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Acta Geodaetica et Cartographica Sinica 2017 Vol.46 Please wait a minute... For Selected: Download Citations EndNote Ris BibTeX Toggle Thumbnails Select Progresses and Prospects in Developing Marine Geodetic Datum and Marine Navigation of China YANG Yuanxi, XU Tianhe, XUE Shuqiang Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 1-8.   DOI: 10.11947/j.AGCS.2017.20160519 Abstract （1918）   HTML    PDF（pc） （981KB）（4962）       Knowledge map    Save Territorial water is a significant part of national sovereignty of China, thus the infrastructures of national space datum and location services should not only cover the land areas, but also the sea areas. China has established relatively complete geodetic datum in land areas over the past decades, including the new developed China Geodetic Coordinate System 2000 (CGCS 2000) and the national gravity datum 2000. However, the currently used geodetic infrastructures have not well covered the sea areas of China. The marine geodetic datum and marine navigation technologies need to be further developed and extended to satisfy the national demands of marine defense and marine economy development in new era of China. This paper mainly reviews the developing states and progress of Chinese marine geodetic datum and marine navigation, analyses key technologies in establishing the national marine geodetic datum. The develop current trends and future directions for the national marine geodetic datum and marine navigation technologies are listed. Reference | Related Articles | Metrics Select Analysis of ~21.5 d Period in Ionospheric and Solar Indices during 2011 YAO Yibin, ZHANG Shun, KONG Jian Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 9-15.   DOI: 10.11947/j.AGCS.2017.20160067 Abstract （1315）   HTML    PDF（pc） （8174KB）（1629）       Knowledge map    Save By using Fourier transform, the spectrum of total electron content(TEC) data, relative sunspot number(RSSN), solar extreme ultraviolet(EUV) flux in 0.1~50 nm and 26~34 nm were performed to study the ~27 d period in solar-terrestrial environment. A~21.5 d period was found in TEC and solar indices, while geomagnetic indices showed no sign of this period. We infer that the ~21.5 d period could combined effects of solar rotation and active region evolution. Results of the past few solar cycles show that 21~23 d of quasi-periodic signal will appear in the rising phase of a solar cycle. Using the solar active regions located in the[-10°, 10°] slice, it is further confirmed that the ~21.5 d period observed in 2011 may be caused by the joint effects of solar active region complex and solar rotation. GIM data were used to study the global distribution of the ~27 d period oscillation. Reference | Related Articles | Metrics Select The Rigorous Model for Similarity Transformation under Intra-frame and Inter-frame Covariance ZENG Anmin, MING Feng Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 16-25.   DOI: 10.11947/j.AGCS.2017.20160295 Abstract （1113）   HTML    PDF（pc） （1146KB）（1313）       Knowledge map    Save The coordinates are obtained from observations by using least-squares method, so their precision should be contaminated by observation errors and the covariance also exists between common points and non-common points. The coordinate errors don't only exist in the initial frame but also in the target frame. But the classical stepwise approach for coordinate frame transformation usually takes the coordinate errors of the initial frame into account and overlooks the stochastic correlation between common points and non-common points. A new rigorous unified model is proposed for coordinate frame transformation that takes into account both the errors of all coordinates in both fame and inter-frame coordinate covariance between common points and non-common points, and the corresponding estimator for the transformed coordinates are derived and involve appropriate corrections to the standard approach, in which the transformation parameters and the transformed coordinates for all points are computed in a single-step least squares approach. The inter frame coordinate covariance should be consistent to their uncertainties, but in practice their uncertainties are not consistent. To balance the covariance matrices of both frames, a new adaptive estimator for the unified model is thus derived in which the corresponding adaptive factor is constructed by the ratio computed by Helmert covariance component estimation, reasonable and consistent covariance matrices are arrived through the adjustment of the adaptive factor. Finally, an actual experiments with 2000 points from the crustal movement observation network of China (abbreviated CMONOC) is carried out to verify the implement of the new model, the results show that the proposed model can significantly improve the precision of the coordinate transformation. Reference | Related Articles | Metrics Select The Bouguer Correction Algorithm for Gravity with Limited Range MA Jian, WEI Ziqing, WU Lili, YANG Zhenghui Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 26-33.   