边缘检测-中英文翻译

测量专业常用英语翻译短语或词组-1阿贝比长原理Abbe comparator principle阿达马变换Hadamard transformation安平精度setting accuracy岸台，*固定台base station暗礁reef靶道工程测量target road engineering survey 半导体激光器semiconductor laser半日潮港semidiurnal tidal harbor半色调halftone饱和度saturation北极星任意时角法method by hour angle of Polaris贝塞尔大地主题解算公式Bessel formula for solution of geodetic problem贝塞尔椭球Bessel ellipsoid贝叶斯分类Bayesian classification被动式遥感passive remote sensing本初子午线prime meridian比较地图学comparative cartography比较地图学comparative cartography比例尺scale比例量表ratio scaling比例误差proportional error比值变换ratio transformation比值增强ratio enhancement闭合差closing error闭合差closure闭合差closing error闭合差closure闭合导线closed traverse闭合导线closed traverse闭合水准路线closed leveling line闭合水准路线closed leveling line边长中误差mean square error of side length 边交会法linear intersection边角测量triangulateration边角交会法linear-angular intersection边角网triangulateration network边缘检测edge detection边缘增强edge enhancement编绘compilation编绘compilation编绘原图compiled original 编绘原图compiled original变比例投影varioscale projection变换光束测图affine plotting变线仪variomat变形观测控制网control network for deformation observation变形观测控制网control network for deformation observation变形椭圆indicatrix ellipse标称精度nominal accuracy标称精度nominal accuracy标尺rod标尺staff标高差改正correction for skew normals标高差改正correction for skew normals标界测量survey for marking of boundary标志灯，*回光灯signal lamp标准差standard deviation标准配置点Gruber point标准纬线standard parallel冰后回弹post glacial rebound波茨坦重力系统Potsdam gravimetric system波带板zone plate波浪补偿compensation of undulation波浪补偿compensation of undulation波浪补偿heave compensation波浪补偿器，*涌浪滤波器heave compensator波罗-科普原理Porro-Koppe principle波谱测定仪spectrometer波谱集群spectrum cluster波谱特征空间spectrum feature space波谱特征曲线spectrum character curve波谱响应曲线spectrum response curve波束角beam angle波束角wave beam angle泊位Berth补偿器compensator补偿器compensator补偿器补偿误差compensating error of compensator补偿器补偿误差compensating error of compensator布格改正Bouguer correction布格异常Bouguer anomaly布隆斯公式Bruns formula布耶哈马问题Bjerhammar problem采剥工程断面图striping and mining engineering profile采剥工程综合平面图synthetic plan of striping and mining采场测量stope survey采掘工程平面图mining engineering plan采区测量survey in mining panel采区联系测量connection survey in mining panel采区联系测量connection survey in mining panel采样sampling采样间隔sampling interval彩色编码color coding彩色编码color coding彩色变换color transformation彩色变换color transformation彩色复制color reproduction彩色复制color reproduction彩色感光器材color sensitive material彩色感光器材color sensitive material彩色红外片，*假彩色片false color film彩色红外片，*假彩色片color infrared film 彩色红外片，*假彩色片color infrared film 彩色片color film彩色片color film彩色摄影color photography彩色摄影color photography彩色校样color proof彩色校样color proof彩色样图color manuscript彩色样图color manuscript彩色增强color enhancement彩色增强color enhancement彩色坐标系color coordinate system彩色坐标系color coordinate system参考数据reference data参考椭球reference ellipsoid参考效应reference effect参数平差，*间接平差parameter adjustment 侧方交会side intersection侧扫声呐side scan sonar侧视雷达side-locking radar测标[measuring] mark测杆measuring bar测高仪Altimeter测绘标准standards of surveying and mapping测绘联合会International Union of Surveying and Mapping测绘学geomatics测绘学SM测绘学surveying and mapping测绘仪器instrument of surveying and mapping测角中误差mean square error of angle observation测距定位系统，*圆-圆定位系统range positioning system测距雷达range-only radar测距盲区range hole测距仪rangefinder测量标志survey mark测量船survey vessel测量规范specifications of surveys测量控制网surveying control network测量平差adjustment of observation测量平差survey adjustment测量学surveying测流current surveying测流current surveying测深改正correction of depth测深改正correction of depth测深杆sounding pole测深精度total accuracy of sounding测深仪读数精度reading accuracy of sounder测深仪发射参数，*测深仪零线transmiting line of sounder测深仪回波信号echo signal of sounder测深仪记录纸recording paper of sounder测速标marks for measuring velocity测图卫星mapping satellite测微密度计microdensitometer测微目镜micrometer eyepiece测微器micrometer测线survey line测站station测站归心station centring层间改正plate correction觇牌target长度标准检定场standard field of length厂址测量surveying for site selection超导重力仪superconductor gravimeter超焦点距离hyperfocal distance超近摄影测量macrophotogrammetry潮汐表tidal tables潮汐波tidal wave潮汐调和常数tidal harmonic constants潮汐调和分析tidal harmonic analysis潮汐非调和常数tidal nonharmonic constants潮汐非调和分析tidal nonharmonic analysis 潮汐摄动tidal perturbation潮汐因子tidal factor潮汐预报tidal prediction潮信表tidal information panel沉船wreck沉降观测settlement observation成像光谱仪imaging spectrometer成像雷达imaging radar城市测量urban survey城市地形测量urban topographic survey城市地形图topographic map of urban area城市基础地理信息系统UGIS城市基础地理信息系统urban geographical information system城市控制测量urban control survey城市制图urban mapping乘常数multiplication constant尺度参数scale parameter抽象符号abstract symbol触觉地图tactual map船台，*移动台mobile station垂核面vertical epipolar plane垂核线vertical epipolar line垂球plumb bob垂线偏差改正correction for deflection of the vertical垂线偏差改正correction for deflection of the vertical垂直角vertical angle垂直折光误差vertical refraction error垂直折光系数vertical refraction coefficient 垂准仪，*铅垂仪plumb aligner纯重力异常pure gravity anomaly磁变年差annual change of magnetic variation磁测深magnetic sounding磁测深线magnetic sounder磁方位角magnetic azimuth磁力扫海测量magnetic sweeping磁力异常区magnetic anomaly area磁偏角magnetic variation磁倾角magnetic dip磁像限角magnetic bearing磁子午线magnetic meridian粗差gross error粗差检测gross error detection粗码C/A Code粗码Coare/Acquision Code粗码C/A Code粗码Coare/Acquision Code打样Proofing大比例尺测图large scale topographical mapping大潮升spring rise大地测量边值问题geodetic boundary value problem大地测量参考系geodetic reference system大地测量数据库geodetic database大地测量学geodesy大地测量仪器geodetic instrument大地方位角geodetic azimuth大地高ellipsoidal height大地高geodetic height大地基准geodetic datum大地经度geodetic longitude大地水准面geoid大地水准面高geoidal height大地水准面高geoidal undulation大地天顶延迟atmosphere zenith delay大地天文学geodetic astronomy大地网geodetic network大地纬度geodetic latitude大地线geodesic大地原点geodetic origin大地主题反解inverse solution of geodetic problem大地坐标geodetic coordinate大地坐标系geodetic coordinate system大陆架地形测量continental shelf topographic survey大陆架地形测量continental shelf topographic survey大气传输特性characteristics of atmospheric transmission大气传输特性characteristics of atmospheric transmission大气窗atmospheric window大气改正,*气象改正atmospheric correction 大气透过率atmospheric transmissivity大气噪声atmospheric noise大气阻力摄动atmospheric drag perturbation 大像幅摄影机large format camera大像幅摄影机LFC大洋地势图GEBCO大洋地势图general bathymetric chart of the oceans大圆航线图great circle sailing chart带谐系数coefficient of zonal harmonics带谐系数coefficient of zonal harmonics带状平面图zone plan单差相位观测single difference phase observation单点定位point positioning单片坐标量测仪monocomparator单位权unit weight单位权方差，*方差因子variance of unit weight弹道摄影测量ballistic photogrammetry弹道摄影机ballistic camera当地平均海面local mean sea level挡差改正correction of scale difference挡差改正correction of scale difference导标leading beacon 导弹定向测量missile orientation survey导弹试验场工程测量engineering survey of missile test site导航台定位测量navigation station location survey导航台定位测量navigation station location survey导航图navigation chart导航图navigation chart导航线，*叠标线leading line导入高程测量induction height survey导线边traverse leg导线测量traverse survey导线点traverse point导线横向误差lateral error of traverse导线角度闭合差angle closing error of traverse导线结点junction point of traverses导线曲折系数meandering coefficient of traverse导线全长闭合差total length closing error of traverse导线网traverse network导线相对闭合差relative length closing error of traverse导线折角traverse angle导线纵向误差longitudinal error of traverse 岛屿测量island survey岛屿联测island-mainland connection survey 岛屿图island chart倒锤[线]观测，倒锤法inverse plummet observation测量专业常用英语翻译短语或词组-2灯[光性]质characteristic of light灯[光性]质characteristic of light灯标light beacon灯船light ship灯船light vessel灯浮标light buoy灯高height of light灯光节奏flashing rhythm of light灯光射程light range灯光遮蔽Eclipse灯光周期light period灯色light color灯塔light house等比线isometric parallel等高距contour interval等高距contour interval等高棱镜contour prism等高棱镜contour prism等高线Contour等高线Contour等高仪astrolabe等积投影equivalent projection等级结构hierarchical organization等角定位格网equiangular positioning grid等角条件，*正形投影conformal projection 等角条件，*正形投影conformal projection 等精度[曲线]图equiaccuracy chart等距量表interval scaling等距投影equidistant projection等距圆弧格网equilong circle arc grid等量纬度isometric latitude等偏摄影parallel-averted photography等倾摄影equally tilted photography等权代替法method of equalweight substitution等值灰度尺equal value gray scale等值区域图，*分区量值地图choroplethic map等值区域图，*分区量值地图choroplethic map等值线地图isoline map等值线法isoline method低潮线low water line底板测点floor station底点纬度latitude of pedal底色去除under color removal底色增益under color addition底质bottom characteristics底质quality of the bottom底质采样bottom characteristics sampling底质调查bottom characteristics exploration 底质分布图bottom sediment chart地产界测量property boundary survey 地磁经纬仪magnetism theodolite地磁仪magnetometer地底点ground nadir point地固坐标系body-fixed coordinate system地固坐标系earth-fixed coordinate system地基系统ground-based system地极坐标系coordinate system of the pole地极坐标系coordinate system of the pole地籍cadastre地籍cadastre地籍簿land register地籍册cadastral lists地籍册cadastral lists地籍测量cadastral survey地籍测量cadastral survey地籍调查cadastral inventory地籍调查cadastral inventory地籍更新renewal of the cadastre地籍管理cadastral survey manual地籍管理cadastral survey manual地籍图cadastral map地籍图cadastral map地籍修测cadastral revision地籍修测cadastral revision地籍制图cadastral mapping地籍制图cadastral mapping地界测量land boundary survey地壳均衡isostasy地壳均衡改正isostatic correction地壳形变观测crust deformation measurement地壳形变观测crust deformation measurement地块测量parcel survey地类界图land boundary map地理格网geographic grid地理视距geographical viewing distance地理信息传输geographic information communication地理信息系统geographic information system地理信息系统GIS地理坐标geographic graticule地理坐标参考系geographical referencesystem地貌图geomorphological map地貌形态示量图morphometric map地面接收站ground receiving station地面立体测图仪terrestrial stereoplotter地面摄谱仪terrestrial spectrograph地面摄影测量terrestrial photogrammetry地面摄影机terrestrial camera地面实况ground truth地面照度illuminance of ground地名geographical name地名place name地名标准化place-name standardization地名录gazetteer地名数据库place-name database地名索引geographical name index地名通名geographical general name地名学toponomastics地名学toponymy地名转写geographical name transcription地名转写geographical name transliteration地平线摄影机horizon camera地平线像片horizon photograph地倾斜观测ground tilt measurement地球定向参数earth orientation parameter地球定向参数EOP地球同步卫星geo-synchronous satellite地球椭球earth ellipsoid地球位，*大地位geopotential地球位数geopotential number地球位系数potential coefficient of the earth 地球形状earth shape地球形状Figure of the earth地球仪globe地球引力摄动terrestrial gravitational perturbation地球重力场模型earth gravity model地球资源卫星earth resources technology satellite地球资源卫星ERTS地球自转参数earth rotation parameter地球自转参数ERP地球自转角速度rotational angular velocity of the earth 地势图hypsometric map地图map地图编绘map compilation地图编辑map editing地图编辑大纲map editorial policy地图表示法cartographic presentation地图表示法cartographic presentation地图传输cartographic communication地图传输cartographic communication地图叠置分析map overlay analysis地图分类cartographic classification地图分类cartographic classification地图分析cartographic analysis地图分析cartographic analysis地图符号库map symbols bank地图符号学cartographic semiology地图符号学cartographic semiology地图负载量map load地图复杂性map complexity地图复制map reproduction地图感受map perception地图更新map revision地图集信息系统Atlas information system地图利用map use地图量算法cartometry地图量算法cartometry地图模型，*制图模型cartographic model地图模型，*制图模型cartographic model地图内容结构cartographic organization地图内容结构cartographic organization地图判读map interpretation地图评价cartographic evaluation地图评价cartographic evaluation地图潜信息cartographic potential information地图潜信息cartographic potential information地图清晰性map clarity地图色标color chart地图色标color chart地图色标map color standard地图色谱map color atlas地图设计map design地图数据结构map data structure地图数据库cartographic database地图数据库cartographic database地图数字化map digitizing地图投影map projection地图显示map display地图信息cartographic information地图信息cartographic information地图信息系统cartographic information system地图信息系统CIS地图信息系统cartographic information system地图信息系统CIS地图选取cartographic selection地图选取cartographic selection地图学cartography地图学cartography地图研究法cartographic methodology地图研究法cartographic methodology地图易读性map legibility地图印刷map printing地图语法cartographic syntactics地图语法cartographic syntactics地图语言cartographic language地图语言cartographic language地图语义cartographic semantics地图语义cartographic semantics地图语用cartographic pragmatics地图语用cartographic pragmatics地图阅读map reading地图整饰map decoration地图制图map making地图制图软件cartographic software地图制图软件cartographic software地图注记map lettering地下管线测量underground pipeline survey 地下铁道测量subway survey地下铁道测量underground railway survey地下油库测量underground oil depot survey 地心经度geocentric longitude地心纬度geocentric latitude地心引力常数geocentric gravitational constant地心坐标系geocentric coordinate system 地形测量topographic survey地形底图base map of topography地形改正topographic correction地形数据库topographic database地形图topographic map地形图更新revision of topographic map地形图图式topographic map symbols地震台精密测量precise survey at seismic station地质测量geological survey地质点测量geological point survey地质略图geological scheme地质剖面测量geological profile survey地质剖面图geological section map典型图形平差adjustment of typical figures 点方式point mode点位中误差mean square error of a point点下对中centering under point点下对中centering under point点状符号point symbol电磁波测距electromagnetic distance measurement电磁波测距仪electromagnetic distance measuring instrument电磁传播[时延]改正correction for radio wave propagation of time signal电磁传播[时延]改正correction for radio wave propagation of time signal电荷耦合器件CCD电荷耦合器件charge-coupled device电荷耦合器件CCD电荷耦合器件charge-coupled device电离层折射改正ionospheric refraction correction电子测距仪EDM电子测距仪electronic distance measuring instrument电子出版系统electronic publishing system 电子地图集electronic atlas电子分色机color scanner电子分色机color scanner电子海图electronic map电子海图数据库ECDB电子海图数据库electronic chart database电子海图显示和信息系统ECDIS电子海图显示和信息系统electronic chart display and information system电子经纬仪electronic theodolite电子平板仪electronic plane-table电子求积仪electronic planimeter电子水准仪electronic level电子速测仪，*全站仪electronic tachometer 电子显微摄影测量nanophotogrammetry电子显微摄影测量nanophotogrammetry电子相关electronic correlation电子印像机electronic printer调绘Annotation调焦误差error of focusing调频频率modulation frequency调制传递函数modulation transfer function 调制传递函数MTF调制器modulator叠栅条纹图，*莫尔条纹图moirétopography顶板测点roof station定深扫海sweeping at definite depth定位标记positioning mark定位点间距positioning interval定位检索，*开窗检索retrieval by windows 定位统计图表法positioning diagram method定线测量Alignment survey定向连接点connection point定向连接点connection point for orientation 定向连接点connection point定向连接点connection point for orientation 定性检索retrieval by header定影Fixing动感autokinetic effect动画引导animated steering动画制图animated mapping动态定位kinematic positioning独立交会高程点elevation point by independent intersection独立模型法空中三角测量independent model aerial triangulation独立坐标系independent coordinate system度盘circle 度盘circle断面仪Profiler对景图front view对流层折射改正tropospheric refraction correction对数尺logarithmic scale对中杆centering rod对中杆centering rod多倍仪multiplex多边形地图polygonal map多边形结构polygon structure多边形平差法Adjustment by method of polygon多波束测探multibeam echosounding多波束测探系统multibeam sounding system 多层结构multi layer organization多级纠正multistage rectification多焦点投影polyfocal projection多路径效应multipath effect多媒体地图multimedia map多年平均海面multi-year mean sea level多谱段扫描仪MSS多谱段扫描仪multispectral scanner多谱段摄影multispectral photography多谱段摄影机multispectral camera多谱段遥感multispectral remote sensing多时相分析multi-temporal analysis多时相遥感multi-temporal remote sensing多星等高法equal-altitude method of multi-star多用途地籍multi-purpose cadastre多余观测redundant observation多圆锥投影polyconic projection厄特沃什效应Eötvös effect二值图像binary image测量专业常用英语翻译短语或词组-3发光二极管LED发光二极管light-emitting diode法方程normal equation法方程normal equation法截面normal section法截面normal section法伊改正Faye correction反差Contrast反差Contrast反差系数contrast coefficient反差系数contrast coefficient反差增强contrast enhancement反差增强contrast enhancement反立体效应pseudostereoscopy反射波谱reflectance spectrum反束光导管摄影机return beam vidicon camera反像mirror reverse反像wrong-reading反转片reversal film范围法area method方差-协方差传播律variance-covariance propagation law方差-协方差矩阵variance-covariance matrix 方里网kilometer grid方位角中误差mean square error of azimuth 方位圈compass rose方位圈compass rose方位投影azimuthal projection方向观测法method by series方向观测法method of direction observation 防波堤Breakwater防波堤mole房地产地籍real estates cadastre仿射纠正affine rectification放样测量setting-out survey非地形摄影测量nontopographic photogrammetry非地形摄影测量nontopographic photogrammetry非监督分类unsupervised classification非量测摄影机non-metric camera非量测摄影机non-metric camera菲列罗公式Ferrero's formula分版原图Flaps分瓣投影interrupted projection分层layer分层设色表graduation of tints分层设色法hypsometric layer分潮Constituent 分潮Constituent分潮迟角epoch of partial tide分潮振幅amplitude of partial tide分带纠正zonal rectification分带子午线zone dividing meridian分类器classifier分类器classifier分区统计图表法cartodiagram method分区统计图表法chorisogram method分区统计图表法cartodiagram method分区统计图表法chorisogram method分区统计图表法，*等值区域法cartogram method分区统计图表法，*等值区域法cartogram method分区统计图法，*等值区域法choroplethic method分区统计图法，*等值区域法choroplethic method分色，*分色参考图color separation分色，*分色参考图color separation分析地图analytical map风讯信号杆wind signal pole浮标Buoy浮雕影像地图picto-line map浮子验潮仪float gauge符号化symbolization辐射三角测量radial triangulation辐射线格网radial positioning grid辐射校正radiometric correction辐射遥感器radiation sensor负荷潮load tide负片negative负片negative附参数条件平差condition adjustment with parameters附参数条件平差condition adjustment with parameters附合导线connecting traverse附合导线connecting traverse附合水准路线annexed leveling line附加位additional potential附条件参数平差，*附条件间接平差parameter adjustment with conditions复测法repetition method复垦测量reclaimation survey复照仪reproduction camera副台slave station概率判决函数Probability decision function 概然误差probable error干出礁covers and uncovers rock干出礁covers and uncovers rock干涉雷达INSAR干涉雷达interometry SAR感光sensitization感光材料sensitive material感光测定sensitometry感光度sensitivity感光特性曲线characteristic curve of photographic transmission感光特性曲线characteristic curve of photographic transmission感受效果perceptual effect港界harbor boundary港口port港口工程测量harbor engineering survey港湾测量harbor survey港湾锚地图集harbor/anchorage atlas港湾图harbor chart高差仪statoscope高程height高程导线height traverse高程点elevation point高程基准height datum高程控制测量vertical control survey高程控制点vertical control point高程控制网vertical control network高程系统height system高程异常height anomaly高程中误差mean square error of height高度角altitude angle高度角elevation angle高密度数字磁带HDDT高密度数字磁带high density digital tape高斯-克吕格投影Gauss-Krüger projection高斯平面子午线收敛角Gauss grid convergence高斯平面坐标系Gauss plane coordinate system高斯投影方向改正arc-to-chord correction in Gauss projection高斯中纬度公式Gauss midlatitude formula 格网单元cell格网单元cell跟踪数字化tracing digitizing工厂现状图测量survey of present state at industrial site工程测量engineering survey工程测量学engineering surveying工程经纬仪engineer's theodolite工程控制网engineering control network工程摄影测量engineering photogrammetry 工程水准仪engineer's level工业测量系统industrial measuring system工业摄影测量industrial photogrammetry公路工程测量road engineering survey功率谱power spectrum共面方程coplanarity equation共面方程coplanarity equation共线方程collinearity equation共线方程collinearity equation构像方程imaging equation古地图ancient map骨架航线，*构架航线,测控条control strip 骨架航线，*构架航线,测控条control strip 固定平极fixed mean pole固定误差fixed error固定相移fixed phase drift固体潮[solid] Earth tide固体激光器solid-state laser管道测量pipe survey管道综合图synthesis chart of pipelines贯通测量holing through survey贯通测量breakthrough survey惯性测量系统inertial surveying system惯性测量系统ISS惯性坐标系inertial coordinate system惯用点conventional name惯用点conventional name灌区平面布置图irrigation layout plan光电测距导线EDM traverse光电测距仪electro-optical distancemeasuring instrument光电等高仪photoelectric astrolabe光电遥感器photoelectric sensor光电中星仪photoelectric transit instrument 光碟，*光盘CD光碟，*光盘compact disc光碟，*光盘CD光碟，*光盘compact disc光谱感光度，*光谱灵敏度spectral sensitivity光圈,*有效孔径Aperture光圈号数f-number光圈号数stop-number光束法空中三角测量bundle aerial triangulation光栅grating广播星历broadcast ephemeris归化纬度reduced latitude归心改正correction for centering归心改正correction for centering归心元素elements of centring龟纹moire规划地图planning map规矩线register mark国际测绘联合会IUSM国际测量师联合会Fédération Internationale des Géométres国际测量师联合会FIG国际大地测量协会IAG国际大地测量协会International Association of Geodesy国际大地测量与地球物理联合会International Union of Geodesy and Geophysics国际大地测量与地球物理联合会IUGG国际地球参考架international terrestrial reference frame国际地球参考架ITRF国际地球自转服务局IERS国际地球自转服务局International Earth Rotation Service国际海道测量组织IHO国际海道测量组织International Hydrography Organization 国际海图international chart国际航天测量与地球学学院ITC国际矿山测量学会International Society of Mine Surveying国际摄影测量与遥感学会International Society for Photogrammetry and Remote S国际摄影测量与遥感学会ISPRS国际天球参考架ICRF国际天球参考架international celestial reference frame国际协议原点CIO国际协议原点Conventional International Origin国际协议原点CIO国际协议原点Conventional International Origin国际原子时IAT国际原子时international atomic time国际制图协会ICA国际制图协会International Cartographic Association国家地图集national atlas国家地图集national atlas国家基础地理信息系统national fundamental geographic information system国家基础地理信息系统national fundamental geographic information system海[洋]图集marine atlas海岸coast海岸coast海岸地形测量coast topographic survey海岸地形测量coast topographic survey海岸图coast chart海岸图coast chart海岸线coast line海岸线coast line海岸性质nature of the coast海岸性质nature of the coast海拔height above sea level海道测量，*水道测量hydrographic survey 海道测量学，*水道测量学hydrography海底成像系统seafloor imaging system海底地貌submarine geomorphology海底地貌图submarine geomorphologic chart海底地势图submarine situation chart海底地形测量bathymetric surveying海底地形图bathymetric chart海底地质构造图submarine structural chart 海底电缆submarine cable海底管道submarine pipeline海底控制网submarine control network海底倾斜改正seafloor slope correction海底声标acoustic beacon on bottom海底施工测量submarine construction survey海底隧道测量submarine tunnel survey海福德椭球Hayford ellipsoid海军导航卫星系统Navy Navigation Satellite System海军导航卫星系统NNSS海军导航卫星系统Navy Navigation Satellite System海军导航卫星系统NNSS海军勤务测量naval service survey海军勤务测量naval service survey海控点hydrographic control point海流计current meter海流计current meter海面地形sea surface topography海区界线sea area bounding line海区资料调查sea area information investigation海区总图general chart of the sea海图Chart海图Chart海图比例尺Chart scale海图比例尺Chart scale海图编号Chart numbering海图编号Chart numbering海图编制Chart compilation海图编制Chart compilation海图标题Chart title海图标题Chart title海图大改正Chart large correction海图大改正Chart large correction海图分幅Chart subdivision海图分幅Chart subdivision海图改正Chart correction 海图改正Chart correction海图投影Chart projection海图投影Chart projection海图图廓Chart boarder海图图廓Chart boarder海图图式symbols and abbreviations on chart 海图小改正Chart small correction海图小改正Chart small correction海图制图charting海图制图charting海图注记lettering of chart海洋测绘marine charting海洋测绘数据库marine charting database海洋测量marine survey海洋测量定位marine survey positioning海洋磁力测量marine magnetic survey海洋磁力图marine magnetic chart海洋磁力异常marine magnetic anomaly海洋大地测量marine geodetic survey海洋大地测量学marine geodesy海洋工程测量marine engineering survey海洋划界测量marine demarcation survey海洋环境图marine environmental chart海洋气象图marine meteorological chart海洋生物图marine biological chart海洋水文图marine hydrological chart海洋水准测量marine leveling海洋卫星Seasat海洋质子采样器marine bottom proton sampler海洋质子磁力仪marine proton magnetometer海洋重力测量marine gravimetry海洋重力仪marine gravimeter海洋重力异常marine gravity anomaly海洋重力异常图Chart of marine gravity anomaly海洋重力异常图Chart of marine gravity anomaly海洋专题测量marine thematic survey海洋资源图marine resource chart航标表list of lights航带法空中三角测量strip aerial triangulation航道channel航道channel航道fairway航道图navigation channel chart航道图navigation channel chart航高flight height航高flying height航海天文历nautical almanac航海天文历nautical almanac航海通告NM航海通告notice to mariners航海通告NM航海通告notice to mariners航海图nautical chart航海图nautical chart航迹track航空摄谱仪aerial spectrograph航空摄影aerial photography航空摄影测量aerial photogrammetry航空摄影测量aerophotogrammetry航空摄影机aerial camera航空图aeronautical chart航空遥感aerial remote sensing航空重力测量airborne gravity measurement 航路指南sailing directions航路指南SD航摄计划flight plan of aerial photography航摄领航navigation of aerial photography航摄领航navigation of aerial photography航摄漏洞aerial photographic gap航摄软片aerial film航摄像片,航空像片aerial photograph航摄质量quality of aerophotography航速speed航天飞机space shuttle航天摄影space photography航天摄影测量，*太空摄影测量space photogrammetry航天遥感space remote sensing航向course航向course航向倾角longitudinal tilt航向倾角pitch航向重叠end overlap 航向重叠fore-and-aft overlap航向重叠forward overlap航向重叠longitudinal overlap航行通告notice to navigator航行通告notice to navigator航行图sailing chart航行障碍物navigation obstruction航行障碍物navigation obstruction合成地图synthetic map合成孔径雷达SAR合成孔径雷达synthetic aperture radar合点控制vanishing point control河道整治测量river improvement survey河外致密射电源，*类星体extragalactic compact radio source核点epipole核面epipolar plane核线epipolar line核线epipolar ray核线相关epipolar correlation盒式分类法box classification method黑白片black-and-white film黑白摄影black-and-white photography恒时钟sidereal clock恒星摄影机stellar camera恒星时sidereal time恒星中天测时法method of time determination by star transit横断面测量cross-section survey横断面测量cross-section survey横断面图cross-section profile横断面图cross-section profile横轴投影transverse projection红外测距仪infrared EDM instrument红外辐射计infrared radiometer红外片infrared film红外扫描仪infrared scanner红外摄影infrared photography红外图像infrared imagery红外遥感infrared remote sensing后方交会resection湖泊测量lake survey互补色地图anaglyphic map互补色镜anaglyphoscope。

