MODIS SENSOR: GENERAL FEATURES AND APPLICATIONS

Authors

  • Marcelo Lopes Latorre IEAv Instituto de Estudos Avançados - CTA - Centro Técnico Aeroespacial
  • Liana Oighenstein Anderson INPE - Instituto Nacional de Pesquisas Espaciais
  • Yosio Edemir Shimabukuro INPE - Instituto Nacional de Pesquisas Espaciais
  • Osmar Abílio de Carvalho Júnior INPE - Instituto Nacional de Pesquisas Espaciais

DOI:

https://doi.org/10.26512/2236-56562003e39720

Keywords:

remote sensing, MODIS sensor, image processing

Abstract

The present work has as purpose to accomplish a general description on one of main sensor, denominated MODIS (Moderate Resolution Imaging Spectroradiometer), developed by NASA, with the objective of determining how the Earth is changing and which the consequences for the life in this planet, developing an understanding of its functioning as an only and interlinked system. Its products will allow a long term monitoring of long duration of the surface, necessary for the understanding of global changes. In this purpose, it is presented a description of its systems and finally, a synthesis of the main products generated by this sensor and its applications.

References

BARKER, J.L., HARDEN, M.K., ANUTA, E. A., SMID, J. E., HOUGT, D. (1992). MODIS Spectral Sensivity Study: Requirements and Characterization. October, 84p.

CHAN, J.C.W.; DE FRIES, R.S.; ZHAN, X.; HUANG, C.; TOWNSHEND, J. R. G. (2000). Texture feature cover change detection at 250m resolution an application of machine learning feature superficial. In: IEEE 2000 International Geoscience and Remote Sensing Symposium, Honolulu, Proceedings p.3060-3063.

HANSEN, M.C.; DE FRIES, R.S.; DIMICELI, C.; HUANG, C.; SOHLBERG, R.; ZHAN, X., TOWNSHEND, J. R. G. (1998). Red and infrared space partitioning for detection land cover change. In: IEEE 1998 International Geoscience and Remote Sensing Symposium, Seattle, Washington. Proceedings. V, 2512-2514

HUETE, A. R., LIU, H. Q., BATCHILY K., LEEUWEN W. (1997). A Comparison of Vegetation Indices over a Global Set of TM Images for EOS-MODIS. Remote Sensing of Environment, 59(3):440-451.

HUETE, A., DIDAN, K.; MIURA, T.; RODRIGUEZ, E. P.; GAO, X.; FERREIRA, L. G. (2002). Overview of the radiometric and biophysical performance of the MODIS vegetation indices. Remote Sens. Environ. 83:195–213.

JUSTICE, C O.; VERMOTE, E., TOWNSHEND, J. R. G.; DEFRIES, R.;ROY, P. D; HALL, D.K, SALOMONSON, V.; PRIVETTE, J.L.; RIGGS, G.; STRAHLER, A.; LUCHT, W.; MYNENI, R. B; KNYAZIKHIN, Y.; RUNNING, S. W.; NEMANI, R. R.; WAN, Z.; HUETE, A. R.; LEEUWEN, W. V.; WOLFE, R. E.; GIGLIO, L.; MULLER, J. P; LEWIS, P.; BARNSLEY, M. (1998). The Moderate Resolution Imaging Spectroradiometer (MODIS): land remote sensing for global change research. IEEE Transactions on Geoscience and Remote Sensing, 36(4):1228-1247.

JUSTICE, C. O., TOWNSHEND, J. R. G., VERMOTE, E. F., MASUOKA, E., WOLFE, R. E., SALEOUS, N., ROY, D. P., MORISETTE, J. T. (2002a). An overview of MODIS Land data processing and product status. Remote Sens. Environ. 83: 3 –15.

JUSTICE, C. O.; GIGLIO, B.; KORONTZI, S.; OWENS, J.; MORISETTE, J.T.; ROY, D.P.; DESCLOITRES, J.; ALLEAUME, S.; PETITCOLIN, F.; KAUFMAN, Y. (2002b). The MODIS fire products. Remote Sens. Environ. 83:244-262.

KING, M., KAUFMAN, Y; MENZEL, W., TANRÉ, D. (1992). Remote Sensing of cloud, aerosol, and water vapor properties from the Moderate Resolution Imaging Spectroradiometer (MODIS). IEEE Trans. Geoscience and Remote Sensing, 30(1):1- 27.

LAMBIN, E. F.; STRAHLER, A. H. (1994a). Change vector analysis in multitemporal space: a tool to detect and categorize land cover change processes using high temporal resolution satellite data. Remote Sens. Environ. 48:231-244.

LAMBIN, E. F.; STRAHLER, A. H. (1994b). Indicators of land cover change for change vector analysis in multitemporal space at coarse spatial scales. International Journal of Remote Sensing, v. 15, n. 10, p. 2099-2119.

LILLESAND T.M., KIEFER R. W. (1994). Remote Sensing and image interpretation, 3 ed. Pul. Wiley.