DOI: 10.11947/j.AGCS.2017.20160173 Abstract （1130）   HTML    PDF（pc） （3085KB）（1215）       Knowledge map    Save The Bouguer correction is an important item in gravity reduction, while the traditional Bouguer correction, whether the plane Bouguer correction or the spherical Bouguer correction, exists approximation error because of far-zone virtual terrain. The error grows as the calculation point gets higher. Therefore gravity reduction using the Bouguer correction with limited range, which was in accordance with the scope of the topographic correction, was researched in this paper. After that, a simplified formula to calculate the Bouguer correction with limited range was proposed. The algorithm, which is innovative and has the value of mathematical theory to some extent, shows consistency with the equation evolved from the strict integral algorithm for topographic correction. The interpolation experiment shows that gravity reduction based on the Bouguer correction with limited range is prior to unlimited range when the calculation point is taller than 1000 m. Reference | Related Articles | Metrics Select Improvement of Narrow-lane Fractional Cycle Bias Estimation and Analysis of Its Time-varying Property LI Linyang, CUI Yang, WANG Yupu, LÜ Zhiping Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 34-43.   DOI: 10.11947/j.AGCS.2017.20160222 Abstract （1240）   HTML    PDF（pc） （6983KB）（1706）       Knowledge map    Save The length of narrow-lane FCB is short, and it's seriously influenced by the quality of observation data and inaccurate models, narrow-lane FCB estimates of different reference station are significantly biased, thus the stability is relatively poor. Aiming at those biased narrow-lane FCB estimates, narrow-lane FCB robust estimation method based on robust initial value is proposed, the median of narrow-lane FCB estimates of all reference stations at current epoch is utilized as the robust initial value, and IGGⅢ scheme is applied to decrease the contribution of biased narrow-lane FCB estimates. Data from IGS global tracking stations are used in the experiment, the accuracy and stability of narrow-lane FCB are improved, the need of narrow-lane ambiguity fixing can be satisfied based on a group of daily estimated satellite narrow-lane FCB. Meanwhile, the success rate of narrow-lane ambiguity fixing and imitated dynamic positioning accuracy are improved. Reference | Related Articles | Metrics Select Relative Calibration of Altimeters under Dual-satellite Formation Flying Altimetry Mode GUAN Bin, SUN Zhongmiao, LIU Xiaogang, ZHAI Zhenhe Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 44-52.   DOI: 10.11947/j.AGCS.2017.20160050 Abstract （1278）   HTML    PDF（pc） （2300KB）（924）       Knowledge map    Save A relative calibration method used in a novel dual-satellite formation flying altimetry mode is proposed, and a complete formula for calculating relative bias between altimeters is presented. Power spectrum analysis of each correction term in relative bias calculation formula and statistical analysis of differential sequences are respectively conducted with Jason-2 altimetry data. Under the premise that a centimeter level calibration accuracy is ensured, the formula is simplified and error budget is made. The results show that all correction items have low frequency characteristic, and the relative bias error is mainly related to the relative radial orbit error between two satellites, range error, sea state bias as well as the differential geoid height error between two comparison points. As for single overflight, the accuracy of relative bias between two altimeters is about 1.99 cm. Reference | Related Articles | Metrics Select High Accuracy On-orbit Geometric Calibration of Geostationary Satellite GF4 WANG Mi, CHENG Yufeng, CHANG Xueli, LONG Xiaoxiang, LI Qingpeng Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 53-61.   