The document provides an overview of spatial analysis tools in AutoCAD Map 3D. It discusses two approaches to spatial analysis - using topologies of AutoCAD objects or connecting to feature data using FDO. The hands-on exercises demonstrate how to create network and polygon topologies, perform network analysis, and analyze features using buffers and overlays both with and without topologies.
The key to CAD and GIS integration is to recognize that it\'s not CAD to GIS, it\'s Design to As-Built. The technical aspects of migrating data is relatively simple - the real challenge is managing the business aspects of the data
This document provides descriptions and options for many AutoCAD commands. It lists the command name, a brief description, and common options for each command. Some of the key commands described include LINE, CIRCLE, ARRAY, COPY, DIMENSIONING commands like DIM, and perspective viewing commands like DVIEW. The document serves as a reference for learning the functionality and proper use of different AutoCAD commands.
This lecture loops back to topology practices and discusses best-practices for optimising and refining geometry. We finish off discussing the potential export pipelines for your assets.
Abstraction allows us to focus on essential details and suppress irrelevant details. It is one of the most important techniques for managing complexity in systems. There are five levels of abstraction in object-oriented programs ranging from viewing a program as interacting objects to considering individual methods in isolation. Forms of abstraction include specialization, division into parts, and multiple views. Understanding the history of abstraction mechanisms like procedures, modules, abstract data types, and objects provides context for object-oriented programming.
The document describes a methodology for localizing, binarizing, extracting, transforming, performing optical character recognition on, and post-processing license plate images to recognize the text. The approach trains on small text fragments to localize possible license plate regions, then processes each region to extract and transform the text before using Tesseract OCR and post-processing to recognize the license plate numbers. The total runtime is estimated to be 5-10 minutes using this multi-step approach implemented in Perl with ImageMagick.
This document provides an outline and overview of key topics covered in Lecture 5 of the MIT course 6.094 Introduction to Programming in MATLAB, including:
(1) Symbolic math toolbox for symbolic rather than numeric calculations, including symbolic variables, expressions, and operations.
(2) Simulink for designing and simulating dynamic systems using a graphical block diagram interface and library of blocks.
(3) File input/output for importing and exporting data to and from text and Excel files.
(4) Graphical user interface development using the GUIDE tool to visually design and program GUIs for MATLAB applications.
This document discusses vehicle license plate recognition (LPR) using image processing techniques in MATLAB. It describes how an LPR system works by capturing an image of a vehicle, preprocessing the image, extracting the license plate region, segmenting the characters, performing character recognition using template matching, and comparing the results to a database. The document provides details on preprocessing techniques like resizing, grayscale conversion and filtering. It also describes methods for license plate extraction using edge detection and morphological operations. Finally, it presents the MATLAB code used for this LPR system and discusses potential issues and future work using deep learning.
The key to CAD and GIS integration is to recognize that it\'s not CAD to GIS, it\'s Design to As-Built. The technical aspects of migrating data is relatively simple - the real challenge is managing the business aspects of the data
This document provides descriptions and options for many AutoCAD commands. It lists the command name, a brief description, and common options for each command. Some of the key commands described include LINE, CIRCLE, ARRAY, COPY, DIMENSIONING commands like DIM, and perspective viewing commands like DVIEW. The document serves as a reference for learning the functionality and proper use of different AutoCAD commands.
This lecture loops back to topology practices and discusses best-practices for optimising and refining geometry. We finish off discussing the potential export pipelines for your assets.
Abstraction allows us to focus on essential details and suppress irrelevant details. It is one of the most important techniques for managing complexity in systems. There are five levels of abstraction in object-oriented programs ranging from viewing a program as interacting objects to considering individual methods in isolation. Forms of abstraction include specialization, division into parts, and multiple views. Understanding the history of abstraction mechanisms like procedures, modules, abstract data types, and objects provides context for object-oriented programming.
