Which institute offers the ‘Master's Certification in Buildings - Engineering Design and Project management’?

The course is provided by Skill Lync.

What are the prerequisites for the ‘Master's Certification in Buildings - Engineering Design and Project management’ classes?

There are no prerequisites for this course.

Will I get a course certificate for the ‘Master's Certification in Buildings - Engineering Design and Project management’ training?

Yes, you will receive the course completion certificate after completing the course study.

Post Graduate Program in Buildings - Engineering Design and Project management by Skill Lync: Fee, Duration, How to Apply

Post Graduate Program in Buildings - Engineering Design and Project management

Skill Lync

Explore the domain of engineering design and the various concepts of project management associated with the construction industry.

Online

₹ 275000

particular	details
Medium of instructions English	Mode of learning Self study	Mode of Delivery Video and Text Based

particular

details

                                    Medium of instructions
                                    English

                                    Mode of learning
                                    Self study

                                    Mode of Delivery
                                    Video and Text Based

Course 1: Drafting and Design Using Revit

Week 1 - Introduction to Autodesk Revit

Fundamentals of Autodesk Revit
Basics of modeling
Use of Autodesk Revit for drawings

Week 2 - Building Information Modelling

Building Information Modeling (BIM)
Working with Autodesk Revit
Families and categories in Autodesk Revit
Setting up projects modeling in Autodesk Revit
Levels and grids in Autodesk Revit
Conceptualizing layout

Week 3 - Project Model and Design Elements

3D Modeling of Residential Unit
Modeling of floors and walls
Parametric modeling of basic components
Annotation styles and drafting methods

Week 4 - Project Design and Presentation Methods

Modeling of residential units
Detailed modeling
Detailing design with components
Rendering views
Presentation styles

Week 5 - Project Design with Building Codes

Modeling with design codes
National Building Code (NBC) of India
Purpose of building codes
Design team and management team
Limitations and special requirements for modeling

Week 6 - Cloud based 3D Modeling

Using NBC for modeling
Setting up collaborate for 3D Modeling
Cloud based Modeling
Accessibility Components Modeling

Week 7 - Multiple Discipline Project Design (Part 1)

Features of cloud based model
Project based shared parameters
Origin coordinates setting up
Classification and modeling of structural elements
Working in cloud

Week 8 - Multiple Discipline Project Design (Part 2)

Expanding cloud-based modeling
Basics of design and modeling for Heating, Ventilation and Air Conditioning (HVAC)
Considerations for detailed design
Concepts of structural analysis
Detailed explanations on design

Week 9 - Introduction to Dynamo

Introduction to energy analysis
Shortcuts in Autodesk Revit
Parametric design using Dynamo
Parametric Shelters

Week 10 - Parametric Design Using Dynamo

Expansion of modeling using Dynamo
Concept of visual programming
Modeling of parametric shelters.
Integrating Dynamo and Autodesk Revit for modeling

Week 11 - Design and Review using Navisworks

Basics of Autodesk Navisworks
Purpose of Autodesk Navisworks
Project viewing and reviewing
Coordination and clash detection
Scheduling and simulation using Autodesk Navisworks

Week 12 - Analyzing Data and Information using Revit

Autodesk BIM 360
Prediction Analysis using Autodesk Revit - viewing and reviewing projects
Benefits of BIM

Course 2: Analysis and Design of High Rise Buildings using ETABS and Foundation Design using SAFE for Seismic Loads

Week 1 - Overview of Seismic Design

Seismic design philosophy and limit states
Earthquake and their geotechnical and structural effects
Capacity design philosophy

Week 2 - Fundamentals of Structural Dynamics and its Applications in Earthquake Engineering – Part 1

Force displacement system
Damping Force
Equation of motion – external force
Equation of motion – earthquake excitation
Undamped free vibration systems
Viscously damped free damping
Earthquake response of linear systems
Response spectrum concept
Deformation, pseudo-velocity and pseudo-acceleration response spectra
Peak structural response from the response spectrum

Week 3 - Fundamentals of Structural Dynamics and its Applications in Earthquake Engineering – Part 2

Multi degree of freedom systems
Discretization of structural systems
Elastic, damping & inertia forces
Damping force
Equation of motion
Free vibration – Systems without damping
Modal response spectrum analysis
Equivalent lateral force method

Week 4 - Conceptual Design of Concrete Buildings for Earthquake Resistance - Part 1

General principles of conceptual seismic design
Regularity and irregularity of building structures

Week 5 - Conceptual Design of Concrete Buildings for Earthquake Resistance - Part 2