DOI: 10.11947/j.AGCS.2017.20160300 Abstract （1845）   HTML    PDF（pc） （4117KB）（2023）       Knowledge map    Save GF4 satellite is the first high resolution optical geostationary satellite for remote sensing in the world, and the high accuracy geometric calibration is the key factor for the geometrical quality of satellite imagery. The positioning errors and the features of imaging region of GF4 were analyzed, the rigorous imaging model was introduced. Then on orbit calibration model and parameters estimation method were introduced for planar array sensor of GF4 satellite. The experiments used the DOM of Landsat 8 and DEM of GDEM2 for the on-orbit calibration, and the results indicated that internal accuracy of the panchromatic and near-infrared sensor and intermediate infrared sensor can be stably better than 1 pixel in the along and vertical track direction, and the absolute positioning accuracy of GF4 would be greatly affected by imaging time and imaging angle, and fluctuated remarkably. Reference | Related Articles | Metrics Select An Adaptive Dense Matching Method for Airborne Images Using Texture Information ZHU Qing, CHEN Chongtai, HU Han, DING Yulin Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 62-72.   DOI: 10.11947/j.AGCS.2017.20150608 Abstract （1346）   HTML    PDF（pc） （19276KB）（1351）       Knowledge map    Save Semi-global matching (SGM) is essentially a discrete optimization for the disparity value of each pixel, under the assumption of disparity continuities. SGM overcomes the influence of the disparity discontinuities by a set of parameters. Using smaller parameters, the continuity constraint is weakened, which will cause significant noises in planar and textureless areas, reflected as the fluctuations on the final surface reconstruction. On the other hands, larger parameters will impose too much constraints on continuities, which may lead to losses of sharp features. To address this problem, this paper proposes an adaptive dense stereo matching methods for airborne images using with texture information. Firstly, the texture is quantified, and under the assumption that disparity variation is directly proportional to the texture information, the adaptive parameters are gauged accordingly. Second, SGM is adopted to optimize the discrete disparities using the adaptively tuned parameters. Experimental evaluations using the ISPRS benchmark dataset and images obtained by the SWDC-5 have revealed that the proposed method will significantly improve the visual qualities of the point clouds. Reference | Related Articles | Metrics Select Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 72-72.   Abstract （685）   HTML    PDF（pc） （807KB）（808）       Knowledge map    Save Related Articles | Metrics Select A New Method of Coherence Optimization Based on the Phase and Coherence Magnitude in Polarimetric SAR Interferometry LONG Jiangping, LIU Feng, DUAN Zhugeng Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 73-82.   DOI: 10.11947/j.AGCS.2017.20150509 Abstract （1229）   HTML    PDF（pc） （10960KB）（1388）       Knowledge map    Save The complex coherence of polarimetric synthetic aperture radar interferometry (PolInSAR) includes the magnitude and phase. The magnitude of coherence is used to measure the quality of the interference phase, and phase center represents the position of the scattering. So, how to improve the accuracy of the coherence magnitude and phase is very important for the forest parameters inversion. Maximum difference of the coherence magnitude or maximum separation of the phase, based on the coherence region, is considered partial information of the complex coherence. In this paper, a new method of coherence optimization, combined with the coherence magnitude and phase information, is established with relational degree. Applied the new approach to estimate the optimal coherence, the optimal polarimetric state of the scattering can be obtained to estimate the optimization coherence. Experimental results show that the optimal coherence criterion, jointed coherence magnitude and phase, can effectively distinguish the phase center of surface scattering and the forest canopy, and improve the reliability of the forest height inversion. Reference | Related Articles | Metrics Select Extraction of Human Settlements from High Resolution Remote Sensing Imagery by Fusing Features of Right Angle Corners and Right Angle Sides LIN Xiangguo, NING Xiaogang Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 83-89.   