光谱学与光谱分析 |
|
|
|
|
|
Review of Digital Ground Object Spectral Library |
ZHOU Xiao-hu1, 2,ZHOU Ding-wu1, 3 |
1. Department of Geology, Northwest University, Xi’an 710069, China 2. State Key Laboratory of Continental Dynamics, Northwest University, Xi’an 710069, China 3. College of Geosciences and Technology, Shandong University of Science and Technology, Qingdao 266510, China |
|
|
Abstract A higher spectral resolution is the main direction of developing remote sensing technology, and it is quite important to set up the digital ground object reflectance spectral database library, one of fundamental research fields in remote sensing application. Remote sensing application has been increasingly relying on ground object spectral characteristics, and quantitative analysis has been developed to a new stage. The present article summarized and systematically introduced the research status quo and development trend of digital ground object reflectance spectral libraries at home and in the world in recent years. Introducing the spectral libraries has been established, including desertification spectral database library, plants spectral database library, geological spectral database library, soil spectral database library, minerals spectral database library, cloud spectral database library, snow spectral database library, the atmosphere spectral database library, rocks spectral database library, water spectral database library, meteorites spectral database library, moon rock spectral database library, and man-made materials spectral database library, mixture spectral database library, volatile compounds spectral database library, and liquids spectral database library. In the process of establishing spectral database libraries, there have been some problems, such as the lack of uniform national spectral database standard and uniform standards for the ground object features as well as the comparability between different databases. In addition, data sharing mechanism can not be carried out, etc. This article also put forward some suggestions on those problems.
|
Received: 2007-12-28
Accepted: 2008-03-29
|
|
Corresponding Authors:
ZHOU Xiao-hu
E-mail: zhouxiaohu993@sina.com
|
|
[1] YI Wei-ning, LU Yi-huai, LUO Ming(易维宁, 陆亦怀, 罗 明). Optoelectronic Technology & Information(光电子技术与信息), 1998, 11(5): 25. [2] Adams J B, Berry L G, Clark R N. JPL Open File Report, 2005. [3] Clark R N, Swayze G A, Wise R. USGS Open File Report 03-395, 2003. [4] Simon J Hook. JPL Open File Report, 2006. [5] TIAN Qing-jiu, GONG Peng(田庆久, 宫 鹏). Remote Sensing Information(遥感信息), 2002, (3): 2. [6] TONG Qing-xi, TIAN Guo-liang(童庆禧, 田国良). Spectra and Analysis of Typical Earth Objects of China(中国典型地物波谱及其特征分析). Beijing: Science Press(北京: 科学出版社), 1990. 