The document describes a methodology for localizing, binarizing, extracting, transforming, performing optical character recognition on, and post-processing license plate images to recognize the text. The approach trains on small text fragments to localize possible license plate regions, then processes each region to extract and transform the text before using Tesseract OCR and post-processing to recognize the license plate numbers. The total runtime is estimated to be 5-10 minutes using this multi-step approach implemented in Perl with ImageMagick.
This document provides an outline and overview of key topics covered in Lecture 5 of the MIT course 6.094 Introduction to Programming in MATLAB, including:
(1) Symbolic math toolbox for symbolic rather than numeric calculations, including symbolic variables, expressions, and operations.
(2) Simulink for designing and simulating dynamic systems using a graphical block diagram interface and library of blocks.
(3) File input/output for importing and exporting data to and from text and Excel files.
(4) Graphical user interface development using the GUIDE tool to visually design and program GUIs for MATLAB applications.
This document discusses vehicle license plate recognition (LPR) using image processing techniques in MATLAB. It describes how an LPR system works by capturing an image of a vehicle, preprocessing the image, extracting the license plate region, segmenting the characters, performing character recognition using template matching, and comparing the results to a database. The document provides details on preprocessing techniques like resizing, grayscale conversion and filtering. It also describes methods for license plate extraction using edge detection and morphological operations. Finally, it presents the MATLAB code used for this LPR system and discusses potential issues and future work using deep learning.
This document discusses how to use AutoCAD Map for spatial analysis and multi-user editing of geospatial data. It covers topics like working with vector and raster data, creating and managing feature attributes both internal and linked to external databases, performing common spatial analysis techniques like buffers, overlays, networks and more. Live demos are provided to illustrate working with topologies, joins, calculations and multi-step spatial analysis workflows in AutoCAD Map.
The document discusses harnessing the integrated power of AutoCAD Map 3D and ESRI software through Autodesk's interoperability tools. It introduces Richard Chappell, a geospatial application engineer, and outlines the objective to clarify the CAD to GIS discussion and understand Autodesk's interoperability solutions. The agenda includes identifying issues with CAD and GIS integration, reviewing the technologies, examining solutions, and practicing the solutions.
This document provides instructions for using various commands in AutoCAD to draw geometric shapes like lines, polygons, rectangles, circles, and ellipses. It explains how to use the line, polygon, rectangle, circle, and ellipse tools on the draw toolbar to create 2D objects by specifying points and parameters like center points, radii, lengths, and angles. The document also covers topics like ortho mode, absolute and relative coordinates, and different ways of defining circles and ellipses using diameters, radii, or intersections.
- The document is a project report on AutoCAD submitted by a student named DANDU SHILAJARANI for their internship at Sai Dwarak Constructions.
- It includes an introduction to AutoCAD, benefits of AutoCAD, the AutoCAD screen, methods for working in AutoCAD, and examples of drawings created in AutoCAD using various commands.
- The student explains concepts like drawing units, dimension styles, common commands, text, blocks, hatching, layouts, isometric drawings, 3D drawings, and concludes that AutoCAD is an efficient tool that improves the speed and quality of designs.
Topo Planner tool is designed to specifically meet the needs of engineers, architects and designers using Autodesk or Bricsys products. Using the easy-to-use, wizard-driven interface, you can import georeferenced raster imagery directly from your favorite mapping server (Google, Bing, ESRI…) into the AutoCAD or BricsCAD drawing.
AutoCAD is a computer-aided drafting software used by engineers to create 2D and 3D designs. It has many tools that allow users to draw various shapes and objects with precision. Users can create floor plans, sections, and elevations of buildings. Objects in AutoCAD can be edited and modified easily. The document provides an introduction and overview of basic AutoCAD tools and functions such as drawing lines, rectangles, circles, and 3D solids. It also discusses the use of different coordinate systems, editing commands, and hatching patterns.
Autodesk uses Feature Data Objects (or FDO) technology to manage live data connections to geospatial data, eliminating the need to import or export data. It allows AutoCAD Map to combine the analysis benefits of GIS software with the flexibility of CAD software.
