The brightness reversal of submarine sand waves in “HJ-1A/B” CCD sun glitter images

The brightness reversal of submarine sand waves appearing in the small satellite constellation for environ- ment and disaster monitoring and forecasting （＂HJ- 1A/B＂） CCD sun glitter images can affect the observation and depth inversion of sand wave topography. The simulations of the normalized sun glitter radiance on the submarine sand waves confirm that the reversal would happen at a specific sensor viewing angle, defined as the critical angle. The difference between the calculated critical angle position and the reversal position in the image is about 1＇, which is excellent in agreement. Both the simulation and actual image show that sand wave crests would be indistinct at the reversal position, which may cause problems when using these sun glitter images to analyze spatial characteristics and migration of sand waves. When using the sun glitter image to obtain the depth inversion, one should take the advantage of image properties of sand waves and choose the location in between the reversal position and the brightest position. It is also necessary to pay attention to the brightness reversal when using ＂HI-1A/B＂ CCD images to analyze other oceanic features, such as internal waves, oil slicks, eddies, and ship wakes.

Phenological metrics-based crop classification using HJ-1 CCD images and Landsat 8 imagery

Crop type data are an important piece of information for many applications in agriculture.Extracting crop type using remote sensing is not easy because multiple crops are usually planted into small parcels with limited availability of satellite images due to weather conditions.In this research,we aim at producing crop maps for areas with abundant rainfall and small-sized parcels by making full use of Landsat 8 and HJ-1 charge-coupled device(CCD)data.We masked out non-vegetation areas by using Landsat 8 images and then extracted a crop map from a longterm time-series of HJ-1 CCD satellite images acquired at 30-m spatial resolution and two-day temporal resolution.To increase accuracy,four key phenological metrics of crops were extracted from time-series Normalized Difference Vegetation Index curves plotted from the HJ-1 CCD images.These phenological metrics were used to further identify each of the crop types with less,but easier to access,ancillary field survey data.We used crop area data from the Jingzhou statistical yearbook and 5.8-m spatial resolution ZY-3 satellite images to perform an accuracy assessment.The results show that our classification accuracy was 92%when compared with the highly accurate but limited ZY-3 images and matched up to 80%to the statistical crop areas.

纹理特征对松林郁闭度的判别能力研究

郁闭度具有获取便捷的特点,是森林资源调查的基本因子之一,也是检测森林状态、检验营林效果的重要指标,并已成为许多重要特征遥感反演的基础数据。另一方面,纹理特征成为遥感信息挖掘的重要方向,并被用于判别单纯依靠光谱特征无法有效识别的信息,但纹理的应用范围与可行性仍缺乏验证。以福建省三明市、将乐县、沙县、延平区4县(市、区)HJ-1 CCD多光谱数据及实测松林郁闭度为主要数据,基于灰度共生矩阵法提取均值、方差、协同性、对比度、相异性、熵、角二阶矩及相关性等8类纹理特征(共计32个),利用单因素方差分析法筛选24个对松林郁闭度变化有所响应的纹理,并分别以单个、单类纹理特征及多纹理特征联合为自变量,建立极弱度郁闭林、弱度郁闭林与中度郁闭林的Fisher判别函数。结果表明,单个纹理特征对松林郁闭度的判别能力普遍较差,仅COR_2、COR_4、CON_1、CON_2判别精度高于50%;单类纹理特征对郁闭度的判别能力有所提高,均值、方差、对比度的判别精度高于50%,而相关性的判别精度可达62.7%;多纹理特征联合对松林郁闭度有更高的判别能力,精度达74.6%。由此证明,纹理具备郁闭度的响应能力,在其他特征的遥感反演过程中可以应用,但需要深入挖掘其相关性与响应机制。