45. [7] Kondratyev A A, Buznikov O B, et al. Dokl. Akad. Nack. Ukr. SSR, 1971, 197(5): 1066. [8] Stoner E R. Am. J. Soil Science, 1981, 45: 115. [9] Anne B Kahle, Madnra D P, Soha J M. Applied Optics, 1980, 19: 2179. [10] Willam Collins, et al. Economic Geology, 1983, 78: 737. [11] DAI Chang-da(戴昌达). The Application of Remote Sensing Technology in Soil and Water Resources(遥感技术在土壤和水资源研究中的应用). Beijing: Science Press(北京: 科学出版社), 1981. 73. [12] Becker F. Angular Reflecttivity and Emissivity of Natural Media in the Thermal in the Thermal Infrared Bands. In Proceeding of the First International Collquim on Spectral Signature of Objects in Remote Sensing, Avignon, France, Septmber, 1981. 57. [13] Grove C I, Hook S J, Paylor E D. JPL Publication 92-2, Jet Propulsion Laboratory, USA:Padadena, CA, 1992. [14] Salisbury J W, Walter L S, Vergo N, et al. Infrared(2.1~25 μm) Spectra of Minerals. Hopkins: Johns Hopkins University Press, 1991. [15] Weguller U. Int. Journal Remote Sens. 1993, 14(5): 15. [16] Wegmuler C, Matzler R Huppi, Schanda E. IEEE Transaction. On Geosci. and Remote Sens., 1994, 32(3): 32. [17] d’Auria G. et al. Radio Sci, 1998, 33(2): 21. [18] Bhattacharya B B, Majumdar T J. Int. Journal of Remote Sens., 1990, 11(4): 140. [19] Roger N Clark1, Gregg A Swayzel, Richard Wisel, et al. USGS Open File Report, 2003. [20] Wharton S W. IEEE Transactions on Geoscience and Remote Sensing, 1987, 25(3): 272. [21] LI Xiao-wen(李小文). Remote Sensing of Environment China(环境遥感), 1989, 4(1): 67. [22] Clark R N, King T V V, Klejwa M. J. Geophys. Res., 1995, 110: 12653. [23] Lang H R, Bartholomew M J, Grove C I. Journal Sedimentary Petrology, 1990, 60(4): 504. [24] Kahle A B, Goetz A F H. Preceedings of 15th International Symposium on Remote Sensing of Environment, 1981. 332. [25] Clark R N, King T V V, Klejwa M. Journal of Geophysical Research, 1990, 95(B-8): 12653. [26] U. S. Environmental Protection Agency. AEDC/EPA Spectral Database,2006. [27] Clark B E, Fanale F P, Salisbury J W. Johns Hopkins University Spectral Library,2006. [28] Korb A R, Dybwad P, Wadsworth W. Applied Optics, 1996, 35: 1679. [29] Salisbury J W, D'Aria D M. Journal of Geophys. Res. 1994, 99: 24, 235. [30] Salisbury J W, D′Aria D M, Jarosevich E. Icarus, 1991, 92(2): 280. [31] Salisbury J W, Walter L S, Vergo N. Johns Hopkins University Press, 1991b. 294. [32] CHEN Shu-peng(陈述彭). The Exploration of Geoscience. Volume 4, Geography Information System(地学的探索·第四卷,地理信息系统). Beijing: Science Press(北京: 科学出版社), 1992. 96. [33] Center for Space Science and Technology of Chinese Academy of Sciences(中国科学院空间科学技术中心编). Data Compilation of Chinese Earth Resources Spectral Information(中国地球资源光谱信息资料汇编). Beijing: Energy Press(北京: 能源出版社), 1987. 24. [34] ZHANG Hou-ying, GONG Wang-sheng(张厚英, 龚望生). Brief Introduction to the Research Centers of Chinese Academy of Sciences(中国科学院对外开放实验室简介). Beijing: Science Press(北京: 科学出版社), 1992. 182. [35] CHEN Shu-peng, TONG Qing-xi, GUO Hua-dong(陈述彭, 童庆禧, 郭华东). Mechanism of Remote Sensing Information(遥感信息机理研究). Beijing: Science Press(北京: 科学出版社), 1998. 