State of the Art Web Mapping with Open SourceOSCON Byrum
This document discusses the importance of open source tools and data for web mapping. It begins by providing background on TileMill and Mapbox, which provide open source tools for making maps. It then discusses key concepts in web mapping like geospatial data formats, tile rendering, and minimal code examples. Modern approaches to web mapping involve preprocessing data, using tile renderers and caches, and gradually rendering more client-side. Upcoming improvements may optimize tiled formats and storage. TileMill is demonstrated as an open source tool for making maps. The talk concludes by emphasizing other open mapping tools like CartoDB, Stamen, and CartoDB that build on these concepts.
Here are 10 key responsibilities of a civil engineer from beginning to end of the construction project to ensure timely completion:
1. Conduct a site survey and soil testing to analyze the land and foundation requirements.
2. Prepare detailed design drawings showing the architectural, structural, utility plans.
3. Obtain necessary permits and approvals from local authorities.
4. Tender the project and evaluate contractor bids to appoint the most suitable one.
5. Supervise the contractor during site preparation and foundation works.
6. Inspect and approve the installation of underground utilities and stormwater systems.
7. Oversee and inspect the building construction as per the approved plans and specifications.
8. Ensure quality
Here are 10 key responsibilities of a civil engineer from beginning to end of the construction project to ensure timely completion:
1. Conduct a site survey and soil investigation to analyze the land and soil conditions.
2. Prepare the site development plan, building layout, and infrastructure plans like roads, parking, drainage, sewage, water supply etc.
3. Develop a work schedule and cost estimate for approval.
4. Obtain necessary permits from the local authorities.
5. Supervise the foundation work, earthwork and infrastructure development.
6. Monitor the quality of materials and construction techniques.
7. Review and approve contractor's work progress and process payments.
8. Address any design or construction
Here are 10 key responsibilities of a civil engineer from beginning to end of the construction project to ensure timely completion:
1. Conduct a site survey and soil investigation to analyze the land and soil conditions.
2. Prepare the site development plan, building layout, and infrastructure plans like roads, parking, drainage, water supply and sewage systems.
3. Obtain necessary approvals and permits from local authorities.
4. Develop a detailed schedule and cost estimate for efficient project planning and management.
5. Tender the project and evaluate contractor bids to award the work.
6. Supervise the construction to ensure it meets specifications, standards and stays on schedule.
7. Inspect and test infrastructure like
The document provides an introduction to AutoCAD, including its origins and development. It discusses some of AutoCAD's key features like drawing 2D and 3D objects, editing tools, object snapping, zooming and panning. It also covers topics like units systems, paper sizes, hatching, solid modeling, and the difference between the world coordinate system and user coordinate systems. The document serves as an overview guide for learning the basics of using AutoCAD.
AutoCAD LT 2D CAD software is the perfect solution for designers and drafters who want an easy-to-use tool for creating drawings faster and with more precision. Cost-effective 2D CAD software for drafting, drawing and documentation. Cost-effective 2D CAD software for drafting, drawing and documentation.
The document outlines an agenda for a workshop on building a graph solution using a digital twin data set. It includes sections on logistics, introductions, explaining the use case of a digital twin for a rail network, modeling the graph database solution, building the solution, and a question and answer period. Key aspects covered include an overview of Neo4j's graph database capabilities, modeling the domain entities and relationships, and exploring sample data related to operational points, sections, and points of interest for a rail network digital twin use case.
The document is a lab manual for computer aided drafting (CAD) that provides instructions on AutoCAD commands and exercises for students. It includes an index, objectives, student learning outcomes, syllabus, list of exercises, and descriptions of various AutoCAD commands for drawing and modifying objects. The exercises involve studying AutoCAD commands, preparing 2D drawings of residential buildings, municipal drawings, and project working drawings.
This document provides an introduction and overview of AutoCAD for beginners, especially students. It explains how to start AutoCAD, navigate the user interface, set up a new drawing, and save files. It also covers basic drafting settings like grids and snapping. The document then outlines many of the drawing, modification, and formatting commands in AutoCAD, including how to draw lines, circles, dimensions, text and more. It aims to explain each topic clearly with simple examples so beginners can learn AutoCAD effectively.
