1. 2012 8 6KOPSS

2. KOPSSAPI2 3. History 2009 KOPSS 4 KOPSS GIS KOPSS Open API - 1(2009~2010) : GIS KOPSS - 2(2010~2011) : 1 ( ) - 3(2011 ~ 2012): 1, 2 , GIS 120(ST_* 33, 90) process (KOPSS) Open API 3 4. WMS, WFS, WCS, WPS Web Map Service, Web Feature Service, Web Coverage Service, Web ProcessingService Literal Type Boolean, short, integer, long, float, double, string Complex Type User defined type, raw data, xml, gml GML Vector layer, feature collection, feature layer GridCoverage Raster, Grid Filter Filter Encoding SLD Styled Layer Descriptor SRS Spatial Reference System (KOPSS) Open API 4 5. KOPSS OGC Service VersionOperatorService Format & versionGetCapabilities Filter Encoding 1.1()COMMONGetMap SLD 1.0() / SLD 1.1 WMS 1.3.0GetFeatureInfo GML 3.1.1()GetLegendGraphic(SLD) WFS GML 2.1.2GetCapabilitiesGML 3.2.1GetFeature WFS 1.1.0 GeoTiff() WCSDescribeFeatureTypeJpeg2000Transaction PNG(), WMSGetCapabilitiesGIF, JPG, BMP WCS 1.1.1DescribeCoverageGetCoverage Geometry GeoJSON &GetCapabilitiesKML 2.1, 2.2Features WPS 1.0.0DescribeProcessWKTExecute GeoRSS 2.0(KOPSS) Open API5 6. KOPSS API Geometry , , , , KOPSS Model Conversion, Density, Custom Extension / Model Distance, Interpolation, Analysis Surface Analysis KOPSS ModelAnalysis (KM)Grid Coverage StatisticalBasic & Spatial Statistics Analysis Analysis (CA)(SA)WPS GeoProcessing, ConversionCalculation, Projection Relationship, TopologicalProximity, MeasurementOperatorVectorGeometry Analysis Operator (VA) (ST)6 7. KOPSS API TypeCategoryProcess IdentifierSpatial RelationshipEquals, Disjoint, Intersects, Touches, Crosses, Within, Contains, OverlapsGeometry Edit Operators Rotate, Transform, SetSRID GeometrySpatial OperatorsIntersection, Union, Difference, Sym Difference, Buffer, Convex Hull, Centroid, SimplifyService (ST)Proximity &Euclidean Distance, Manhattan Distance, Hausdorff Distance, Nearest Point, Area, Length, LFIMeasurement Operators Geometry OutputGML , WKB, WKT, GeoJSON, GeoRSS, KML, SVGClip, Dissolve, Intersect, Merge, Union, Buffer, PointStatistics, PointDistance, Fishnet,GeoProcessingThiessenPolygon, UnionGeometry, MultipleRingBufferVectorConversionFeaturesToPoint, ShapefileToGML, FeaturesToShapefile, CadDatasetToGML, GetMapService (VA) ProjectionProjectCalculation CalculateXYCoordinate, CalculateArea, CalculateLength, CalculateFieldDensity Density(Point, Kernel)ConversionFeaturesToCoverage, GeometryToCoverage, CoverageToFeatures, Resample, GetMap Distance Euclidean DistanceGridReclass Reclass, ReclassStatisticsCoverageExtractionExtraction, SetMask Service(CA) ZonalZonalStatisticsOverlay Math(+,-,*,%), ConditionEvaluation, MergeSurface Slope, Aspect, Hillshade, CutfillCustom Fuzzy(2012. 07 )(KOPSS) Open API 7 8. KOPSS API TypeCategoryProcess IdentifierStatistics(Count, Sum, Mean, Minimum, Maximum, Standard Deviation), Histogram(Value-Frequenc StatisticsStatisticsy pairs), Classify(Equal Interval, Quantile, Natural Breaks ), AHP, StatisticsEx, Pearson, Regression Service(SA) Spatial Statistics Morans I(Global, Local), G Statistics(Global, Local), Spatial LQ, SpatialCrossAnalysis , , , KOPSS Density, (LFI)- (), (), (KOPSS ), ModelService , , , (KM) , , , , , , , DB (), , , , , , , , , C/S , / , / , (2012. 07 ) (KOPSS) Open API 8 9. KOPSS API WMS(1.3.0), WFS(1.1.0), WCS(1.1.1), WPS(1.0.0) OGC Filter Function Comparison: =, , , >=, Generated from GeoTIFFdem ------=_Part_6_1071286.1341808158497 Content-Type: image/tiff;subtype="geotiff" Content-Transfer-Encoding: base64 Content-ID: TU0AKgAAAAgAEgEAAAMAAAABAJAAAAEBAAMAAAABAIcAAAECAAMAAAABACAAAAEDAAMAAAABAAUA ....................... 