Topographic Correction of LAPAN-A3/LAPAN-IPB Multispectral Image: A Comparison of Five Different Algorithms

Balthazar V., Vanacker V., Lambin E. F., 2012. Evaluation and parameterization of ATCOR3 topographic correction method for forest cover mapping in mountain areas [online]. International Journal of Applied Earth Observation and Geoinformation. Elsevier B.V. DOI 10.1016/j.jag.2012.03.010. BalthazarV. VanackerV. LambinE. F. 2012 Evaluation and parameterization of ATCOR3 topographic correction method for forest cover mapping in mountain areas [online] International Journal of Applied Earth Observation and Geoinformation Elsevier B.V. 10.1016/j.jag.2012.03.010 Open DOISearch in Google Scholar

Civco D. L., 1989. Topographic Normalization of Landsat Thematic Mapper Digital Imagery. Photogrammetric Engineering and Remote Sensing 55(9): 1303–1309. CivcoD. L. 1989 Topographic Normalization of Landsat Thematic Mapper Digital Imagery Photogrammetric Engineering and Remote Sensing 55 9 1303 1309 Search in Google Scholar

Colby J. D., 1991. Topographic normalization in rugged terrain. Photogrammetric Engineering & Remote Sensing 57(5): 531–537. ColbyJ. D. 1991 Topographic normalization in rugged terrain Photogrammetric Engineering & Remote Sensing 57 5 531 537 Search in Google Scholar

Fan W., Li J., Liu Q., Zhang Q., Yin G., Li A., Zeng Y., Xu B., Xu X., Zhou G., Du H., 2018. Topographic correction of forest image data based on the canopy reflectance model for sloping terrains in multiple forward mode. Remote Sensing 10(5) 717. FanW. LiJ. LiuQ. ZhangQ. YinG. LiA. ZengY. XuB. XuX. ZhouG. DuH. 2018 Topographic correction of forest image data based on the canopy reflectance model for sloping terrains in multiple forward mode Remote Sensing 10 5 717 10.3390/rs10050717 Search in Google Scholar

Gao M., Gong H., Zhao W., Chen B., Chen Z., Shi M., 2016. An improved topographic correction model based on Minnaert. GIScience and Remote Sensing 53(2): 247–264. GaoM. GongH. ZhaoW. ChenB. ChenZ. ShiM. 2016 An improved topographic correction model based on Minnaert GIScience and Remote Sensing 53 2 247 264 10.1080/15481603.2015.1118976 Search in Google Scholar

Gao M., Zhao W., Gong Z., Gong H., Chen Z., Tang X., 2013. Topographic Correction of Zy-3 Satellite Image and Its Effects on Estimation of Shrubs Leaf Biomass in Mountainous Area. International Symposium on Satellite Mapping Technology and Application (ISSMTA2013), WG I/5, WG I/4: 50–59. GaoM. ZhaoW. GongZ. GongH. ChenZ. TangX. 2013 Topographic Correction of Zy-3 Satellite Image and Its Effects on Estimation of Shrubs Leaf Biomass in Mountainous Area International Symposium on Satellite Mapping Technology and Application (ISSMTA2013), WG I/5, WG I/4 50 59 10.3390/rs6042745 Search in Google Scholar

Gao Y., Zhang W., 2009a. LULC classification and topographic correction of Landsat-7 ETM+ Imagery in the Yangjia river Watershed: The influence of DEM resolution. Sensors 9(3): 1980–1995. GaoY. ZhangW. 2009a LULC classification and topographic correction of Landsat-7 ETM+ Imagery in the Yangjia river Watershed: The influence of DEM resolution Sensors 9 3 1980 1995 10.3390/s90301980 Search in Google Scholar

Gao Y., Zhang W., 2009b. A simple empirical topographic correction method for ETM + imagery. International Journal of Remote Sensing 30(9): 2259–2275. GaoY. ZhangW. 2009b A simple empirical topographic correction method for ETM + imagery International Journal of Remote Sensing 30 9 2259 2275 10.1080/01431160802549336 Search in Google Scholar

