ArcInfo命令大全

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ArcInfo命令大全

ArcInfo命令大全

一、ArcInfo投影转换

Arc: project(投影)_cover_[cover]_[新cover]——(把一种投影的cover转到另一种投影像的cover)Incorrect PROJECTION option

Usage: PROJECTION < UNKNOWN | ALASKA_E |

ALASKA_GRID | ALBERS(等积圆锥) |

AZIMUTHAL(方位投影用于半球) | BIPOLAR_OBLIQUE |

BONNE(彭纳投影用于大洲图) |

CASSINI |CHAMBERLIN | CRASTER_PARABOLIC |

CYLINDRICAL |ECKERT4 | ECKERT6 | EQUIDISTANT |

EQUIRECTANGULAR | FLAT_POLAR_QUARTIC

|GALL_STEREOGRAPHIC |

GEOCENTRIC(经纬度)| GEOGRAPHIC | GNOMONIC |

GREATBRITAIN_GRID |

GRINTEN |HAMMER-AITOFF | LAMBERT(等角圆锥)|

LAMBERT_AZIMUTH

LOCAL | MERCA TOR | MILLER | MOLLWEIDE |

NEWZEALAND_GRID |

OBLIQUE_MERCATOR |ORTHOGRAPHIC | PERSPECTIVE |

POLAR |POL YCONIC |

ROBINSON | RSO | SIMPLE_CONIC |SINUSOIDAL |

SPACE_OBLIQUE_MERCATOR

STA TEPLANE | STEREOGRAPHIC | TIMES |TRANSVERSE |

TWO_POINT_EQUIDISTANT |

UNIVERSAL_POLAR_STEREOGRAPHIC | UTM(横轴墨卡托投影,也叫又标准纬线投影)

Sanson-Flamsteed(桑生投影)

Normal Azimuthal Equal-Area Projection (正轴等积方位投影) Oblique Azimuthal Equal-Area Projection (斜轴等积方位投影)

Transverse Azimuthal Equal-Area Projection (横轴等积方位投影)>(以上为投影类型)

PROJECT error for D:\PUBLIC\A\AA\A defaulting to

Projection UNKNOWN

Please define the input and output map projections.

Use INPUT to define the input projection, OUTPUT

to define the output projection, and END to finish.

Project: input(输入定义)

Project: projection(投影)_[geographic](经纬度投影)-----------定义投影类型(geographic为经纬度、LAMBERT 等角圆锥、ALBERS等积圆锥、UTM横轴墨卡托投影)

Project: unit(单位)_[dd](度)----------给定单位(dd为度、dm分、ds秒、meter米)

Project:uadem wgs84(坐标系) 可选

Project: parameters(定义参数)

Project: output(输出定义)

Project: projection(投影)_[lambert](投影类型)

Project: unit meter(定义投影单位)

Project:uadem wgs84(坐标系) 可选

Project: parameters(定义参数)

1st standard parallel [ 0 0 0.000 ]: 33 00 00(第一标准纬线)

2nd standard parallel [ 0 0 0.000 ]: 42 00 00(第二标准纬线)

central meridian [ 0 0 0.000 ]: 105 00 00(中央经线)

latitude of projection's origin [ 0 0 0.000 ]: 0(原点纬线)

false easting (meters) [ 0.00000 ]: 0(X方向的偏移量)

false northing (meters) [ 0.00000 ]: 0(Y方向的偏移量)

Project: end(退出)

Arc:project grid E060N40a e060n40b

Please define the input and output map projections. Use INPUT to define the input projection, OUTPUT

to define the output projection, and END to finish.

Project:input

Project: projection geographic

Project: unit dd

Project: parameters

Project: output

Project: projection oblique azimuthal equal-area projection(斜轴等积方位投影)

Project: unit meter

Project: parameters

Projection type < 1 | 2 >: 2

Scale factor at the projection's center [ 1.00000 ]:

Longitude of the projection's center (DMS) [ 0 0 0.000 ]: 38

00 00(东经)Latitude of the projection's center (DMS) [ 0 0

0.000 ]: 17 00 00(北纬)Azimuth at the projection's center

[ 0.00000 ]:

False easting (meters) [ 0.00000 ]:

False northing (meters) [ 0.00000 ]:

Project: end

Inversibility is 100 per cent

Project...

Arc:

注:蓝色为命令,红色为注释

二、在ArcInfo里创建网格

Arc: generate(创建)_[cover](新建一个cover)

Copyright (C) 1982-1996 Environmental Systems Research

Institute, Inc.

All rights reserved.

GENERATE Version 7.1 (Sun Sep 29 23:17:04 PDT 1996) Generate: grid(建网格)

Fishnet Origin Coordinate (X,Y): 72,0(起始点坐标,应为左下角的X,Y)

Y-Axis Coordinate (X,Y): 72,100000000(起点X坐标,100000000表示Y方向与X方向垂直)Cell Size (Width,Height): 4,4(分度带的大小)

Number of Rows, Columns: 15,16(多少行和列)

Generate:q

三、坐标转换

1、先做一个新的图(cover)

create _[cover2](新图层)_[cover1](原图层)

2、显示出新图层的TIC点的值

(1)、tables

(2)、sel_[cover].tic

(3)、list

3、修改坐标点的值

第一个坐标:sel_[cover].tic;res_idtic_=_1;cal_xtic_=_[坐标值];cal_ytic_=_[坐标值]第二个坐标:ase;res_idtic_=_2;cal_xtic_=_[坐标值];cla_ytic_=_[坐标值]

以下几个坐标点把第二个坐标点里的“2”改为“3”或“4”就行了。

4、最后做“transform”

transform_[cover1](原图层)_[cover2](改坐标值图层)

四、ArcInfo常用命令

(一)、gird文件

1、打开grid文件

ae

disp_9999

image_[grid文件名]

mape_image_[grid文件名] draw

(二)ARC下的命令

1、建立拓朴关系:

clean_[cover1](原图层)_[cover2](新图层)

2、对线编辑

build_[cover]

3、备份

copy_[cover1]_[cover2]

4、删除cover

kill_[cover]_all

5、转入、输出E00

import_[cover]_[E00文件名](转入)

export_[cover]_[E00文件名]_n (输出)

6、转出Grid文件

gridascii_[Grid文件名]_[转出文件名]

7、转入Grid文件

asciigrid_[转入的数据]_[cover]

8、检查多边形的错误

labelerrors

9、el的点的命令

createlabels_[cover]

10、label点移动到多边形的中心

centroidlabels_[cover]

11、批量转换数据

&run_[文件名]

12、等高线生成TIN

Arc: arctin

Usage: ARCTIN {ALL | POINT | LINE} {spot_item}

{weed_tolerance} {proximal_tolerance} {z_factor} {device}

(arctin_[cover]_[tin]_line_[高程字段] )