3z31333537393/4B4D4F4H4J4L4N4PseICA= ------=_Part_6_1071286.1341808158497-- (KOPSS) Open API 15 16. WebProcessingService 16 17. WPS Parameter Type LiteralData, BoundingBoxData, ComplexData1. Literal Native: byte, short, int, long, float, double, String.2. BoundingBox Extent GridCoverage BinaryZip-binary3. Complex Feature GMLXML Custom XML 18. Mime type , Data source WPS process Category Data source FormatMime type GML2.1 text/xml; subtype=gml/2.1.2 GML3.1 text/xml; subtype=gml/3.1.1() GML3.2 text/xml; subtype=gml/3.2.1 CustomGeometry GeoJSONapplication/jsonFeatures & KML2.1 text/xml; subtype=kml/2.1 (vnd.google-earth.kml+xml)WFS Feature KML2.2 text/xml; subtype=kml/2.2ShapefileCollection GeoRSS2.0 Simple text/xml; subtype=rss_simple/2.0 (rss+xml) Cad Dataset GeoRSS2.0 GMLtext/xml; subtype=rss_gml/2.0 Zip-shapefileapplication/zip Wktapplication/wkt(geometry) Wkbapplication/wkb(geometry)GridWCSGeoTiffimage/tiff() image/geotiffCoveragetext/xml; subtype=sld/1.0.0() SLDUser XMLtext/xml; subtype=sld/1.1.0 Filter User XMLtext/xml; subtype=filter/1.1()XML User XMLtext/xml() LiteralUser --(KOPSS) Open API 18 19. Mime type - examplekopss:CA_FeaturesToCoverageinputFeaturessgg_cd27110resultfieldNameucoderesult ..resultresult(KOPSS) Open API19 20. WPS Request: Process Identifier Process Identifier : namespace:process identifierkopss:ST_CentroidinputGeometry-290.0 60.0 -240.0 150.0 -100.0 130.0 -100.0 100.0 20.0 130.0 100.0 90.0 180.060.0 260.0 -70.0result (KOPSS) Open API 20 21. WPS Request: Parameter Parameter: Reference POST Ex) wfs, wcs, gml, filter, sld complex type kopss:VA_BufferinputFeatures distance100result(KOPSS) Open API 21 22. WPS Request: Parameter Parameter: Reference POST CDATA Ex) wfs, wcs, gml, filter, sld, custom xml complex type kopss:CA_SlopeinputCoverage kopss:raster_dem 249126.90643187007 366434.5230430386 260621.90643187007 377144.5230430386 urn:ogc:def:crs:EPSG::2096 urn:ogc:def:method:WCS:1.1:2dSimpleGrid 5.0 -5.0 urn:ogc:def:cs:OGC:0.0:Grid2dSquareCS (KOPSS) Open API22 23. WPS Request: Parameter Parameter: Reference GET Ex)wps process result(asReference=true), external resource(dxf).. kopss:VA_FeaturesToPointinputFeaturesresult(KOPSS) Open API23 24. WPS Response: ResponseFormRawDataOutputGML, GridCovearge rawdata storeExecuteStatus & ID ResponseResponseDocument Document + RawData asReferenceDocument + Result URL 25. WPS Response: RawDataOutput Literal, BoundingBox, Complex(Custom XML ) resultpfla_emd_poppop5.05137.00000013053.00000028370.00000062554.000000121279.0(KOPSS) Open API25 26. WPS Response: ResponseDocument asReference=true Tiff resultresult (KOPSS) Open API 26 27. WPS Response: ResponseDocument storeExecuteResponse=trueresultkopss:CA_Resample..Process accepted.http://server/ows?service=WPS&version=1.0.0&request=GetExecutionResult&executionId=142e4b6c-44e1-4aba-b8a2-6da8f0793198&outputId=result.tiff&mimetype=image%2Ftiff (KOPSS) Open API 27 28. GeometryProcesses28 29. ST_* Process Geometry operator relationship, operator, proximity & distance, edit, conversion Data source = GML Issue Precision( VA_* process ) Buffer - option Simplify Douglas-Peucker algorithm Rotate radian angle(KOPSS) Open API29 30. ST_* Process: Precision Single vs Double Database Geometry Geometry , Operator(Function) API ? ?