Ghasemi N., Mohammadzadeh A., Sahebi M. R., 2011. Assessment of different topographic correction methods in ALOS AVNIR-2 data over a forest area. International Journal of Digital Earth 6(5): 504–520. DOI 10.1080/17538947.2011.625049. GhasemiN. MohammadzadehA. SahebiM. R. 2011 Assessment of different topographic correction methods in ALOS AVNIR-2 data over a forest area International Journal of Digital Earth 6 5 504 520 10.1080/17538947.2011.625049 Open DOISearch in Google Scholar

Gu D., Gillespie A., 1998. Topographic normalization of Landsat TM images of forest based on subpixel Sun-canopy-sensor geometry. Remote Sensing of Environment 64(2): 166–175. GuD. GillespieA. 1998 Topographic normalization of Landsat TM images of forest based on subpixel Sun-canopy-sensor geometry Remote Sensing of Environment 64 2 166 175 10.1016/S0034-4257(97)00177-6 Search in Google Scholar

Hakim P. R., Hasbi W., Syafrudin A. H., 2014. ADCS requirements of Lapan-A3 satellite based on image geometry analysis. Proceeding - ICARES 2014: 2014 IEEE International Conference on Aerospace Electronics and Remote Sensing Technology: 142–146. HakimP. R. HasbiW. SyafrudinA. H. 2014 ADCS requirements of Lapan-A3 satellite based on image geometry analysis Proceeding - ICARES 2014: 2014 IEEE International Conference on Aerospace Electronics and Remote Sensing Technology 142 146 10.1109/ICARES.2014.7024383 Search in Google Scholar

Hakim P. R., Permala R., 2017. Analysis of LAPAN-IPB image lossless compression using differential pulse code modulation and huffman coding. In: IOP Conference Series: Earth and Environmental Science. IOP Publishing, 012096. Online: stacks.iop.org/1755-1315/54/i=1/a=012096?key=crossref.1a61d1a04f592578ef866b-15f20559b9 (Accessed 6 March 2017). HakimP. R. PermalaR. 2017 Analysis of LAPAN-IPB image lossless compression using differential pulse code modulation and huffman coding In: IOP Conference Series: Earth and Environmental Science IOP Publishing 012096. Online: stacks.iop.org/1755-1315/54/i=1/a=012096?key=crossref.1a61d1a04f592578ef866b-15f20559b9 (Accessed 6 March 2017). Search in Google Scholar

Hakim P. R., Syafrudin A. H., Utama S., 2017. Band Co-registration Distortion Modeling of LAPAN-A3 Multispectral Imager Based on Satellite Attitude. The 4th International Symposium on LISAT 2017. HakimP. R. SyafrudinA. H. UtamaS. 2017 Band Co-registration Distortion Modeling of LAPAN-A3 Multispectral Imager Based on Satellite Attitude The 4th International Symposium on LISAT 2017 10.1088/1755-1315/149/1/012060 Search in Google Scholar

Hantson S., Chuvieco E., 2011. Evaluation of different topographic correction methods for landsat imagery. International Journal of Applied Earth Observation and Geoinformation 13(5): 691–700. DOI 10.1016/j.jag.2011.05.001. HantsonS. ChuviecoE. 2011 Evaluation of different topographic correction methods for landsat imagery International Journal of Applied Earth Observation and Geoinformation 13 5 691 700 10.1016/j.jag.2011.05.001 Open DOISearch in Google Scholar

Hasbi W., Suhermanto 2013. Development of LAPAN-A3 / IPB Satellite an Experimental Remote Sensing Microsatellite. In: 34th Asian Conference on Remote Sensing 2013. Online: a-a-r-s.org/acrs/index.php/acrs/acrs-overview/proceedings-1?view=publication&task=-show&id=1365. HasbiW. Suhermanto 2013 Development of LAPAN-A3 / IPB Satellite an Experimental Remote Sensing Microsatellite In: 34th Asian Conference on Remote Sensing 2013 Online: a-a-r-s.org/acrs/index.php/acrs/acrs-overview/proceedings-1?view=publication&task=-show&id=1365. Search in Google Scholar

