Table of Content

25 April 2011, Volume 40 Issue 2

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学术论文

Object-Oriented Classification of High Resolution Imagery Combining Support Vector Machine with Granular Computing

2011, 40(2):  135-141. 

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A new object-oriented method for classification of high resolution remotely sensed imagery is proposed in the paper, which integrates support vector machine (SVM) technique with rough-set-based granular computing (RSBGC). First, gradient images are obtained by applying phase congruency model to the IKONOS panchromatic image. Extended minima transform and minima imposition are used to get foreground marking of interesting objects and implement gradient reconstruction respectively. Based on these improvement measures, better segmentation is achieved using watershed transform. Second, spectral characteristic is got from multi-spectral data and texture feature is extracted by Gabor wavelet. Multi-kernel SVM is used to present preparatory object-oriented classification, and information granularities are obtained through intersection of the classification results. Third, granularities are differentiated by means of comparing the Euclidean distance between average value of granularity and every sample central moment. Spatial adjacency relation among the granularities is quantitative analyzed in order to classify the uncertain granularities after the former clustering. The resulting classification is achieved by little artificial interaction identification. A comparative experiment is performed with both SVM and neural network methods based on RBF-kernel function. It is shown that the proposed method can obtain better classification results.

Wavelet Support Vector Machines based on reproducing kernel Hilbert space for Hyperspectral Remote Sensing Image Classification

Kun Tan

2011, 40(2):  142-147. 

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Studying on the Support Vector Machine （SVM） theory based on reproducing kernel Hibert Space and the wavelet analysis, I constructed the wavelet SVM (WSVM) classifier based on wavelet kernel fuctions. SVM applied hyperspectral classification exists a bottleneck and kernel parameters selection. The wavelet kernel in RKHS is a kind of multidimensional wavelet function that can approximate arbitrary nonlinear functions. Implications on semiparametric estimation are proposed in this paper. By experimented the hyperspectral image with the 64 bands Operational Modular Imaging Spectrometer II (OMIS II) data of Changping Area, Beijing City and ROSIS data of the center of university of Pavia, the classifiers performance and accuracy of WSVM were obtained. In my experiments, the WSVM classifier was demonstrated to be most accurate when it used Coiflet Kernel function of wavelet analysis. Compared with some traditional classifiers (Spectral Angle Mapping classification (SAM) and Minimum Distance classification (MDC)) and classic kernel (Radial Basis Function kernel) of SVM, it indicated that wavelet kernel SVM classifier had the most accurate. Use of the WSVM classifier is a novel approach which improves the accuracy of hyperspectral image classification and expands the possibilities for scientific interpretation and application.

Fusion Segmentation Algorithm for SAR images based on HMT in Contourlet Domain and D-S theory of evidence

2011, 40(2):  148-155. 

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Abstract: Utilizing the contourlet’s advantages of multiscale ,localization, directionality and anisotropy, a new SAR image segmentation algorithm based on hidden markov tree (HMT) in contourlet domain and dempster-shafer theory of evidence is proposed in this paper. The algorithm extends the hidden markov tree framework to contourlet domain and fuses the clustering and persistence of contourlet transform using HMT model and D-S theory, and then, we deduce the maximum a posterior (MAP) segmentation equation for the new fusion model. The algorithm is used to segment the real SAR images. Experimental results and analysis show that the proposed algorithm effectively reduces the influence of multiplicative, improves the segmentation accuracy and provides a better visual quality for SAR images over the algorithms based on HMT-MRF in the wavelet domain, HMT and MRF in the Contourlet domain, respectively.

A Probabilistic Latent Semantic Analysis Based Classification for High Resolution Remotely Sensed Imagery

2011, 40(2):  156-162. 

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The spectrum variation of high infraclass and low interclass in high-resolution remotely sensed imagery has seriously disturbed the process of imagery classification. This phenomenon is similar to the misunderstanding of document semantic information caused by synonym and antonym. To solve this problem, a new unsupervised classification algorithm for high spatial resolution remotely sensed imagery, which combines Gabor texture feature and PLSA model (Probabilistic Latent Semantic Analysis), is presented in this paper. Firstly, we extract homogeneous segments from original imagery through MeanShift segmentation. Secondly, Gabor texture features of every pixel in each region are extracted, and clustered into several visual words. Thus, in our case, the imagery segments correspond to the documents, the visual words used to describe the segments correspond to the words in the documents, and the categories to be discovered for each segment correspond to the topics of the documents. Finally, we use PLSA model to analyze each segment, and achieve the image classification by assigning the most likely category for them. The experimental results have shown that the approach can outperforms the existing algorithms in terms of classification accuracy.

A Region Growing Model under the Framework of MRF for Urban Detection

2011, 40(2):  163-168. 