Best practices for_managing_geospatial_data1Leng Kim Leng
Autodesk provides geospatial software solutions that bridge CAD and GIS technologies. This allows organizations to access and share critical geospatial data across departments and applications. Key Autodesk geospatial software includes AutoCAD Map 3D, which enables engineers to work with spatial data in AutoCAD, and Autodesk MapGuide Enterprise, which delivers web-based mapping applications. These solutions incorporate open-source FDO technology to provide native access to different data sources. Autodesk Topobase extends the capabilities with industry-specific data models and tools for advanced infrastructure management.
The release of STAR-CCM+ v6.04 includes many new features across the simulation workflow with a focus on multiphase modeling. Key additions include enhancements to Eulerian and Lagrangian multiphase simulations, new fluid film modeling, discrete element method particle bonding, and improved vortex core detection. The release also expands application areas through new combustion and RELAP5-3D coupling models.
This webinar presentation introduced the HERE application Launchers. This simple-to-use API enables your apps to launch HERE apps while passing them geolocation information to use in delivering various services. For example, if you want to help a user get to destinations, your app can now pass the destination’s geolocation to HERE Drive, and HERE Drive will then provide the user with turn-by-turn navigation. Currently, three HERE apps — HERE Maps, HERE Drive, and HERE Transit — provide the services implemented in the HERE Launchers API. This webinar describes the use cases supported by the Launchers and explains how to add them to your apps.
For detailed documentation on the HERE application Launchers, see http://developer.nokia.com/Resources/Library/Lumia/#!maps-and-navigation/here-launchers.html
For more details about developing for Nokia Lumia smartphones visit http://www.developer.nokia.com/windowsphone
Check out details of the other Lumia App Labs, including the future schedule, here: http://www.developer.nokia.com/Develop/Windows_Phone/Learn/
From a presentation at APWA - I used AutoCAD Map 3D to demonstrate various principles - they don't come across in the PDF. Maybe I'll post a video, or maybe video supplements.
In the actual presentation, I had a longer intro illustrating the value of place. I dropped the slides from this version as they would have no value without the talking. Again, maybe I'll make a video of that. I thought it came out well.
This document discusses how to use AutoCAD Map for spatial analysis and multi-user editing of geospatial data. It covers topics like working with vector and raster data, creating and managing feature attributes both internal and linked to external databases, performing common spatial analysis techniques like buffers, overlays, networks and more. Live demos are provided to illustrate working with topologies, joins, calculations and multi-step spatial analysis workflows in AutoCAD Map.
The document discusses harnessing the integrated power of AutoCAD Map 3D and ESRI software through Autodesk's interoperability tools. It introduces Richard Chappell, a geospatial application engineer, and outlines the objective to clarify the CAD to GIS discussion and understand Autodesk's interoperability solutions. The agenda includes identifying issues with CAD and GIS integration, reviewing the technologies, examining solutions, and practicing the solutions.
This document provides instructions for using various commands in AutoCAD to draw geometric shapes like lines, polygons, rectangles, circles, and ellipses. It explains how to use the line, polygon, rectangle, circle, and ellipse tools on the draw toolbar to create 2D objects by specifying points and parameters like center points, radii, lengths, and angles. The document also covers topics like ortho mode, absolute and relative coordinates, and different ways of defining circles and ellipses using diameters, radii, or intersections.
- The document is a project report on AutoCAD submitted by a student named DANDU SHILAJARANI for their internship at Sai Dwarak Constructions.
- It includes an introduction to AutoCAD, benefits of AutoCAD, the AutoCAD screen, methods for working in AutoCAD, and examples of drawings created in AutoCAD using various commands.
- The student explains concepts like drawing units, dimension styles, common commands, text, blocks, hatching, layouts, isometric drawings, 3D drawings, and concludes that AutoCAD is an efficient tool that improves the speed and quality of designs.