Holben B. N., Justice C.O., 1980. The Topographic Effect on Spectral Response from Nadir-Pointing Sensors. Photogrammetric Engineering & Remote Sensing 46: 1191–1200. HolbenB. N. JusticeC.O. 1980 The Topographic Effect on Spectral Response from Nadir-Pointing Sensors Photogrammetric Engineering & Remote Sensing 46 1191 1200 Search in Google Scholar

Itten K. I., Meyer P., 1993. Geometric and Radiometric Correction of TM Data of Mountainous Forested Areas. IEEE Transactions on Geoscience and Remote Sensing 31(4): 764–770. IttenK. I. MeyerP. 1993 Geometric and Radiometric Correction of TM Data of Mountainous Forested Areas IEEE Transactions on Geoscience and Remote Sensing 31 4 764 770 10.1109/IGARSS.1992.578660 Search in Google Scholar

Japan Aerosapce Exploration Agency, E. O. R. C., 1997. ALOS Global Digital Surface Model ‘ALOS World 3D – 30m (AW3D30)’ – Product Description. Japan Aerospace Exploration Agency. Online: www.eorc.jaxa.jp/ALOS/en/aw3d30/. Japan Aerosapce Exploration Agency, E. O. R. C. 1997 ALOS Global Digital Surface Model ‘ALOS World 3D – 30m (AW3D30)’ – Product Description Japan Aerospace Exploration Agency Online: www.eorc.jaxa.jp/ALOS/en/aw3d30/. Search in Google Scholar

JAXA, 2017. ALOS Global Digital Surface Model (DSM) “ALOS World 3D-30m” (AW3D30) Dataset Product Format Description Earth Observation Research Center (EORC), Japan Aerospace Exploration Agency (JAXA). JAXA 2017 ALOS Global Digital Surface Model (DSM) “ALOS World 3D-30m” (AW3D30) Dataset Product Format Description Earth Observation Research Center (EORC), Japan Aerospace Exploration Agency (JAXA) Search in Google Scholar

Jensen J. R., 2005. Introductory Digital Image Processing: A Remote Sensing Perspective. 3rd Ed. Pearson Education. JensenJ. R. 2005 Introductory Digital Image Processing: A Remote Sensing Perspective 3rd Ed. Pearson Education Search in Google Scholar

Judianto C. T., Nasser E. N., 2015. The Analysis of LAPAN-A3/IPB Satellite Image Data Simulation Using High Data Rate Modem. Procedia Environmental Sciences 24: 285–296. DOI 10.1016/j.proenv.2015.03.037. JudiantoC. T. NasserE. N. 2015 The Analysis of LAPAN-A3/IPB Satellite Image Data Simulation Using High Data Rate Modem Procedia Environmental Sciences 24 285 296 10.1016/j.proenv.2015.03.037 Open DOISearch in Google Scholar

Justice C. O., Wharton S. W., Holben B. N., 1981. Application of digital terrain data to quantify and reduce the topographic effect on landsat data. International Journal of Remote Sensing 2(3): 213–230. JusticeC. O. WhartonS. W. HolbenB. N. 1981 Application of digital terrain data to quantify and reduce the topographic effect on landsat data International Journal of Remote Sensing 2 3 213 230 10.1080/01431168108948358 Search in Google Scholar

Kawata Y., Ueno S., Kusaka T., 1988. Radiometric correction for atmospheric and topographic effects on landsat mss images. International Journal of Remote Sensing 9(4): 1–2. KawataY. UenoS. KusakaT. 1988 Radiometric correction for atmospheric and topographic effects on landsat mss images International Journal of Remote Sensing 9 4 1 2 10.1080/01431168808954889 Search in Google Scholar

Kobayashi S., Sanga-Ngoie K., 2008. The integrated radiometric correction of optical remote sensing imageries. International Journal of Remote Sensing 29 (20): 5957–5985. KobayashiS. Sanga-NgoieK. 2008 The integrated radiometric correction of optical remote sensing imageries International Journal of Remote Sensing 29 20 5957 5985 10.1080/01431160701881889 Search in Google Scholar