Essentials of structural system for seismic resistance - RC frame systems, wall systems, and dual systems
The Capacity Design philosophy
The role of a stiff and strong vertical spine in the building
Ductility as an alternative to strength

Week 6 - Detailed Design of Concrete Buildings - Part 1

Design of beams with reference to IS 13920

Week 7 - Detailed Design of Concrete Buildings - Part 2

Design of columns and beam - column joints with reference to IS 13920

Week 8 - Detailed Design of Concrete Buildings - Part 3

Design of shear walls with reference to IS 13920

Week 9 - ETABS Modeling

Architectural drawings - a cost efficient load path carved out using ETABS 2016.
From identifying loads, to creating an ETABS model
Complete analysis and design of RCC building in zone 5 will be demonstrated

Week 10 - Foundation Design - Part 1

Foundation structures for frames and structural walls
Footing & pile design using Excel spreadsheet

Week 11 - Foundation Design - Part 2

Check for liquefaction
Design of raft foundation using SAFE

Course 3: Analysis and Design of Industrial Structures using STAAD.Pro

Week 01 - Introduction to Industrial Structures

Steel structures in the industry
The stress-strain behaviour of structural steel
The properties of steel & shapes
Types of industrial structures
The key design factors
Types of structural systems in steel building
The general loads on industrial structures
Basic structural steel elements
Gravity and lateral load path
Structural redundancy
General design procedure
Iterative design process

Week 02 - Design of Tension Member

The types of tension members
The behaviour of tension member
Failure mode possibilities
The design strength of tension members
Factors affecting member strength
Shear Lag
Sections used for the tension member
Design of tension member

Week 03 - Design of Compression Member

The types of compression member
The behaviour of compression member
Failure mode possibilities
Sections used for compression member
The effective length of compression member
Design of compression member
Design of Built-up compression member

Week 04 - Design of Beams

Types of beam
The loads on Beam
Section classification
Lateral stability of beams
The effective length of beams
The design of laterally restrained beams
The design of laterally supported and unsupported beams
Design of purlins (Hot rolled)

Week 05 - Design of Plate Girder

The types of sections
Elements of plate girder
General considerations
The proportioning of section
Preliminary sizing
Design of plate girder using IS 800:2007

Week 06 - Structural System of Industrial Structure

Lateral load resisting system
Vertical load resisting system
Flooring system (Plating grating & Deck Beam)
Grating & chequered plate
Composite floor deck

Week 07 - Modelling of Structure in STAAD.Pro

Introduction to STAAD.Pro
Modelling nodes and beam element
Generating model geometry
Viewing geometry
Creating groups
Assigning properties
Assigning specification
Modelling tapered members
Assigning custom sections using user table
Member material specification
Modelling Finite elements
Modelling in physical modeller

Week 08 - Loading, Analysis and Design Procedure in STAAD.Pro

To create load cases
To apply self-weight
Modelling member loads and Floor loads
Application of load (vertical/lateral)
Modelling reference loads
Modelling of moving loads
Seismic load generation
Wind load generation
Application of design parameters
Performing simple analysis
Post-processing result interpretation

Week 09 - Analysis & design of Typical Steel Frame structure using STAAD. Pro

Input preparation
General modelling
Load & load calculations
Analysis of structure
The application of design parameters
Design of structure
The interpretation of post-processing results

Week 10 - Modelling , Analysis & Design of Industrial building (PEB) in STAAD.Pro.

Introduction to Pre-engineered building
the comparison of PEB over conventional building
Various components of PEB
General loads on PEB
Load combination as per IS 800: 2007 & AISC ASD
Input preparation
Load & Load calculations
Analysis of structure
The application of design parameters
Design of structure

Week 11 - Analysis & design of Pipe Rack structures using STAAD.Pro

Introduction to pipe racks
The components of pipe racks
The types of pipe racks
Loads on pipe racks
Load combination as per AISC, LRFD, ASD
Design criteria of structure
Case Study of pipe rack structure

Week 12 - Design of Foundation using STAAD.Foundation

Introduction to STAAD.Foundation
Modelling supports
Modelling support loading
Importing information from STAAD.Pro
To design isolated footing
To design eccentric isolated footing
To design continuous footing
To design pile cap
To design soil supported mat foundation
To design pile-supported mat foundation

Course 4: Construction Planning using Primavera P6

Week 01 - Fundamentals of Project Planning & Management

About project management
Career Perspectives
What is Planning?
Planning Parameters
Iron Triangle
Project Lifecycle
Terminologies
Basic of Primavera P6
The outputs of Primavera P6