(KOPSS) Open API 30 31. ST_* Process: Function ST_Union, ST_Intersection, ST_Difference, ST_SymDifference Same Dimension Point : Point Point LineString : LineString LineString or MultiLineStrng Polygon : Polygon Polygon or MultiPolygon Different Dimension Point : LineString or Polygon Point MultiPoint : LineString or Polygon Point or MultiPoint LineString : Polygon LineString or MultiLineStrng (KOPSS) Open API 31 32. ST_* Process: Buffer ST_Buffer(inputGeometry Geometry, distance Double, endCapStyle String, joinStyleString, quadrantSegments Integer)) : Geometry endCapStyle: Round(1, default), Flat(2), Square(3) joinStyle: Round(1, default), Mitre(2), Bevel(3) Quadrant Segments: 8(left, default) vs 32(right)(KOPSS) Open API 32 33. ST_* Process: Buffer End cap style : Round(default), Flat, Square(KOPSS) Open API 33 34. ST_* Process: Rotate rotZRadians = PI / 180.0 * angle(degree) Ex) rotate 75 = PI / 180.0 * 75 = 1.3089969389957472(KOPSS) Open API34 35. ST_* Process: Simplify Douglas-Peucker algorithm(default) Ex) Gray: source geometry Red: tolerance 1 Blue: tolerance 5LINESTRING (261956.05099999998 166101.414, 261956.09600000002166103.87699999998, 261956.18200000003166105.69799999997, 261956.60900000005 166106.811, 261957.34199999995166108.251, 261957.72600000002 166108.772, 261957.74199999997166111.33399999997, 261957.44900000002 166121.988, 261957.42099999997166122.805, 261957.27500000002 166123.25799999997, 261956.816166123.30800000002, 261954.527 166123.32900000003, 261951.22999999998166123.342, 261949.59699999995 166122.10700000002, 261948.58900000004166120.76299999998, 261947.22699999996166118.05699999997, 261946.99399999995166116.71999999997, 261947.22999999998 166112.919, 261947.05500000005166111.322, 261946.59600000002 166110.34000000003, 261945.59100000001166109.37099999998, 261944.39099999995166108.23599999998, 261943.83200000005 166107.126, 261943.66299999994166105.751, 261943.91000000003 166103.701, 261944.777166100.41100000002, 261944.936 166098.336, 261944.68500000006166096.54100000003, 261944.071 166095.206, 261943.38600000006166094.48100000003, 261942.65099999995166094.22999999998, 261940.05299999996166094.18300000002, 261933.45900000003 (KOPSS) Open API 35 36. ST_* Process: NearestPoint returns the nearest point on a geometry to the input geometry. target source Nearest Point(KOPSS) Open API 36 37. ST_* Process: SetSRID Sets the SRID on a geometry to a particular SRID kopss:ST_SetSRIDinputGeometry129.6042549474073 36.80640958328785srIDEPSG:4326 .. 129.6042549474073 36.80640958328785(KOPSS) Open API 37 38. ST_* Process: Transform Geometry kopss:ST_TransforminputGeometry250951.08217087443 371270.4452788795targetCRSEPSG:4326 ..129.56890769890933 36.84149679781663 (KOPSS) Open API 38 39. ST_* Process: Transform Geometry kopss:ST_TransforminputGeometry250951.08217087443 371270.4452788795sourceCRSEPSG:2096targetCRSEPSG:4326 .. (KOPSS) Open API 39 40. ST_* Process: KML KML WGS84 kopss:ST_AsKMLinputGeometry257601.70330083393 372312.5754942566result127.64373390338656,36.85046838175518 (KOPSS) Open API 40 41. VectorAnalysisProcesses41 42. VA_* Process Vector(FeatureCollection) analysis Overlay, proximity, extraction, generalization, conversion, projection, calculation Data source = GML(WFS )/XML Issue overlay(intersect, union, difference) precision Cad(dxf) to feature collection Accessibility Network(Dijkstras algorithm) Fishnet(KOPSS) Open API 42 43. VA_* Process: Cad(dxf) Conversion Cad Dataset DXF 12 . Filter Encoding Feature Point, LineString, Polygon, Text(Point)4 . Feature layer(String) . Feature height(Double) ,Text textlabel(String) . DXF forcedCRS(EPSG:4326) .