Law K. H., Nichol J., 2004. Topographic correction for differential illumination effects on ikonos satellite imagery. XXth ISPRS Congress, XXXV Part: 641–646. LawK. H. NicholJ. 2004 Topographic correction for differential illumination effects on ikonos satellite imagery XXth ISPRS Congress, XXXV Part 641 646 Search in Google Scholar

Li M., Im J., Beier C., 2013. Machine learning approaches for forest classification and change analysis using multi-temporal Landsat TM images over Huntington Wildlife Forest. GIScience and Remote Sensing 50(4): 361–384. LiM. ImJ. BeierC. 2013 Machine learning approaches for forest classification and change analysis using multi-temporal Landsat TM images over Huntington Wildlife Forest GIScience and Remote Sensing 50 4 361 384 10.1080/15481603.2013.819161 Search in Google Scholar

Minnaert M., 1941. The reciprocity principle in lunar photometry. The Astrophysical Journal 93(2): 403–410. MinnaertM. 1941 The reciprocity principle in lunar photometry The Astrophysical Journal 93 2 403 410 10.1086/144279 Search in Google Scholar

Mishra V. D., Sharma J. K., Singh K. K., Thakur N. K., Kumar M., 2009. Assessment of different topographic corrections in AWiFS satellite imagery of Himalaya terrain. Journal of Earth System Science 118(1): 11–26. MishraV. D. SharmaJ. K. SinghK. K. ThakurN. K. KumarM. 2009 Assessment of different topographic corrections in AWiFS satellite imagery of Himalaya terrain Journal of Earth System Science 118 1 11 26 10.1007/s12040-009-0002-0 Search in Google Scholar

Nichol J., Hang L. K., 2013. The Influence of DEM Accuracy on Topographic Correction of Ikonos Satellite Images. Photogrammetric Engineering & Remote Sensing 74(1): 47–53. NicholJ. HangL. K. 2013 The Influence of DEM Accuracy on Topographic Correction of Ikonos Satellite Images Photogrammetric Engineering & Remote Sensing 74 1 47 53 10.14358/PERS.74.1.47 Search in Google Scholar

Nugroho J. T., Zylshal Z., Kushardono D., 2018. LAPAN-A3 Satellite Data Analysis for Land Cover Classificationb (Case Study: Toba Lake Area, North Sumatra). International Journal of Remote Sensing and Earth Sciences 15(1): 71–80. NugrohoJ. T. ZylshalZ. KushardonoD. 2018 LAPAN-A3 Satellite Data Analysis for Land Cover Classificationb (Case Study: Toba Lake Area, North Sumatra) International Journal of Remote Sensing and Earth Sciences 15 1 71 80 10.30536/j.ijreses.2018.v15.a2782 Search in Google Scholar

Parker J. A, Kenyon R. V. and Troxel D. E., 1983. Comparison of interpolation methods for image resampling. IEEE Transactions on Medical Imaging 2(1): 31–39. ParkerJ. A KenyonR. V. TroxelD. E. 1983 Comparison of interpolation methods for image resampling IEEE Transactions on Medical Imaging 2 1 31 39 10.1109/TMI.1983.430761018234586 Search in Google Scholar

Phiri D., Morgenroth J., Xu C., Hermosilla T., 2018. Effects of pre-processing methods on Landsat OLI-8 land cover classification using OBIA and random forests classifier. International Journal of Applied Earth Observation and Geoinformation 73: 170–178. PhiriD. MorgenrothJ. XuC. HermosillaT. 2018 Effects of pre-processing methods on Landsat OLI-8 land cover classification using OBIA and random forests classifier International Journal of Applied Earth Observation and Geoinformation 73 170 178 10.1016/j.jag.2018.06.014 Search in Google Scholar

Pimple U., Sitthi A., Simonetti D., Pungkul S., Leadprathom K., Chidthaisong A., 2017. Topographic correction of Landsat TM-5 and Landsat OLI-8 imagery to improve the performance of forest classification in the mountainous terrain of Northeast Thailand. Sustainability 9(2): 1–26. PimpleU. SitthiA. SimonettiD. PungkulS. LeadprathomK. ChidthaisongA. 2017 Topographic correction of Landsat TM-5 and Landsat OLI-8 imagery to improve the performance of forest classification in the mountainous terrain of Northeast Thailand Sustainability 9 2 1 26 10.3390/su9020258 Search in Google Scholar

