CN110287532A - Drainage pipeline networks based on ArcGIS+InfoWorks ICM plans the information modelling processing method of drawing - Google Patents
Drainage pipeline networks based on ArcGIS+InfoWorks ICM plans the information modelling processing method of drawing Download PDFInfo
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Abstract
Drainage pipeline networks based on ArcGIS+InfoWorks ICM plans the information modelling processing method of drawing, belongs to municipal works information technology and geographic information system technology crossing domain.This patent is not necessarily to carry out complicated layered shaping to CAD drainage pipeline networks planning drawing, it is specifically handled without to inspection shaft figure layer, node is drawn one by one, and by manually the work of typing attribute data is largely simplified one by one, the automatic conversion of pipe net leakage rate graph data is carried out by InfoWorks ICM, the automatic conversion of pipe net leakage rate attribute data is carried out by ArcGIS, the automation and mass typing of implementation model data, both the troublesome operation of artificial logging data one by one had been reduced, also improve the working efficiency of data inputting, guarantee the quality of drainage pipeline networks model data, to effectively improve the quality of building drainage pipeline networks model.Without carrying out complicated programming each step need to only can be completed, operation is simple in the present invention by existing software tool.
Description
Technical field
The present invention relates to a kind of, and the drainage pipeline networks based on ArcGIS+InfoWorks ICM plans the information modelling place of drawing
Reason method belongs to municipal works information technology and geographic information system technology crossing domain.
Background technique
Sewerage pipeline network is important urban infrastructure, be responsible for collection and conveying municipal sewage and Urban Rain,
The task for the runoff that snow melt generates has protection environment and Urban disasters reduction moving dual function, " lifeline " and " blood referred to as city
Arteries and veins ", the effect in urban planning and construction can not be ignored.Municipal drainage pipelines net project is planned for instructing municipal drainage
The building-up work of pipe-networks engineering is significant, due to the advantages that AutoCAD is easy to learn, beautiful interface, municipal drainage pipe network work
Journey planning drawing is usually stored with CAD file format.Drainage pipeline networks planning drawing stores pipe space in the form of multi-section-line
Data are labelled with the caliber information of pipeline and the ground elevation of node and tube bottom elevation information respectively in the form of label character, and
It is labelled with the information that flows to of pipeline by arrow, but does not consider between the space attribute of pipe network data and attribute data in drawing
Relationship lacks the description to pipe network data topological relation, can not embody the spatial relationship of drainage pipeline networks complexity.
ArcGIS is a comprehensive system, and user can be used to collection, tissue, management, analysis, exchange and issue geographical
Information, with the development of computer technology, unique advantage of the ArcGIS in terms of establishing geospatial database becomes increasingly conspicuous,
In drainage pipeline networks model and drainage waterlogging prevention model modeling using more and more.Data management and sky can be carried out using ArcGIS
Between analyze, can also intuitively, dynamically carry out modeling or visualized management.In drainage pipeline networks model construction, ArcGIS model
What database can be convenient is input to model software system, how effective with the development of drainage pipeline networks modelling technique
CAD drainage pipeline networks planning drawing information, which is transformed into ArcGIS model database, to be particularly important.(the city InfoWorks ICM
City integrates river basin sewerage model system) it is the more extensive mainstream drainage pipeline networks model of current domestic and international application and sponge city mould
One of type software is had flexible data-interface, including ArcGIS, CAD, Excel etc. in terms of model data processing.
InfoWorks ICM when importing CAD multi-section-line data, can automatic on-line layer data both ends generate point a layer data, and automatically into
Row number can provide convenience for the conversion of graph data, but the typing of attribute data is usually manual operation typing one by one.
Drainage pipeline networks planning drawing information input ArcGIS model database generally includes graph data typing and attribute number
According to typing two parts.The building of conventional discharge pipe net leakage rate need to carry out layered shaping to CAD graphical data, and to inspection shaft figure
Layer carries out particular procedure, but cumbersome to the heavy workload of CAD diagram paper progress layered shaping;The attribute of drainage pipeline networks planning drawing
Data are usually labeled in pipeline and near nodal by visual presence principle with written form nearby, have no unified rule and standard,
Traditional attribute data typing is usually to rely on the typing one by one of a large amount of manual operation, as the shaft bottom elevation of inspection shaft, ground are high
Journey, caliber, upstream and downstream tube bottom elevation of pipeline etc., since urban drainage pipe network is intricate, a large amount of manual entry is easy
Existing mistake, working efficiency is low, and the quality of database is low, it is impossible to ensure that the quality of drainage pipeline networks model.
