Post Graduate Program in High-Rise Building Design & Analysis

BY
Skill Lync

Master the fundamentals that is a must to know and understand for every Civil Engineer.

Mode

Online

Duration

8 Months

Quick Facts

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

Course overview

The Post Graduate Program in High-Rise Building Design & Analysis is about the high-rise building and analysis of a construction and the constraints, tools that are required to design the high-rise building. The programme gives the skills to the aspirants who are interested to make their career in Civil Engineering for designing the construction sites. The industrial touch makes the students apply the principles of tools in the workplace after hiring in the job. The main aspect is to give the students the most conceptual basis of study to get skilled in their desired field. The tools and designs are applicable in workplaces by training with industrial experts.

Structuring and designing play the main role in the foundation of the building and there is a need for the use of special applications and tools. The designing and structuring of the high-rising building will be the most highlighted one with the academy of Skill Lync for the programme Master’s Certificate Programme in High-Rise building Design and Analysis So the most sophisticated design requires skilful knowledge and creativity as well where the programme comes in use. So aspirants can use this programme for knowledge development in design and analysis.

The highlights

  • Ten module programme 
  • Flexible Course Plans 
  • Merit certification awarded to top 5%
  • Completion certificate by Skill Lync

Program offerings

  • Online video lectures
  • Recording sessions
  • Assignments
  • Real-world based projects

Course and certificate fees

The fees for the course Post Graduate Program in High-Rise Building Design & Analysis is -

HeadAmount
Programme feesRs. 2,75,000
EMIRs. 14,375/month
certificate availability

Yes

certificate providing authority

Skill Lync

Who it is for

Post Graduate Program in High-Rise Building Design & Analysis is ideally best for:

  • Structural Engineers
  • Civil Engineers

Eligibility criteria

Education

  • Candidates who are pursuing Masters in Structural engineering or bachelors in Civil Engineering are eligible for the Master’s Certificate Programme in High-Rise building Design and Analysis certification course. 

Certification Qualifying details

  • To get a certificate, the candidate should complete the course then the candidate will be given a course completion course

  • The top 5% candidates of the highest percentage will be given the merit certificate

What you will learn

Designing skills

As the course of Post Graduate Program in High-Rise Building Design & Analysis comes to an end, candidates will be able to:

  • Understand the fundamentals of structuring and designing of buildings using RCC and its elements
  • Autocad for design programming and analysis of budget and cost rate
  • Drafting for rough implementation of design in the given time and budget
  • Sophisticated and foundation based design to get look on the front, back view

The syllabus

Learning outcomes for the programme is divided into two semesters and are mandatory. New elective courses might be offered to the student in addition.

Course 1: Civil Engineering Fundamentals Module

Week 1 - Introduction to Building Materials
  • Different Building Materials (Sand, bricks, concrete blocks, aerocon blocks, hollow concrete blocks, grass, reinforcement bars, timber/wood, structural steel)
  • Aggregates 
  • Properties of aggregates 
  • Test on aggregates 
  • Cement 
  • Grades of Cement 
  • Physical properties of cement
  • Types of cement
  • Admixtures 
  • Functions of admixtures 
  • Types and selection of admixtures
Week 2 - Introduction to Concrete
  • Types of concrete 
  • Grades of concrete 
  • Advantages and disadvantages of concrete 
  • Tests for concrete 
  • Popular nondestructive testing (NDT) for concrete
Week 3 - Concrete Mix Design
  • Types of mixes 
  • Requirements 
  • Mix proportion designation 
  • Factors affecting mix proportion 
  • Factors to be considered for mix proportion 
  • Mix ratio for different grades 
  • Calculation of water cement ratio for mix design 
  • Concrete mix design
Week 4 - Mixing, Batching, & Transportation of Concrete
  • Mixing 
  • Batching of concrete
  • Transportation of concrete 
  • Ready mix concrete (RMC)
Week 5 - Introduction to Structural elements and Formwork procedure- Footing, Beams and Columns
  • Special Concrete
  • Types of special concrete
  • Step by step by construction sequence
  • Building components - Beam and column
Week 6 - Introduction to different types of Slabs and Prefabricated System
  • Slabs
  • Types of slabs
  • Prefabricated structures
  • Types of prefabricated structures
Week 7 - Calculation of Dead Load, Live Load and Wind Load
  • Loads on a building
  • Dead load calculation
  • Live load calculation
  • Step by step procedure for wind load and seismic calculation
Week 8 - Bar Bending Schedule
  • Bar bending schedule
  • Vaastu shastra