(KOPSS) Open API 43 44. WPS Request: Cad(dxf) Conversionkopss:VA_CadDatasetToGMLcadDatasetURLhttp://server/temp/cad/cadDataset.dxfforcedCRSEPSG:2096featureType1result (KOPSS) Open API44 45. VA_* Process: Cad(dxf) Conversion KOPSS ( ) ( ) ArcGIS (KOPSS) Open API45 46. VA_* Process: Fishnet boundary boundaryInside .boundary LineString boundaryInside False. column row , width height column row . Fishnet ArcGIS (LL) (UR) . width height extent . feaure collection UID(Interger, ) . (KOPSS) Open API 46 47. VA_* Process: Fishnet(LL) (UR) width height extent 21 22 23242516 17 18192011 12 1314156789101234 5 boundaryInside: true or false(KOPSS) Open API 47 48. VA_* Process: ThiessenPolygon clipArea Clip (KOPSS) Open API 48 49. VA_* Process: Overlay Overlay(intersect, union, difference, identity, symmetrical difference)precision Intersect = && (logical AND) Union = || (logical OR) Identity = a + (a AND b) Symmetrical Difference= (a OR b) - (a AND b) Erase(Difference) = a NOT b Update = (a NOT b) + b General Process ArcGIS: cracking features assembling features overlay processing Other Tools: overlay processing : Feature Geometry ArcGIS Cluster tolerance API ArcGIS 0.0 (10) Overlay Geomery Null Empty Overlay _1, _n (KOPSS) Open API 49 50. VA_* Process: Intersect Intersect Input layer Overlay layer(KOPSS) Open API 50 51. VA_* Process: Union Union Polygon layer Input layer Overlay layer(KOPSS) Open API 51 52. VA_* Process: Union & Intersect x,y resolution The precision with which coordinates within a feature class are recorded The default x,y resolution for feature classes is 0.0001 meters or its equivalent in the units of the datasets coordinate system. x,y tolerance A cluster tolerance used to cluster features with coincident geometry; used in topology, feature overlay, and related operations The x,y tolerance is used to set the minimum distance between coordinates in clustering operations, such as topology validation, buffer generation, and polygon overlay, as well as in some editing operations. The default x,y tolerance is set to 0.001 meters or its equivalent in the units of the datasets real-world coordinate system (in other words, 0.001 meters on the ground) The default value for the x,y tolerance is 10 times the default x,y resolution, and this is recommended for most cases. ArcGIS : Cluster tolerance = 0 GDB Tolerance = 0 gdb default x,y tolerance API Union : 42 Shapefile Null shape API Union : 55 (KOPSS) Open API 52 53. VA_* Process: Clip Case 1 Input layer Feature clip layer Feature intersect Input layer Input layer Clip layer (KOPSS) Open API53 54. VA_* Process: Clip Case 2 Input layer Feature clip layer Feature intersect Input layer Input layer Clip layer (KOPSS) Open API 54 55. VA_* Process: Buffer Quadrant Segments: 24(default), End cap style : Round(default)(KOPSS) Open API 55 56. VA_* Process: Dissolve & PointStatistics Sum.Jiga, Mean.Jiga SUM_Jiga, AVG_Jiga First : String , Dissolve Feature FST_Last : String , Dissolve Feature LST_Sum : Numeric , Dissolve Feature SUM_Mean : Numeric , Dissolve Feature AVG_Min : Numeric , Dissolve Feature MIN_Max : Numeric , Dissolve Feature MAX_Std : Numeric , Dissolve Feature STD_Var : Numeric , Dissolve Feature VAR_Range : Numeric , Dissolve Feature RNG_Count : Dissolve Feature CNT_(KOPSS) Open API 56 57. VA_* Process: Accessibility Network Dijkstras algorithm(default), A-Star(A*), Shooting-Star(Shooting*) weight (KOPSS) Open API57 58. GridCoverageAnalysisProcesses 58 59. CA_* Process Raster analysis Conversion, density, distance, classification, extraction, zonal, overlay, s urface, math, custom Data source = GML(WFS )/GeoTIFF(WCS ) Issue Common cell size, extent, search radius Zonal statistics - Surface slope, aspect, hillshade algorithm Conversion point, line, polygon Density kernel (Quadratic, Binary, Cosine, Distance, Epanechnikov, Gaussian, In verse_Distance, Quartic, Triangular, Triweight, Tricube) Resample origin point(KOPSS) Open API59 60. CA_* Process: Common Cell Size Extent width height 250 Ex) CellSize = Math.min(Extent.getWidth(), Extent.getHeight()) / 250.0d Extent Extent Default = extent Density Extent Search Radius(Band width) Density Ex) searchRadius = Math.min(extent.getWidth(), extent.getHeight()) / 30.0d; (KOPSS) Open API 60 61. CA_* Process: FeaturesToCoverage Point(MultiPoint) ArcGIS Cell assignment Most_Frequent(Default), Sum, Mean, Standard_Deviation, Maximum, Minimum,Range, Count(KOPSS) Open API 61 62. CA_* Process: FeaturesToCoverage LineString(MultiLineString) Algorithm Bresenhams line algorithm ? Scan-line algorithm ? ArcGIS Cell assignment MAXIMUM_LENGTH(default) GDAL Bresenhams line algorithm(KOPSS) Open API 62 63. CA_* Process: FeaturesToCoverage Polygon(MultiPolygon) Algorithm Polygon Filling Algorithm ? Scan Line Fill Algorithm ? ArcGIS & GDAL Cell assignment CELL_CENTER(default)(KOPSS) Open API 63 64. CA_* Process: Surface Algorithm : Slope, Aspect, Hillshade Neighborhood Method. Burrough, P. A. and Mcdonell, R.A. Algorithm (1998). Included in ArcGIS. 2nd Degree Polynomial Adjustment. Bauer, Rohdenburg and Bork Algorithm (1985) 2nd Degree Polynomial Adjustment. Heerdegen and Beran Algorithm (1982). 2nd Degree Polynomial Adjustment. Zevenbergen and Thorne Algorithm (1987). 3rd Degree Polynomial Adjustment. Haralick Algorithm (1983) Maximum Slope. Travis Algorithm (1975) Maximum Slope by Triangles. Tarboton Algorithm (1997) Least Squares Fit Plane. Costa-Cabral and Burgess Algorithm (1996) Maximum Downhill Slope. Hickey, Van Remortel and Maichle Algorithm (2004): http://www.unesco.org.uy/phi/aqualac/fileadmin/phi/aqualac/GarciaRodriguez_et_al_p78-82.pdf (KOPSS) Open API 64 65. CA_* Process: Surface Slope algorithm: Neighborhood Methodslope_degrees = ATAN (rise_run) * 57.29578 (180/pi)rise_run = ([dz/dx]2 + [dz/dy]2][dz/dx] = ((c + 2f + i) - (a + 2d + g) / (8 * x_cellsize)[dz/dy] = ((g + 2h + i) - (a + 2b + c)) / (8 * y_cellsize) Edge (3 x 3 window) e() NoData NoData e NoData e http://help.arcgis.com/en/arcgisdesktop/10.0/help/index.html#/How_Slope_works/009z000000vz000000/ (KOPSS) Open API 65 66. CA_* Process: Density Kernel Functions Quadratic Binary Cosine Distance Epanechnikov Gaussian Inverse_Distance Quartic Triangular Triweight Tricubehttp://en.wikipedia.org/wiki/Kernel_(statistics) (KOPSS) Open API 66 67. CA_* Process: Density ArcGIS kernel function is based on the quadratic kernel functiondescribed in Silverman (1986, p. 76, equation 4.5). Silverman, B.W. Density Estimation for Statistics and Data Analysis. New York: Chapman and Hall, 1986. : http://www.bchydro.com/(KOPSS) Open API 67 68. CA_* Process: DensityQuadratic (ArcGIS)(KOPSS) Open API 68 