Based on the defect of above-mentioned drainage pipeline networks model construction, this patent is from the demand of drainage pipeline networks model construction, base
In the storage characteristics of drainage pipeline networks planning drawing information, without carrying out complicated layered shaping to CAD drainage pipeline networks planning drawing,
Without specifically being handled inspection shaft figure layer, draw node one by one, and by the manually work of typing attribute data one by one
Largely simplified, the automatic conversion of pipe net leakage rate graph data is carried out by InfoWorks ICM, is carried out by ArcGIS
The automatic conversion of pipe net leakage rate attribute data, the automation and mass typing of implementation model data had both been reduced and had manually been recorded one by one
Enter the troublesome operation of data, also improve the working efficiency of data inputting, guarantees the quality of drainage pipeline networks model data, thus effectively
Improve the quality of building drainage pipeline networks model.
Summary of the invention
The present invention predominantly solves to be currently based on drainage pipeline networks planning drawing information architecture drainage pipeline networks model, advises to CAD
Drawing data layered shaping intricate operation is drawn, manually typing attribute data heavy workload one by one, working efficiency is low, is easy to appear mistake
Accidentally, the low-quality disadvantage of model data proposes a kind of drainage pipeline networks planning drawing based on ArcGIS+InfoWorks ICM
Information modelling processing method.
Technical scheme is as follows:
A kind of drainage pipeline networks planning information modelling processing method of drawing based on ArcGIS+InfoWorks ICM, it is described
Method successively comprises the steps of:
(1) planning chart paper basic data processing
1.1, planning chart paper tube line data processing
This patent planning chart paper basic data processing, without carrying out complicated cumbersome layering by element to CAD planning drawing
Processing, without specifically being handled inspection shaft figure layer, draw node one by one, it is only necessary to be unified in pipeline in planning chart together
One figure layer, such as " rain pipe " figure layer, the endpoint of connected pipeline is connected to a bit, then pipeline data save as one by treated
The CAD diagram paper of Zhang Xin, is named as " conduit line map ".
1.2, planning drawing labeled data processing
The insertion starting point of each pipeline section caliber mark text is moved into the middle position of each pipeline section, general's treated pipeline and pipe
Diameter labeled data saves as a new CAD diagram paper, is named as " caliber figure ".
The insertion starting point of ground elevation mark text at each pipeline section endpoint is moved into endpoint location, will treated pipeline and
Ground elevation labeled data saves as a new CAD diagram paper, is named as " floor plan ".
The insertion starting point of tube bottom absolute altitude mark text at each pipeline section endpoint is moved into endpoint location, will treated pipeline and
Tube bottom absolute altitude labeled data saves as a new CAD diagram paper, is named as " shaft bottom absolute altitude figure ".
(2) automatic conversion of pipe network graph data
In the prototype network of InfoWorks ICM, pass through " network-importing-update from AutoCAD dwg file " work
Tool, " conduit line map " for selecting step (1.1) to save are expert in pipeline figure layer such as " rain pipe " figure layer, " Lines/
" Conduit " is selected in the corresponding table of Polygons " column, pipeline graph data can be automatically shifted to prototype network
In, while node is automatically generated at pipeline both ends, and carry out automatic numbering for node number and pipeline upstream and downstream node number.
(3) combing of pipe network topological relation
Step (2) is that node number and pipeline upstream and downstream node number have carried out automatic numbering, the Primary Construction topology of pipe network
Relationship, but wherein there is the upstream and downstream node number of part pipeline to flow to practical pipe network on the contrary, needing to be adjusted.?
In the prototype network of InfoWorks ICM, by " reversed all selected connections " tool, is planned in drawing and managed according to drainage pipeline networks
Net flows to information, the adjustment flowed to reversed pipeline section.
