00:00Thank you very much.
00:30Thank you very much.
02:30you can see chamber
02:34so this is not a problem
02:39chamber can be built
02:42chamber can be built
02:46chamber can be built
02:50chamber can be built
02:53chamber can be built
02:56the way to the project of the project.
03:01Now we'll talk about infrastructure.
03:03We'll talk about building and building.
03:06We'll talk about the utilities,
03:10telecom, wastewater,
03:13stewardship,
03:16portable water lines and telephone lines.
03:19This is all the infrastructure.
03:22and if you have a lot of chambers, you will be able to create a new infrastructure site.
03:31If you want to create a new chamber, you will be able to create a new chamber,
03:39you will be able to create a new chamber.
03:43but then I will tell you that when you have integration, you will be able to do your data
03:50or you will be able to do your data.
03:53So, you will be able to do your data.
03:58So, in the case of the data, you will be able to do your data.
04:06Okay, if we look at Revit primary for vertical structures, building, it is for architecture,
04:13structure engineers, mechanical engineers, electrical engineers, plumbing engineers.
04:18Okay, if we talk about the side, then the silver 3D is coming to you.
04:22The silver 3D is coming to you.
04:24The infrastructure is different.
04:26The infrastructure is coming to you.
04:28The infrastructure is coming to you.
04:29The conceptual design is coming to you.
04:31Then the detail design is coming to you.
04:35It's now locks for structure as Well done.
04:38The new infrastructure for collaboration
04:40has been in place, working with türushikids,
04:43so that is something thatcade 되어がdiño,
04:45tienewa bütünにはlished creative systems for art,
04:47which provide it to you.
04:50Forual engineers, land developers, and surveyors.
04:52Let's do that now.
04:55Okay so we'll talk about the aesthetic.
04:57We'll look beyond the new project we're trying to see.
04:59So, here's how we prioritize more knowledge.
05:02We must do prlekiacips features.
05:04the other we try to do primary purpose and function.
05:10Feature, Autodesk, Revit, Autodesk, Civil 3D. Primary use, building, design and construction,
05:16civil infrastructure and direct development.
05:19Primary function is small.
05:25Feature, Autodesk, Revit, Civil 3D.
05:29Revit, Autodesk, Civil 3D.
05:31Revit, Autodesk, Autodesk, Revit, Autodesk, Revit, Civil 3D.
05:37Basically building design, construction, civil infrastructure and land development.
05:44Core philosophy building information model.
05:47Core philosophy building information model.
05:49Create a uniform 3D model.
05:52We create a uniform 3D model.
05:56Where all components, wall, floor, pipe are intelligent.
06:00All components, all components here.
06:01Transgender.
06:02Change in one view.
06:03A good view.
06:04If you can change an environment in a world way,
06:07then automatically we also changes.
06:11Then, elevation of this section,
06:14schedules of the settings.
06:17dynamic modeling we create a model paste or relationship and data the model is driven by
06:23alignment profile and corridor changing the design gate for example dynamic updates or related
06:29cross sections and earthwork calculations key output architecture and structure drawing mvp
06:35model schedule rendering construction document topography surface road corridor grading plan
06:40pipe network earth volume plane and profile sheets this is where the fundamental difference how
06:51user think and work become apparent relevant working environment object based
06:56condition of the project structure.
07:05This is a complete share.
07:09This is a complete share.
07:12But if you have made a complete share,
07:17if you have made a complete share.
07:21But learning how to create a certain and a certain people
07:25can be established by asking
07:27the other option to integrate things.
07:29I can do it.
07:32So you can say AutoCAD is an entity-based software, Revit is an object-based software.
07:42Language of object, you work with intelligent predefined families like walls, doors, windows, tucked beams, pipe, each object has specific properties.
07:53For example, a door has a height, width, material, fire rating and cost.
08:02Context, level and grid.
08:06Entire building, you are using level, floor and grids for structure elements, everything is positioned relative to these.
08:14Power of coordination, the mean model is often spinned into unique model architecture structure.
08:19All disciplines are important to the environment and class can be detected automatically.
08:24Just as I have never seen before,
08:28So this class detection, or class detection,
08:33This class detection, is a class detection.
08:36Now, what is the mindset of user?
08:40I am placing a door on level 2.
08:43This door will appear in all.
08:45Floor and elevation and be counted in the door schedule or door schedule.
09:03Civil 3D working environment, contextual and data driven.
09:07Language of data and relationships,
09:09Civil 3D and Kisra Sota.
09:10The language of data and relationships,
09:12You work with intelligent object rule,
09:14but they are defined by data points and relationship.
09:18A surface is defined by point, contours and plate lines.
09:22An alignment defines the horizontal path of the road.
09:25A profile defines the vertical elevation of that alignment.
09:29An assembly defines the cross section, lanes, curves and sidewalks.
09:34A corridor combines the alignment and assembly to create a 3D model.
09:37You approach the workflow coronavirus that is looked down?
09:39Universe really's ancient architecture of the world.