DOI: 10.11947/j.AGCS.2017.20160389 Abstract （1213）   HTML    PDF（pc） （13002KB）（1422）       Knowledge map    Save A method for human settlements extraction from high resolution remote sensing imagery using feature-level-based fusion of right-angle-corners and right-angle-sides is proposed in this paper. First, the corners and line segments are detected, the right-angle-corners and right-angle-sides are determined by cross verification of the detected corners and line segments, and these two types of features are rasterized. Second, a human settlement index image is built based on the density and distance of the right-angle-corners and right-angle-sides in a local region. Finally, the polygons of human settlements are generated through binary thresholding of the index image, conversion from raster format to vector format, and sieving. Three images are used for testing the proposed method. The experimental results show that our proposed method has higher accuracy than the existed method. Specifically, the correctrate, completeness, and quality of our method is higher 6.76%, 10.12%, 12.14% respectively than the existed method. Reference | Related Articles | Metrics Select Automatic Tie Points Extraction with Uniform Distribution and High Precision YU Ying, ZHANG Yongsheng, XUE Wu, LI Lei Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 90-97.   DOI: 10.11947/j.AGCS.2017.20160320 Abstract （1625）   HTML    PDF（pc） （3534KB）（1640）       Knowledge map    Save To solve the problem of matching errors, redundant points with bad distribution,and low points position precision in photogrammetry aerial triangulation,an automatic tie points extraction with uniform distribution and high precision is presented. Firstly, Block SIFT technology is conducted on every image, then an unordered feature tracking method based on union-find set is adopted to detect the multi-view correspondences. Secondly, by using the proposed algorithm of points selection in object block space, the relatively balanced points are obtained. Finally, the precision of the image coordinates are improved by least square matching.In the experiment part,Songshan images and desert images are used to test the proposed method. Through the examination and analysis of three indicators, the visual inspection, back projection errors in image space,and the precision of check points, the results show that the proposed method can effectively overcome the difficulties in extracting and matching tie points caused by weak texture and repeated texture, enhance the uniformity of tie points distribution, and improve the position precision of tie points. Reference | Related Articles | Metrics Select Camera Self-calibration Method Based on Large Scale Aerial Images Coplanarity Constraint ZHAO Shuang, LI Xuejun, LIU Tao, XIE Jianwei Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 98-106.   DOI: 10.11947/j.AGCS.2017.20160206 Abstract （1214）   HTML    PDF（pc） （3549KB）（1554）       Knowledge map    Save In this paper an automated camera self-calibration method based on large scale aerial images coplanarity constraint is proposed. The method uses stereo images corresponding points to compute camera inner parameters and the distortion coefficients based on coplanarity constraint. Firstly, aerial images corresponding points are matched and stereo images are constructed. Then the relative orientation of the camera is resolved by using the direct method and the iterative optimization based on the coplanarity constraint. Finally, the least square optimization method is used to calculate the inner parameters and the distortion coefficients of the camera. For large image the distortion of image boundary is more severe than center, in order to compute parameters more precisely mesh partition in arbitrary area of image is proposed. Compared with classical techniques which use expensive equipment or calibration field, the proposed technique can reflect the actual inner parameters of the camera in the real environment. Using all the corresponding points avoid the influence of choosing different feature points or control points on the calibration accuracy.Experimental results indicate that it is effective and flexible.The accuracy of the method is equivalent to that of calibration field, which can accurately reflect the camera parameters and the distortion coefficients of the image acquired by aerial photogrammetry. Reference | Related Articles | Metrics Select A Kernel Density Estimation Method for Linear Features in Network Space TANG Luliang, KAN Zihan, LIU Huihui, SUN Fei, WU Huayi Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 107-113.   DOI: 10.11947/j.AGCS.2017.20150158 Abstract （1986）   HTML    PDF（pc） （3602KB）（1897）       Knowledge map    Save Kernel density estimation(KDE) is an important method for analyzing spatial distributions of point features or linear features. So far the KDE methods for linear features analyze the features' spatial distributions by producing a smooth density surface over 2D homogeneous planar space, However, the planar KDE methods are not suited for analyzing the distribution characteristics of certain kinds of linear events, such as traffic jams, queue at intersections and taxi carrying passenger events, which usually occur in inhomogeneous 1D network space. This article presents a KDE method for linear features