(4) output of pipe network Shp formatted data
In the prototype network of InfoWorks ICM, by the way that " network-output-data export " center " tool, by pipeline number
According to the Shape File file that can be read for ArcGIS is exported respectively with node data, it is named as " pipeline data " and " node
Data ".Wherein the field in node data layer properties table includes node_id (node serial number), node_type (node class
Type), x (x coordinate), y (y-coordinate), ground_lev (ground elevation), chamber_fl (shaft bottom elevation), pipeline data layer
Field in attribute list includes us_node_id (upstream node number), ds_node_id (downstream node number), shape_1
(pipeline section shape), conduit_wi (width of the channel), conduit_he (canal is high), conduit_le (pipe range), (upstream us_invert
Bottom elevation), ds_invert (downstream bottom elevation).
(5) automatic conversion of pipe network attribute data
5.1, the automatic conversion of pipeline caliber data
" the pipeline data " for " caliber figure " and step (4) output that load step (1) saves in ArcGIS.Pass through
Caliber text marking information is carried out space with pipeline and connected by " Spatial Join " (space connection) tool of ArcGIS, wherein
" target component " selection " pipeline data ", " the caliber figure .dwg under " nexus element " selection " caliber figure " catalogue
Annotation ", " output factor kind " are named as " pipeline data 1 ", will be certainly in " pipeline data 1 " attribute list after the connection of space
Caliber information is simultaneously automatically switched under the field by dynamic addition Text field.
Conduit_di (caliber) field is added in " pipeline data 1 " attribute list.To round tube in drainage pipeline networks planning chart
Different with the labeling form of canal, if the round tube of 1000mm diameter is labeled as d1000, wide 3.2 meters high 2 meters of canal is labeled as
A3.2x2." the pipeline data 1 " file that suffix is " .dbf " is opened in Excel and saves as " caliber information .xls " file,
Caliber text information is split by " point column " tool of Excel, if d1000 is split as d and 1000, A3.2x2 is split as
A, then 3.2, x and 2 copy to round tube caliber batch data in the conduit_di field of " pipeline data 1 " attribute list, will
Width of the channel and the high batch data of canal copy in conduit_wi the and conduit_he field of " pipeline data 1 " attribute list.
5.2, the automatic conversion of node elevation data
1, " node data " of load step (1) saves in ArcGIS " shaft bottom absolute altitude figure " and step (4) output, leads to
It crosses " Spatial Join " (space connection) tool and connects shaft bottom absolute altitude text marking information with node progress space, wherein
" target component " selection " node data ", " the shaft bottom absolute altitude figure .dwg under " nexus element " selection " shaft bottom absolute altitude figure " catalogue
Annotation ", " output factor kind " are named as " node data 1 ", will be certainly in " node data 1 " attribute list after the connection of space
Shaft bottom elevation information is simultaneously automatically switched under the field by dynamic addition Text field.
2, load step (1) saves in ArcGIS " floor plan ", by " Spatial Join ", (space connects
Connecing) ground elevation text marking information and node carry out space and connected by tool, wherein " target component " selection " node data
1 ", " floor plan .dwg Annotation " under " nexus element " selection " floor plan " catalogue, " output factor kind "
It is named as " node data 2 ", it will automatic addition Text1 field and by ground in " node data 2 " attribute list after the connection of space
Elevation information is automatically switched under the field.
3, pass through " Field Calculator " (field calculator) work of ArcGIS in " node data 2 " attribute list
" ground_lev=Text1 ", " chamber_fl=Text " is respectively set in tool, completes the automatic conversion of node elevation data.
5.3, the automatic conversion of pipeline upstream and downstream bottom elevation data
1, in ArcGIS by " Join " (connection) tool by the us_node_id field of " pipeline data 1 " attribute list with
The node_id field of " node data 2 " attribute list is attached, wherein " Join Options " selection " Keep only
Matching records " passes through " Field Calculator " (field calculator) tool of ArcGIS, setting after connection
" pipeline data 1.us_invert=node data 2.chamber_fl " completes the automatic conversion of line upstream bottom elevation data.
2, in ArcGIS by " Join " (connection) tool by the ds_node_id field of " pipeline data 1 " attribute list with
The node_id field of " node data 2 " attribute list is attached, wherein " Join Options " selection " Keep only
Matching records " passes through " Field Calculator " (field calculator) tool of ArcGIS, setting after connection
" pipeline data 1.ds_invert=node data 2.chamber_fl " completes the automatic conversion of line downstream bottom elevation data.