114. [36] TIAN Qing-jiu, YU Tao, ZHENG Lan-fen(田庆久, 余 涛, 郑兰芬). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 1997, 17(6): 113. [37] Institute of Mountain Hazards and Environment(CAS)(中国科学院水利部成都山地灾害与环境研究所). The Application of Remote Sensing, Map, GIS in Resources and Environment(遥感·地图·地理信息系统在资源与环境研究中的应用). Chengdu: Chengdu Maps Press(成都: 成都地图出版社), 1991. 285. [38] LI Xiao-wen, WANG Jun-fa, WANG Jin-di(李小文, 王骏发, 王锦地). Multiangle and Thermal Infrared Remote Sensing(多角度与热红外对地遥感). Beijing: Science Press(北京: 科学出版社), 2001. [39] WAN Yu-qing, ZHANG Feng-li, YAN Yong-zhong(万余庆, 张凤丽, 闫永忠). Remote Sensing for Land & Resources(国土资源遥感), 2003, (3): 10. [40] WAN Yu-qing, ZHANG Feng-li, YAN Yong-zhong(万余庆, 张凤丽, 闫永忠). Geo-Information Science(地球信息科学), 2001, 3(3): 54. [41] WAN Yu-qing, ZHANG Feng-li, YAN Yong-zhong (万余庆, 张凤丽, 闫永忠). Remote Sensing for Land & Resources(国土资源遥感), 2002, (1): 47. [42] CUI Ting-wei, ZHANG Jie, MA Yi(崔廷伟,张 杰,马 毅). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2006,26(5),884. [43] Center for Remote Sensing in Geology of the Ministry of Geology and Mineral Resources(地质矿产部地质遥感中心编). Arborne Thermal-Infrared Remote Sensing Image Album(航空热红外遥感图像集). Beijing: Geological Publishing House(北京: 地质出版社), 1988. 33. [44] BAO Yi-dan, HE Yong, FANG Hui(鲍一丹,何 勇,方 慧). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2007,27(1): 62. [45] PENG Wen-shi, LIU Gao-kui(彭文世, 刘高魁). Album of Mineral Infrared Spectras(矿物红外光谱图集). Beijing: Science Press(北京: 科学出版社), 1982. 28. [46] ZHANG Yan, BO Li-qun, LU Xing-chang(张 妍, 薄立群, 路兴昌). Remote Sensing Information(遥感信息), 2002, (6): 25. [47] XUN Yu-long(荀毓龙). The Fundamental Experimentation and Application of Remote Sensing(遥感基础实验与应用). Beijing: Chinese Science and Technology Publishing House(北京: 中国科学技术出版社), 1991. 61. [48] LIU Qing-hui(刘庆辉). Collection of Chinese Technology Achievements(中国技术成果大全). Beijing: Scientific and Technical Documents Publishing House(北京: 科学技术文献出版社), 1992. 192. [49] Bureau of Comprehensive Planning of the Chinese Academy of Sciences(中国科学院计划局编). Collection of Applications Achievements of Chinese Academy of Sciences(中国科学院应用性科技成果简介汇编). Beijing: Science Press(北京: 科学出版社), 1992. 104. [50] JIANG Jun-lu, XIN Xi-meng(姜均露, 辛希孟). Florilegium of National Key Scientific and Technological Project Achievements in the Seventh Five-Years Plan(国家“七五”科技攻关项目重大成果简介选编). Beijing: Chemical Industry Press(北京: 化学工业出版社), 1993. 630. [51] ZHANG Ti-yuan, ZHANG Zu-yin, LI Qing-xia(张惕远, 张祖荫, 李青侠). Journal of Huazhong University of Science & Technology(华中理工大学学报), 1999, 27(8): 98. [52] ZHENG Han-lin, DENG Tao, HAO Jian-zhong(郑汉麟, 邓 涛, 郝建中). Ground Object Microwave Spectral Library. In: Proceedings of the 7th National Remote Sensing Technology Congress(第七届全国遥感技术学术交流会论文集). 1991. 248. [53] SU Li-hong, LI Xiao-wen, LIANG Shun-lin(苏理宏, 李小文, 梁顺林). Geo-Information Science(地球信息科学), 2002, 4: 7.