in network space, which first confirms the density distribution of each single linear feature, then computes the density distributions of all linear features in terms of distance and topology relationship in network space. This article extracts "pick-up" linear events from taxi GPS trajectory data and analyzes their distribution patterns in network space. By comparison with existing methods, experiment results show that the proposed method is able to represent the distribution patterns of linear events in network space more accurately. Reference | Related Articles | Metrics Select An Incremental Updating Method for Land Cover Database Using Refined 2-dimensional Intersection Type ZHOU Xiaoguang, WANG Hongsong, WU Zhiqiang Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 114-122.   DOI: 10.11947/j.AGCS.2017.20150114 Abstract （1119）   HTML    PDF（pc） （3755KB）（1272）       Knowledge map    Save In order to incremental updating the land cover database using the change-only information from imagery change detection methods, an vector change-only information model is designed to represent the spatial and attribute information after change, and an automatic incremental updating method for land cover database based on refined 2-dimensional intersection type is presented. As the differentiation and identification of 2-dimensional intersection type between new updates and existing objects is one of the first steps in the automatic incremental updating process for a land cover database, the 14 refined 2-dimensional intersection types are distinguished by the E-WID topological hierarchical model. Then according to the 14 refined 2-dimensional intersection types, 9 automatic updating rules for land cover database are presented. An automatic incremental updating for land cover database prototype system is developed. The effectiveness of the models and rules was verified using real data. The results of this study represent a new avenue for automatic spatial data handling in incremental updating processes. Reference | Related Articles | Metrics Select A Geographic Weighted Regression Method Based on Semi-supervised Learning ZHAO Yangyang, LIU Jiping, XU Shenghua, ZHANG Fuhao, YANG Yi Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 123-129.   DOI: 10.11947/j.AGCS.2017.20150470 Abstract （1427）   HTML    PDF（pc） （1952KB）（1748）       Knowledge map    Save Geographically weighted regression (GWR) approach will be affected by the quantity of label data. However, it is difficult to get labeled data but easy to get the unlabeled data in applications. Therefore it is indispensable to find an useful way that can use the unlabeled data to improve the regression results. As we know semi-supervised learning is a class of supervised learning tasks and techniques that also make use of unlabeled data for training typically a small amount of labeled data with a large amount of unlabeled data. So this article develops a semi-supervised-learning geographically weighted regression (SSLGWR). Firstly it builds the GWR model by labeled data. Then the unlabeled data can be calculated the value by the GWR model and they will be signed as new labeled data. Thirdly, use both labeled data and new labeled data to rebuild the GWR model to improve the model's precision. The experiments use both simulated data and real data to compare GWR COGWR and SSLGWR. Mean square error is closed as the framework to estimate the models. Experiments using simulated data have shown that the proposed model improves the performance by 39.66%, 11.92% and 0.94% relative to 10%,30% and 50% label data. And experiments using real data have shown that the proposed model improves the performance by 8.94%, 3.36% and 5.87%. The results demonstrate that there are substantial benefits of SSLGWR in the improvement of GWR. Reference | Related Articles | Metrics Select Theory, Methodology and Application of GRACE Gravity Recovery Using Modified Short Arc Approach CHEN Qiujie Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 130-130.   DOI: 10.11947/j.AGCS.2017.20160470 Abstract （958）   HTML    PDF（pc） （720KB）（1434）       Knowledge map    Save Related Articles | Metrics Select Research on Ship Automatic Detection Method Using Polarimetric Synthetic Aperture Radar Imagery WEI Jujie Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 131-131.   DOI: 10.11947/j.AGCS.2017.20160358 Abstract （692）   HTML    PDF（pc） （743KB）（1314）       Knowledge map    Save Related Articles | Metrics Select Research on Land Cover and Building Target Change Detection Technology GONG Yilong Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 132-132.   