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A region growing model under the framework of MRF is proposed for urban detection and the basic unit of the model is the over segmentation region. Firstly, the texture analysis is employed to obtain the initial seed points. Then Mean Shift algorithm is employed to get the over segmentation and the regions that include seed points are used as seed regions. At last, starting from the seed regions, the finally result of urban is detected through a growing criterion under the framework of MRF. The experiments of QuickBird and Ikonos demonstrate that the model can effectively detect the urban area from the remote sensing images. The average ratio of urban detection is 84.35% and the average ratio of correct detection is 93.16%.

Components Conversion of Magnetic Anomaly in Detecting Underwater Magnetic Object

2011, 40(2):  163-168. 

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The magnetic object’s location and shape could be estimated more precisely with its vector information than scalar information. Therefore, the conversion from scalar information to vector information should be studied. With prescribed direction of total field, the rigor formula could be deduced based on the relationship between total field magnetic anomaly and magnetic anomaly components in frequency domain. The method has been testified by sphere and cuboids’ simulation model. The conclusion shows that the two calculated horizontal components match its theoretical value perfectly, and the vertical component has only little error; the precision is almost the same no matter how section survey line traverses the projection point, moreover, the precision decreases slightly if the geomagnetism direction has little error.

Spatial Attraction Algorithm for Sub-Pixel Mapping of Multispectral Remote Sensing

2011, 40(2):  169-174. 

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Mixed pixels will always be present in remote sensing images, soft classification techniques have been developed to estimate the class composition of mixed pixels, and the accuracy of land cover mapping has been improved, but their output provides no indication of how these classes are distributed spatially in pixels. Sub-pixel mapping is a technique to produce the land cover map at sub-pixel spatial resolution from the land cover proportion images obtained by soft classification methods. In this technique, pixels are divided into sub-pixels, and these fraction values can be assigned to sub-pixels, based on the assumption of spatial dependence. Sub-pixel mapping can represent the land cover class fractions, so it can provide better spatial representation of land cover. A new algorithm is presented for sub-pixel mapping, the algorithm is based on the scale of sub-pixels spatial attraction models, which can express the spatial dependence well. And in this algorithm, taking into account the interaction of pixels between themselves, the proportions of each land cover within two adjacent mixed pixels as the sub-pixel weight parameters will be inputed, which enhanced the spatial attraction model; The distance function is also a reasonable expression of the non-linear relationship at a distance about the interaction among the pixels. Following an initial random allocation of sub-pixels, the algorithm works in a series of iterations, each of which can optimize the attraction relationship among the sub-pixels, by this the algorithm can improve the spatial dependence among the pixels. This algorithm is tested on SPOT image data at S=5 scale factor, and four land covers are mapped, including water, vegetation, paddy field and urban. The result shows that, this algorithm works reasonably well in multiple classes mapping.

Geometric Quality Assessment of Remote Sensing Image Based on Corner Detection

2011, 40(2):  175-179. 

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To study geometric quality influence of remote sensing image brought by image compressing system, a new image geometric quality assessing algorithm based on image corner point is proposed. First, classic Harris corner detecting algorithm is introduced, then it is improved to solve its disadvantage of imprecise point location: fitting the surface of corner response function and evaluating peak location of the fitted surface, so as to check the sub-pixel corner location. Finally, this algorithm is applied to geometric quality assessment system of remote sensing image, and is compared to traditional surface fitting extremum algorithm. The experimental results show that this algorithm can accurately express the aberration of geometric quality between orignal image and compressed one. So, it can be used into quality assessment system of aerial remote sensing image compression.

Time-Series Calibration Research for CCD Camera——Taking CBERS02B Satellite as an Example

2011, 40(2):  180-187. 

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CBERS02B is the third satellite of CBERS (China-Brazil Earth Resources Satellite) series satellites, which was launched in Sep. 2007, and works normally more than two years since then. The sensor on satellite is usually attenuated because of the intense ultraviolet radiance and cold space environment at the top of atmosphere. Three methods had been used to calibrate the CBERS02B CCD Camera in time series, which were desert sense calibration method, pseudo-invariance target calibration method and cross-calibration method, and the CBERS02B CCD calibration coefficients of three methods during 2007-2008 had been calculated. Desert sense calibration method supposes that the test site ground and atmospheric is invariance, and only the solar angle and Earth-Sun distance are changed. Pseudo-invariance target calibration method considers that test site atmospheric is variance, but the ground reflectance is steady. Cross-calibration method uses MODIS as reference sensor, and calculates time series calibration coefficient of CBERS02B CCD camera by processing the image pairs of MODIS and CBERS02B CCD image of Dunhuang test site. The relative differences of three methods’ calibration coefficients were less than 10%. Furth more, CBERS02B official calibration coefficient was used to validate the precision of three methods’ calibration coefficients and the results were very ideal. In the end, the advantage and disadvantage of time series calibration method were analyzed, which would be useful for other similar satellites in future.