数字图像处理常用词汇表Binary image 二值图像Blur 模糊Boundary pixel 边界像素Boundary tracking 边界跟踪Closed curve 封闭曲线color model 彩色模型complex conjugate复共轭Connected 连通的Curve 曲线4-neighbors 4邻域8-neighbors 8邻域4-adjacency 4邻接8-adjacency 8邻接Path 路径Dilation 膨胀Erosion 腐蚀Opening 开运算（先腐蚀，后膨胀）Closing 闭运算（先膨胀，后腐蚀）Structuring element 结构元素DFT 离散的傅立叶变换Inverse DFT 逆离散的傅立叶变换Digital image 数字图像Digital image processing 数字图像处理Digitization 数字化Edge 边缘Edge detection 边缘检测Edge enhancement 边缘增强Edge image 边缘图像Edge operator 边缘算子Edge pixel 边缘像素Enhance 增强Fourier transform 傅立叶变换Gray level 灰度级别Gray scale 灰度尺度Horizontal edge 水平边缘Highpass filtering 高通滤波Lowpass filtering 低通滤波Image restoration 图像复原Image segmentation 图像分割Inverse transformation 逆变换Line detection 线检测Line pixel 直线像素Linear filter线性滤波Median filter中值滤波Mask 掩模Neighborhood 邻域Neighborhood operation 邻域运算Noise 噪音Noise reduction 噪音消减Pixel 像素Point operation 点运算Region 区域Region averaging 区域平均Weighted region averaging加权区域平均Resolution 分辨率Sharpening 锐化Shape number 形状数Smoothing 平滑Threshold 阈值Thresholding 二值化Transfer function 传递函数Vertical edge 垂直边缘Horizontal edge 水平边缘RGB color cube RGB色彩立方体HSI color model HSI 色彩模型Circular color plane 圆形彩色平面Triangular color plane 三角形彩色平面。