A kind of drainage pipeline networks based on ArcGIS+InfoWorks ICM of the present invention plans the information modelling place of drawing
The beneficial effect of reason method is mainly reflected in:
1. using method of the present invention, drawing information can be planned using existing drainage pipeline networks, realize drainpipe
Effective conversion of pessimistic concurrency control data, the building for drainage pipeline networks model provide great convenience.
2. this patent is not necessarily to carry out complicated cumbersome layered shaping by element to CAD planning drawing, without to inspection shaft
Figure layer specifically handled, draws node one by one, the typing of drainage pipeline networks model data mainly pass through ArcGIS and
InfoWorks ICM is realized automatically, greatly reduces the workload of artificial typing attribute data one by one in traditional data typing,
Traditional artificial typing attribute data intricate operation, low efficiency, error-prone disadvantage are avoided, high degree improves work effect
Rate ensure that the quality of drainage pipeline networks model attributes data, so that the quality for drainage pipeline networks model provides safeguard.
It, only need to be by existing soft without carrying out complicated programming 3. this patent the method has operability
Each step can be completed in part tool, and operation is simple, easy to accomplish, ensure that the exploitativeness of this patent.
Detailed description of the invention:
Fig. 1 is the flow diagram that the present invention works.
Specific embodiment:
Specific implementation process of the invention is as shown in Figure 1, comprising the following steps:
(1) planning chart paper basic data processing
1.1, planning chart paper tube line data processing
Pipeline in planning chart is unified in same figure layer, such as " rain pipe " figure layer, the endpoint of connected pipeline is connected to one
Point, then by treated, pipeline data save as a new CAD diagram paper, are named as " conduit line map ".
1.2, planning drawing labeled data processing
The insertion starting point of each pipeline section caliber mark text is moved into the middle position of each pipeline section, general's treated pipeline and pipe
Diameter labeled data saves as a new CAD diagram paper, is named as " caliber figure ".
The insertion starting point of ground elevation mark text at each pipeline section endpoint is moved into endpoint location, will treated pipeline and
Ground elevation labeled data saves as a new CAD diagram paper, is named as " floor plan ".
The insertion starting point of tube bottom absolute altitude mark text at each pipeline section endpoint is moved into endpoint location, will treated pipeline and
Tube bottom absolute altitude labeled data saves as a new CAD diagram paper, is named as " shaft bottom absolute altitude figure ".
(2) automatic conversion of pipe network graph data
In the prototype network of InfoWorks ICM, pass through " network-importing-update from AutoCAD dwg file " work
Tool, " conduit line map " for selecting step (1.1) to save are expert in pipeline figure layer such as " rain pipe " figure layer, " Lines/
" Conduit " is selected in the corresponding table of Polygons " column, pipeline graph data can be automatically shifted to prototype network
In, while node is automatically generated at pipeline both ends, and carry out automatic numbering for node number and pipeline upstream and downstream node number.
(3) combing of pipe network topological relation
In the prototype network of InfoWorks ICM, by " reversed all selected connections " tool, according to drainpipe network planning
It draws pipe network in drawing and flows to information, the adjustment that reversed pipeline section is flowed to.
(4) output of pipe network Shp formatted data
In the prototype network of InfoWorks ICM, by the way that " network-output-data export " center " tool, by pipeline number
It is Shape File file according to being exported respectively with node data, is named as " pipeline data " and " node data ".Wherein number of nodes
According to the field in layer properties table include node_id (node serial number), node_type (node type), x (x coordinate), (y is sat y
Mark), ground_lev (ground elevation), chamber_fl (shaft bottom elevation), the field in pipeline data layer attribute list includes
Us_node_id (upstream node number), ds_node_id (downstream node number), shape_1 (pipeline section shape), conduit_
Wi (width of the channel), conduit_he (canal high), conduit_le (pipe range), us_invert (upstream bottom elevation), ds_invert (under
Swim bottom elevation).