69. CA_* Process: DensityQuadratic(Custom)(KOPSS) Open API 69 70. CA_* Process: DensityQuartic(KOPSS) Open API 70 71. CA_* Process: DensityEpanechnikov (KOPSS) Open API 71 72. CA_* Process: DensityTricube(KOPSS) Open API 72 73. CA_* Process: DensityTriangular (KOPSS) Open API 73 74. CA_* Process: DensityTriweight(KOPSS) Open API 74 75. CA_* Process: DensityCosine (KOPSS) Open API 75 76. CA_* Process: DensityGaussian (KOPSS) Open API 76 77. CA_* Process: DensityInverse Distance(KOPSS) Open API 77 78. CA_* Process: DensityDistance (KOPSS) Open API 78 79. CA_* Process: DensityBinary=Point Density(KOPSS) Open API 79 80. CA_* Process: Density Vector vs RasterToPoint A(KOPSS) Open API 80 81. CA_* Process: Density Vector vs RasterToPoint G(KOPSS) Open API 81 82. CA_* Process: Density A (KOPSS) Open API 82 83. CA_* Process: Density B (KOPSS) Open API 83 84. CA_* Process: Euclidean distance Rasterizing A GCellsize: 100(KOPSS) Open API 84 85. CA_* Process: Euclidean distance Rasterizing A GCellsize: 30(KOPSS) Open API 85 86. CA_* Process: Euclidean distance Maximum distance: 2000 m (KOPSS) Open API 86 87. CA_* Process: Zonal statistics FeaturesToGridCoverage COUNTAREAMIN MAX RANGEMEANSTD SUM286673 7166825 49490 441177.32552 101.90411 50834436286661 7166525 49490 441177.38812 101.94474 50850256286674 7166850 49490 441177.32485 101.90420 50834425 (KOPSS) Open API87 88. CA_* Process: CoverageToFeatures ArcGIS 9.3 RasterToPolyline Weeding uses the Douglas Peucker algorithm for line generalizationwith a tolerance of sqrt(0.5) * cell size. RasterToPolygon The weeding parameter uses an algorithm specifically designed forraster-to-vector conversion. It is not the Douglas Peucker algorithm. ArcGIS 10.0/10.1 http://webhelp.esri.com/arcgisdesktop/9.3/index.cfm?TopicName=RasterDataToLineFeatureData (KOPSS) Open API88 89. CA_* Process: CoverageToFeaturesA B (KOPSS) Open API 89 90. CA_* Process: Resample ArcGIS The lower left corner of the output raster dataset will be the same map space coordinate location as the lower left corner of the input raster dataset. The numbers of rows and columns in the output raster are determined as follows: columns = (xmax - xmin) / cell size rows = (ymax - ymin) / cell sizehttp://help.arcgis.com/en/arcgisdesktop/10.0/help/index.html#/Resample/00170000009t000000/ (KOPSS) Open API90 91. CA_* Process: Resample 1 * 1 3 * 3 Nearest neighbor Extent Snap : default Extent Snap http://www.onspatial.com/2010/02/spatial-analysis%EB%B6%84%EC%84%9D%ED%99%98%EA%B2%BD%EC%9D%98-%EC%A0%95%EC%9D%98%EA%B0%80-%EC%A4%91%EC%9A%94%ED%95%98%EB%8B%A4.html(KOPSS) Open API91 92. CA_* Process: Extraction Filter Encoding ArcGIS Spatial AnalystExtension Extract by Attributes Extracts the cells of a raster based on a logical query. Extract by Circle Extracts the cells of a raster based on a circle. Extract by Points Extracts the cells of a raster based on a set of coordinate points. Extract by Polygon Extracts the cells of a raster based on a polygon. Extract by Rectangle Extracts the cells of a raster based on a rectangle. Geometry http://resources.arcgis.com/en/help/main/10.1/#/An_overview_of_the_Extraction_tools/009z00000028000000/(KOPSS) Open API92 93. CA_* Process: Extraction : Extract by Attributes Ex) Value >= 25filterValue25(KOPSS) Open API93 94. CA_* Process: Extraction : Extract by Polygon Ex) ST_Interects(the_geom, ST_GeomFromText(POLYGON((100 200, ., 100 200)), 2096))filterthe_geom254709.22090040386 376440.6152000468 ........... 