Riaño D., Chuvieco E., Salas J., Aguado I., 2003. Assessment of different topographic corrections in landsat-TM data for mapping vegetation types (2003). IEEE Transactions on Geoscience and Remote Sensing 41 (5 PART 1): 1056–1061. RiañoD. ChuviecoE. SalasJ. AguadoI. 2003 Assessment of different topographic corrections in landsat-TM data for mapping vegetation types (2003) IEEE Transactions on Geoscience and Remote Sensing 41 5 PART 1 1056 1061 10.1109/TGRS.2003.811693 Search in Google Scholar

Richards J. A., 1995. Remote Sensing Digital Image Analysis. Berlin/Heidelberg: Springer-Verlag. Online: link.springer.com/10.1007/978-3-642-30062-2 (Accessed 19 September 2017). RichardsJ. A. 1995 Remote Sensing Digital Image Analysis Berlin/Heidelberg Springer-Verlag Online: link.springer.com/10.1007/978-3-642-30062-2 (Accessed 19 September 2017). Search in Google Scholar

Richter R., 1997. Correction of atmospheric and topographic effects for high spatial resolution satellite imagery. International Journal of Remote Sensing 18(5): 1099–1111. RichterR. 1997 Correction of atmospheric and topographic effects for high spatial resolution satellite imagery International Journal of Remote Sensing 18 5 1099 1111 10.1080/014311697218593 Search in Google Scholar

Richter R., Kellenberger T., Kaufmann H., 2009. Comparison of topographic correction methods. Remote Sensing 1(3): 184–196. RichterR. KellenbergerT. KaufmannH. 2009 Comparison of topographic correction methods Remote Sensing 1 3 184 196 10.3390/rs1030184 Search in Google Scholar

Roza W., Amin D. E., Nasser E. N., 2014. Design And Implementation of Payload Data Handling Based on Field Programmable Gate Array. In: 2014 IEEE International Conference on Aerospace Electronics and Remote Sensing Technology (ICARES) Design. Yogyakarta, Indonesia: IEEE: 48–54. RozaW. AminD. E. NasserE. N. 2014 Design And Implementation of Payload Data Handling Based on Field Programmable Gate Array In: 2014 IEEE International Conference on Aerospace Electronics and Remote Sensing Technology (ICARES) Design Yogyakarta, Indonesia: IEEE 48 54 10.1109/ICARES.2014.7024397 Search in Google Scholar

Setiawan Y., Prasetyo L. B., Pawitan H., Liyantono L., Syartinilia S., Wijayanto A. K., Permatasari P. A., Syafrudin A. H., Hakim P. R., 2018. Pemanfaatan Fusi Data Satelit Lapan-a3/Ipb Dan Landsat 8 Untuk Monitoring Lahan Sawah. Jurnal Pengelolaan Sumberdaya Alam dan Lingkungan 8(1): 67–76. SetiawanY. PrasetyoL. B. PawitanH. LiyantonoL. SyartiniliaS. WijayantoA. K. PermatasariP. A. SyafrudinA. H. HakimP. R. 2018 Pemanfaatan Fusi Data Satelit Lapan-a3/Ipb Dan Landsat 8 Untuk Monitoring Lahan Sawah Jurnal Pengelolaan Sumberdaya Alam dan Lingkungan 8 1 67 76 10.29244/jpsl.8.1.67-76 Search in Google Scholar

Shao Y., Li G. L., Guenther E., Campbell J. B., 2015. Evaluation of Topographic Correction on Subpixel Impervious Cover Mapping with CBERS-2B Data. IEEE Geoscience and Remote Sensing Letters 12(8): 1675–1679. ShaoY. LiG. L. GuentherE. CampbellJ. B. 2015 Evaluation of Topographic Correction on Subpixel Impervious Cover Mapping with CBERS-2B Data IEEE Geoscience and Remote Sensing Letters 12 8 1675 1679 10.1109/LGRS.2015.2419135 Search in Google Scholar