(5) automatic conversion of pipe network attribute data
5.1, the automatic conversion of pipeline caliber data
" the pipeline data " for " caliber figure " and step (4) output that load step (1) saves in ArcGIS.Pass through
Caliber text marking information is carried out space with pipeline and connected by " Spatial Join " (space connection) tool of ArcGIS, wherein
" target component " selection " pipeline data ", " the caliber figure .dwg under " nexus element " selection " caliber figure " catalogue
Annotation ", " output factor kind " are named as " pipeline data 1 ", will be certainly in " pipeline data 1 " attribute list after the connection of space
Caliber information is simultaneously automatically switched under the field by dynamic addition Text field.
Conduit_di (caliber) field is added in " pipeline data 1 " attribute list.Suffix is opened in Excel is
" the pipeline data 1 " file of " .dbf " simultaneously saves as " caliber information .xls " file, by " point column " tool of Excel to caliber
Text information is split, and if d1000 is split as d and 1000, A3.2x2 is split as A, 3.2, x and 2, then by round tube caliber number
In conduit_di field according to batch duplicating to " pipeline data 1 " attribute list, width of the channel and the high batch data of canal are copied into " pipe
Line number is according in conduit_wi the and conduit_he field of 1 " attribute list.
5.2, the automatic conversion of node elevation data
1, " node data " of load step (1) saves in ArcGIS " shaft bottom absolute altitude figure " and step (4) output, leads to
It crosses " Spatial Join " (space connection) tool and connects shaft bottom absolute altitude text marking information with node progress space, wherein
" target component " selection " node data ", " the shaft bottom absolute altitude figure .dwg under " nexus element " selection " shaft bottom absolute altitude figure " catalogue
Annotation ", " output factor kind " are named as " node data 1 ", will be certainly in " node data 1 " attribute list after the connection of space
Shaft bottom elevation information is simultaneously automatically switched under the field by dynamic addition Text field.
2, load step (1) saves in ArcGIS " floor plan ", by " Spatial Join ", (space connects
Connecing) ground elevation text marking information and node carry out space and connected by tool, wherein " target component " selection " node data
1 ", " floor plan .dwg Annotation " under " nexus element " selection " floor plan " catalogue, " output factor kind "
It is named as " node data 2 ", it will automatic addition Text1 field and by ground in " node data 2 " attribute list after the connection of space
Elevation information is automatically switched under the field.
3, pass through " Field Calculator " (field calculator) work of ArcGIS in " node data 2 " attribute list
" ground_lev=Text1 ", " chamber_fl=Text " is respectively set in tool, completes the automatic conversion of node elevation data.
5.3, the automatic conversion of pipeline upstream and downstream bottom elevation data
1, in ArcGIS by " Join " (connection) tool by the us_node_id field of " pipeline data 1 " attribute list with
The node_id field of " node data 2 " attribute list is attached, wherein " Join Options " selection " Keep only
Matching records " passes through " Field Calculator " (field calculator) tool of ArcGIS, setting after connection
" pipeline data 1.us_invert=node data 2.chamber_fl " completes the automatic conversion of line upstream bottom elevation data.
2, in ArcGIS by " Join " (connection) tool by the ds_node_id field of " pipeline data 1 " attribute list with
The node_id field of " node data 2 " attribute list is attached, wherein " Join Options " selection " Keep only
Matching records " passes through " Field Calculator " (field calculator) tool of ArcGIS, setting after connection
" pipeline data 1.ds_invert=node data 2.chamber_fl " completes the automatic conversion of line downstream bottom elevation data.