Aerial Route Design Approach for Stereomapping Based on Stereomodel Overlap

2011, 40(2):  188-193. 

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According to exist issues of stereomapping in sharp undulating ground, such as mountainous area or cities, this paper proposed an approach for computing the overlap of neighbor stereomodels. Compared to traditional approaches, this approach designs aerial routes by computing the actual overlap of neighbor stereomodels instead of computing the overlap of neighbor images. The primary experiment shows that this proposed approach not only satisfies to the stereomodel overlap requirement in stereomapping, but also dramatically decreases amounts of images and aerial routes.

Relative Orientation Based on Multiple Types of Conjugate Features

2011, 40(2):  194-199. 

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To resolve the current problems of relative orientation caused by lacking of obvious feature points in applications of industrial and architectural photogrammetry, a new method of relative orientation based on multiple types of conjugate features is proposed on the basis of the theory of generalized point photogrammetry. The models of independent and continuous relative orientation by conjugate lines and circular curves are addressed respectively. Experimental results show that the proposed approach is feasible in practice, and can get reliable relative orientation results even in the case of a few conjugate points.

A Vehicle Tracking Algorithm with Monte-Carlo Method

2011, 40(2):  200-203. 

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Aiming to the high-definition traffic video collected by airship flying along road, this paper proposed a vehicle tracking approach based on Monte-Carlo algorithm. The particles state characteristics such as position and scale can be obtained by Monte-Carlo algorithm to forecast. Since the similarity between each forecasted state and the state of reference target can be derived, the state with maximum similarity can be identified, which is treated as the tracking result. The Experiment research show that this approach can track the irregular and nonlinear moving vehicles real-time and accurately, deal with the situation of short time occlusion as well.

An Adaptive Rate Control Algorithm for JPEG2000 Based on Optimal Rate-distortion

2011, 40(2):  204-208. 

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A novel rate adaptive control algorithm is proposed based on study of JPEG2000 rate control algorithm. After wavelet transform, the coefficient is modeled as Gaussian distribution, but remove the offspring of the lowest frequency. Each block bit rate of the actual encoding has been achieved based on rate-distortion theory in the overall rate certain, and the bit rate should be real-time deadline in the entropy coding. The offspring of the lowest frequency has been code at without distortion. This algorithm achieve bit rate deadline in real-time, reducing the encoder computation and memory usage. Experimental results show that after the removal of the most low frequencies, the remaining band coefficient modeled as a Gaussian distribution, the image compression is significantly better than results that the whole band is the Gaussian distribution, when the compression rate is not too high(>0.5bpp). And rate allocation algorithm is accurate and low complex, and that it is most suitable for hardware implementation.

A Simple Iterative Algorithm for Inequality Constrained Adjustment

Jianjun Zhu ¹,

2011, 40(2):  209-211. 

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Inequality constrained adjustment model can describe the prior information in geodesy in a relatively ambiguous manner and improve the result, so it is widely used in many fields such as GPS data processing. The past methods always refer to the theory of optimization and are far away from classical adjustment. A new simple iterative algorithm that is similar to classical adjustment is proposed based on penalty functions and zero or infinite weight. Numerical simulation shows that this algorithm is simple and feasible and has good convergence. Then it is applied to a dam deformation monitoring control net, the inequality constraints of control points are established according to the terrain and we can detect the real displacement of the control points and it is more reasonable and reliable than that of unconstrained adjustment.

Point-mass Harmonic Analysis of Over-determined Boundary Value Problems Based on Satellite Gravity Gradients

2011, 40(2):  213-219. 

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The equations for the solution of global point-mass model based on the complex combination of global gravity gradients constituents and the full tensor forms are established with the observational information output from the gradiometer equipped on the satellite. With the latitudinal and longitudinal partition arrangement of satellite gravity gradients data and point-mass model, a method is put forward to ensure the stability of the solutions of the large linear equations in the establishment of the global point-mass model using blocked cyclic matrices. Then, the point-mass harmonic analysis solutions of both single determined and over determined boundary value problems based on satellite gravity gradients are obtained. Finally, simulations experiments with EGM2008 are made to validate the efficiency and availability of the point-mass harmonic analysis of single or full gravity gradient tensor constituents. The results show that with proper depth of the point mass, the method considered in this thesis could attain a little higher precision gravity field than the general torus harmonic analysis.

Moving Time-window Based Real-time Estimation Algorithm for the Stochastic Model of GPS/Doppler Navigation

2011, 40(2):  220-225. 

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The stochastic model of GPS/Doppler play an important role in the navigation solution. Two-step method for estimating the stochastic model of GPS/Doppler integrated observation is proposed. Firstly, the robustly posterior estimation is introduced according to equivalent weight principle and carrier-to-noise ratio, Then, the variance of unit weight is estimated in a moving -window in real time by combining the forgetting factor and observation redundancy. Finally, a real vehicular GPS data is carried out to test the proposed method.