Soenen S. A., Peddle D. R., Coburn C. A., Hall R. J., Hall F. G., 2008. Improved topographic correction of forest image data using a 3-D canopy reflectance model in multiple forward mode. International Journal of Remote Sensing 29(4): 1007–1027. SoenenS. A. PeddleD. R. CoburnC. A. HallR. J. HallF. G. 2008 Improved topographic correction of forest image data using a 3-D canopy reflectance model in multiple forward mode International Journal of Remote Sensing 29 4 1007 1027 10.1080/01431160701311291 Search in Google Scholar

Tahir A. M., Hakim P. R., Syafruddin A. H., Cagak J., Km S., Indonesia B., 2016. Image-Focusing Quality Improvement on Lapan-A3 Satellite Multispectral Imager. Jurnal Teknologi Dirgantara 14(1): 37–50. TahirA. M. HakimP. R. SyafruddinA. H. CagakJ. KmS. IndonesiaB. 2016 Image-Focusing Quality Improvement on Lapan-A3 Satellite Multispectral Imager Jurnal Teknologi Dirgantara 14 1 37 50 10.30536/j.jtd.2016.v14.a2566 Search in Google Scholar

Takaku J., Tadono T., 2017. Quality updates of ‘AW3D’ global DSM generated from ALOS PRISM. 2017 IEEE International Geoscience and Remote Sensing Symposium (IGARSS): 5666–5669. TakakuJ. TadonoT. 2017 Quality updates of ‘AW3D’ global DSM generated from ALOS PRISM 2017 IEEE International Geoscience and Remote Sensing Symposium (IGARSS) 5666 5669 10.1109/IGARSS.2017.8128293 Search in Google Scholar

Takaku J., Tadono T., Tsutsui K., Ichikawa M., 2016. Validation of ‘Aw3D’ Global Dsm Generated From Alos Prism. ISPRS Annals of Photogrammetry, Remote Sensing and Spatial Information Sciences III–4 (July): 25–31. TakakuJ. TadonoT. TsutsuiK. IchikawaM. 2016 Validation of ‘Aw3D’ Global Dsm Generated From Alos Prism ISPRS Annals of Photogrammetry, Remote Sensing and Spatial Information Sciences III–4 July 25 31 10.5194/isprsannals-III-4-25-2016 Search in Google Scholar

Teillet P. M., Guindon B., Goodenough D. G., 1982. On the slope-aspect correction of multispectral scanner data. Canadian Journal of Remote Sensing 8(2): 84–106. TeilletP. M. GuindonB. GoodenoughD. G. 1982 On the slope-aspect correction of multispectral scanner data Canadian Journal of Remote Sensing 8 2 84 106 10.1080/07038992.1982.10855028 Search in Google Scholar

Triharjanto R. H., Nur Ubay M. S., Utama S., Poetro R. E., 2016. Evaluation of attitude dynamic module on LAPAN-ITB micro-satellite simulator. In: Proceedings of the 2015 IEEE International Conference on Aerospace Electronics and Remote Sensing, ICARES 2015. Bali, Indonesia: IEEE. TriharjantoR. H. Nur UbayM. S. UtamaS. PoetroR. E. 2016 Evaluation of attitude dynamic module on LAPAN-ITB micro-satellite simulator In: Proceedings of the 2015 IEEE International Conference on Aerospace Electronics and Remote Sensing, ICARES 2015 Bali, Indonesia: IEEE 10.1109/ICARES.2015.7429815 Search in Google Scholar

Vanonckelen S., Lhermitte S., Balthazar V., Van Rompaey A., 2014. Performance of atmospheric and topographic correction methods on Landsat imagery in mountain areas. International Journal of Remote Sensing 35(13): 4952–4972. VanonckelenS. LhermitteS. BalthazarV. Van RompaeyA. 2014 Performance of atmospheric and topographic correction methods on Landsat imagery in mountain areas International Journal of Remote Sensing 35 13 4952 4972 10.1080/01431161.2014.933280 Search in Google Scholar