DOI: 10.11947/j.AGCS.2017.20160478 Abstract （755）   HTML    PDF（pc） （705KB）（1290）       Knowledge map    Save Related Articles | Metrics Select Method of Land Cover Web Information Discovery HOU Dongyang Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 133-133.   DOI: 10.11947/j.AGCS.2017.20160480 Abstract （666）   HTML    PDF（pc） （710KB）（1136）       Knowledge map    Save Related Articles | Metrics Select Quantitative Assessment of the Impacts of Droughts on Grassland Productivity LEI Tianjie Acta Geodaetica et Cartographica Sinica    2017, 46 (1): 134-134.   DOI: 10.11947/j.AGCS.2017.20160484 Abstract （822）   HTML    PDF（pc） （729KB）（1275）       Knowledge map    Save Related Articles | Metrics Select From Geomatics to Geospatial Intelligent Service Science LI Deren Acta Geodaetica et Cartographica Sinica    2017, 46 (10): 1207-1212.   DOI: 10.11947/j.AGCS.2017.20170263 Abstract （2362）   HTML    PDF（pc） （5528KB）（4328）       Knowledge map    Save The paper reviews the 60 years of development from traditional surveying and mapping to today's geospatial intelligent service science.The three important stages of surveying and mapping, namely analogue,analytical and digital stage are summarized.The author introduces the integration of GNSS,RS and GIS(3S),which forms the rise of geospatial informatics(Geomatics).The development of geo-spatial information science in digital earth era is analyzed,and the latest progress of geo-spatial information science towards real-time intelligent service in smart earth era is discussed.This paper focuses on the three development levels of "Internet plus" spatial information intelligent service.In the era of big data,the traditional geomatics will surely take advantage of the integration of communication,navigation,remote sensing,artificial intelligence,virtual reality and brain cognition science,and become geospatial intelligent service science,thereby making contributions to national economy,defense and people's livelihood. Reference | Related Articles | Metrics Select Progresses from Surveying and Mapping to Geomatics NING Jinsheng, WANG Zhengtao Acta Geodaetica et Cartographica Sinica    2017, 46 (10): 1213-1218.   DOI: 10.11947/j.AGCS.2017.20170375 Abstract （1544）   HTML    PDF（pc） （1379KB）（2757）       Knowledge map    Save This paper aims to look back the three-step progresses of the Surveying and Mapping science and technology from traditional surveying and mapping to digital surveying and mapping, and then to informatization surveying and mapping which is also called Geomatics. It mainly discusses the changes and developments of the surveying and mapping science and technology in terms of the concept, theory, technology, method, application service and so on, with the evolution of the national needs and world science and technology developments. Besides, the way from Surveying and Mapping to Geomatics is also presented in detail, together with the changes of the concepts, disciplines and connotations in the Surveying and Mapping. Finally, the basic conceptions and definitions of digital surveying and mapping and Geomatics are given. Reference | Related Articles | Metrics Select The 60 Anniversary and Prospect of Acta Geodaetica et Cartographica Sinica GAO Jun Acta Geodaetica et Cartographica Sinica    2017, 46 (10): 1219-1225.   DOI: 10.11947/j.AGCS.2017.20170503 Abstract （1359）   HTML    PDF（pc） （1394KB）（1970）       Knowledge map    Save Four areas that should be paid special attention are put forward. Firstly, the field of surveying and mapping services has extended from the surface of the earth to the virtual multi-dimensional space (cyberspace). Secondly, the service direction of surveying and mapping products should be expanded from human to intelligent robot. Thirdly, in order to improve the cultural connotation of the map, it should be initiative to move closer to several aspects of the cultural and social sciences. Fourthly, the supply-side structural reform of surveying and mapping technology and industry has been put on the agenda, breakthrough changes should be taken place in all aspects. Reference | Related Articles | Metrics Select Cartography in the Age of Spatio-temporal Big Data WANG Jiayao Acta Geodaetica et Cartographica Sinica    2017, 46 (10): 1226-1237.   