中英文对照外文翻译(文档含英文原文和中文翻译)Edge detection in noisy images by neuro-fuzzyprocessing通过神经模糊处理的噪声图像边缘检测AbstractA novel neuro-fuzzy (NF) operator for edge detection in digital images corrupted by impulse noise is presented. The proposed operator is constructed by combining a desired number of NF subdetectors with a postprocessor. Each NF subdetector in the structure evaluates a different pixel neighborhood relation. Hence, the number of NF subdetectors in the structure may be varied to obtain the desired edge detection performance. Internal parameters of the NF subdetectors are adaptively optimized by training by using simple artificial training images. The performance of the proposed edge detector is evaluated on different test images and compared with popular edge detectors from the literature. Simulation results indicate that the proposed NF operator outperforms competing edge detectors and offers superior performance in edge detection in digital images corrupted by impulse noise.Keywords: Neuro-fuzzy systems; Image processing; Edge detection摘要针对被脉冲信号干扰的数字图像进行边缘检测，提出了一种新型的NF边缘检测器，它是由一定数量的NF子探测器与一个后处理器组成。

边缘检测-edge detection1.问题描述边缘检测是图像处理和计算机视觉中的基本问题，边缘检测的目的是标识数字图像中亮度变化明显的点。

图像属性中的显著变化通常反映了属性的重要事件和变化。

这些包括（i）深度上的不连续、（ii）表面方向不连续、（iii）物质属性变化（iv）场景照明变化。

边缘检测是图像处理和计算机视觉中，尤其是特征提取中的一个研究领域。

边缘检测的评价是指对边缘检测结果或者边缘检测算法的评价。

诚然，不同的实际应用对边缘检测结果的要求存在差异，但大多数因满足以下要求：1）正确检测出边缘2）准确定位边缘3）边缘连续4）单边响应，即检测出的边缘是但像素的2.应用场合图像边缘检测大幅度地减少了数据量，并且剔除了可以认为不相关的信息，保留了图像重要的结构属性。

有许多方法用于边缘检测，它们的绝大部分可以划分为两类：基于查找一类和基于零穿越的一类。

基于查找的方法通过寻找图像一阶导数中的最大和最小值来检测边界，通常是将边界定位在梯度最大的方向。

基于零穿越的方法通过寻找图像二阶导数零穿越来寻找边界，通常是Laplacian过零点或者非线性差分表示的过零点。

3.研究历史和现状边缘检测作为图像处理的一个底层技术，是一个古老又年轻的课题，有着悠久的历史。

早在1959年，B.Julez就提到过边缘检测，随后，L.G.Robert于1965年对边缘检测进行系统的研究。

3.1一阶微分算子一阶微分算子是最原始，最基本的边缘检测方法，它的理论依据是边缘是图像中灰度发生急剧变化的地方，而图像的提督刻画了灰度的变化速率。

因此，通过一阶微分算子可以增强图像中的灰度变化区域，然后对增强的区域进一步判断边缘。

在点（x,y）的梯度为一个矢量，定义为：梯度模值为：梯度方向为：根据以上理论，人们提出了许多算法，经典的有：Robert算子，Sobel算子等等，这些一阶微分算子的区别在于算子梯度的方向，以及在这些方向上用离散化数值逼近连续导数的方式和将这些近似值合成梯度的方式不同。

4 边缘检测（讲义 §5.2 §6.1）4.1 边缘检测edge detection(1) 梯度算子 Roberts, Sobel, Prewitt (2) 方向算子(3) 二阶算子 Laplacian, LoG 4.2 边界抽取（Boundary Extraction ） (4) 连通性 (5) 边界跟踪 (6) 细化 (7) 连接 (8) Hough 变换 4.3 边界表示 (1) 链码(2) Fourier 描述子(3) 直线拟合边缘检测（edge detection ）连续图象f(x,y)，其方向导数在边缘（法线）方向上有局部最大值。

边缘检测：求f(x,y)梯度的局部最大值和方向 f(x,y)在θ方向沿r 的梯度θθsin cos y x f f ry y f r x x f rf +=∂∂⋅∂∂+∂∂⋅∂∂=∂∂rf ∂∂的最大值条件是=∂⎪⎭⎫ ⎝⎛∂∂∂θr f 0cos sin =+g y g x f f θθxyg f f 1tan-=θ，orπθ+g梯度最大值22maxyx f f r f g +=⎪⎭⎫⎝⎛∂∂=或yx f f g +=梯度算子图象U(m,n)在两个正交方向上的梯度),(1n m g 和),(2n m g),(*),(),(11n m H n m U n m g =),(*),(),(22n m H n m U n m g =常用边缘检测算子各向同性（isotropic ）微分算子坐标系统旋转 ),(y x ——未旋转，)','(y x ——旋转后 θθsin 'cos 'y x x -=， θθc o s 's i n 'y x y -=θθsin cos '''yf xf x y y f x x x f x f ∂∂+∂∂=∂∂⋅∂∂+∂∂⋅∂∂=∂∂ θθcos sin '''yf xf y y yf y x x f y f ∂∂+∂∂-=∂∂⋅∂∂+∂∂⋅∂∂=∂∂xf ∂∂，yf∂∂不是各向同性的，但它们的平方和各向同性。

第六章边缘检测边缘（edge)是指图像局部亮度变化最显著的部分.边缘主要存庄于目标与目标、目标与背景、区域与区域（包括不同色彩）之间，是图像分割、纹理特征提取等图像分析的重要基础，图像分析和理解的第一步常常是边缘检测（edge detection），由于边缘检测十分重要，因此成为机器视觉研究领域最活跃的课题之一，本章主要讨论边缘检测和定位的基本概念，并通过几种常用的边缘检测器来说明边缘检测的基本问题。

图像中的边缘通常与图像亮度或图像亮度的一阶导数的不连续性有关.图像亮度的不连续可分为:①阶跃不连续，即图像亮度在不连续处的两边的象素灰度值有着显著的差异;②线条不连续，即图像亮度突然从一个值变化到另一个值，保持一个较小的行程后又返回到原来的值.在实际中，阶跃和线条边缘图像是很少见的，由于大多数传感元件具有低频特性，使得阶跃边缘变成斜坡型边缘，线条边缘变成屋顶形边缘，其中的亮度变化不是瞬间的，而是跨越一定的距离，这些边缘如图6.1所示。

对一个边缘来说，有可能同时具有阶跃和线条边缘特性.例如在一个表面上，由一个平面变化到法线方向不同的另一个平面就会产生阶跃边缘;如果这一表面具有镜面反射特性且两平面形成的棱角比较圆滑，则当棱角圆滑表面的法线经过镜面反射角时，由于镜面反射分量，在棱角圆滑表面上会产生明亮光条，这样的边缘看起来像在阶跃边缘上叠加了一个线条边缘.由于边缘可能与场景中物体的重要特征对应，所以它是很重要的图像特征.比如，一个物体的轮廓通常产生阶跃边缘，因为物体的图像亮度不同于背景的图像亮度。

在讨论边缘算子之前，首先给出一些术语的定义：边缘点：图像中亮度显著变化的点.边缘段：边缘点坐标[i,j]及其方向θ的总和，边缘的方向可以是梯度角.边缘检测器：从图像中抽取边缘(边缘点或边缘段）集合的算法.轮廓:边缘列表，或是一条边缘列表的曲线模型.边缘连接:从无序边缘表形成有序边缘表的过程.习惯上边缘的表示采用顺时针方向来排序.边缘跟踪:一个用来确定轮廓图像(指滤波后的图像）的搜索过程.边缘点的坐标可以是边缘位置象素点的行、列整数标号,也可以在子象素分辨率水平上表示.边缘坐标可以在原始图像坐标系上表示，但大多数情况下是在边缘检测滤波器的输出图像的坐标系表示，因为滤波过程可能导致图像坐标平移或缩放.边缘段可以用象素点尺寸大小的小线段定义，或用具有方向属性的一个点定义.请注意，在实际中，边缘点和边缘段都称为边缘。

边缘检测从Wikipedia，自由的百科全书跳转到：导航，搜索边缘检测是一种工具，对基本的图像处理和计算机视觉，特别是在以下领域特征检测和特征提取，其中一个目的是确定点数字图像在该图像的亮度急剧变化，或者更正式，有连续性。

内容[hide]∙ 1 动机∙ 2 边属性∙ 3 一个简单的边缘模型∙ 4 为什么边缘检测是一个不平凡的任务∙ 5 至边缘检测方法o 5.1 Canny边缘检测o 5.2 其他第一顺序的方法o 5.3 阈值和链接o 5.4 边缘细化o 5.5 二阶边缘检测方法5.5.1 微分边缘检测o 5.6 相位叠合的边缘检测∙ 6 参见∙7 参考资料[ 编辑 ] 动机Canny边缘检测应用到照片对检测图像的亮度急剧变化的目的是捕捉重要的事件和在世界性质的变化。