An Approach to Regional Real Time Precise Point Positioning

2011, 40(2):  226-231. 

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Real time Precise Point Positioning (PPP) needs real time GPS orbit and clock product. An approach to real time PPP using regional GPS Continuously Operating Reference Stations (CORS) data and IGS ultra-rapid (IGU) product is proposed. First, real time GPS satellite clock was estimated using regional CORS data and IGU real time predicted orbit product. Then real time PPP positioning for user GPS receiver was conducted using the estimated real time satellite clock and IGU real time predicted orbit. Experiments show that the approach could be used to do centimeter level PPP positioning. And the valid service area of the proposed method could be extended to several hundreds kilometer out of the region.

Multibeam Bathymetry Fitting based on Robust Kriging

2011, 40(2):  238-242. 

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In view of the fact that the Ordinary Kriging algorithm will be influenced by outliers while processing multibeam bathymetry data. The calculating formula of sample variogram is deduced by robust estimation, and the influence of outliers in fitting variogram function is eliminated. The superiority of the algorithm in exactitude estimating and detecting outliers is proved by real data experiments. The regular square grids of multibeam data are also constructed by the algorithm. The grids values are compared with which is calculated by manual processing, and they are consistent; hence the feasibility is proved that the seabed terrain grids can be constructed by our algorithm in high precision while outliers is detected automatically.

Character Analysis and Hierarchical Partition of WGS84 Ellipsoidal Facet Based on QTM

2011, 40(2):  243-248. 

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Hierarchical partition of study area is the base for establishing Multi-resolution elevation model. In order to building Multi-resolution model of the earth surface, the existent partition methods of spherical surface ware analysed, and a hierarchical tessellation meshes of WGS84 ellipsoidal surface based on quaternary triangular meshes(QTM) is put forward. The area and side length of the multi-resolution meshes on different levels is also calculated and analysed. It is regular, continuous and hierarchical nesting that make it meet the need of multi-resolution digital elevation modeling of earth surface.

An Efficient 3D R-tree Extension Method Concerned with Levels of Detail

2011, 40(2):  249-255. 

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Levels of detail (LOD) is the key feature of 3D GIS. Aiming at the critical issues of LOD models organization, this paper presents an extended dynamic 3D R-tree structure concerned with LODs, which improves existing node-choosing and node-splitting sub-algorithms. In the node-choosing process, a globally-optimising approach is adopted which is first bottom-up then top-down, and that an improved clustering algorithm based on k-medoids is applied to the node-splitting process. This method makes more even node size, more regular node shape, and less node overlap. Furthermore, a method of integrating R-tree and LOD is put forward based on such kind of good R-tree structure. In order to verify the validity of this method , the simulated experimental analysis results approve that this approach improves 3D query performance greatly relative to existing ones and succeeds in integrating LOD models, which denotes good application prospect and practical value.

Robust Watermarking Algorithm for Geometrical Transform for Vector Geo-spatial Data Based on Invariant Function

¹,

2011, 40(2):  256-261. 

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As the invariant function for some of the transform has non-denatured, this paper made a research on the watermarking algorithm robust to geometric transformations for geo-spatial vector data. Firstly, the conception and characteristic of invariant function were presented. Secondly, an invariant function robust to rotation, scaling and translation was proposed and proved, then based on the obtained invariant function, by embedding watermark into the geometric invariant, a watermarking algorithm for geo-spatial vector data was proposed. Finally, experiments on the proposed watermarking algorithm were made. The experiments conducted in this paper showed that the proposed algorithm had good robust and could resist attacks such as compressing, adding, deleting, clipping, translating, rotating, scaling and complex attacks composited of above attacks.

Combinational Reasoning of Topological Relations Between Regions with Holes

2011, 40(2):  262-267. 

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The topological relationship between spatial objects is one of the most important aspects in GIS modeling, and it is the basis of spatial query and analysis. The description of spatial relationships has been paid more attention in the field of GIS. At present, the research on topological relation model for spatial objects was usually described simple objects, the research of a regions with a hole are comparatively fewer, it’s research has important theory meaning. this paper based on the 11th reference literature, used the point-set topology theory, redefined the regions with holes. By analyzing the evolution plans of simple area objects’ topological relations, put forward a new method which can describe the special topological relations of regions with a hole, and used the new method to discussed the topological relations of two regions with a hole. Through the experiment, in thoery, it has been proved that this method is feasible, can provide a theoretical method for improving the modeling and analysis capabilities of GIS.

博士论文摘要

Researching on Key Technique for 3D Auto-Reconstruction of City Street Elevation

2011, 40(2):  268-268. 

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