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Certificates: Revit Architecture" certificate
Original ALLPLAN certificate
buildingSMART certificate "Professional Certification - Foundation Basic Module" -
Examination: Praxisbezogene Projektarbeiten mit Abschlusspräsentationen
buildingSMART-Zertifizierung -
Teaching Times: Full-timeMonday to Friday from 8:30 a.m. to 3:35 p.m. (in weeks with public holidays from 8:30 a.m. to 5:10 p.m.)
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Language of Instruction: German
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Duration: 16 Weeks
Revit Architecture
Basics, user interface, project start (approx. 1 day)
BIM building information model in Revit
Parametric building modeling
User interface, project browser
Creating and managing projects
Creating a building model - Creating and modifying components (approx. 5 days)
Creating and modifying building components
Exterior walls, interior walls, windows, doors, facades
Roofs - defining dependencies
Stairs and railings
Structural modeling (parametric rebar cranking, point-to-point steel modeling)
Artificial intelligence (AI) in the work process
Autodesk Assistant (AI Co-Pilot) for command execution via text input
Generative design tools and automation in the structural and MEP model
View properties and design variants (approx. 2 days)
Working by storey
Control of view properties
Variant display with design options
Labeling, dimensioning, documenting (approx. 2 days)
Rooms and areas, component lists
Dimensioning and labeling
2D detail construction
Advanced sheet parameters (scale, sheet size, title block)
Families (approx. 2 days)
System, project and external families
Family editor
Parameters and reference levels
Topography (approx. 1 day)
Terrain model, building base, sub-region, site plan
Import of survey data (dwg, dxf, csv)
Import and processing of point clouds and ReCap meshes for terrain and as-built surveys
Plan layout (approx. 2 days)
Creating plans, plan header
Placing content on the plan
Print plans (PDF)
Visualization (approx. 1 day)
Material, textures, light sources, position of the sun
Graphic options, camera movement (video), rendering of individual images
Use of ReCap meshes for realistic representation of the environment
Project work (approx. 4 days)
To consolidate the content learned
Presentation of the results
ALLPLAN
User interface (approx. 1 day)
Menus, action bar, dialog boxes, options
Construction 2D (approx. 3 days)
First steps: line, circle, polygon course, measuring
Point snap, tracking, track lines, track points
Editing functions, modification functions
Layer use and format properties
Modifying format properties, layer palette
Hatching, pattern, fill area
Modify 2D surface elements
Pattern line, direct modification via object handles
Modify points, 2D dimensioning, text input
Project organization (approx. 1 day)
New project, level model
Building structure, drawing files
Artificial intelligence (AI) in the work process
Presentation of specific AI technologies
and possible applications in the professional environment
3D shell construction (approx. 4 days)
Window settings and view types, walls/settings
Window and door objects ("OpeningParts")
Walls, windows, doors: properties and binding behavior
Change properties
3D change and editing functions
Dimensioning 3D, copy across documents
Handle modification Modify components/points
Multi-layer ceiling modeling
Parametric components & assistants (approx. 1 day)
Window and door objects
Parametrics
Saving variants and newly created opening objects in the library
Use and configuration of assistants
Staircase modeler (approx. 2 days)
Straight staircase, quarter-spiral staircase, staircase components and modification options
Quarter landing staircase, half landing staircase, spiral staircase/modification options
Railing modeler (approx. 2 days)
Railings on ceilings (balcony) and stairs
Settings, railing variants
Swap railing favorites
Railing change functions
Railing input via stair polygon
Railing input with rounding
Roof shapes (approx. 2 days)
Roof level, roof level geometry, roof cladding
Roof landscape, roof windows, roof window SmartPart
Roof plane, roof plane geometry and roof cladding for L-shaped floor plan
Input option "through point" for roof plane creation
Dormer windows (approx. 2 days)
External and internal dormers, dormer level, dormer components
Mirroring and copying the roof structure (dormer level)
Mirroring and copying dormer components
Roof construction (approx. 2 days)
Rafter laying/purlins
Posts, tongs, collar beams, beam laying
Changing roof windows, report evaluation
Moving rafters, fixing rafters
Derivations (approx. 3 days)
Creating structural levels, section guidance and section derivation
Modification options: Section derivation and routing, building model
Derivation of views and perspectives
Modification options: View derivation, building model
Supplement foreground: Elevation dimensioning, terrain connection lines, 2D library elements
Background addition: pattern surfaces, fill surfaces
Derivation of horizontal section
Plan layout (approx. 2 days)
Plan structure levels, page layout, plan elements
Plan frame and plan header
Editing plan elements
Plan window, project and plan attributes, labeling images, add plan header
Pixel areas, plan template
Print settings, plan output, exporting plans as PDF
Interior fit-out (approx. 3 days)
Room definition, fit-out and area parameters
Room evaluation using report lists
Special side and floor areas
3D furnishing, modifying macros
Assigning, modifying and scaling *.surf files
3D surface objects, 3D bodies, 3D modeling
Visualization (approx. 2 days)
Environment variables, outdoor area, 3D objects (trees, paths etc.)