Vanonckelen S., Lhermitte S., Van Rompaey A., 2013. The effect of atmospheric and topographic correction methods on land cover classification accuracy. International Journal of Applied Earth Observation and Geoinformation 24(1): 9–21. DOI 10.1016/j.jag.2013.02.003. VanonckelenS. LhermitteS. Van RompaeyA. 2013 The effect of atmospheric and topographic correction methods on land cover classification accuracy International Journal of Applied Earth Observation and Geoinformation 24 1 9 21 10.1016/j.jag.2013.02.003 Open DOISearch in Google Scholar

Vázquez-Jiménez R., Romero-Calcerrada R., Ramos-Bernal R., Arrogante-Funes P., Novillo C., 2017. Topographic Correction to Landsat Imagery through Slope Classification by Applying the SCS + C Method in Mountainous Forest Areas. ISPRS International Journal of Geo-Information 6(9): 287. Vázquez-JiménezR. Romero-CalcerradaR. Ramos-BernalR. Arrogante-FunesP. NovilloC. 2017 Topographic Correction to Landsat Imagery through Slope Classification by Applying the SCS + C Method in Mountainous Forest Areas ISPRS International Journal of Geo-Information 6 9 287 10.3390/ijgi6090287 Search in Google Scholar

Vincini M., Frazzi E., 2003. Multitemporal Evaluation of Topographic Normalization Methods on Decidous Forest TM Data. IEEE Transactions on Geoscience and Remote Sensing 41(11): 2586–2590. VinciniM. FrazziE. 2003 Multitemporal Evaluation of Topographic Normalization Methods on Decidous Forest TM Data IEEE Transactions on Geoscience and Remote Sensing 41 11 2586 2590 10.1109/TGRS.2003.817416 Search in Google Scholar

Wu J., Bauer M. E., Wang D., Manson S. M., 2008. A comparison of illumination geometry-based methods for topographic correction of QuickBird images of an undulant area. ISPRS Journal of Photogrammetry and Remote Sensing 63(2): 223–236. WuJ. BauerM. E. WangD. MansonS. M. 2008 A comparison of illumination geometry-based methods for topographic correction of QuickBird images of an undulant area ISPRS Journal of Photogrammetry and Remote Sensing 63 2 223 236 10.1016/j.isprsjprs.2007.08.004 Search in Google Scholar

Zhang W., Gao Y., 2011. Topographic correction algorithm for remotely sensed data accounting for indirect irradiance. International Journal of Remote Sensing 32(7): 1807–1824. ZhangW. GaoY. 2011 Topographic correction algorithm for remotely sensed data accounting for indirect irradiance International Journal of Remote Sensing 32 7 1807 1824 10.1080/01431161003623441 Search in Google Scholar

Zylshal Z., 2019. Performance evaluation of different DEMs for topographic correction on LAPAN-A3: preliminary results. In: Sixth Geoinformation Science Symposium SPIE: 159–167. ZylshalZ. 2019 Performance evaluation of different DEMs for topographic correction on LAPAN-A3: preliminary results In: Sixth Geoinformation Science Symposium SPIE 159 167 10.1117/12.2543437 Search in Google Scholar

Zylshal Z., Sari N. M. N. M., Nugroho J. T. J. T., Kushardono D., 2017. Comparison of Spectral Characteristic between LAPAN-A3 and Sentinel-2A. IOP Conference Series: Earth and Environmental Science 98(1): 012051. ZylshalZ. SariN. M. N. M. NugrohoJ. T. J. T. KushardonoD. 2017 Comparison of Spectral Characteristic between LAPAN-A3 and Sentinel-2A IOP Conference Series: Earth and Environmental Science 98 1 012051 10.1088/1755-1315/98/1/012051 Search in Google Scholar

Zylshal Z., Wirawan R. R., Kushardono D., 2018. Assessing the Potential of LAPAN-A3 Data for Landuse/landcover Mapping. Indonesian Journal of Geography 50(2): 184–196. DOI 10.22146/ijg.31449. ZylshalZ. WirawanR. R. KushardonoD. 2018 Assessing the Potential of LAPAN-A3 Data for Landuse/landcover Mapping Indonesian Journal of Geography 50 2 184 196 10.22146/ijg.31449 Open DOISearch in Google Scholar