多维遥感数据时空谱一体化存储结构设计

张立福; 陈浩; 孙雪剑; 付东杰; 童庆禧

doi:10.11834/jrs.20176091

浏览量 : 0 下载量: 177 CSCD: 7 更多指标

PDF
导出
分享
收藏
专辑

多维遥感数据时空谱一体化存储结构设计
Designing spatial-temporal-spectral integrated storage structure of multi-dimensional remote sensing images
2017年21卷第1期页码：62-73
纸质出版日期： 2017-1 ，
DOI： 10.11834/jrs.20176091

扫描看全文

张立福, 陈浩, 孙雪剑, 等. 多维遥感数据时空谱一体化存储结构设计[J]. 遥感学报, 2017,21(1):62-73.

Lifu ZHANG, Hao CHEN, Xuejian SUN, et al. Designing spatial-temporal-spectral integrated storage structure of multi-dimensional remote sensing images[J]. Journal of Remote Sensing, 2017,21(1):62-73.
张立福, 陈浩, 孙雪剑, 等. 多维遥感数据时空谱一体化存储结构设计[J]. 遥感学报, 2017,21(1):62-73. DOI： 10.11834/jrs.20176091.

Lifu ZHANG, Hao CHEN, Xuejian SUN, et al. Designing spatial-temporal-spectral integrated storage structure of multi-dimensional remote sensing images[J]. Journal of Remote Sensing, 2017,21(1):62-73. DOI： 10.11834/jrs.20176091.

摘要

卫星遥感技术为我们研究全球变化提供了时间、空间、光谱多维度的海量遥感大数据，目前还没有一种针对遥感数据的多维度的特性设计的一体化存储结构。本文提出了一种多维遥感数据的组织方式，设计了SPAtial-Temporal-Spectral(SPATS)时空谱多维遥感数据一体化存储结构，定义了5种多维数据存储格式：Temporal Sequential in Band(TSB)、Temporal Sequential in Pixel(TSP)、Temporal Interleaved by Band (TIB)、Temporal Interleaved by Pixel (TIP)和Temporal Interleaved by Spectrum (TIS)，设计了Multi-dimensional Data Analysis(MDA)多维数据分析模块，实现了长时间序列遥感影像的时空谱多维一体化存储，并能够进行不同维度的数据分析与显示，构建了基于不同光谱指数的时间谱影像立方体，为时空谱多维遥感数据的综合与表征提供数据组织解决方案。

Abstract

The techniques of satellite remote sensing has been providing massive remote sensing data

however there’s no integrated storage structure specially designed for the characters of remote sensing’s multi-dimensions. In this context

a method of organizing multi-dimensional remote sensing data is proposed

and an integrated storage structure of SPAtial-Temporal-Spectral (SPATS) multi-dimensional remote sensing images is designed with five multi-dimensional storage format defined: Temporal Sequential in Band (TSB)、Temporal Sequential in Pixel (TSP)、Temporal Interleaved by Band (TIB)、Temporal Interleaved by Pixel (TIP) and Temporal Interleaved by Spectrum (TIS). In addition

Based on this structure

a multi-dimensional data analysis module

namely MDA

is designed

which could implement the SPATS integrated storage of long time-series remote sensing imagery

perform data analysis and display

and build temporal image cubes of a variety of spectral indices

providing a solution of organizing data for the synthesis and characterization of SPATS multi-dimensional remote sending images.

关键词

遥感技术一体化存储多维数据结构SPATSMDA

Keywords

remote sensingintegrated storagemulti-dimensional data structureSPATSMDA

references

Galford G L, Mustard J F, Melillo J, Gendrin A, Cerri C C and Cerri C E. 2008. Wavelet analysis of MODIS time series to detect expansion and intensification of row-crop agriculture in Brazil. Remote Sensing of Environment, 112(2): 576–587

Huang C Q, Goward S N, Masek J G, Thomas N, Zhu Z L and Vogelmann J E. 2010. An automated approach for reconstructing recent forest disturbance history using dense Landsat time series stacks. Remote Sensing of Environment, 114(1): 183–198

Irons J R, Dwyer J L and Barsi J A. 2012. The next Landsat satellite: the Landsat data continuity mission. Remote Sensing of Environment, 122: 11–21

Kennedy R E, Yang Z Q and Cohen W B. 2010. Detecting trends in forest disturbance and recovery using yearly Landsat time series: 1. LandTrendr—Temporal segmentation algorithms. Remote Sensing of Environment, 114(12): 2897–2910

Margono B A, Turubanova S, Zhuravleva I, Potapov P, Tyukavina A, Baccini A, Goetz S and Hansen M C. 2012. Mapping and monitoring deforestation and forest degradation in Sumatra (Indonesia) using Landsat time series data sets from 1990 to 2010. Environmental Research Letters, 7(3): 034010

Mouillot F, Schultz M G, Yue C, Cadule P, Tansey K, Ciais P and Chuvieco E. 2014. Ten years of global burned area products from spaceborne remote sensing—A review: analysis of user needs and recommendations for future developments. International Journal of Applied Earth Observation and Geoinformation, 26: 64–79

Powell S L, Cohen W B, Healey S P, Kennedy R E, Moisen G G, Pierce K B and Ohmann J L. 2010. Quantification of live aboveground forest biomass dynamics with Landsat time-series and field inventory data: acomparison of empirical modeling approaches. Remote Sensing of Environment, 114(5): 1053–1068

Roy D P, Jin Y, Lewis P E and Justice C O. 2005. Prototyping a global algorithm for systematic fire-affected area mapping using MODIS time series data. Remote Sensing of Environment, 97(2): 137–162

Sakamoto T, Van Nguyen N, Kotera A, Ohno H, Ishitsuka N and Yokozawa M. 2007. Detecting temporal changes in the extent of annual flooding within the Cambodia and the Vietnamese Mekong Delta from MODIS time-series imagery. Remote Sensing of Environment, 109(3): 295–313

Sakamoto T, Yokozawa M, Toritani H, Shibayama M, Ishitsuka N and Ohno H. 2005. A crop phenology detection method using time-series MODIS data. Remote Sensing of Environment, 96(3/4): 366–374

Townsend P A, Helmers D P, Kingdon C C, McNeil B E, de Beurs K M and Eshleman K N. 2009. Changes in the extent of surface mining and reclamation in the Central Appalachians detected using a 1976-2006 Landsat time series. Remote Sensing of Environment, 113(1): 62–72

Wulder M A, Masek J G, Cohen W B, Loveland T R and Woodcock C E. 2012. Opening the archive: how free data has enabled the science and monitoring promise of Landsat. Remote Sensing of Environment, 122: 2–10

文章被引用时，请邮件提醒。

提交

顾及空间非平稳特征的遥感干旱监测

基于遥感与GIS技术的土地利用时空特征研究