Claims (1)
1. a kind of drainage pipeline networks based on ArcGIS+InfoWorks ICM plans the information modelling processing method of drawing, feature
It is, comprising the following steps:
(1) planning chart paper basic data processing
(1.1) planning chart paper tube line data processing
Pipeline in planning chart is unified in same figure layer, the endpoint of connected pipeline is connected to a bit, then will treated pipeline
Data save as a new CAD diagram paper, are named as " conduit line map ";
(1.2) planning drawing labeled data processing
The insertion starting point of each pipeline section caliber mark text is moved into the middle position of each pipeline section, general's treated pipeline and caliber mark
Note data save as a new CAD diagram paper, are named as " caliber figure ";
The insertion starting point of ground elevation mark text at each pipeline section endpoint is moved into endpoint location, it will treated pipeline and ground
Absolute altitude labeled data saves as a new CAD diagram paper, is named as " floor plan ";
The insertion starting point of tube bottom absolute altitude mark text at each pipeline section endpoint is moved into endpoint location, it will treated pipeline and tube bottom
Absolute altitude labeled data saves as a new CAD diagram paper, is named as " shaft bottom absolute altitude figure ";
(2) automatic conversion of pipe network graph data
In the prototype network of InfoWorks ICM, pass through " network-importing-update from AutoCAD dwg file " tool, choosing
" conduit line map " for selecting step (1.1) preservation is gone where pipeline figure layer, in the corresponding table of " Lines/Polygons " column
It selects " Conduit ", i.e., pipeline graph data is automatically shifted in prototype network, while automatically generating section at pipeline both ends
Point, and automatic numbering is carried out for node number and pipeline upstream and downstream node number;
(3) combing of pipe network topological relation
Step (2) is that node number and pipeline upstream and downstream node number have carried out automatic numbering, the Primary Construction topological relation of pipe network,
But wherein there is the upstream and downstream node number of part pipeline to flow to practical pipe network on the contrary, needing to be adjusted;In InfoWorks ICM
Prototype network in, by " reversed all selected connections " tool, plan that pipe network flows to information in drawing according to drainage pipeline networks, it is right
The adjustment that reversed pipeline section is flowed to;
(4) output of pipe network Shp formatted data
In the prototype network of InfoWorks ICM, by " network-output-data exports " center " tool, by pipeline data and
Node data exports the Shape File file that can be read for ArcGIS respectively, is named as " pipeline data " and " number of nodes
According to ";Wherein the field in node data layer properties table includes node_id i.e. node serial number, node_type i.e. node type, x
That is x coordinate, y, that is, y-coordinate, ground_lev, that is, ground elevation, chamber_fl, that is, shaft bottom elevation, pipeline data layer attribute list
In field include us_node_id i.e. upstream node number, ds_node_id i.e. downstream node number, shape_1 i.e. pipeline section shape
Shape, conduit_wi, that is, width of the channel, conduit_he, that is, canal are high), conduit_le, that is, pipe range, us_invert, that is, upstream bottom elevation,
Ds_invert, that is, downstream bottom elevation;
(5) automatic conversion of pipe network attribute data
(5.1) automatic conversion of pipeline caliber data
" the pipeline data " for " caliber figure " and step (4) output that load step (1) saves in ArcGIS;Pass through ArcGIS's
Caliber text marking information is carried out space with pipeline and connected by " Spatial Join " space fastening means, wherein " target component "
It selects " pipeline data ", " the caliber figure .dwg Annotation " under " nexus element " selection " caliber figure " catalogue, " output is wanted
Plain class " is named as " pipeline data 1 ", automatic will be added Text field in " pipeline data 1 " attribute list after the connection of space and be incited somebody to action
Caliber information is automatically switched under the field;
Conduit_di caliber field is added in " pipeline data 1 " attribute list;It is " .dbf " that suffix is opened in Excel
" pipeline data 1 " file simultaneously saves as " caliber information .xls " file, by " point column " tool of Excel to caliber text information
It is split, is then copied to round tube caliber batch data in the conduit_di field of " pipeline data 1 " attribute list, by canal
The wide and high batch data of canal copies in conduit_wi the and conduit_he field of " pipeline data 1 " attribute list;
(5.2) automatic conversion of node elevation data
" node data " for " shaft bottom absolute altitude figure " and step (4) output that load step (1) saves in ArcGIS, passes through