可以证明，在图像形成模型，而一般假设为一，在图像亮度不连续性可能对应[1][2] ：∙间断深入，∙在表面方向的不连续性，∙在材料性质的变化和∙在场景照明变化。

在理想的情况下，申请一到图像边缘检测的结果可能导致指示对象的边界曲线连接的设置，表面标记以及边界曲线，对应于表面方向的不连续性。

因此，应用边缘检测算法的图像可能会显着减少的数据量要处理，因此可能筛选出的信息可能被视为不相关，同时保留了一个形象的重要结构特性。

如果边缘检测步骤是成功，诠释原始图像的信息含量后续任务可能因此大大简化。

然而，它并不总是能够获得中度复杂的现实生活中，这种理想的图像边缘。

边缘提取的非平凡的形象通常都是阻碍碎片，这意味着边缘曲线不连接，丢失边段以及伪边缘没有相应的图像有趣的现象-这样复杂的图像数据的后续任务的解释。

[3]边缘检测是计算机视觉技术之一的基本步骤，在图像处理，图像分析，图像模式识别。

[4]近年来，然而，大量（成功）的研究也已经[就计算机视觉的方法有哪些？ ]不明确依赖于边缘检测作为预处理步骤。

[ 编辑 ] 边属性边缘提取一个三维场景二维图像可以被看作是视点依赖或独立的分类观点。

测绘类词汇中英文对照阿贝比长原理Abbe comparator principle阿达马变换Hadamard transformation安平精度setting accuracy岸台，*固定台base station暗礁reef靶道工程测量target road engineering survey半导体激光器semiconductor laser半日潮港semidiurnal tidal harbor半色调halftone饱和度saturation北极星任意时角法method by hour angle of Polaris贝塞尔大地主题解算公式Bessel formula for solution of geodetic problem 贝塞尔椭球Bessel ellipsoid贝叶斯分类Bayesian classification被动式遥感passive remote sensing本初子午线prime meridian比较地图学comparative cartography比较地图学comparative cartography比例尺scale比例量表ratio scaling比例误差proportional error比值变换ratio transformation比值增强ratio enhancement闭合差closing error闭合差closure闭合差closing error闭合差closure闭合导线closed traverse闭合导线closed traverse闭合水准路线closed leveling line闭合水准路线closed leveling line边长中误差mean square error of side length边交会法linear intersection边角测量triangulateration边角交会法linear-angular intersection边角网triangulateration network边缘检测edge detection边缘增强edge enhancement编绘compilation编绘compilation编绘原图compiled original编绘原图compiled original变比例投影varioscale projection变换光束测图affine plotting变线仪variomat变形观测控制网control network for deformation observation 变形观测控制网control network for deformation observation 变形椭圆indicatrix ellipse标称精度nominal accuracy标称精度nominal accuracy标尺rod标尺staff标高差改正correction for skew normals标高差改正correction for skew normals标界测量survey for marking of boundary标志灯，*回光灯signal lamp标准差standard deviation标准配置点Gruber point标准纬线standard parallel冰后回弹post glacial rebound波茨坦重力系统Potsdam gravimetric system波带板zone plate波浪补偿compensation of undulation波浪补偿compensation of undulation波浪补偿heave compensation波浪补偿器，*涌浪滤波器heave compensator波罗-科普原理Porro-Koppe principle波谱测定仪spectrometer波谱集群spectrum cluster波谱特征空间spectrum feature space波谱特征曲线spectrum character curve波谱响应曲线spectrum response curve波束角beam angle波束角wave beam angle泊位Berth补偿器compensator补偿器compensator补偿器补偿误差compensating error of compensator补偿器补偿误差compensating error of compensator布格改正Bouguer correction布格异常Bouguer anomaly布隆斯公式Bruns formula布耶哈马问题Bjerhammar problem采剥工程断面图striping and mining engineering profile采剥工程综合平面图synthetic plan of striping and mining 采场测量stope survey采掘工程平面图mining engineering plan采区测量survey in mining panel采区联系测量connection survey in mining panel采区联系测量connection survey in mining panel采样sampling采样间隔sampling interval彩色编码color coding彩色编码color coding彩色变换color transformation彩色变换color transformation彩色复制color reproduction彩色复制color reproduction彩色感光器材color sensitive material彩色感光器材color sensitive material彩色红外片，*假彩色片false color film彩色红外片，*假彩色片color infrared film彩色红外片，*假彩色片color infrared film彩色片color film彩色片color film彩色摄影color photography彩色摄影color photography彩色校样color proof彩色校样color proof彩色样图color manuscript彩色样图color manuscript彩色增强color enhancement彩色增强color enhancement彩色坐标系color coordinate system彩色坐标系color coordinate system参考数据reference data参考椭球reference ellipsoid参考效应reference effect参数平差，*间接平差parameter adjustment侧方交会side intersection侧扫声呐side scan sonar侧视雷达side-locking radar测标[measuring] mark测杆measuring bar测高仪Altimeter测绘标准standards of surveying and mapping测绘联合会International Union of Surveying and Mapping 测绘学geomatics测绘学SM测绘学surveying and mapping测绘仪器instrument of surveying and mapping测角中误差mean square error of angle observation测距定位系统，*圆-圆定位系统range positioning system 测距雷达range-only radar测距盲区range hole测距仪rangefinder测量标志survey mark测量船survey vessel测量规范specifications of surveys测量控制网surveying control network测量平差adjustment of observation测量平差survey adjustment测量学surveying测流current surveying测流current surveying测深改正correction of depth测深改正correction of depth测深杆sounding pole测深精度total accuracy of sounding测深仪读数精度reading accuracy of sounder测深仪发射参数，*测深仪零线transmiting line of sounder 测深仪回波信号echo signal of sounder测深仪记录纸recording paper of sounder测速标marks for measuring velocity测图卫星mapping satellite测微密度计microdensitometer测微目镜micrometer eyepiece测微器micrometer测线survey line测站station测站归心station centring层间改正plate correction觇牌target长度标准检定场standard field of length厂址测量surveying for site selection超导重力仪superconductor gravimeter超焦点距离hyperfocal distance超近摄影测量macrophotogrammetry潮汐表tidal tables潮汐波tidal wave潮汐调和常数tidal harmonic constants潮汐调和分析tidal harmonic analysis潮汐非调和常数tidal nonharmonic constants潮汐非调和分析tidal nonharmonic analysis潮汐摄动tidal perturbation潮汐因子tidal factor潮汐预报tidal prediction潮信表tidal information panel沉船wreck沉降观测settlement observation成像光谱仪imaging spectrometer成像雷达imaging radar城市测量urban survey城市地形测量urban topographic survey城市地形图topographic map of urban area城市基础地理信息系统UGIS城市基础地理信息系统urban geographical information system 城市控制测量urban control survey城市制图urban mapping乘常数multiplication constant尺度参数scale parameter抽象符号abstract symbol触觉地图tactual map船台，*移动台mobile station垂核面vertical epipolar plane垂核线vertical epipolar line垂球plumb bob垂线偏差改正correction for deflection of the vertical垂线偏差改正correction for deflection of the vertical垂直角vertical angle垂直折光误差vertical refraction error垂直折光系数vertical refraction coefficient垂准仪，*铅垂仪plumb aligner纯重力异常pure gravity anomaly磁变年差annual change of magnetic variation磁测深magnetic sounding磁测深线magnetic sounder磁方位角magnetic azimuth磁力扫海测量magnetic sweeping磁力异常区magnetic anomaly area磁偏角magnetic variation磁倾角magnetic dip磁像限角magnetic bearing磁子午线magnetic meridian粗差gross error粗差检测gross error detection粗码C/A Code粗码Coare/Acquision Code粗码C/A Code粗码Coare/Acquision Code打样Proofing大比例尺测图large scale topographical mapping大潮升spring rise大地测量边值问题geodetic boundary value problem大地测量参考系geodetic reference system大地测量数据库geodetic database大地测量学geodesy大地测量仪器geodetic instrument大地方位角geodetic azimuth大地高ellipsoidal height大地高geodetic height大地基准geodetic datum大地经度geodetic longitude大地水准面geoid大地水准面高geoidal height大地水准面高geoidal undulation大地天顶延迟atmosphere zenith delay大地天文学geodetic astronomy大地网geodetic network大地纬度geodetic latitude大地线geodesic大地原点geodetic origin大地主题反解inverse solution of geodetic problem大地坐标geodetic coordinate大地坐标系geodetic coordinate system大陆架地形测量continental shelf topographic survey大陆架地形测量continental shelf topographic survey大气传输特性characteristics of atmospheric transmission 大气传输特性characteristics of atmospheric transmission 大气窗atmospheric window大气改正,*气象改正atmospheric correction大气透过率atmospheric transmissivity大气噪声atmospheric noise大气阻力摄动atmospheric drag perturbation大像幅摄影机large format camera大像幅摄影机LFC大洋地势图GEBCO大洋地势图general bathymetric chart of the oceans大圆航线图great circle sailing chart带谐系数coefficient of zonal harmonics带谐系数coefficient of zonal harmonics带状平面图zone plan单差相位观测single difference phase observation单点定位point positioning单片坐标量测仪monocomparator单位权unit weight单位权方差，*方差因子variance of unit weight弹道摄影测量ballistic photogrammetry弹道摄影机ballistic camera当地平均海面local mean sea level挡差改正correction of scale difference挡差改正correction of scale difference导标leading beacon导弹定向测量missile orientation survey导弹试验场工程测量engineering survey of missile test site 导航台定位测量navigation station location survey导航台定位测量navigation station location survey导航图navigation chart导航图navigation chart导航线，*叠标线leading line导入高程测量induction height survey导线边traverse leg导线测量traverse survey导线点traverse point导线横向误差lateral error of traverse导线角度闭合差angle closing error of traverse导线结点junction point of traverses导线曲折系数meandering coefficient of traverse导线全长闭合差total length closing error of traverse导线网traverse network导线相对闭合差relative length closing error of traverse导线折角traverse angle导线纵向误差longitudinal error of traverse岛屿测量island survey岛屿联测island-mainland connection survey岛屿图island chart倒锤[线]观测，倒锤法inverse plummet observation灯[光性]质characteristic of light灯[光性]质characteristic of light灯标light beacon灯船light ship灯船light vessel灯浮标light buoy灯高height of light灯光节奏flashing rhythm of light灯光射程light range灯光遮蔽Eclipse灯光周期light period灯色light color灯塔light house等比线isometric parallel等高距contour interval等高距contour interval等高棱镜contour prism等高棱镜contour prism等高线Contour等高线Contour等高仪astrolabe等积投影equivalent projection等级结构hierarchical organization等角定位格网equiangular positioning grid等角条件，*正形投影conformal projection等角条件，*正形投影conformal projection等精度[曲线]图equiaccuracy chart等距量表interval scaling等距投影equidistant projection等距圆弧格网equilong circle arc grid等量纬度isometric latitude等偏摄影parallel-averted photography等倾摄影equally tilted photography等权代替法method of equalweight substitution 等值灰度尺equal value gray scale等值区域图，*分区量值地图choroplethic map 等值区域图，*分区量值地图choroplethic map 等值线地图isoline map等值线法isoline method低潮线low water line底板测点floor station底点纬度latitude of pedal底色去除under color removal底色增益under color addition底质bottom characteristics底质quality of the bottom底质采样bottom characteristics sampling底质调查bottom characteristics exploration底质分布图bottom sediment chart地产界测量property boundary survey地磁经纬仪magnetism theodolite地磁仪magnetometer地底点ground nadir point地固坐标系body-fixed coordinate system地固坐标系earth-fixed coordinate system地基系统ground-based system地极坐标系coordinate system of the pole地极坐标系coordinate system of the pole地籍cadastre地籍cadastre地籍簿land register地籍册cadastral lists地籍册cadastral lists地籍测量cadastral survey地籍测量cadastral survey地籍调查cadastral inventory地籍调查cadastral inventory地籍更新renewal of the cadastre地籍管理cadastral survey manual地籍管理cadastral survey manual地籍图cadastral map地籍图cadastral map地籍修测cadastral revision地籍修测cadastral revision地籍制图cadastral mapping地籍制图cadastral mapping地界测量land boundary survey地壳均衡isostasy地壳均衡改正isostatic correction地壳形变观测crust deformation measurement地壳形变观测crust deformation measurement地块测量parcel survey地类界图land boundary map地理格网geographic grid地理视距geographical viewing distance地理信息传输geographic information communication 地理信息系统geographic information system地理信息系统GIS地理坐标geographic graticule地理坐标参考系geographical reference system地貌图geomorphological map地貌形态示量图morphometric map地面接收站ground receiving station地面立体测图仪terrestrial stereoplotter地面摄谱仪terrestrial spectrograph地面摄影测量terrestrial photogrammetry地面摄影机terrestrial camera地面实况ground truth地面照度illuminance of ground地名geographical name地名place name地名标准化place-name standardization地名录gazetteer地名数据库place-name database地名索引geographical name index地名通名geographical general name地名学toponomastics地名学toponymy地名转写geographical name transcription地名转写geographical name transliteration地平线摄影机horizon camera地平线像片horizon photograph地倾斜观测ground tilt measurement地球定向参数earth orientation parameter地球定向参数EOP地球同步卫星geo-synchronous satellite地球椭球earth ellipsoid地球位，*大地位geopotential地球位数geopotential number地球位系数potential coefficient of the earth地球形状earth shape地球形状Figure of the earth地球仪globe地球引力摄动terrestrial gravitational perturbation地球重力场模型earth gravity model地球资源卫星earth resources technology satellite地球资源卫星ERTS地球自转参数earth rotation parameter地球自转参数ERP地球自转角速度rotational angular velocity of the earth 地势图hypsometric map地图map地图编绘map compilation地图编辑map editing地图编辑大纲map editorial policy地图表示法cartographic presentation地图表示法cartographic presentation地图传输cartographic communication地图传输cartographic communication地图叠置分析map overlay analysis地图分类cartographic classification地图分类cartographic classification地图分析cartographic analysis地图分析cartographic analysis地图符号库map symbols bank地图符号学cartographic semiology地图符号学cartographic semiology地图负载量map load地图复杂性map complexity地图复制map reproduction地图感受map perception地图更新map revision地图集信息系统Atlas information system地图利用map use地图量算法cartometry地图量算法cartometry地图模型，*制图模型cartographic model地图模型，*制图模型cartographic model地图内容结构cartographic organization地图内容结构cartographic organization地图判读map interpretation地图评价cartographic evaluation地图评价cartographic evaluation地图潜信息cartographic potential information 地图潜信息cartographic potential information 地图清晰性map clarity地图色标color chart地图色标color chart地图色标map color standard地图色谱map color atlas地图设计map design地图数据结构map data structure地图数据库cartographic database地图数据库cartographic database地图数字化map digitizing地图投影map projection地图显示map display地图信息cartographic information地图信息cartographic information地图信息系统cartographic information system 地图信息系统CIS地图信息系统cartographic information system 地图信息系统CIS地图选取cartographic selection地图选取cartographic selection地图学cartography地图学cartography地图研究法cartographic methodology地图研究法cartographic methodology地图易读性map legibility地图印刷map printing地图语法cartographic syntactics地图语法cartographic syntactics地图语言cartographic language地图语言cartographic language地图语义cartographic semantics地图语义cartographic semantics地图语用cartographic pragmatics地图语用cartographic pragmatics地图阅读map reading地图整饰map decoration地图制图map making地图制图软件cartographic software地图制图软件cartographic software地图注记map lettering地下管线测量underground pipeline survey地下铁道测量subway survey地下铁道测量underground railway survey地下油库测量underground oil depot survey地心经度geocentric longitude地心纬度geocentric latitude地心引力常数geocentric gravitational constant 地心坐标系geocentric coordinate system地形测量topographic survey地形底图base map of topography地形改正topographic correction地形数据库topographic database地形图topographic map地形图更新revision of topographic map地形图图式topographic map symbols地震台精密测量precise survey at seismic station 地质测量geological survey地质点测量geological point survey地质略图geological scheme地质剖面测量geological profile survey地质剖面图geological section map典型图形平差adjustment of typical figures点方式point mode点位中误差mean square error of a point点下对中centering under point点下对中centering under point点状符号point symbol电磁波测距electromagnetic distance measurement电磁波测距仪electromagnetic distance measuring instrument电磁传播[时延]改正correction for radio wave propagation of time signal 电磁传播[时延]改正correction for radio wave propagation of time signal 电荷耦合器件CCD电荷耦合器件charge-coupled device电荷耦合器件CCD电荷耦合器件charge-coupled device电离层折射改正ionospheric refraction correction电子测距仪EDM电子测距仪electronic distance measuring instrument电子出版系统electronic publishing system电子地图集electronic atlas电子分色机color scanner电子分色机color scanner电子海图electronic map电子海图数据库ECDB电子海图数据库electronic chart database电子海图显示和信息系统ECDIS电子海图显示和信息系统electronic chart display and information system 电子经纬仪electronic theodolite电子平板仪electronic plane-table电子求积仪electronic planimeter电子水准仪electronic level电子速测仪，*全站仪electronic tachometer电子显微摄影测量nanophotogrammetry电子显微摄影测量nanophotogrammetry电子相关electronic correlation电子印像机electronic printer调绘Annotation调焦误差error of focusing调频频率modulation frequency调制传递函数modulation transfer function调制传递函数MTF调制器modulator叠栅条纹图，*莫尔条纹图moirétopography顶板测点roof station定深扫海sweeping at definite depth定位标记positioning mark定位点间距positioning interval定位检索，*开窗检索retrieval by windows定位统计图表法positioning diagram method定线测量Alignment survey定向连接点connection point定向连接点connection point for orientation定向连接点connection point定向连接点connection point for orientation定性检索retrieval by header定影Fixing动感autokinetic effect动画引导animated steering动画制图animated mapping动态定位kinematic positioning独立交会高程点elevation point by independent intersection独立模型法空中三角测量independent model aerial triangulation 独立坐标系independent coordinate system度盘circle度盘circle断面仪Profiler对景图front view对流层折射改正tropospheric refraction correction对数尺logarithmic scale对中杆centering rod对中杆centering rod多倍仪multiplex多边形地图polygonal map多边形结构polygon structure多边形平差法Adjustment by method of polygon多波束测探multibeam echosounding多波束测探系统multibeam sounding system多层结构multi layer organization多级纠正multistage rectification多焦点投影polyfocal projection多路径效应multipath effect多媒体地图multimedia map多年平均海面multi-year mean sea level多谱段扫描仪MSS多谱段扫描仪multispectral scanner多谱段摄影multispectral photography多谱段摄影机multispectral camera多谱段遥感multispectral remote sensing多时相分析multi-temporal analysis多时相遥感multi-temporal remote sensing多星等高法equal-altitude method of multi-star多用途地籍multi-purpose cadastre多余观测redundant observation多圆锥投影polyconic projection厄特沃什效应Eötvös effect二值图像binary image发光二极管LED发光二极管light-emitting diode法方程normal equation法方程normal equation法截面normal section法截面normal section法伊改正Faye correction反差Contrast反差Contrast反差系数contrast coefficient反差系数contrast coefficient反差增强contrast enhancement反差增强contrast enhancement反立体效应pseudostereoscopy反射波谱reflectance spectrum反束光导管摄影机return beam vidicon camera反像mirror reverse反像wrong-reading反转片reversal film范围法area method方差-协方差传播律variance-covariance propagation law 方差-协方差矩阵variance-covariance matrix方里网kilometer grid方位角中误差mean square error of azimuth方位圈compass rose方位圈compass rose方位投影azimuthal projection方向观测法method by series方向观测法method of direction observation防波堤Breakwater防波堤mole房地产地籍real estates cadastre仿射纠正affine rectification放样测量setting-out survey非地形摄影测量nontopographic photogrammetry非地形摄影测量nontopographic photogrammetry非监督分类unsupervised classification非量测摄影机non-metric camera非量测摄影机non-metric camera菲列罗公式Ferrero's formula分版原图Flaps分瓣投影interrupted projection分层layer分层设色表graduation of tints分层设色法hypsometric layer分潮Constituent分潮Constituent分潮迟角epoch of partial tide分潮振幅amplitude of partial tide分带纠正zonal rectification分带子午线zone dividing meridian分类器classifier分类器classifier分区统计图表法cartodiagram method分区统计图表法chorisogram method分区统计图表法cartodiagram method分区统计图表法chorisogram method分区统计图表法，*等值区域法cartogram method分区统计图表法，*等值区域法cartogram method分区统计图法，*等值区域法choroplethic method分区统计图法，*等值区域法choroplethic method分色，*分色参考图color separation分色，*分色参考图color separation分析地图analytical map风讯信号杆wind signal pole浮标Buoy浮雕影像地图picto-line map浮子验潮仪float gauge符号化symbolization辐射三角测量radial triangulation辐射线格网radial positioning grid辐射校正radiometric correction辐射遥感器radiation sensor负荷潮load tide负片negative负片negative附参数条件平差condition adjustment with parameters附参数条件平差condition adjustment with parameters附合导线connecting traverse附合导线connecting traverse附合水准路线annexed leveling line附加位additional potential附条件参数平差，*附条件间接平差parameter adjustment with conditions 复测法repetition method复垦测量reclaimation survey复照仪reproduction camera副台slave station概率判决函数Probability decision function概然误差probable error干出礁covers and uncovers rock干出礁covers and uncovers rock干涉雷达INSAR干涉雷达interometry SAR感光sensitization感光材料sensitive material感光测定sensitometry感光度sensitivity感光特性曲线characteristic curve of photographic transmission 感光特性曲线characteristic curve of photographic transmission 感受效果perceptual effect港界harbor boundary港口port港口工程测量harbor engineering survey港湾测量harbor survey港湾锚地图集harbor/anchorage atlas港湾图harbor chart高差仪statoscope高程height高程导线height traverse高程点elevation point高程基准height datum高程控制测量vertical control survey高程控制点vertical control point高程控制网vertical control network高程系统height system高程异常height anomaly高程中误差mean square error of height高度角altitude angle高度角elevation angle高密度数字磁带HDDT高密度数字磁带high density digital tape高斯-克吕格投影Gauss-Krüger projection高斯平面子午线收敛角Gauss grid convergence高斯平面坐标系Gauss plane coordinate system高斯投影方向改正arc-to-chord correction in Gauss projection 高斯中纬度公式Gauss midlatitude formula格网单元cell格网单元cell跟踪数字化tracing digitizing工厂现状图测量survey of present state at industrial site 工程测量engineering survey工程测量学engineering surveying工程经纬仪engineer's theodolite工程控制网engineering control network工程摄影测量engineering photogrammetry工程水准仪engineer's level工业测量系统industrial measuring system工业摄影测量industrial photogrammetry公路工程测量road engineering survey功率谱power spectrum共面方程coplanarity equation共面方程coplanarity equation共线方程collinearity equation共线方程collinearity equation构像方程imaging equation古地图ancient map骨架航线，*构架航线,测控条control strip骨架航线，*构架航线,测控条control strip固定平极fixed mean pole固定误差fixed error固定相移fixed phase drift固体潮[solid] Earth tide固体激光器solid-state laser管道测量pipe survey管道综合图synthesis chart of pipelines贯通测量holing through survey贯通测量breakthrough survey惯性测量系统inertial surveying system惯性测量系统ISS惯性坐标系inertial coordinate system惯用点conventional name惯用点conventional name灌区平面布置图irrigation layout plan光电测距导线EDM traverse光电测距仪electro-optical distance measuring instrument 光电等高仪photoelectric astrolabe光电遥感器photoelectric sensor光电中星仪photoelectric transit instrument光碟，*光盘CD光碟，*光盘compact disc光碟，*光盘CD光碟，*光盘compact disc光谱感光度，*光谱灵敏度spectral sensitivity光圈,*有效孔径Aperture光圈号数f-number光圈号数stop-number光束法空中三角测量bundle aerial triangulation光栅grating广播星历broadcast ephemeris归化纬度reduced latitude归心改正correction for centering归心改正correction for centering归心元素elements of centring龟纹moire规划地图planning map规矩线register mark国际测绘联合会IUSM国际测量师联合会Fédération Internationale des Géométres国际测量师联合会FIG国际大地测量协会IAG国际大地测量协会International Association of Geodesy国际大地测量与地球物理联合会International Union of Geodesy and Geophysics 国际大地测量与地球物理联合会IUGG国际地球参考架international terrestrial reference frame国际地球参考架ITRF国际地球自转服务局IERS国际地球自转服务局International Earth Rotation Service国际海道测量组织IHO国际海道测量组织International Hydrography Organization国际海图international chart国际航天测量与地球学学院ITC国际矿山测量学会International Society of Mine Surveying国际摄影测量与遥感学会International Society for Photogrammetry and Remote S国际摄影测量与遥感学会ISPRS国际天球参考架ICRF国际天球参考架international celestial reference frame国际协议原点CIO国际协议原点Conventional International Origin国际协议原点CIO国际协议原点Conventional International Origin国际原子时IA T国际原子时international atomic time国际制图协会ICA国际制图协会International Cartographic Association国家地图集national atlas国家地图集national atlas国家基础地理信息系统national fundamental geographic information system 国家基础地理信息系统national fundamental geographic information system 海[洋]图集marine atlas海岸coast海岸coast海岸地形测量coast topographic survey海岸地形测量coast topographic survey海岸图coast chart海岸图coast chart海岸线coast line海岸线coast line海岸性质nature of the coast海岸性质nature of the coast海拔height above sea level海道测量，*水道测量hydrographic survey海道测量学，*水道测量学hydrography海底成像系统seafloor imaging system海底地貌submarine geomorphology海底地貌图submarine geomorphologic chart海底地势图submarine situation chart海底地形测量bathymetric surveying海底地形图bathymetric chart海底地质构造图submarine structural chart海底电缆submarine cable海底管道submarine pipeline海底控制网submarine control network海底倾斜改正seafloor slope correction海底声标acoustic beacon on bottom海底施工测量submarine construction survey海底隧道测量submarine tunnel survey海福德椭球Hayford ellipsoid海军导航卫星系统Navy Navigation Satellite System海军导航卫星系统NNSS海军导航卫星系统Navy Navigation Satellite System海军导航卫星系统NNSS海军勤务测量naval service survey海军勤务测量naval service survey海控点hydrographic control point海流计current meter海流计current meter海面地形sea surface topography海区界线sea area bounding line海区资料调查sea area information investigation海区总图general chart of the sea海图Chart海图Chart海图比例尺Chart scale海图比例尺Chart scale海图编号Chart numbering海图编号Chart numbering海图编制Chart compilation海图编制Chart compilation海图标题Chart title海图标题Chart title海图大改正Chart large correction海图大改正Chart large correction海图分幅Chart subdivision海图分幅Chart subdivision海图改正Chart correction海图改正Chart correction海图投影Chart projection海图投影Chart projection海图图廓Chart boarder海图图廓Chart boarder海图图式symbols and abbreviations on chart 海图小改正Chart small correction海图小改正Chart small correction海图制图charting海图制图charting海图注记lettering of chart海洋测绘marine charting海洋测绘数据库marine charting database海洋测量marine survey海洋测量定位marine survey positioning海洋磁力测量marine magnetic survey海洋磁力图marine magnetic chart海洋磁力异常marine magnetic anomaly海洋大地测量marine geodetic survey海洋大地测量学marine geodesy海洋工程测量marine engineering survey海洋划界测量marine demarcation survey海洋环境图marine environmental chart海洋气象图marine meteorological chart海洋生物图marine biological chart海洋水文图marine hydrological chart海洋水准测量marine leveling海洋卫星Seasat海洋质子采样器marine bottom proton sampler 海洋质子磁力仪marine proton magnetometer海洋重力测量marine gravimetry海洋重力仪marine gravimeter海洋重力异常marine gravity anomaly海洋重力异常图Chart of marine gravity anomaly 海洋重力异常图Chart of marine gravity anomaly 海洋专题测量marine thematic survey海洋资源图marine resource chart航标表list of lights航带法空中三角测量strip aerial triangulation航道channel航道channel航道fairway航道图navigation channel chart航道图navigation channel chart航高flight height航高flying height航海天文历nautical almanac航海天文历nautical almanac航海通告NM航海通告notice to mariners航海通告NM航海通告notice to mariners航海图nautical chart航海图nautical chart航迹track航空摄谱仪aerial spectrograph航空摄影aerial photography航空摄影测量aerial photogrammetry航空摄影测量aerophotogrammetry航空摄影机aerial camera航空图aeronautical chart航空遥感aerial remote sensing航空重力测量airborne gravity measurement航路指南sailing directions航路指南SD航摄计划flight plan of aerial photography航摄领航navigation of aerial photography航摄领航navigation of aerial photography航摄漏洞aerial photographic gap航摄软片aerial film航摄像片,航空像片aerial photograph航摄质量quality of aerophotography航速speed航天飞机space shuttle航天摄影space photography航天摄影测量，*太空摄影测量space photogrammetry航天遥感space remote sensing航向course航向course航向倾角longitudinal tilt航向倾角pitch航向重叠end overlap航向重叠fore-and-aft overlap航向重叠forward overlap航向重叠longitudinal overlap航行通告notice to navigator航行通告notice to navigator航行图sailing chart航行障碍物navigation obstruction航行障碍物navigation obstruction合成地图synthetic map合成孔径雷达SAR合成孔径雷达synthetic aperture radar合点控制vanishing point control河道整治测量river improvement survey河外致密射电源，*类星体extragalactic compact radio source 核点epipole核面epipolar plane核线epipolar line核线epipolar ray核线相关epipolar correlation盒式分类法box classification method黑白片black-and-white film黑白摄影black-and-white photography恒时钟sidereal clock恒星摄影机stellar camera恒星时sidereal time恒星中天测时法method of time determination by star transit 横断面测量cross-section survey横断面测量cross-section survey横断面图cross-section profile横断面图cross-section profile横轴投影transverse projection红外测距仪infrared EDM instrument红外辐射计infrared radiometer红外片infrared film。