DOI: 10.11947/j.AGCS.2017.20170308 Abstract （1956）   HTML    PDF（pc） （1582KB）（3180）       Knowledge map    Save Cartography is an ancient science with almost the same long history as the world's oldest culture.Since ancient times,the movement and change of anything and any phenomena,including human activities,have been carried out in a certain time and space.The development of science and technology and the progress of social civilization have made social management and governance more and more dependent on time and space.The information source,theme,content,carrier,form,production methods and application methods of map are different in different historical periods,so that its all-round value is different. With the arrival of the big data age,the scientific paradigm has now entered the era of "data-intensive" paradigm,so is the cartography,with obvious characteristics of big data science.All big data are caused by movement and change of all things and phenomena in the geographic world,so they have space and time characteristics and thus cannot be separated from the spatial reference and time reference.Therefore,big data is big spatio-temporal data essentially.Since the late 1950s and early 1960s,modern cartography,that is,the cartography in the information age,takes spatio-temporal data as the object,and focuses on the processing and expression of spatio-temporal data,but not in the face of the large scale multi-source heterogeneous and multi-dimensional dynamic data flow(or flow data)from sky to the sea.The real-time dynamic nature,the theme pertinence,the content complexity,the carrier diversification,the expression form personalization,the production method modernization,the application ubiquity of the map,is incomparable in the past period,which leads to the great changes of the theory,technology and application system of cartography.And all these changes happen to occur in the 60 years since the late 1950s and early 1960s,so this article was written to commemorate the 60th anniversary of the "Acta Geodaetica et Cartographica Sinica". Reference | Related Articles | Metrics Select An Overview on “Cloud Control” Photogrammetry in Big Data Era ZHANG Zuxun, TAO Pengjie Acta Geodaetica et Cartographica Sinica    2017, 46 (10): 1238-1248.   DOI: 10.11947/j.AGCS.2017.20170337 Abstract （1872）   HTML    PDF（pc） （27927KB）（2139）       Knowledge map    Save In the present era of big data, photogrammetric image collection modes are characterized with the progressive course of diversity, efficiency and facilitation, which are producing large sets of photogrammetric image data. They further bring the request for advanced processing with higher level of efficiency, automation and intelligence. However, the efficiency of fundamental photogrammetric processing, known as geometric positioning, is still majorly restricted to control points acquired through complex and inefficient field works. In view of this problem, we promote the concept of "cloud control" photogrammetry, which regards geo-encoded data as geometric control instead of field control points, and is achieved via control information extraction with extensive and intensive automatic matching (or registration) technology. Three control modes will be introduced, considered as image-based-control, vector-map-based-control and LiDAR-point-based-control respectively. By the end of the paper, we provide the discussion on the application prospects and foreseeable problems of "cloud control" photogrammetry. Reference | Related Articles | Metrics Select Micro-PNT and Comprehensive PNT YANG Yuanxi, LI Xiaoyan Acta Geodaetica et Cartographica Sinica    2017, 46 (10): 1249-1254.   DOI: 10.11947/j.AGCS.2017.20170249 Abstract （3476）   HTML    PDF（pc） （1445KB）（2973）       Knowledge map    Save Comprehensive or integrated positioning, navigation and timing is an obvious developing trend following the global navigation satellite system.This paper summarizes the current status of micro-PNT and its developing requirements. The related key technologies are described and the relationship between comprehensive PNT and micro-PNT is analyzed. It is stressed that the comprehensive PNT needs massive infrastructure construction and investment, however, the micro-PNT aims at the integrated applications of high-tech micro sensors. It is different from the current opinions appeared in the literatures, micro-PNT should include multi GNSS integration and micro components of navigation and timing in order to make the PNT outputs refer to a unified coordinate datum and time scale. Micro-PNT focuses on the personalized micro terminal applications. Except for the miniaturization of each PNT component, micro-PNT aims at the deep integration of the micro sensors, adaptive data fusion and self calibration of each component. Reference | Related Articles | Metrics Select High-precision Geometric Processing Theory and Method of High-resolution Optical Remote Sensing Satellite Imagery without GCP GONG Jianya, WANG Mi, YANG Bo Acta Geodaetica et Cartographica Sinica    2017, 46 (10): 1255-1261.   