Shaft bottom absolute altitude text marking information is carried out space with node and connected by " Spatial Join " space fastening means, wherein " target
Element " selection " node data ", " the shaft bottom absolute altitude figure .dwg under " nexus element " selection " shaft bottom absolute altitude figure " catalogue
Annotation ", " output factor kind " are named as " node data 1 ", will be certainly in " node data 1 " attribute list after the connection of space
Shaft bottom elevation information is simultaneously automatically switched under the field by dynamic addition Text field;
" floor plan " that load step (1) saves in ArcGIS, will by " Spatial Join " space fastening means
Ground elevation text marking information carries out space with node and connects, wherein " target component " selection " node data 1 ", " connection is wanted
" floor plan .dwg Annotation " under element " selection " floor plan " catalogue, " output factor kind " are named as " section
Point data 2 ", after the connection of space in " node data 2 " attribute list will automatic addition Text1 field and by ground elevation information from
Turn is changed under the field;
" Field Calculator " the field calculator tool for passing through ArcGIS in " node data 2 " attribute list, sets respectively
" ground_lev=Text1 ", " chamber_fl=Text " are set, the automatic conversion of node elevation data is completed;
(5.3) automatic conversion of pipeline upstream and downstream bottom elevation data
Pass through " Join " fastening means in ArcGIS for the us_node_id field of " pipeline data 1 " attribute list and " number of nodes
It is attached according to the node_id field of 2 " attribute lists, wherein " Join Options " selection " Keep only matching
Records " passes through " Field Calculator " field calculator tool of ArcGIS after connection, " pipeline data are arranged
1.us_invert=node data 2.chamber_fl " completes the automatic conversion of line upstream bottom elevation data;
Pass through " Join " fastening means in ArcGIS for the ds_node_id field of " pipeline data 1 " attribute list and " number of nodes
It is attached according to the node_id field of 2 " attribute lists, wherein " Join Options " selection " Keep only matching
Records " passes through " Field Calculator " field calculator tool of ArcGIS after connection, " pipeline data are arranged
1.ds_invert=node data 2.chamber_fl " completes the automatic conversion of line downstream bottom elevation data.
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CN113886999A (en) * | 2021-09-10 | 2022-01-04 | 上海市城市建设设计研究总院(集团)有限公司 | Method for quickly establishing drainage model and data GIS through CAD data |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102592008A (en) * | 2011-12-30 | 2012-07-18 | 华东师范大学 | Municipal drainage pipe network design system and method based on GIS (Geographic Information System) technology |
CN105138707A (en) * | 2015-10-06 | 2015-12-09 | 北京工业大学 | Input file Inp file generation method of SWMM hydraulic model based on GIS model database |
CN106897516A (en) * | 2017-02-22 | 2017-06-27 | 武汉大学 | Urban underground water drainage pipe net is transformed and transformation evaluation method |
CN109492258A (en) * | 2018-10-15 | 2019-03-19 | 上海凯泉泵业(集团)有限公司 | A kind of EPANET hydraulic model Inp document generating method based on GIS model database |
-
2019
- 2019-05-23 CN CN201910436154.8A patent/CN110287532B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102592008A (en) * | 2011-12-30 | 2012-07-18 | 华东师范大学 | Municipal drainage pipe network design system and method based on GIS (Geographic Information System) technology |
CN105138707A (en) * | 2015-10-06 | 2015-12-09 | 北京工业大学 | Input file Inp file generation method of SWMM hydraulic model based on GIS model database |
CN106897516A (en) * | 2017-02-22 | 2017-06-27 | 武汉大学 | Urban underground water drainage pipe net is transformed and transformation evaluation method |
CN109492258A (en) * | 2018-10-15 | 2019-03-19 | 上海凯泉泵业(集团)有限公司 | A kind of EPANET hydraulic model Inp document generating method based on GIS model database |
Non-Patent Citations (4)
Title |
---|
YANG BIN等,: "Design and research of underground pipeline integrated application system based on ArcEngine", 《2010 2ND IEEE INTERNATIONAL CONFERENCE ON INFORMATION MANAGEMENT AND ENGINEERING》 * |
刘志生等,: "基于ArcGIS与InfoWorks的城市排水系统模拟研究", 《中国给水排水》 * |
甄志雄,: "现代排水模型软件技术(InfoWorks CS)在广州市污水管网的应用", 《广东建材》 * |
陈淑珍等,: "基于ArcGIS的排水管网数据转换及检查方法", 《水电能源科学》 * |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113886999A (en) * | 2021-09-10 | 2022-01-04 | 上海市城市建设设计研究总院(集团)有限公司 | Method for quickly establishing drainage model and data GIS through CAD data |
CN113886999B (en) * | 2021-09-10 | 2024-05-07 | 上海市城市建设设计研究总院(集团)有限公司 | Method for quickly establishing drainage model and GIS (geographic information System) data through CAD (computer aided design) data |
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