C#Susan边缘检测（SusanEdgeDetection）Susan边缘检测，⽅法简单，效率⾼，具体参照，修改dThreshold值，可以改变检测效果，⽤参照提供的重⼼法、⼒矩法可得到边缘⽅向；///https:///~steve/susan/susan/node6.htmlpublic unsafe static Bitmap SusanGray(this Bitmap sourceBitmap){int[] rowRadius = new int[7] { 1, 2, 3, 3, 3, 2, 1 };int width = sourceBitmap.Width;int height = sourceBitmap.Height;BitmapData sourceData = sourceBitmap.LockBits(new Rectangle(0, 0, width, height), ImageLockMode.ReadOnly, PixelFormat.Format32bppArgb);int stride = sourceData.Stride;byte[] pixelBuffer = new byte[stride * sourceData.Height];byte[] resultBuffer = new byte[stride * sourceData.Height];Marshal.Copy(sourceData.Scan0, pixelBuffer, 0, pixelBuffer.Length);sourceBitmap.UnlockBits(sourceData);float rgb = 0;for (int k = 0; k < pixelBuffer.Length; k += 4){rgb = pixelBuffer[k] * 0.11f;rgb += pixelBuffer[k + 1] * 0.59f;rgb += pixelBuffer[k + 2] * 0.3f;pixelBuffer[k] = (byte)rgb;pixelBuffer[k + 1] = pixelBuffer[k];pixelBuffer[k + 2] = pixelBuffer[k];pixelBuffer[k + 3] = 255;}int[] susanMap = new int[height * width];int offset = stride - width * 4;GCHandle srchandle = GCHandle.Alloc(susanMap, GCHandleType.Pinned);IntPtr susan = srchandle.AddrOfPinnedObject();int dThreshold = 28;fixed (byte* pbuff = pixelBuffer, rbuff = resultBuffer){byte* src = pbuff + stride * 3 + 3 * 4;int* br = (int*)susan + height * 3 + 3;byte* dst = rbuff + stride * 3 + 3 * 4;for (int offsetY = 3; offsetY < height - 3; offsetY++){for (int offsetX = 3; offsetX < width - 3; offsetX++, src += 4,dst+=4, br++){byte nucleusValue = *src;int usan = 0;int cx = 0, cy = 0;for (int i = -3; i <= 3; i++){int r = rowRadius[i + 3];byte* ptr = (byte*)((int)src + stride * i);for (int j = -r; j <= r; j++){int c = (int)Math.Exp(-Math.Pow((System.Math.Abs(nucleusValue - ptr[j * 4]) / dThreshold), 6));usan += c;cx += j * c;cy += i * c;}}if (usan < 28)usan = 28 -usan;elseusan = 0;if ((usan < 6) && (cx != 0 || cy != 0)){*dst = 255;dst[1] = 255;dst[2] = 255;dst[3] = 255;}else{*dst = 0;dst[1] = 0;dst[2] = 0;dst[3] = 255;}*br = usan;}src += 6 * 4 + offset;dst += 6 * 4 + offset;br += 6;}}Bitmap resultBitmap = new Bitmap(sourceBitmap.Width, sourceBitmap.Height);BitmapData resultData = resultBitmap.LockBits(new Rectangle(0, 0,resultBitmap.Width, resultBitmap.Height),ImageLockMode.WriteOnly,PixelFormat.Format32bppArgb);Marshal.Copy(resultBuffer, 0, resultData.Scan0, resultBuffer.Length);resultBitmap.UnlockBits(resultData);return resultBitmap;}并⾏的⽅法：public unsafe static Bitmap ParallelSusan(this Bitmap sourceBitmap){int width = sourceBitmap.Width;int height = sourceBitmap.Height;BitmapData sourceData = sourceBitmap.LockBits(new Rectangle(0, 0, width, height), ImageLockMode.ReadOnly, PixelFormat.Format32bppArgb);int stride = sourceData.Stride;byte[] pixelBuffer = new byte[stride * sourceData.Height];byte[] resultBuffer = new byte[stride * sourceData.Height];Marshal.Copy(sourceData.Scan0, pixelBuffer, 0, pixelBuffer.Length);sourceBitmap.UnlockBits(sourceData);float rgb = 0;for (int k = 0; k < pixelBuffer.Length; k += 4){rgb = pixelBuffer[k] * 0.11f;rgb += pixelBuffer[k + 1] * 0.59f;rgb += pixelBuffer[k + 2] * 0.3f;pixelBuffer[k] = (byte)rgb;pixelBuffer[k + 1] = pixelBuffer[k];pixelBuffer[k + 2] = pixelBuffer[k];pixelBuffer[k + 3] = 255;}int[] susanMap = new int[height * width];int offset = stride - width * 4;GCHandle srchandle = GCHandle.Alloc(pixelBuffer, GCHandleType.Pinned);IntPtr src = srchandle.AddrOfPinnedObject();GCHandle dsthandle = GCHandle.Alloc(resultBuffer, GCHandleType.Pinned);IntPtr dst = dsthandle.AddrOfPinnedObject();GCHandle suhandle = GCHandle.Alloc(susanMap, GCHandleType.Pinned);IntPtr susan = suhandle.AddrOfPinnedObject();System.Threading.Tasks.Parallel.For(3, height - 3, (offsetY) =>{for (int offsetX = 3; offsetX < width - 3; offsetX++){OneSusan(offsetY, offsetX, (byte*)src, (byte*)dst, stride);}});Bitmap resultBitmap = new Bitmap(sourceBitmap.Width, sourceBitmap.Height);BitmapData resultData = resultBitmap.LockBits(new Rectangle(0, 0,resultBitmap.Width, resultBitmap.Height),ImageLockMode.WriteOnly,PixelFormat.Format32bppArgb);Marshal.Copy(resultBuffer, 0, resultData.Scan0, resultBuffer.Length);resultBitmap.UnlockBits(resultData);return resultBitmap;}public unsafe static void OneSusan(int offsetY, int offsetX, byte* src, byte* dst, int stride){int[] rowRadius = new int[7] { 1, 2, 3, 3, 3, 2, 1 };int dThreshold = 28;src = (byte*)((int)src + stride * offsetY + offsetX * 4);dst = (byte*)((int)dst + stride * offsetY + offsetX * 4);byte nucleusValue = *src;int usan = 0;int cx = 0, cy = 0;float vX = 0, vY = 0, vXY = 0;for (int i = -3; i <= 3; i++){int r = rowRadius[i + 3];byte* ptr = (byte*)((int)src + stride * i);for (int j = -r; j <= r; j++){int c = (int)Math.Exp(-Math.Pow((System.Math.Abs(nucleusValue - ptr[j * 4]) / dThreshold), 6)); usan += c;cx += j * c;cy += i * c;vX += j * j * c;vY += i * i * c;vXY += i * j * c;}}if (usan < 28)usan = 28 - usan;elseusan = 0;if ((usan < 5) && (cx != 0 || cy != 0)){*dst = 255;dst[1] = 255;dst[2] = 255;dst[3] = 255;}else{*dst = 0;dst[1] = 0;dst[2] = 0;dst[3] = 255;}}。