Topo Planner tool is designed to specifically meet the needs of engineers, architects and designers using Autodesk or Bricsys products. Using the easy-to-use, wizard-driven interface, you can import georeferenced raster imagery directly from your favorite mapping server (Google, Bing, ESRI…) into the AutoCAD or BricsCAD drawing.
AutoCAD is a computer-aided drafting software used by engineers to create 2D and 3D designs. It has many tools that allow users to draw various shapes and objects with precision. Users can create floor plans, sections, and elevations of buildings. Objects in AutoCAD can be edited and modified easily. The document provides an introduction and overview of basic AutoCAD tools and functions such as drawing lines, rectangles, circles, and 3D solids. It also discusses the use of different coordinate systems, editing commands, and hatching patterns.
Autodesk uses Feature Data Objects (or FDO) technology to manage live data connections to geospatial data, eliminating the need to import or export data. It allows AutoCAD Map to combine the analysis benefits of GIS software with the flexibility of CAD software.
State of the Art Web Mapping with Open SourceOSCON Byrum
This document discusses the importance of open source tools and data for web mapping. It begins by providing background on TileMill and Mapbox, which provide open source tools for making maps. It then discusses key concepts in web mapping like geospatial data formats, tile rendering, and minimal code examples. Modern approaches to web mapping involve preprocessing data, using tile renderers and caches, and gradually rendering more client-side. Upcoming improvements may optimize tiled formats and storage. TileMill is demonstrated as an open source tool for making maps. The talk concludes by emphasizing other open mapping tools like CartoDB, Stamen, and CartoDB that build on these concepts.
Here are 10 key responsibilities of a civil engineer from beginning to end of the construction project to ensure timely completion:
1. Conduct a site survey and soil testing to analyze the land and foundation requirements.
2. Prepare detailed design drawings showing the architectural, structural, utility plans.
3. Obtain necessary permits and approvals from local authorities.
4. Tender the project and evaluate contractor bids to appoint the most suitable one.
5. Supervise the contractor during site preparation and foundation works.
6. Inspect and approve the installation of underground utilities and stormwater systems.
7. Oversee and inspect the building construction as per the approved plans and specifications.
8. Ensure quality
Here are 10 key responsibilities of a civil engineer from beginning to end of the construction project to ensure timely completion:
1. Conduct a site survey and soil investigation to analyze the land and soil conditions.
2. Prepare the site development plan, building layout, and infrastructure plans like roads, parking, drainage, sewage, water supply etc.
3. Develop a work schedule and cost estimate for approval.
4. Obtain necessary permits from the local authorities.
5. Supervise the foundation work, earthwork and infrastructure development.
6. Monitor the quality of materials and construction techniques.
7. Review and approve contractor's work progress and process payments.
8. Address any design or construction
Here are 10 key responsibilities of a civil engineer from beginning to end of the construction project to ensure timely completion:
1. Conduct a site survey and soil investigation to analyze the land and soil conditions.
2. Prepare the site development plan, building layout, and infrastructure plans like roads, parking, drainage, water supply and sewage systems.
3. Obtain necessary approvals and permits from local authorities.
4. Develop a detailed schedule and cost estimate for efficient project planning and management.
5. Tender the project and evaluate contractor bids to award the work.
6. Supervise the construction to ensure it meets specifications, standards and stays on schedule.
7. Inspect and test infrastructure like
The document provides an introduction to AutoCAD, including its origins and development. It discusses some of AutoCAD's key features like drawing 2D and 3D objects, editing tools, object snapping, zooming and panning. It also covers topics like units systems, paper sizes, hatching, solid modeling, and the difference between the world coordinate system and user coordinate systems. The document serves as an overview guide for learning the basics of using AutoCAD.
AutoCAD LT 2D CAD software is the perfect solution for designers and drafters who want an easy-to-use tool for creating drawings faster and with more precision. Cost-effective 2D CAD software for drafting, drawing and documentation. Cost-effective 2D CAD software for drafting, drawing and documentation.
