, available at:http://smiswww.iki.rssi.ru/d33_conf/thesisshow.aspx?page=109&thesis=5469 (2016).
Lobzenev V.N., Logvanev I.G., Polnyi tsikl obrabotki materialov DZZ v PK IMC (A full cycle of Earth remote sensing data processing in the IMC), 14-ya Mezhdunar. nauch.-tekh. konf. “Ot snimka k karte: tsifrovye fotogrammetricheskie tekhnologii”( 14th International Scientific and Technical Conference “From imagery to map: digital photogrammetric technologies”), Khainan’, Kitai, 18–24 October 2014, Moscow, Rakurs, 2014, pp. 13–19.
Markov A.N., Vasil’ev A.I., Ol’shevskii N.A., Korshunov A.P., Mikhalenkov R.A., Salimonov B.B., Stremov A.S., Arkhitektura geoinformatsionnogo servisa “Bank bazovykh produktov” (Architecture of the Basic Product Bank geoinformation service), Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 2016, Vol. 13, No. 5, pp. 39–51.
Silyuk O.O., Katkovskii L.V., Metodika i rezul’taty kross-kalibrovki izobrazhenii Belorusskogo kosmicheskogo apparata i drugikh s"emochnykh sistem (Methods and results of image cross-calibration of the Belarusian satellite and other sensors), Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 2016, Vol. 13, No. 4, pp. 261–270.
Fischler M.A., Bolles R.C., Random Sample Consensus: A Paradigm for Model Fitting with Applications to Image Analysis and Automated Cartography, June 1981, Communications of the ACM 24 (6), pp. 381–395.
Landsat 7 Science Data Users Handbook, Landsat Science, NASA Official: James R. Irons, Curators: Laura Rocchio, available at: http://landsat.gsfc.nasa.gov/wp-content/uploads/2016/08/Landsat7_Handbook.pdf (2016).

создание сайта - TXL