Rendering with Cineware: outdoor area, render settings, background
Rendering with Cineware: Interior, render settings
Project light, 3D lamp, macro light,
AI Visualizer
Project work (approx. 10 days)
To consolidate the content learned
Presentation of the project results
BIM Manager
BIM basics (approx. 3 days)
Introduction to the BIM method
Industry standard 4.0
Need for new collaborative forms
Advantages and challenges of the BIM method
BIM and lean management
Open and interoperable solutions
buildingSMART as an organization
BIM competence assessment
National peculiarities in BIM application
National/international standards and guidelines
Artificial intelligence (AI) in the work process
Presentation of specific AI technologies
and possible applications in the professional environment
BIM in the phases: Design-build-operate (approx. 3 days)
BIM as-built determination - data - processes
Specialist models and the coordination of data
Evaluation and use of model data in the planning phase
BIM in the realization phase
BIM in the inventory and in the management phase
Integration of sustainability analyses in BIM processes
BIM reference processes
BMVI/ISO 19650 step-by-step plan
BIM project orientation (approx. 4 days)
Requirements of the client - AIA
Implementation of the standards
Information requirements and objectives of the client
BIM control for clients
BIM implementation in the company
BIM reference process - systematics
Project organization and use cases
BIM roles and responsibilities
Use of blockchain in the BIM process
"BIM Manager" service profile
Object-oriented model structure, BIM tools
Model qualities, classification and coordination
BIM Management (approx. 3 days)
Formulation of the BIM objective
Conditions for successful BIM projects
Project support, data management and reporting on the use of BIM
Creating BIM-compliant templates and guidelines for all planning participants
Legal principles and service profiles (approx. 1 day)
BIM and HOAI - effects on pricing law
BIM contract regulations and components of BIM BVB
Collaboration and coordination (approx. 2 days)
Modeling guidelines
Common Data Environment (CDE)
Use Case Management BIM Workflow
IDM (Information Delivery Manual)
IDS (Information Delivery Specifications)
SIA (Security Information Requirements)
Model View Definition (MVD)
BIM and security aspects
Information supply chain - overall process map
Creation of BIM project execution plan - BAP
Project work, certification preparation and buildingSMART certification: Professional Certification - Foundation Basic Module (approx. 4 days)
Changes are possible. The course content is updated regularly.
Once you have completed the course, you will be able to use the parametric architecture solution Revit Architecture quickly and confidently. This program supports 2D design and 3D modeling through to the component-oriented building model with quantity and cost calculation.
You will also be able to use ALLPLAN quickly and confidently. This CAD program supports 2D design and 3D modelling through to component-oriented building models with quantity and cost calculation (Building Information Modeling).
In addition, you will be familiar with BIM structures, master the terms and methodological principles of BIM, understand national and international standards, be able to apply strategies for the introduction of BIM in companies and make well-founded planning decisions.
The course is aimed at people with a degree in architecture and engineering, technicians, draughtsmen and technical draughtsmen as well as specialists from related industries with appropriate professional experience.
Architectural and engineering offices as well as various companies in the construction industry are potential future fields of employment. Knowledge of CAD and BIM is in demand in construction and real estate companies as well as design offices of all sizes.
Didactic concept
Your lecturers are highly qualified both professionally and didactically and will teach you from the first to the last day (no self-study system).
You will learn in effective small groups. The courses usually consist of 6 to 25 participants. The general lessons are supplemented by numerous practical exercises in all course modules. The practice phase is an important part of the course, as it is during this time that you process what you have just learned and gain confidence and routine in its application. The final section of the course involves a project, a case study or a final exam.
Virtual classroom alfaview®
Lessons take place using modern alfaview® video technology - either from the comfort of your own home or at our premises at Bildungszentrum. The entire course can see each other face-to-face via alfaview®, communicate with each other in lip-sync voice quality and work on joint projects. Of course, you can also see and talk to your connected trainers live at any time and you will be taught by your lecturers in real time for the entire duration of the course. The lessons are not e-learning, but real live face-to-face lessons via video technology.
The courses at alfatraining are funded by Agentur für Arbeit and are certified in accordance with the AZAV approval regulation. When submitting a Bildungsgutscheinor Aktivierungs- und Vermittlungsgutschein, the entire course costs are usually covered by your funding body.
Funding is also possible via Europäischen Sozialfonds (ESF), Deutsche Rentenversicherung (DRV) or regional funding programs. As a regular soldier, you have the option of attending further training courses via Berufsförderungsdienst (BFD). Companies can also have their employees qualified via funding from Agentur für Arbeit (Qualifizierungschancengesetz).