Definition of an EdgeAn edge is a significant change in the grayscale values between adjacent pixels in an image. In NI Vision, edge detection works on a 1D profile of pixel values along a search region, as shown in the following figure. The 1D search region can take the form of a line, the perimeter of a circle or ellipse, the boundary of a rectangle or polygon, or a freehand region. The software analyzes the pixel values along the profile to detect significant intensity changes. You can specify characteristics of the intensity changes to determine which changes constitute an edge.1 Search Lines2 EdgesCharacteristics of an EdgeThe following figure illustrates a common model that is used to characterize an edge.Gray LevelIntensitiesSearchDirection1 Grayscale Profile2 Edge Length3 Edge Strength4 Edge LocationThe following list includes the main parameters of this model.∙Edge strength—Defines the minimum difference in the grayscale values between the background and the edge. The edge strength is also called the edge contrast. The following figure shows an image that has different edge strengths. The strength of an edge can vary for the following reasons: ∙Lighting conditions—If the overall light in the scene is low, the edges in image will have low strengths. The following figure illustrates a change in the edge strength along the boundary of an object relative to different lighting conditions.∙Objects with different grayscale characteristics—The presence of a very bright object causes other objects in the image with lower overall intensities to have edges with smaller strengths.A B C∙Edge length—Defines the distance in which the desired grayscale difference between the edge and the background must occur. The length characterizes the slope of the edge. Use a longer edge length, defined by the size of the kernel used to detect edges, to detect edges with a gradual transition between the background and the edge.∙Edge location—The x, y location of an edge in the image.∙Edge polarity—Defines whether an edge is rising or falling. A rising edge is characterized by an increase in grayscale values as you cross the edge. A falling edge is characterized by a decrease in grayscale values as you cross the edge. The polarity of an edge is linked to the search direction.The following figure shows examples of edge polarities.Edge Detection MethodsNI Vision offers two ways to perform edge detection. Both methods compute the edge strength at each pixel along the 1D profile. An edge occurs when the edge strength is greater than a minimum strength. Additional checks find the correct location of the edge. You can specify the minimum strength by using the Minimum Edge Strength or Threshold Levelparameter in the software.Simple Edge DetectionThe software uses the pixel value at any point along the pixel profile to define the edge strength at that point. To locate an edge point, the software scans the pixel profile pixel by pixel from the beginning to the end. A rising edge is detected at the first point at which the pixel value is greater than a threshold value plus a hysteresis value. Set this threshold value to define the minimum edge strength required for qualifying edges. Use the hysteresis value to declare different edge strengths for the rising and falling edges. When a rising edge is detected, the software looks for a falling edge. A falling edge is detected when the pixel value falls below the specified threshold value. This process is repeated until the end of the pixel profile. The first edge along the profile can be either a rising or falling edge. The following figure illustrates the simple edge model.The simple edge detection method works well when there is little noise in the imageand when there is a distinct demarcation between the object and the background.Gray LevelIntensitiesPixels1 Grayscale Profile2 Threshold Value3 Hysteresis4 Rising Edge Location5 Falling Edge LocationAdvanced Edge Detection The edge detection algorithm uses a kernel operator to compute the edge strength. The kernel operator is a local approximation of a Fourier transform of the first derivative. The kernel is applied to each point in the search region where edges are to be located. For example, for a kernel size of 5, the operator is a ramp function that has 5 entries in the kernel. The entries are {–2, –1, 0, 1, 2}. The width of the kernel size is user-specified and should be based on the expected sharpness, or slope, of the edges to be located. The following figure shows the pixel data along a search line and the equivalent edge magnitudes computed using a kernel of size 5.Peaks in the edge magnitude profile above a user-specified threshold are the edge points detected by the algorithm.Pixel IntensitiesEdge Magnitudes1 Edge Location2 Minimum Edge ThresholdTo reduce the effect of noise in image, the edge detection algorithm can be configured to extract image data along a search region that is wider than the pixels in the image. The thickness of the search region is specified by the search width parameter. The data in the extracted region is averaged in a direction perpendicular to the search region before the edge magnitudes and edge locations are detected. A search width greater than 1 also can be used to find a “best” or “average”edge location or a poorly formed object. The following figure shows how the search width is defined.1 Search Width2 Search LineSubpixel AccuracyWhen the resolution of the image is high enough, most measurement applications make accurate measurements using pixel accuracy only. However, it is sometimes difficult to obtain the minimum image resolution needed by a machine vision application because of limits on the size of the sensors available or the price. In these cases, you need to find edge positions with subpixel accuracy.Subpixel analysis is a software method that estimates the pixel values that a higher resolution imaging system would have provided. In the edge detection algorithm, the subpixel location of an edge is calculated using a parabolic fit to the edge-detected data points. At each edge position of interest, the peak or maximum value is found along with the value of one pixel on each side of the peak. The peak position represents the location of the edge to the nearest whole pixel. Using the three data points and the coefficients a, b, and c, a parabola is fitted to the data points using the expression ax2 + bx2 + c.The procedure for determining the coefficients a, b, and c in the expression is as follows: Let the three points which include the whole pixel peak location and one neighbor on each side be represented by (x0, y0), (x1, y1), and (x2, y2). We will let x0 = –1, x1 = 0, and x2 = 1 without loss of generality. We now substitute these points in the equation for a parabola and solve for a, b, and c. The result isc = y1, which is not needed and can be ignored.The maximum of the function is computed by taking the first derivative of the parabolic function and setting the result equal to 0. Solving for x yieldsThis provides the subpixel offset from the whole pixel location where the estimate of the true edge location lies.The following illustrates how a parabolic function is fitted to the detected edge pixel location using the magnitude at the peak location and the neighboring pixels. The subpixel location of an edge point is estimated from the parabolic fit.1 Interpolated Peak Location3 Interpolating Function2 Neighboring PixelWith the imaging system components and software tools currently available, you can reliably estimate 1/25 subpixel accuracy. However, results from an estimation depend heavily on the imaging setup, such as lighting conditions, and the camera lens. Before resorting to subpixel information, try to improve the image resolution. Refer to system setup and calibration for more information about improving images.Signal-to-Noise RatioThe edge detection algorithm computes the signal-to-noise ratio for each detected edge point. The signal-to-noise ratio can be used to differentiate between a true, reliable, edge and a noisy, unreliable, edge. A high signal-to-noise ratio signifies a reliable edge, while a lowsignal-to-noise ratio implies the detected edge point is unreliable.In the edge detection algorithm, the signal-to-noise ratio is computed differently depending on the type of edges you want to search for in the image.When looking for the first, first and last, or all edges along search lines, the noise level associated with a detected edge point is the strength of the edge that lies immediately before the detected edge and whose strength is less than the user-specified minimum edge threshold, as shown in the following figure.1 Edge 1 Magnitude2 Edge 2 Magnitude3 Threshold Level4 Edge 2 Noise5 Edge 1 Noise When looking for the best edge, the noise level is the strength of the second strongest edge before or after the detected edge, as shown in the following figure.1 Best Edge Magnitude2 Best Edge Noise3 Threshold Level Calibration Support for Edge Detection The edge detection algorithm uses calibration information in the edge detection process if the original image is calibrated. For simple calibration, edge detection is performed directly onthe image and the detected edge point locations are transformed into real-world coordinates. For perspective and non-linear distortion calibration, edge detection is performed on a corrected image. However, instead of correcting the entire image, only the area corresponding to the search region used for edge detection is corrected. Figure A and Figure B illustrate the edge detection process for calibrated images. Figure A shows an uncalibrated distorted image. Figure B shows the same image in a corrected image space.1 Search Line2 Search Width3 Corrected AreaInformation about the detected edge points is returned in both pixels and real-world units. Refer to system setup and calibration for more information about calibrating images.Extending Edge Detection to 2D Search Regions The edge detection tool in NI Vision works on a 1D profile. The rake, spoke, and concentric rake tools extend the use of edge detection to two dimensions. In these edge detection variations, the 2D search area is covered by a number of search lines over which the edge detection is performed. You can control the number of the search lines used in the search region by defining the separation between the lines. RakeA Rake works on a rectangular search region, along search lines that are drawn parallel to the orientation of the rectangle. Control the number of lines in the area by specifying the search direction as left to right or right to left for a horizontally oriented rectangle. Specify the search direction as top to bottom or bottom to top for a vertically oriented rectangle. The following figure illustrates the basics of the rake function.1 Search Area2 Search Line3 Search Direction4 Edge PointsSpokeA Spoke works on an annular search region, along search lines that are drawn from the center of the region to the outer boundary and that fall within the search area. Control the number of lines in the region by specifying the angle between each line. Specify the search direction as either from the center outward or from the outer boundary to the center. The following figure illustrates the basics of the spoke function.1 Search Area2 Search Line3 Search Direction4 Edge PointsConcentric RakeA Concentric Rake works on an annular search region. It is an adaptation of the rake to an annular region. The following illustrates the basics of the concentric rake. Edge detection is performed along search lines that occur in the search region and that are concentric to the outer circular boundary. Control the number of concentric search lines that are used for the edge detection by specifying the radial distance between the concentric lines in pixels. Specify the direction of the search as either clockwise or anti-clockwise.1 Search Area2 Search Line3 Search Direction4 Edge PointsFinding Straight EdgesFinding straight edges is another extension of edge detection to 2D search regions. Finding straight edges involves finding straight edges, or lines, in an image within a 2D search region. Straight edges are located by first locating 1D edge points in the search region and then computing the straight lines that best fit the detected edge points. Straight edge methods can be broadly classified into two distinct groups based on how the 1D edge points are detected in the image. Rake-Based MethodsA Rake is used to detect edge points within a rectangular search region. Straight lines are then fit to the edge points. Three different options are available to determine the edge points through which the straight lines are fit.First EdgesA straight line is fit through the first edge point detected along each search line in the Rake. The method used to fit the straight line is described in dimensional measurements. The following figure shows an example of the straight edge detected on an object using the first dark to bright edges in the Rake along with the computed edge magnitudes along one search line in the Rake. Search DirectionBest EdgesA straight line is fit through the best edge point along each search line in the Rake. The method used to fit the straight line us described in dimensional measurements. The following figure showsan example of the straight edge detected on an object using the best dark to bright edges in the Rake along with the computed edge magnitudes along one search line in the Rake.Search DirectionHough-Based MethodsIn this method, a Hough transform is used to detect the straight edges, or lines, in an image. The Hough transform is a standard technique used in image analysis to find curves that can be parameterized, such as straight lines, polynomials, and circles. For detecting straight lines in an image, NI Vision uses the parameterized form of the lineρ = xcosθ + ysinθwhere, ρ is the perpendicular distance from the origin to the line and θ is the angle of the normal from the origin to the line. Using this parameterization, a point (x, y) in the image is transformed into a sinusoidal curve in the (ρ, θ), or Hough space. The following figure illustrates the sinusoidal curves formed by three image points in the Hough space. The curves associated with colinear points in the image, intersect at a unique point in the Hough space. The coordinates (ρ, θ) of the intersection are used to define an equation for the corresponding line in the image. For example, the intersection point of the curves formed by points 1 and 2 represent the equation for Line1 in the image.The following figure illustrates how NI Vision uses the Hough transform to detect straight edges in an image. The location (x, y) of each detected edge point is mapped to a sinusoidal curve in the (ρ, θ) space. The Hough space is implemented as a two-dimensional histogram where the axes represent the quantized values for ρ and θ. The range forρ is determined by the size of the search region, while the range for θ is determined by the angle range for straight lines to be detected in the image. Each edge location in the image maps to multiple locations in the Hough histogram, and the count at each location in the histogram is incremented by one. Locations in the histogram with a count of two or more correspond to intersection points between curves in the (ρ, θ) space. Figure B shows a two-dimensional image of the Hough histogram. The intensity of each pixel corresponds to the value of the histogram at that location. Locations where multiple curves intersect appear darker than other locations in the histogram. Darker pixels indicate stronger evidence for the presence of a straight edge in the original image because more points lie on the line. The following figure also shows the line formed by four edge points detected in the image and the corresponding intersection point in the Hough histogram.1 Edge Point2 Straight Edge3 Search Region4 Search LineStraight edges in the image are detected by identifying local maxima, or peaks in the Hough histogram. The local maxima are sorted in descending order based on the histogram count. To improve the computational speed of the straight edge detection process, only a few of the strongest peaks are considered as candidates for detected straight edges. For each candidate, a score is computed in the original image for the line that corresponds to the candidate. The line with the best score is returned as the straight edge. The Hough-based method also can be used to detect multiplestraight edges in the original image. In this case, the straight edges are returned based on their scores.Projection-Based Methods The projection-based method for detecting straight edges is an extension of the 1D edge detection process discussed in the advanced edge detection section. The following figure illustrates the projection-based straight edge detection process. The algorithm takes in a search region, search direction, and an angle range. The algorithm first either sums or finds the medians of the data in a direction perpendicular to the search direction. NI Vision then detects the edge position on the summed profile using the 1D edge detection function. The location of the edge peak is used to determine the location of the detected straight edge in the original image.To detect the best straight edge within an angle range, the same process is repeated by rotating the search ROI through a specified angle range and using the strongest edge found to determine the location and angle of the straight edge.Search DirectionSumPixels1 Projection Axis2 Best Edge Peak and Corresponding Line in the ImageThe projection-based method is very effective for locating noisy and low-contrast straight edges.The projection-based method also can detect multiple straight edges in the search region. For multiple straight edge detection, the strongest edge peak is computed for each point along the projection axis. This is done by rotating the search region through a specified angle range and computing the edge magnitudes at every angle for each point along the projection axis. The resulting peaks along the projection axis correspond to straight edges in the original image. Straight Edge ScoreNI Vision returns an edge detection score for each straight edge detected in an image. The score ranges from 0 to 1000 and indicates the strength of the detected straight edge.The edge detection score is defined as。

一、图像分割概述图像分割一般采用的方法有边缘检测（edge detection）、边界跟踪（edge tracing）、区域生长（region growing）、区域分离和聚合等。

图像分割算法一般基于图像灰度值的不连续性或其相似性。

不连续性是基于图像灰度的不连续变化分割图像，如针对图像的边缘有边缘检测、边界跟踪等算法。

相似性是依据事先制定的准则将图像分割为相似的区域，如阈值分割、区域生长等。

二、边缘检测图像的边缘点是指图像中周围像素灰度有阶跃变化或屋顶变化的那些像素点，即灰度值导数较大或极大的地方。

边缘检测可以大幅度的减少数据量，并且剔除不相关信息，保留图像重要的结构属性。

边缘检测基本步骤：平滑滤波、锐化滤波、边缘判定、边缘连接。

说明：垂直于边缘的走向，像素值变化比较明显，可能呈现阶跃状，也可能呈现屋顶状。

因此，边缘可以分为两种：一种为阶跃性边缘，它两边的像素灰度值有着明显的不同；另一种为屋顶状边缘，它位于灰度值从增加到减少的变化转折点。

对于阶跃性边缘，二阶方向导数在边缘处呈现零交叉；对于屋顶状边缘，二阶方向导数在边缘处取极值。

三、边缘检测算法：•基于一阶导数：Roberts算子、Sobel算子、Prewitt算子•基于二阶导数：高斯-拉普拉斯边缘检测算子•Canny边缘检测算法四、matlab实现1）基于梯度算子（一阶导数）的边缘检测BW=edge(I,type,thresh,direction,’nothinning’)thresh是敏感度阈值参数，任何灰度值低于此阈值的边缘将不会被检测到。

默认值为空矩阵[]，此时算法自动计算阈值。

direction指定了我们感兴趣的边缘方向，edge函数将只检测direction中指定方向的边缘，其合法值如下：可选参数’nothinning’，指定时可以通过跳过边缘细化算法来加快算法运行的速度。

默认是’thinning’，即进行边缘细化。

2）基于高斯-拉普拉斯算子（三阶导数）的边缘检测BW=edge(I,’log’,thresh,sigma)sigma指定生成高斯滤波器所使用的标准差。

(1)1. Each of these areas has developed a deep DSP technology, with its own algorithms, mathematics, and specialized techniques. This combination of breath and depth makes it impossible for any one individual to master all of the DSP technology that has been developed.译文：每个研究领域都在它自身特有的算法、数学和技术的基础上更深入的开发DSP技术，从而使DSP技术在广度和深度两个方面都得到拓展，因此，任何人都不可能掌握所有现存的DSP技术。

2. The development of digital signal processing dates from the 1960’s with the u se of mainframe digital computers for number-crunching applications such as the Fast Fourier Transform (FFT), which allows the frequency spectrum of a signal to be computed rapidly.译文：数字信号处理技术源于20 世纪60 年代，彼时，大型计算机开始用于处理计算量较大运算，例如可以快速获得信号的频谱的快速傅立叶变换(FFT)等。