MYNENI, R. B.; HOFFMAN, S.; KNYAZIKHIN, Y.; PRIVETTE, J. L.; GLASSY, J.; TIAN, Y.; WANG, Y.; SONG, X.; ZHANG, Y.; SMITH, G. R.; LOTSH, A.; FRIEDL, M.; MORRISETTE, J. T.; VOTAVA, P.; NEMANI, R. R.; RUNNING, S. W. (2002). Global products of vegetation leaf area and fraction absorbed PAR from year one of MODIS data. Remote Sens. Environ. 83: 214–231.

NASA, (2002). MODIS web. Acesso em 20 dezembro 2002.

ROY, D., BORAK, J, DEVADIGA, S., WOLFE, R., ZHENG, M., DESCLOITRES, J. (2002). The MODIS land product quality assessment approach Remote Sensing of Environment, 83:62-76.

RUNNING, S. W.; JUSTICE, C. W.; SALOMONSON, V.; HALL, D.; BARKER, J.; KAUFMAN,Y.; STRAHLER, A.; MULLER, J. P.; VANDERBILT, V.; WAN, Z.M.;TEILLET, P.; CARNEGGIE, D. (1994). Terrestrial Remote Sensing Science and Algorithms planned for EOS/MODIS. International Journal of Remote Sensing. 15(17), 3587-3620.

SALOMONSON, V. V., & TOLL, D. L. (1991). Execution phase (C/D) spectral band characteristics of the EOS moderate resolution imaging spectrometer-nadir (MODISN) facility instrument. Advances in Space Research, 11(3), 231-236.

SALOMONSON, V. V., BARNES, W. L., MAYMON, P. W., MONTGOMERY, H. E., & OSTROW, H. (1989). MODIS: Advanced facility instrument for studies of the earth as a system. IEEE Transactions on Geoscience and Remote Sensing, 27(2), 145- 153.

SALOMONSON, V. V.; BARKER, J. L. (1992). EOS Moderate Resolution Imaging Spectroradiometer: phase C/D status and comments on calibration and georeferencing approaches, 15th Annual AAS Guidance and Control Conference, Paper AAS 92- 004, Keystone, CO, Feb. 8-12.

STRAHLER, A.; MUCHONEY, D.; BORAK, J.; FRIEDL, M.; GOPAL, S.; LAMBIN, E.; MOODY, A. (1999). MODIS Land Cover and Land-Cover Change products algorithm theoretical basis document (ATBD). Version 5.0, Center for Remote Sensing, Department of Geography, Boston University, May, 72p.

STRAHLER, A.; TOWNSHEND, .J.R.G.; MUCHONEY, D.;BORAK, J.; FRIEDL, M; GOPAL, S.; HYMAN, A.; MOODY, A.; LAMBIN, E. (1996). MODIS land cover product algorithm theoretical basis document (ATBD). Version 4.1, NASA, EOSMTPE, Documentation, 102p.

TANRÉ D., DEROO C., DUHAUT P.,HERMAN M., MORCRETTE J.J., PERBOS J., DESCHAMPS P.Y., Description of a computer code to Simulate the Satellite Signal in the Solar Spectrum, Int. J. Remote Sens., vol.11, pp 659-668, 1990

TANRE, D.; DEROO, C.; DEHAUT, P.; HERMAN, M.; MORRCRETTE, J.J; PERBOS, J.; DESCHAMPS, P.Y. (1986). Simulation of the Satellite Signal in the Solar Spectrum.User’s Guide, L.O.A, Lille, 149p.

TELES, J.; SAMII, M. V.; DOLL, C. E. (1995). Overview of TDRSS. Advances in Space Research, 16:1267-1276.

TOWNSHEND, J. R. G., JUSTICE, C., LI, W.; GURNEY, C.; MCMANUS, J. (1991). Global land cover classification by remote sensing: Present capabilities and future possibilities. Remote Sens. Environ. 35:243–255.

WOLFE, R. E., NISHIHAMA, M., FLEIG, A. J., KUYPER, J. A., ROY, D. P., STOREY, J. C., PATT, F. S. (2002). Achieving sub-pixel geolocation accuracy in support of MODIS land science. Remote Sens. Environ. 83: 31– 49.

ZHAN, X.; DE FRIES, R. S.; TOWNSHEND, J. R. G.; DIMICELIX, C. M.; HANSEN, M.; DEFRIES, R. S.; HUANG, C. (2000). The 250 m global land cover change product from the Moderate Resolution Imaging Spectroradiometers os NASA´s Earth Observation System. International Journal of Remote Sensing. 21:1433-1460

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Published

2022-01-21

Issue

V.6 n. 1 (2003): SENSORIAMENTO REMOTO

Section

Paper

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How to Cite

MODIS SENSOR: GENERAL FEATURES AND APPLICATIONS. (2022). Space and Geography Journal, 6(1), 91-121. https://doi.org/10.26512/2236-56562003e39720