DOI: 10.11947/j.AGCS.2017.20170307 Abstract （1589）   HTML    PDF（pc） （1878KB）（3339）       Knowledge map    Save Global high-precision geolocation of satellite imagery without GCP is the main goal of satellite photogrammetry,and the fundamental supporting technology of mapping in abroad area.For the developing technology of domestic remote sensing satellite,this paper presents the high-precision geometric processing theory and method of high-resolution optical remote sensing satellite imagery without GCP.Based on rigorous analysis of satellite observation error model,on-orbit geometric calibration method,virtual re-imaging processing method and large-scale block adjustment method are proposed.Experiments were conducted by using ZY-3 imagery.The result fulfills the demand of 1:50 000 mapping,and proves the correctness of proposed theory and method. Reference | Related Articles | Metrics Select Determination of Vertical Datum Offset between the Regional and the Global Height Datum LI Jiancheng, CHU Yonghai, XU Xinyu Acta Geodaetica et Cartographica Sinica    2017, 46 (10): 1262-1273.   DOI: 10.11947/j.AGCS.2017.20170538 Abstract （2008）   HTML    PDF（pc） （3977KB）（2595）       Knowledge map    Save The unification of the global height datum is a key problem to be solved for geodesy after the unification of global geodetic coordination system and three-dimension spatial datum, and the basis of global spatial information sharing and exchange. In this paper, the theoretical and practical problems of vertical datum offset between the regional height datum and the global height datum are studied. Based on the classical theory of the height system in physical geodesy, the definition of the height datum vertical offset is given, and the rigorous formulas for calculating the vertical offset are derived. The formulas can be used to deduce the three methods of the height datum vertical offset determination. On that basis, the influences of different reference system and reference ellipsoid parameters on the calculation of the vertical offset are analyzed. The results show that the reference system and the ellipsoid parameter conversion are very necessary. At the same time, the height anomaly differences method needs to consider the degree zero correction caused by the inconsistency between gravity potential of the global height datum and the one computed by the model. Based on potential difference approach and the height anomaly difference method, the vertical offset between the China 1985 national height datum and the global height datum corresponding to the normal gravity potential U 0 of GRS80, WGS-84 and CGCS2000 reference ellipsoidal from the 152 GPS/leveling points near the origin of Qingdao height origin and the EGM2008, EIGEN-6C4 and SGG-UGM-1 model. The regional datum is 23.1 cm lower than the global datum based on EIGEN-6C4 and WGS-84. When the Gauss-Listing geoid (mean sea surface) is selected as the global height datum, the China 1985 national height datum is 21.0 cm higher than the global height datum. The results also show that there are still large differences among the accuracies of the current gravity field models on these GPS/Levelling points around Qingdao, which will lead to big differences in estimating the vertical datum offset between the China 1985 national height datum and the global height datum with respect to different selected data sets. Therefore, the accuracy and reliability of the current global gravity field models needs to be further improved if they were used for the height datum vertical offset determination. The theoretical and practical results of this paper could be used for the realization of the unification of the regional height datum and the global height datum. Reference | Related Articles | Metrics Select The Rejuvenation of Cartography in ICT Era GUO Renzhong, YING Shen Acta Geodaetica et Cartographica Sinica    2017, 46 (10): 1274-1283.   DOI: 10.11947/j.AGCS.2017.20170335 Abstract （1644）   HTML    PDF（pc） （29897KB）（1869）       Knowledge map    Save With the impetus of ICT, cartography faces the unprecedented challenges. The paper discusses the problems and changes of cartography facing the digital technology, analyzes the constraints of traditional cartography that are mainly delimited by 2D physical paper map. Diverseness of modern cartography shows various map products, and the paper illustrates the digital freedom in information space of modern cartography from eight aspects, including physical reality VS virtual reality, paper map VS digital map, superficial visualization VS inner visualization and so on. Modern cartography encounters the new development opportunities and fresh demands in digital era, and it's necessary to extend the framework of cartography and to assimilate newly sprouted things to promote the rejuvenation of cartography. Reference | Related Articles | Metrics