254709.22090040386 376440.6152000468 (KOPSS) Open API 94 95. CA_* Process: ConditionalEvaluation Ex) NoData 100, 200 = Con(IsNull([raster1]), 100, 200)inputFilterValueNoDatatrueValue100falseValue200 (KOPSS) Open API95 96. StatisticalAnalysisProcesses96 97. SA_* Process Statistics(general & spatial) analysis Basic, advance, spatial statistics Data source = XML/GML(WFS )/ GeoTIFF(WCS ) Issue Classify Equal interval, Quantile, Natural breaks, Standard deviation Morans I, G-statistics Ture centroid, Maximum Nearest Neighbor Distance SpatialLQ Centroid & polygon (KOPSS) Open API 97 98. SA_* Process: Classify Classify Equal Interval Min, Max Quantile sorting Natural Breaks sorting Standard Deviation Mean, StdDev. (KOPSS) Open API 98 99. SA_* Process: Equal interval Equal interval Equal interval divides the range of attribute values into equal-sizedsubranges. ex)percentages and temperature interval = (max min) / number of classeshttp://resources.arcgis.com/en/help/main/10.1/#/Classifying_numerical_fields_for_graduated_symbology/00s50000001r000000/(KOPSS) Open API 99 100. SA_* Process: Quantile Quantile Each class contains an equal number of features. quanta = number of samples / number of classes http://resources.arcgis.com/en/help/main/10.1/#/Classifying_numerical_fields_for_graduated_symbology/00s50000001r000000/(KOPSS) Open API 100 101. SA_* Process: QuantileA Q (KOPSS) Open API 101 102. SA_* Process: QuantileA G (KOPSS) Open API 102 103. SA_* Process: Natural Breaks Natural Breaks(Jenks optimization method) Class breaks are identified that best group similar values and that maximize the differences between classes. http://support.esri.com/en/knowledgebase/techarticles/detail/11961http://resources.arcgis.com/en/help/main/10.1/#/Classifying_numerical_fields_for_graduated_symbology/00s50000001r000000/(KOPSS) Open API 103 104. SA_* Process: Natural BreaksA Q (KOPSS) Open API 104 105. SA_* Process: Natural BreaksA G (KOPSS) Open API 105 106. SA_* Process: Standard Deviation Standard Deviation Class breaks are created with equal value ranges that are a proportion ofthe standard deviationusually at intervals of 1, , , or standarddeviations using mean values and the standard deviations from the mean. (KOPSS) Open API106 107. SA_* Process: Standard DeviationA: FloatG: Double (KOPSS) Open API 107 108. SA_* Process: Standard DeviationA: FloatG: Double (KOPSS) Open API 108 109. SA_* Process: Morans I Global Moran(1950) I , (KOPSS) Open API109 110. SA_* Process: Morans I Local . Anselin Local Morans I statistic. True centroid(KOPSS) Open API110 111. SA_* Process: G-Statistics Global G , (Getis and Ord, 1992) True centroid (KOPSS) Open API 111 112. SA_* Process: G-Statistics Local G True centroid (KOPSS) Open API 112 113. SA_* Process: SpatialLQ (Wong, 2005)(KOPSS) Open API 113 114. SA_* Process: SpatialCrossAnalysis x, y (KOPSS) Open API 114 115. KOPSSModelProcesses115 116. KM_* Process KOPSS model KOPSS Data , WFS Data source = XML/GML(WFS )/ GeoTIFF(WCS ) /Direct connection Issue Location-Allocation(KOPSS) Open API116 117. KM_* Process: Location-Allocation Location-Allocation Algorithm PMedian: MaxiMin: MiniMax: (KOPSS) Open API117 118. : GIS Program KOPSS C/S Program ArcGIS Engine ArcGIS 10.0 MapInfo Professional 11.0 Quantum GIS (1.7.0) GDAL library Open source GIS Tool & libraries(KOPSS) Open API 118 119. : API API / (KOPSS) Open API 119