09:41Hallelujah,중
09:58The
10:15context the existing ground the entire design is based on and direct the existing ground
10:21surface design is about modifying this surface.
10:25The power of dynamism, if you change the design speed of a road, alignment, the curve radii
10:33updated, if you change the finish grade level profile, the corridor cross section, earthwork
10:37volume, all updated automatically.
10:40This means that civil 3D is a dynamism.
10:44In which you can change everything.
10:47If you change it, you can share it.
10:50I am designing a road with two percentages.
10:53The software will calculate the cut and fill volume based on the existing terrain.
10:57And if I lower the grade, the volume will update instantly.
11:01Okay.
11:02Then, integration.
11:04Now, integration.
11:06Integration.
11:07Now, building a system vacuum, the seamless integration between the sites, civil 3D and
11:17the building is critical.
11:19This process often managed through a shared coordinate system.
11:22Now, when I tell you about the shared coordinate system, the process is complete.
11:27The definite workflow is cycle exchange of information.
11:32Cycle exchange of information.
11:35Step 1.
11:36Well, you have a civil engineer provide the site constant, civil 3D to revet.
11:41The civil engineer in civil theory created the existing ground surface from survey data.
11:46They developed the proposed ground surface finish grade patch for buildings.
11:52They shared this data with the active structure team.
11:56The most common method is exporting the substrate as a EWG files or using the wall intelligent
12:03autodesk collaboration or revet and pin 360 ACG platform.
12:07The revet user import link.
12:09This DW file positioning is using the shared coordination.
12:12This provides the accurate topographical context of placing the building.
12:17This is the current procedure.
12:18Now, the process is the case of the integration.
12:20It's the same as you can see.
12:22Like, the other one is the same as you can see.
12:23do it.
12:29But I say that when you have to make a difference, then you can have to make a difference.
12:39So, I can't really make a difference.
12:43the
12:46business
12:49.
12:50.
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13:40you can see that you can see a lot of different kinds of data in the system.
13:45So that has been used to a digital interface,
13:46and this one,
13:48is a design surface,
13:49which is already used to an app.
13:52We can see the design of the design surface,
13:56and this one is already developed.
13:58We have created a design surface
14:01and created the design surface.
14:04Then, we have has done it.
14:07And so,
14:10The architecture provides building information to civil rivets and civil 3D.
14:14The architecture exports key elements from rivets such as the building footprints, column location and stormwater collection points via the cloud platform.
14:24The civil engineer imports this into civil 3D. This is crucial for designing sign utility that connects to the building.
14:30The design and sign utility that connects to the building, finalizing creating around the building foundation.
14:58Coordinating Access Roads and Parking.
15:04The integration of the integration can be done.
15:10The key differences in integration.
15:13Expect private civil city integration goals.
15:16Domain, vertical construction, building, horizontal construction, site, uniform the building and the site, core elements,
15:22work, growth, doors, MEP fixtures, surface alignment, corridor 5 network.
15:26Ensure the building site correctly on the grid, pad and buildings.
15:30Coordinate system.
15:32The cap project.
15:33Internal coordinates.
15:34Level, rear, bird coordinate system.
15:36North and eastern elevation.
15:38Sheer coordinate also.
15:39Everything aligns to geographical location.
15:42Primary output construction document.
15:44Schedule, artwork volume.
15:45Plan and profile sheet construction document.
15:47A single.
15:48You can see.
15:49The civil 3D.
15:50We have to view the civil 3D.
15:53The product thing with the civil 3D.
15:54They are working with the infrastructure.
15:59And the infrastructure we are working with.
16:01After working with the civil 3D.
16:03We have to continue the infrastructure to provide data.
16:05When you work on your work, you need to keep your work on your work.
16:10You need to keep your work on your work.
16:14If you need a work on your work, you need to keep your work.
16:17This will be the first step when you have a career.
16:23So if you look to the end, you will reach your work.
16:29This means how does your work work?
16:30continue to create the stage like the side with its slope road and drainage river create the actor
16:41and set pieces the building and all its components
16:52they are fundamentally different tools for different phases and discipline of construction
16:57projects but their modern power lies in their ability to talk to each other through a common data
17:05environment like beam 360 asc creating a truly integrated and collaborative beam process from
17:11the ground up so we have to remember these two important points
17:17that you have to remember when you want to do something to do something to do
17:23so we have to see you now as well as the infrastructure project or building project
17:29or the elements that you want to do is the infrastructure side of the building side of the
17:34side so that when you differentiate the side of the side of the side you can see
17:38so that you can see the same thing that you can see and then go and make it
17:41because as I said that the BIM is just the modeling of the name of the integration of the
17:48a
17:51a
17:55a
17:58a
18:00a
18:02a
18:04a
18:06a
18:07a
18:08a
18:09a
18:10share so that you can do that and then you can do it, then you can do it.
18:16So, you can do it and you can do it.
18:19Allah offiz, As-Slamu alaykum wa rahmatullahi wa barakatu,
18:23I'm here and I'm here and I'm here and I'm here.
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