The document outlines an agenda for a workshop on building a graph solution using a digital twin data set. It includes sections on logistics, introductions, explaining the use case of a digital twin for a rail network, modeling the graph database solution, building the solution, and a question and answer period. Key aspects covered include an overview of Neo4j's graph database capabilities, modeling the domain entities and relationships, and exploring sample data related to operational points, sections, and points of interest for a rail network digital twin use case.
The document is a lab manual for computer aided drafting (CAD) that provides instructions on AutoCAD commands and exercises for students. It includes an index, objectives, student learning outcomes, syllabus, list of exercises, and descriptions of various AutoCAD commands for drawing and modifying objects. The exercises involve studying AutoCAD commands, preparing 2D drawings of residential buildings, municipal drawings, and project working drawings.
This document provides an introduction and overview of AutoCAD for beginners, especially students. It explains how to start AutoCAD, navigate the user interface, set up a new drawing, and save files. It also covers basic drafting settings like grids and snapping. The document then outlines many of the drawing, modification, and formatting commands in AutoCAD, including how to draw lines, circles, dimensions, text and more. It aims to explain each topic clearly with simple examples so beginners can learn AutoCAD effectively.
Best practices for_managing_geospatial_data1Leng Kim Leng
Autodesk provides geospatial software solutions that bridge CAD and GIS technologies. This allows organizations to access and share critical geospatial data across departments and applications. Key Autodesk geospatial software includes AutoCAD Map 3D, which enables engineers to work with spatial data in AutoCAD, and Autodesk MapGuide Enterprise, which delivers web-based mapping applications. These solutions incorporate open-source FDO technology to provide native access to different data sources. Autodesk Topobase extends the capabilities with industry-specific data models and tools for advanced infrastructure management.
The release of STAR-CCM+ v6.04 includes many new features across the simulation workflow with a focus on multiphase modeling. Key additions include enhancements to Eulerian and Lagrangian multiphase simulations, new fluid film modeling, discrete element method particle bonding, and improved vortex core detection. The release also expands application areas through new combustion and RELAP5-3D coupling models.
This webinar presentation introduced the HERE application Launchers. This simple-to-use API enables your apps to launch HERE apps while passing them geolocation information to use in delivering various services. For example, if you want to help a user get to destinations, your app can now pass the destination’s geolocation to HERE Drive, and HERE Drive will then provide the user with turn-by-turn navigation. Currently, three HERE apps — HERE Maps, HERE Drive, and HERE Transit — provide the services implemented in the HERE Launchers API. This webinar describes the use cases supported by the Launchers and explains how to add them to your apps.
For detailed documentation on the HERE application Launchers, see http://developer.nokia.com/Resources/Library/Lumia/#!maps-and-navigation/here-launchers.html
For more details about developing for Nokia Lumia smartphones visit http://www.developer.nokia.com/windowsphone
Check out details of the other Lumia App Labs, including the future schedule, here: http://www.developer.nokia.com/Develop/Windows_Phone/Learn/
From a presentation at APWA - I used AutoCAD Map 3D to demonstrate various principles - they don't come across in the PDF. Maybe I'll post a video, or maybe video supplements.
In the actual presentation, I had a longer intro illustrating the value of place. I dropped the slides from this version as they would have no value without the talking. Again, maybe I'll make a video of that. I thought it came out well.
A description of some of the water and storm modeling tools in Civil 3D. This was a specialized presentation, so the slide background was scrubbed out and a standard design used in its place.
An overview of the AutoCAD Map 3D tools that are built into AutoCAD Civil 3D. This was a specialized presentation, so the slide background was scrubbed out and a standard design used in its place.
This document discusses issues related to managing data across design and facility management organizations. It aims to dispel myths about CAD and GIS data and identify technical and non-technical integration barriers. While data transfer between CAD and GIS formats is technically possible, the primary barriers are related to how the data is organized and used for different purposes throughout the design and facility management lifecycle. The document recommends focusing on common data requirements and developing standards around layering, symbols, geometry, and attributes to better integrate CAD design data into GIS for facility management.
My Autodesk University 2009 presentation. It was about aligning the Data Model to the business and the capabilities of AutoCAD Map for utility modeling