|
[1] |
HE Qing-yuan1, 2, REN Yi1, 2, LIU Jing-hua1, 2, LIU Li1, 2, YANG Hao1, 2, LI Zheng-peng1, 2, ZHAN Qiu-wen1, 2*. Study on Rapid Determination of Qualities of Alfalfa Hay Based on NIRS[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(12): 3753-3757. |
[2] |
LIU Wei1, 2, ZHANG Peng-yu1, 2, WU Na1, 2. The Spectroscopic Analysis of Corrosion Products on Gold-Painted Copper-Based Bodhisattva (Guanyin) in Half Lotus Position From National Museum of China[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(12): 3832-3839. |
[3] |
LIU Wen-bo, LIU Jin, HAN Tong-shuai*, GE Qing, LIU Rong. Simulation of the Effect of Dermal Thickness on Non-Invasive Blood Glucose Measurement by Near-Infrared Spectroscopy[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(09): 2699-2704. |
[4] |
FENG Hai-kuan1, 2, YUE Ji-bo3, FAN Yi-guang2, YANG Gui-jun2, ZHAO Chun-jiang1, 2*. Estimation of Potato Above-Ground Biomass Based on VGC-AGB Model and Hyperspectral Remote Sensing[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(09): 2876-2884. |
[5] |
JIN Chun-bai1, YANG Guang1*, LU Shan2*, LIU Wen-jing1, LI De-jun1, ZHENG Nan1. Band Selection Method Based on Target Saliency Analysis in Spatial Domain[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(09): 2952-2959. |
[6] |
GAO Yu1, SUN Xue-jian1*, LI Guang-hua2, ZHANG Li-fu1, QU Liang2, ZHANG Dong-hui1, CHANG Jing-jing2, DAI Xiao-ai3. Study on the Derivation of Paper Viscosity Spectral Index Based on Spectral Information Expansion[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(09): 2960-2966. |
[7] |
KONG Bo1, YU Huan2*, SONG Wu-jie2, 3, HOU Yu-ting2, XIANG Qing2. Hyperspectral Characteristics and Quantitative Remote Sensing Inversion of Gravel Grain Size in the North Tibetan Plateau[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(08): 2381-2390. |
[8] |
ZHANG Xia1, WANG Wei-hao1, 2*, SUN Wei-chao1, DING Song-tao1, 2, WANG Yi-bo1, 2. Soil Zn Content Inversion by Hyperspectral Remote Sensing Data and Considering Soil Types[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(07): 2019-2026. |
[9] |
WANG Hui-min1, 2, YU Lei1, XU Kai-lei1, 2, JIANG Xiao-guang1, 2, WAN Yu-qing1, 2*. Estimation of Salt Content of Saline Soil in Arid Areas Based on GF-5 Hyperspectral Image[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(07): 2278-2286. |
[10] |
CAO Yang1, 2, LI Yan-hong1, 2*. Study on the Effects of NO2 Pollution Under COVID-19 Epidemic
Prevention and Control in Urumqi[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(06): 1981-1987. |
[11] |
YAN Xue-jun1, ZHOU Yang2, HU Dan-jing1, YU Dan-yan1, YU Si-yi1, YAN Jun1*. Application of UV-VIS Diffuse Reflectance Spectrum, Raman and
Photoluminescence Spectrum Technology in Nondestructive
Testing of Yellow Pearl[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(06): 1703-1710. |
[12] |
CHEN Xiao-li1, LI You-li1, LI Wei3, WANG Li-chun1, GUO Wen-zhong1, 2*. Effects of Red and Blue LED Lighting Modes on Spectral Characteristics and Coloring of Tomato Fruit[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(06): 1809-1814. |
[13] |
ZHANG Chao1*, SU Xiao-yu1, XIA Tian2, YANG Ke-ming3, FENG Fei-sheng4. Monitoring the Degree of Pollution in Different Varieties of Maize Under Copper and Lead Stress[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(04): 1268-1274. |
[14] |
WANG Qiang-hui, SHEN Xue-ju, ZHOU Bing*, HUA Wen-shen, YING Jia-ju, ZHAO Jia-le. Land-Based Hyperspectral Imaging and Core Drive Model for Ground
Object Classification[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(02): 614-622. |
[15] |
YAN Jun1, FANG Shi-bin1, YAN Xue-jun1, SHENG Jia-wei2, XU Jiang1, XU Chong3, ZHANG Jian2*. Study on the Common Effect of Heat Treatment, Dyeing or Irradiation Treatment on UV-Vis Diffuse Reflectance Spectra of Pearls[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2022, 42(12): 3697-3702. |
|
|
|
|