在本句中，The development of digital signal processing是主语，dates from 是谓语，意思是起源于历史上的某一年代。

后面以which 引导的定语从句用于修饰FFT。

3. Without it, they would be lost in the technological world.译文：没有基本的电路设计的背景(经验)，他们将会被技术界淘汰4. Note that the acronym DSP can variously mean Digital Signal Processing, the term usedfor a wide range of techniques for processing signals digitally, or Digital Signal Processor, a specialized type of microprocessor chip.译文：需要注意的是，缩写DSP有多种含义，它既可以解释为“数字信号处理”，也可以解释为“数字信号处理器”，前者表示一种目前被广泛采用的数字信号处理技术，后者则表示一种专用的微处理器芯片。

Digital Image Processing and Edge DetectionDigital Image ProcessingInterest in digital image processing methods stems from two principal application areas: improvement of pictorial information for human interpretation; and processing of image data for storage, transmission, and representation for autonomous machine perception.An image may be defined as a two-dimensional function, f(x,y), where x and y are spatial (plane) coordinates, and the amplitude of f at any pair of coordinates (x, y) is called the intensity or gray level of the image at that point. When x, y, and the amplitude values of f are all finite, discrete quantities, we call the image a digital image. The field of digital image processing refers to processing digital images by means of a digital computer. Note that a digital image is composed of a finite number of elements, each of which has a particular location and value. These elements are referred to as picture elements, image elements, pels, and pixels. Pixel is the term most widely used to denote the elements of a digital image.Vision is the most advanced of our senses, so it is not surprising that images play the single most important role in human perception. However, unlike humans, who are limited to the visual band of the electromagnetic (EM) spectrum, imaging machines cover almost the entire EM spectrum, ranging from gamma to radio waves. They can operate on images generated by sources that humans are not accustomed to associating with images. These include ultrasound, electron microscopy, and computer generated images. Thus, digital image processing encompasses a wide and varied field of applications.There is no general agreement among authors regarding where image processing stops and other related areas, such as image analysis and computer vision, start. Sometimes a distinction is made by defining image processing as a discipline in which both the input and output of a process are images. We believe this to be a limiting and somewhat artificial boundary. For example, under this definition,even the trivial task of computing the average intensity of an image (which yields a single number) would not be considered an image processing operation. On the other hand, there are fields such as computer vision whose ultimate goal is to use computers to emulate human vision, including learning and being able to make inferences and take actions based on visual inputs. This area itself is a branch of artificial intelligence(AI) whose objective is to emulate human intelligence. The field of AI is in its earliest stages of infancy in terms of development, with progress having been much slower than originally anticipated. The area of image analysis (also called image understanding) is in between image processing and computer vision.There are no clearcut boundaries in the continuum from image processing at one end to computer vision at the other. However, one useful paradigm is to consider three types of computerized processes in this continuum: low, mid, and highlevel processes. Low-level processes involve primitive operations such as image preprocessing to reduce noise, contrast enhancement, and image sharpening. A low-level process is characterized by the fact that both its inputs and outputs are images. Mid-level processing on images involves tasks such as segmentation (partitioning an image into regions or objects), description of those objects to reduce them to a form suitable for computer processing, and classification (recognition) of individual objects. A midlevel process is characterized by the fact that its inputs generally are images, but its outputs are attributes extracted from those images (e.g., edges, contours, and the identity of individual objects). Finally, higherlevel processing involves “making sense” of an ensemble of recognize d objects, as in image analysis, and, at the far end of the continuum, performing the cognitive functions normally associated with vision.Based on the preceding comments, we see that a logical place of overlap between image processing and image analysis is the area of recognition of individual regions or objects in an image. Thus, what we call in this book digital image processing encompasses processes whose inputs and outputs are images and, in addition, encompasses processes that extract attributes from images, up to and including the recognition of individual objects. As a simple illustration to clarify these concepts, consider the area of automated analysis of text. The processes of acquiring an image of the area containing the text, preprocessing that image, extracting (segmenting) the individual characters, describing the characters in a form suitable for computer processing, and recognizing those individual characters are in the scope of what we call digital image processing in this book. Making sense of the content of the page may be viewed as being in the domain of image analysis and even computer vision, depending on the level of complexity implied by the statement “making sense.” As will become evident shortly, digital image processing, as we have defined it, is used successfully in a broad range of areas of exceptional social and economic value.The areas of application of digital image processing are so varied that some formof organization is desirable in attempting to capture the breadth of this field. One of the simplest ways to develop a basic understanding of the extent of image processing applications is to categorize images according to their source (e.g., visual, X-ray, and so on). The principal energy source for images in use today is the electromagnetic energy spectrum. Other important sources of energy include acoustic, ultrasonic, and electronic (in the form of electron beams used in electron microscopy). Synthetic images, used for modeling and visualization, are generated by computer. In this section we discuss briefly how images are generated in these various categories and the areas in which they are applied.Images based on radiation from the EM spectrum are the most familiar, especially images in the X-ray and visual bands of the spectrum. Electromagnetic waves can be conceptualized as propagating sinusoidal waves of varying wavelengths, or they can be thought of as a stream of massless particles, each traveling in a wavelike pattern and moving at the speed of light. Each massless particle contains a certain amount (or bundle) of energy. Each bundle of energy is called a photon. If spectral bands are grouped according to energy per photon, we obtain the spectrum shown in fig. below, ranging from gamma rays (highest energy) at one end to radio waves (lowest energy) at the other. The bands are shown shaded to convey the fact that bands of the EM spectrum are not distinct but rather transition smoothly from one to the other.Fig1Image acquisition is the first process. Note that acquisition could be as simple as being given an image that is already in digital form. Generally, the image acquisition stage involves preprocessing, such as scaling.Image enhancement is among the simplest and most appealing areas of digital image processing. Basically, the idea behind enhancement techniques is to bring out detail that is obscured, or simply to highlight certain features of interest in an image.A familiar example of enhancement is when we increase the contrast of an image because “it looks better.” It is important to keep in mind that enhancement is a verysubjective area of image processing. Image restoration is an area that also deals with improving the appearance of an image. However, unlike enhancement, which is subjective, image restoration is objective, in the sense that restoration techniques tend to be based on mathematical or probabilistic models of image degradation. Enhancement, on the other hand, is based on human subjective preferences regarding what constitutes a “good” en hancement result.Color image processing is an area that has been gaining in importance because of the significant increase in the use of digital images over the Internet. It covers a number of fundamental concepts in color models and basic color processing in a digital domain. Color is used also in later chapters as the basis for extracting features of interest in an image.Wavelets are the foundation for representing images in various degrees of resolution. In particular, this material is used in this book for image data compression and for pyramidal representation, in which images are subdivided successively into smaller regions.F i g2Compression, as the name implies, deals with techniques for reducing the storage required to save an image, or the bandwidth required to transmi it.Although storage technology has improved significantly over the past decade, the same cannot be said for transmission capacity. This is true particularly in uses of the Internet, which arecharacterized by significant pictorial content. Image compression is familiar (perhaps inadvertently) to most users of computers in the form of image file extensions, such as the jpg file extension used in the JPEG (Joint Photographic Experts Group) image compression standard.Morphological processing deals with tools for extracting image components that are useful in the representation and description of shape. The material in this chapter begins a transition from processes that output images to processes that output image attributes.Segmentation procedures partition an image into its constituent parts or objects. In general, autonomous segmentation is one of the most difficult tasks in digital image processing. A rugged segmentation procedure brings the process a long way toward successful solution of imaging problems that require objects to be identified individually. On the other hand, weak or erratic segmentation algorithms almost always guarantee eventual failure. In general, the more accurate the segmentation, the more likely recognition is to succeed.Representation and description almost always follow the output of a segmentation stage, which usually is raw pixel data, constituting either the boundary of a region (i.e., the set of pixels separating one image region from another) or all the points in the region itself. In either case, converting the data to a form suitable for computer processing is necessary. The first decision that must be made is whether the data should be represented as a boundary or as a complete region. Boundary representation is appropriate when the focus is on external shape characteristics, such as corners and inflections. Regional representation is appropriate when the focus is on internal properties, such as texture or skeletal shape. In some applications, these representations complement each other. Choosing a representation is only part of the solution for transforming raw data into a form suitable for subsequent computer processing. A method must also be specified for describing the data so that features of interest are highlighted. Description, also called feature selection, deals with extracting attributes that result in some quantitative information of interest or are basic for differentiating one class of objects from another.Recognition is the pro cess that assigns a label (e.g., “vehicle”) to an object based on its descriptors. As detailed before, we conclude our coverage of digital image processing with the development of methods for recognition of individual objects.So far we have said nothing about the need for prior knowledge or about theinteraction between the knowledge base and the processing modules in Fig2 above. Knowledge about a problem domain is coded into an image processing system in the form of a knowledge database. This knowledge may be as simple as detailing regions of an image where the information of interest is known to be located, thus limiting the search that has to be conducted in seeking that information. The knowledge base also can be quite complex, such as an interrelated list of all major possible defects in a materials inspection problem or an image database containing high-resolution satellite images of a region in connection with change-detection applications. In addition to guiding the operation of each processing module, the knowledge base also controls the interaction between modules. This distinction is made in Fig2 above by the use of double-headed arrows between the processing modules and the knowledge base, as opposed to single-headed arrows linking the processing modules.Edge detectionEdge detection is a terminology in image processing and computer vision, particularly in the areas of feature detection and feature extraction, to refer to algorithms which aim at identifying points in a digital image at which the image brightness changes sharply or more formally has discontinuities.Although point and line detection certainly are important in any discussion on segmentation,edge dectection is by far the most common approach for detecting meaningful discounties in gray level.Although certain literature has considered the detection of ideal step edges, the edges obtained from natural images are usually not at all ideal step edges. Instead they are normally affected by one or several of the following effects:1.focal blur caused by a finite depth-of-field and finite point spread function; 2.penumbral blur caused by shadows created by light sources of non-zero radius; 3.shading at a smooth object edge; 4.local specularities or interreflections in the vicinity of object edges.A typical edge might for instance be the border between a block of red color and a block of yellow. In contrast a line (as can be extracted by a ridge detector) can be a small number of pixels of a different color on an otherwise unchanging background. For a line, there may therefore usually be one edge on each side of the line.To illustrate why edge detection is not a trivial task, let us consider the problem of detecting edges in the following one-dimensional signal. Here, we may intuitively say that there should be an edge between the 4th and 5th pixels.If the intensity difference were smaller between the 4th and the 5th pixels and if the intensity differences between the adjacent neighbouring pixels were higher, it would not be as easy to say that there should be an edge in the corresponding region. Moreover, one could argue that this case is one in which there are several edges.Hence, to firmly state a specific threshold on how large the intensity change between two neighbouring pixels must be for us to say that there should be an edge between these pixels is not always a simple problem. Indeed, this is one of the reasons why edge detection may be a non-trivial problem unless the objects in the scene are particularly simple and the illumination conditions can be well controlled.There are many methods for edge detection, but most of them can be grouped into two categories,search-based and zero-crossing based. The search-based methods detect edges by first computing a measure of edge strength, usually a first-order derivative expression such as the gradient magnitude, and then searching for local directional maxima of the gradient magnitude using a computed estimate of the local orientation of the edge, usually the gradient direction. The zero-crossing based methods search for zero crossings in a second-order derivative expression computed from the image in order to find edges, usually the zero-crossings of the Laplacian or the zero-crossings of a non-linear differential expression, as will be described in the section on differential edge detection following below. As a pre-processing step to edge detection, a smoothing stage, typically Gaussian smoothing, is almost always applied (see also noise reduction).The edge detection methods that have been published mainly differ in the types of smoothing filters that are applied and the way the measures of edge strength are computed. As many edge detection methods rely on the computation of image gradients, they also differ in the types of filters used for computing gradient estimates in the x- and y-directions.Once we have computed a measure of edge strength (typically the gradient magnitude), the next stage is to apply a threshold, to decide whether edges are present or not at an image point. The lower the threshold, the more edges will be detected, and the result will be increasingly susceptible to noise, and also to picking out irrelevant features from the image. Conversely a high threshold may miss subtle edges, or result in fragmented edges.If the edge thresholding is applied to just the gradient magnitude image, the resulting edges will in general be thick and some type of edge thinning post-processing is necessary. For edges detected with non-maximum suppression however, the edge curves are thin by definition and the edge pixels can be linked into edge polygon by an edge linking (edge tracking) procedure. On a discrete grid, the non-maximum suppression stage can be implemented by estimating the gradient direction using first-order derivatives, then rounding off the gradient direction to multiples of 45 degrees, and finally comparing the values of the gradient magnitude in the estimated gradient direction.A commonly used approach to handle the problem of appropriate thresholds for thresholding is by using thresholding with hysteresis. This method uses multiple thresholds to find edges. We begin by using the upper threshold to find the start of an edge. Once we have a start point, we then trace the path of the edge through the image pixel by pixel, marking an edge whenever we are above the lower threshold. We stop marking our edge only when the value falls below our lower threshold. This approach makes the assumption that edges are likely to be in continuous curves, and allows us to follow a faint section of an edge we have previously seen, without meaning that every noisy pixel in the image is marked down as an edge. Still, however, we have the problem of choosing appropriate thresholding parameters, and suitable thresholding values may vary over the image.Some edge-detection operators are instead based upon second-order derivatives of the intensity. This essentially captures the rate of change in the intensity gradient. Thus, in the ideal continuous case, detection of zero-crossings in the second derivative captures local maxima in the gradient.We can come to a conclusion that,to be classified as a meaningful edge point,the transition in gray level associated with that point has to be significantly stronger than the background at that point.Since we are dealing with local computations,the method of choice to determine whether a value is “significant” or not id to use a threshold.Thus we define a point in an image as being as being an edge point if its two-dimensional first-order derivative is greater than a specified criterion of connectedness is by definition an edge.The term edge segment generally is used if the edge is short in relation to the dimensions of the image.A key problem in segmentation is to assemble edge segments into longer edges.An alternate definition if we elect to use the second-derivative is simply to define the edge ponits in an imageas the zero crossings of its second derivative.The definition of an edge in this case is the same as above.It is important to note that these definitions do not guarantee success in finding edge in an image.They simply give us a formalism to look for them.First-order derivatives in an image are computed using the gradient.Second-order derivatives are obtained using the Laplacian.数字图像处理与边缘检测数字图像处理数字图像处理方法的研究源于两个主要应用领域：其一是改进图像信息以便于人们分析；其二是为使机器自动理解而对图像数据进行存储、传输及显示。