Week 02 - Project Structuring

About projects, programs and portfolio
In detail about Contracts
Project Case Study : Introduction
In detail about Portfolio and Organisational Structure

Week 03 - Project Configuration

Projects in P6
Calendars in P6
Calendar - Types and uses
Calendar - Project study
Work Breakdown Structure
WBS - Representation
Layout and Views

Week 04 - Activities and Relationships

In detail about activities
Sequencing in construction
Sequencing in demolition
How to Add activities
Activity steps and codes
User defined fields
User preferences

Week 05 - Schedule Implementation

Critical path method
Critical path analysis
Schedule network analysis
Relationships
Lag and leads

Week 06 - Grouping, Filtering and Formatting

Group and sort
Filters
How to Customize activity IDs
About global change
Tracing logic
Tables and fonts

Week 07 - Baselines

In detail about baselines
Types of Baselines
- Creating Baselines
- Assigning Baselines
- Restoring Baselines
In detail about budgeting

Week 08 - Resource and Costs

About Resource Management Process
The Responsibility of Project Managers
Resource Types
Resource Assignments
How to Create Resource
Levelling Resource
Resource Profiles and Spreadsheets

Week 09 - Updating and Tracking

How to Update Progress
Mode of Updating
Automatic and Manual Updating
In detail about graphical progress indicators
The basic of tracking

Week 10 - Risks, Issues and Threshold

Risk Definition
How to Add Risk and Types
P6 Risk Categories
P6 Risk Analysis
P6 Risk score calculations
Threshold
Issues

Week 11 - Oracle P6 Visualizer

Visualizer and its types
Visualizer Layouts
Customizing and Formatting
Reflections

Week 12 - Generating Outputs and Reports

Report and its types
How to Batch Reports
How to Customize Reports
Level of Effort
Import and Export
How to Use Curtains in P6
Check In / Check Out

Course 5: Design of Tensile Structures

Week 01 - Course overview, History & Evolution

Overview of tensile membrane structures
History & evolution
Types of tensile structures
Behaviour and mechanism of membrane structures

Week 02 - Conceptual understanding of FEM Elements

Introduction to Finite Element Analysis
FEA elements & their behavior - 1D, 2D, & 3D
Degrees of freedom
Stages of FEM - Pre-processing, computation, & post-processing
Types of loads
Types of supports
Concept of stiffness and stiffness matrix formulation
Understanding results
FEM for tensile membrane structures
Types of analysis

Week 03 - Introduction to RFEM Program

Introduction to RFEM
Modelling, analysis, & design of steel structure

Week 04 - Form finding methodology and Methods

Conceptual Development of Tensile Membrane Structures
Continuum Mechanics
Principle of Virtual Work
Finite element discretization of membrane structures
Form Finding
Structural Analysis
Cutting Patterns
Module Requisites

Week 05 - Form Finding Methods

Concept of Minimal Surface
Methodologies - Physical Models, Soap films, & Computational methods
Geometric Non-linearity
Categorising Form-finding methods
Force Density Method
Assumed Geometric Stiffness Method
Updated Reference Strategy Method
Form-finding Vs Form-dictating
Searching for equilibrium prestress
- Number of form-finding steps
- Elastic Control
- Element Size Control
Projection Method
Tension Method

Week 06 - Implementation of RFEM

Prelimnary Form-finding
Default Form-finding
Comparison of GSM Method, Hybrid Method, and Analytical Method
Form-finding of Cone structure Demonstration

Week 07 - Materials

Isotropic and Orthotropic materials and its applications
Different materials available in the market
Demonstration with different materials

Week 08 - Structural Analysis

Structural Analysis of membrane structure for dead, live, and wind loads
The wrinkling phenomenon of membrane structures
Demonstration of Analysis of membrane structures for a existing structure

Week 09 - Patterns

Cutting Pattern Phenomenon
Approach
Cutting Lines
- Planar
- Geodesic lines
Flattening Procedure
- Mathematical flattening
- Physical flattening
Special requirements of flattening procedure
- Effect of Orthotropic directions
- Seamlines compatibility
- Compensation
- Assembly Allowanes - Welding Requirements
Evaluation of cutting patterns

Week 10 - Examples on Patterning

Patterning procedure with RFEM
Demonstrating Patterning of a Cone structure

Week 11 - Tensile Structures under uncertainties

Understanding on CFD
Theoretical Wind Simulation using CFD on membrane structures

Week 12 - One Complex Example

Modelling & Form finding
Results & Patterning

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