CV专业名词中英文对照Common人工智能Artificial Intelligence认知科学与神经科学Cognitive Science and Neuroscience 图像处理Image Processing计算机图形学Computer graphics模式识别Pattern Recognized图像表示Image Representation立体视觉与三维重建Stereo Vision and 3D Reconstruction 物体（目标）识别Object Recognition运动检测与跟踪Motion Detection and Tracking边缘edge边缘检测detection区域region图像分割segmentation轮廓与剪影contour and silhouette纹理texture纹理特征提取feature extraction颜色color局部特征local features or blob尺度scale摄像机标定Camera Calibration立体匹配stereo matching图像配准Image Registration特征匹配features matching物体识别Object Recognition人工标注Ground-truth自动标注Automatic Annotation运动检测与跟踪Motion Detection and Tracking背景剪除Background Subtraction背景模型与更新background modeling and update运动跟踪Motion Tracking多目标跟踪multi-target tracking颜色空间color space色调Hue色饱和度Saturation明度Value颜色不变性Color Constancy（人类视觉具有颜色不变性）照明illumination反射模型Reflectance Model明暗分析Shading Analysis成像几何学与成像物理学Imaging Geometry and Physics 全像摄像机Omnidirectional Camera激光扫描仪Laser Scanner透视投影Perspective projection正交投影Orthopedic projection表面方向半球Hemisphere of Directions立体角solid angle透视缩小效应foreshortening辐射度radiance辐照度irradiance亮度intensity漫反射表面、Lambertian（朗伯）表面diffuse surface 镜面Specular Surfaces漫反射率diffuse reflectance明暗模型Shading Models环境光照ambient illumination互反射interreflection反射图Reflectance Map纹理分析Texture Analysis元素elements基元primitives纹理分类texture classification从纹理中恢复图像shape from texture纹理合成synthetic图形绘制graph rendering图像压缩image compression统计方法statistical methods结构方法structural methods基于模型的方法model based methods分形fractal自相关性函数autocorrelation function熵entropy能量energy对比度contrast均匀度homogeneity相关性correlation上下文约束contextual constraintsGibbs随机场吉布斯随机场边缘检测、跟踪、连接Detection、Tracking、LinkingLoG边缘检测算法（墨西哥草帽算子）LoG=Laplacian of Gaussian 霍夫变化Hough Transform链码chain codeB-样条B-spline有理B-样条Rational B-spline非均匀有理B-样条Non-Uniform Rational B-Spline控制点control points节点knot points基函数basis function控制点权值weights曲线拟合curve fitting内插interpolation逼近approximation回归Regression主动轮廓Active Contour Model or Snake 图像二值化Image thresholding连通成分connected component数学形态学mathematical morphology 结构元structuring elements膨胀Dilation腐蚀Erosion开运算opening闭运算closing聚类clustering分裂合并方法split-and-merge区域邻接图region adjacency graphs四叉树quad tree区域生长Region Growing过分割over-segmentation分水岭watered金字塔pyramid亚采样sub-sampling尺度空间Scale Space局部特征Local Features背景混淆clutter遮挡occlusion角点corners强纹理区域strongly textured areas 二阶矩阵Second moment matrix 视觉词袋bag-of-visual-words类内差异intra-class variability类间相似性inter-class similarity生成学习Generative learning判别学习discriminative learning 人脸检测Face detection弱分类器weak learners集成分类器ensemble classifier被动测距传感passive sensing多视点Multiple Views稠密深度图dense depth稀疏深度图sparse depth视差disparity外极epipolar外极几何Epipolor Geometry校正Rectification归一化相关NCC Normalized Cross Correlation平方差的和SSD Sum of Squared Differences绝对值差的和SAD Sum of Absolute Difference俯仰角pitch偏航角yaw扭转角twist高斯混合模型Gaussian Mixture Model运动场motion field光流optical flow贝叶斯跟踪Bayesian tracking粒子滤波Particle Filters颜色直方图color histogram尺度不变特征转换SIFT scale invariant feature transform 孔径问题Aperture problemAAberration 像差Accessory 附件Accessory Shoes 附件插座、热靴Achromatic 消色差的Active 主动的、有源的Acutance 锐度Acute-matte 磨砂毛玻璃Adapter 适配器Advance system 输片系统AE Lock(AEL) 自动曝光锁定AF(Autofocus) 自动聚焦AF Illuminator AF照明器AF spotbeam projector AF照明器Alkaline 碱性Ambient light 环境光Amplification factor 放大倍率Angle finder 弯角取景器Angle of view 视角Anti-Red-eye 防红眼Aperture 光圈Aperture priority 光圈优先APO(APOchromat) 复消色差APZ(Advanced Program zoom) 高级程序变焦Arc 弧形ASA(American Standards Association) 美国标准协会Astigmatism 像散Auto bracket 自动包围Auto composition 自动构图Auto exposure 自动曝光Auto exposure bracketing 自动包围曝光Auto film advance 自动进片Auto flash 自动闪光Auto loading 自动装片Auto multi-program 自动多程序Auto rewind 自动退片Auto wind 自动卷片Auto zoom 自动变焦Automatic exposure(AE) 自动曝光Automation 自动化Auxiliary 辅助BBack 机背Back light 逆光、背光Back light compensation 逆光补偿Background 背景Balance contrast 反差平衡Bar code system 条形码系统Barrel distortion 桶形畸变BAse-Stored Image Sensor (BASIS) 基存储影像传感器Battery check 电池检测Battery holder 电池手柄Bayonet 卡口Bellows 皮腔Blue filter 蓝色滤光镜Body-integral 机身一体化Bridge camera 桥梁相机Brightness control 亮度控制Built in 内置Bulb B 门Button 按钮CCable release 快门线Camera 照相机Camera shake 相机抖动Cap 盖子Caption 贺辞、祝辞、字幕Card 卡Cartridges 暗盒Case 机套CCD(Charge Coupled Device) 电荷耦合器件CdS cell 硫化镉元件Center spot 中空滤光镜Center weighted averaging 中央重点加权平均Chromatic Aberration 色差Circle of confusion 弥散圆Close-up 近摄Coated 镀膜Compact camera 袖珍相机Composition 构图Compound lens 复合透镜Computer 计算机Contact 触点Continuous advance 连续进片Continuous autofocus 连续自动聚焦Contrast 反差、对比Convetor 转换器Coreless 无线圈Correction 校正Coupler 耦合器Coverage 覆盖范围CPU(Central Processing Unit) 中央处理器Creative expansion card 艺术创作软件卡Cross 交叉Curtain 帘幕Customized function 用户自选功能DData back 数据机背Data panel 数据面板Dedicated flash 专用闪光灯Definition 清晰度Delay 延迟、延时Depth of field 景深Depth of field preview 景深预测Detection 检测Diaphragm 光阑Diffuse 柔光Diffusers 柔光镜DIN (Deutsche Industrische Normen) 德国工业标准Diopter 屈光度Dispersion 色散Display 显示Distortion 畸变Double exposure 双重曝光Double ring zoom 双环式变焦镜头Dreams filter 梦幻滤光镜Drive mode 驱动方式Duration of flash 闪光持续时间DX-code DX编码EED(Extra low Dispersion) 超低色散Electro selective pattern(ESP) 电子选择模式EOS(Electronic Optical System) 电子光学系统Ergonomic 人体工程学EV(Exposure value) 曝光值Evaluative metering 综合评价测光Expert 专家、专业Exposure 曝光Exposure adjustment 曝光调整Exposure compensation 曝光补偿Exposure memory 曝光记忆Exposure mode 曝光方式Exposure value(EV) 曝光值Extension tube 近摄接圈Extension ring 近摄接圈External metering 外测光Extra wide angle lens 超广角镜头Eye-level fixed 眼平固定Eye-start 眼启动Eyepiece 目镜Eyesight correction lenses 视力校正镜FField curvature 像场弯曲Fill in 填充(式)Film 胶卷(片)Film speed 胶卷感光度Film transport 输片、过片Filter 滤光镜Finder 取景器First curtain 前帘、第一帘幕Fish eye lens 鱼眼镜头Flare 耀斑、眩光Flash 闪光灯、闪光Flash range 闪光范围Flash ready 闪光灯充电完毕Flexible program 柔性程序Focal length 焦距Focal plane 焦点平面Focus 焦点Focus area 聚焦区域Focus hold 焦点锁定Focus lock 焦点锁定Focus prediction 焦点预测Focus priority 焦点优先Focus screen 聚焦屏Focus tracking 焦点跟踪Focusing 聚焦、对焦、调焦Focusing stages 聚焦级数Fog filter 雾化滤光镜Foreground 前景Frame 张数、帧Freeze 冻结、凝固Fresnel lens 菲涅尔透镜、环状透镜Frontground 前景Fuzzy logic 模糊逻辑GGlare 眩光GN(Guide Number) 闪光指数GPD(Gallium Photo Diode) 稼光电二极管Graduated 渐变HHalf frame 半幅Halfway 半程Hand grip 手柄High eye point 远视点、高眼点High key 高调Highlight 高光、高亮Highlight control 高光控制High speed 高速Honeycomb metering 蜂巢式测光Horizontal 水平Hot shoe 热靴、附件插座Hybrid camera 混合相机Hyper manual 超手动Hyper program 超程序Hyperfocal 超焦距IIC(Integrated Circuit) 集成电路Illumination angle 照明角度Illuminator 照明器Image control 影像控制Image size lock 影像放大倍率锁定Infinity 无限远、无穷远Infra-red(IR) 红外线Instant return 瞬回式Integrated 集成Intelligence 智能化Intelligent power zoom 智能化电动变焦Interactive function 交互式功能Interchangeable 可更换Internal focusing 内调焦Interval shooting 间隔拍摄ISO(International Standard Association) 国际标准化组织JJIS(Japanese Industrial Standards)日本工业标准LLandscape 风景Latitude 宽容度LCD data panel LCD数据面板LCD(Liquid Crystal Display) 液晶显示LED(Light Emitting Diode) 发光二极管Lens 镜头、透镜Lens cap 镜头盖Lens hood 镜头遮光罩Lens release 镜头释放钮Lithium battery 锂电池Lock 闭锁、锁定Low key 低调Low light 低亮度、低光LSI(Large Scale Integrated) 大规模集成MMacro 微距、巨像Magnification 放大倍率Main switch 主开关Manual 手动Manual exposure 手动曝光Manual focusing 手动聚焦Matrix metering 矩阵式测光Maximum 最大Metered manual 测光手动Metering 测光Micro prism 微棱Minimum 最小Mirage 倒影镜Mirror 反光镜Mirror box 反光镜箱Mirror lens 折反射镜头Module 模块Monitor 监视、监视器Monopod 独脚架Motor 电动机、马达Mount 卡口MTF (Modulation Transfer Function 调制传递函数Multi beam 多束Multi control 多重控制Multi-dimensional 多维Multi-exposure 多重曝光Multi-image 多重影Multi-mode 多模式Multi-pattern 多区、多分区、多模式Multi-program 多程序Multi sensor 多传感器、多感光元件Multi spot metering 多点测光Multi task 多任务NNegative 负片Neutral 中性。

边缘检测1.边缘检测⽤于表⽰图像中连读明显的点边缘检测分为两种：⼀种是基于搜索，另外⼀种是基于零穿越‘2.基于搜索：是求函数的⼀阶导数，基于零穿越试求⼆阶导数的零点’3.Sobel算⼦Scahrr算⼦是基于搜索的边缘检测Sobel算⼦API:Sobel_x_or_y = cv2.Sobel(src,ddepth,dx,dy,ksize,scale,delta,borderType)参数：ddepth:图像深度dx和dy:求导的阶数，0表⽰这个⽅向上⾯没有导数，取值为0、1ksize:是Sobel算⼦的⼤⼩，即卷积核⼤⼩，必须为1,3,5,7，默认为3如果ksize=-1，就演变成3*3的Scahrr算⼦scale：缩放导数的⽐例常数，默认没有boederType:图像便捷模式，默认值为cv2.BORDER_DEFAULTimport numpy as npimport cv2 as cvimport matplotlib.pyplot as pltimg = cv.imread('image1.jpg',1)#创建Sobel算⼦Sobel_x = cv.Sobel(img,cv.CV_16S,1,0)Sobel_y = cv.Sobel(img,cv.CV_16S,0,1)#转换为uint8类型Scale_AbsX = cv.convertScaleAbs(Sobel_x)Scale_AbsY = cv.convertScaleAbs(Sobel_y)res = cv.addWeighted(Scale_AbsX,0.5,Scale_AbsY,0.5,0)plt.imshow(res,cmap=plt.cm.gray)plt.show()#创建Scharr算⼦Sobel_x1 = cv.Sobel(img,cv.CV_16S,1,0,ksize=-1)Sobel_y1 = cv.Sobel(img,cv.CV_16S,0,1,ksize=-1)#转换Scale_AbsX = cv.convertScaleAbs(Sobel_x1)Scale_AbsY = cv.convertScaleAbs(Sobel_y1)res1 = cv.addWeighted(Scale_AbsX,0.5,Scale_AbsY,0.5,0)plt.imshow(res1,cmap=plt.cm.gray)plt.show()placian算⼦是基于零穿越的边缘检测API：laplacian = placian(src,ddepth[,dst[,ksize[,scale[,selta[,bordeType]]]]])参数：src:输⼊的图像ddepth:图像深度，cv.CV.16Simport numpy as npimport cv2 as cvimport matplotlib.pyplot as pltimg = cv.imread('image1.jpg', 0)#拉普拉斯算⼦res = placian(img,cv.CV_16S)#转换为uint8img_laplacian = cv.convertScaleAbs(res)plt.imshow(img_laplacian,cmap=plt.cm.gray)plt.show()3.Canny算⼦Canny边缘检测算法由四步组成：1）噪声去除：5*5⾼斯滤波器取出去除噪声2）计算图像梯度3）⾮极⼤值抑制4）滞后阈值：设计两个阈值，maxVal和minVal，灰度梯⾼于maxVal 被认为是真的边界，低于minVal呗抛弃，如果在之间就是边界点相连2.API：canny:cv2.Canny(image,threshold1,threshold2)参数：threshold1:minval,较⼩的阈值将间断的边缘连接起来threshold2:maxval,较⼤的阈值检测图像中明显的边缘import numpy as npimport cv2 as cvimport matplotlib.pyplot as pltimg = cv.imread('image1.jpg', 0)#Canny边缘检测res = cv.Canny(img,0,100)#阈值plt.imshow(res,cmap=plt.cm.gray)plt.show()。

边缘检测的名词解释边缘检测是计算机视觉领域中一项重要的图像处理技术，其目的是识别和提取图像中各个物体或场景的边缘信息。

边缘是指图像中颜色或亮度发生明显变化的地方，它标志着物体之间的分界线或者物体与背景之间的过渡区域。

边缘检测能够帮助我们理解图像中的结构，更好地分析图像内容并进行后续的图像处理和分析。

在计算机视觉应用中，边缘检测有着广泛的应用。

例如在目标识别中，边缘检测可以帮助我们找到物体的轮廓，从而进行物体的识别和分类。

在图像分割方面，边缘检测可以用来分割图像中的不同区域，提取感兴趣的物体。

此外，边缘检测还可以用于图像增强、图像压缩等领域。

常用的边缘检测算法包括Sobel算子、Laplacian算子、Canny算子等。

这些算法基于图像的灰度值和亮度变化来检测边缘。

Sobel算子通过计算图像中每个像素点的梯度幅值来确定边缘的位置和方向。

Laplacian算子则通过计算像素值的二阶导数来检测边缘。

而Canny算子则是一种综合性的边缘检测算法，它综合了Sobel 算子和Laplacian算子的优点，在性能上更加稳定和准确。

边缘检测并不是一项简单的任务，它受到噪声、光照变化、图像分辨率等因素的影响。

因此，在进行边缘检测前，通常需要进行预处理，比如图像平滑、灰度化等步骤，以减少这些干扰因素对边缘检测结果的影响。

边缘检测并非完美，它仍然存在一些问题和挑战。

例如，边缘检测往往会产生一些不连续和不完整的边缘，这需要通过进一步的处理和分析来解决。

此外，在图像中存在复杂的背景和纹理时，边缘检测的准确性也会受到影响。

因此，为了获得更好的边缘检测效果，我们需要结合其他的图像处理和分析技术，如图像分割、特征提取等。

总结起来，边缘检测是计算机视觉中一项重要的图像处理技术，其通过识别和提取图像中的边缘信息来帮助我们理解图像结构、进行目标识别和图像分割等应用。

虽然边缘检测还存在一些问题和挑战，但随着技术的不断进步和研究的不断深入，相信边缘检测在图像处理领域将发挥更大的作用。