Course 2: AutoCAD Essentials for Civil Engineers

Week 1 - Introduction to AutoCAD
  • Introduction to AutoCAD and its Role in Various Industries 
  • Why CAD is preferred over manual drafting 
  • Difference between AutoCAD and AutoCAD LT 
  • Start and Exit Functions in AutoCAD
  • AutoCAD Screen Layout 
  • Application Menu 
  • Introduction to Various File Formats
Week 2 - Getting Started with AutoCAD
  • Absolute coordinate system 
  • Relative coordinate system 
  • Direct entry method 
  • Line and circle command 
  • Options and properties 
  • Fence, WPolygon, and CPolygon 
  • Erase command 
  • Setting units and limits
Week 3 - Advanced Sketching, Editing, and Drawing Aids (1)
  • Rectangle and polygon commands
  • Move, copy, offset, rotate, scale, filet, and chamfer
  • Ortho, snap, object snap, and its setting
Week 4 - Advanced Sketching, Editing and Drawing Aids (2)
  • Ellipse, arc, construction line, and ray 
  • Multiple points, divide, and measure
  • Donut 
  • Mirror, trim, extend, blend curves, and explode 
  • Lengthen, align, break, and break at 
  • Point and join 
  • Creating a new layer and assigning color, line, weight, and line type
Week 5 - Advanced Sketching, Editing and Drawing Aids (3)
  • Polyline, spline, region, revision cloud, wipeout, 3D polyline, and helic 
  • Array, edit, polyline, and spline 
  • On/off, freeze, isolate/unisolate, and locking 
  • Matching and merge layers
Week 6 - Create and Modify Annotations
  • Single line and multiline text 
  • Linear, aligned, angular arc, length, radius, diameter, jogged, and ordinate 
  • Add, remove, align, and collect leader 
  • Insert and modify the table
Week 7 - Hatching
  • Hatch in geometry, around text, dimension and attributes 
  • Editing hatch
Week 8 - Working with Blocks and Block Attribute
  • Types of block 
  • Create, insert, and edit block
  • Create and insert WBLOCK
  • Nested block 
  • Dynamic block 
  • Define, insert, manage, and edit block attributes
Week 9 - Understanding External References and Layout Concept
  • Attach, detach, bind option
  • Viewport concept 
  • Plot and its settings
Week 10 - Design Center and Tool Palettes Concepts
  • Design centers for insert blocks 
  • Create your own tool palettes
Week 11 - Introduction to 3D Coordinate System
  • Types of 3D models 
  • 3D navigation tools 
  • 3D viewing tools 
  • Setting viewport display 
  • World coordinate system 
  • User coordinate system and its settings
Week 12 - Getting Started with 3D Modeling
  • Working with solid primitives 
  • Types of solid primitives 
  • Extrude, sweep, loft, revolve of solids 
  • Boolean operations, filet, chamfer of solid objects 
  • Generate section, live section, and a flat shot of solids
Week 13 - Visualization
  • Visual styles 
  • Use of light, material, and sun 
  • Render 
  • Render environment and render presets 
  • Render window 
  • Controlling render output size 
  • Use of camera and views

Course 3: 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 4: 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 5: Analysis and Design of Buildings using STAAD.Pro - A Professional Approach

Week 1 - Introduction to Basics
  • User interface (UI) of the software
  • Types of structures
  • Material specifications
  • Support conditions 
  • Design parameters
  • Analysis and post processing options available in STAAD.Pro
Week 2 - Modeling of RC Building
  • Steps involved in modelling, designing, and analysing RC structures
  • Structure’s framework
  • Structural elements
Week 3 - Input Generation
  • Material specifications
  • Assigning supports and constants
  • Design parameters of the model under study. 
  • Analysis of buildings according to requirements
Week 4 - Load Generation
  • Load cases and load combinations 
  • Load calculations 
  • Dead load 
  • Live load 
  • Wind load 
  • Applying calculated load to software models
Week 5 - Analysis of the Model
  • Complete analysis of the structure
  • Post-processing results 
  • Interpretation of results 
  • Extracting shear force diagram (SFD), bending moment diagram (BMD), reactions, and displacements for design purposes
Week 6 - Output Interpretation
  • Design of structural elements (slab, beam, column, and foundation) using STAAD.Pro
  • Verifying results with manual calculation sheets
Week 7 - Introduction to Steel Structures
  • Types of steel structures 
  • Components in a steel building 
  • Rafters 
  • Purlins 
  • Side wall and end wall girts
  • Column 
  • Bay spacing 
  • Cladding
Week 8 - Modelling of Steel Building
  • Study of a steel structure 
  • Modelling the structure using the coordinate method
Week 9 - Input Generation
  • Input parameters according to specifications and standards. 
  • Calculation of loads in a steel building using Microsoft Excel 
  • Applying the calculated load on a model
Week 10 - Analysis of the Model
  • Input parameters 
  • Design specifications 
  • Analysis of structures
Week 11 - Result Interpretation
  • Interpretation of the output file generated
  • Extraction of results for each element in the building 
  • BMD 
  • SFD
  • Serviceability check
Week 12 - Documentation & Verification of the Output
  • Representing analysis in the form of documents and drawings 
  • Factors to be considered when representing the design (Detailing drawing with cross section (C/S) and longitudinal section (L/S))
  • Cross-checking extracted results from software with manual calculations

Admission details


Filling the form

To know Application form details for the programme following steps are to be followed:

Step-1: Go to the website of the course and click the enrol now button that is present on the website

Step-2: Candidates will move to fee session and click the enrol now button there and the candidate is asked to sign up

Step-3: After sign up a candidate is asked to fill in all the relevant details and the name is [printed in the certificate as it is while giving the certificate

Step-4: After registration, the candidate should pay the fee and he/she will then be redirected to the payment gateway

Step-5: Candidate pay fee using NetBanking, credit card, debit card, or UPI, and the candidate receives transcription script

Step-6: the candidate will get the confirmation message about the admission and he receives the admission number. Thereby candidates can continue the course.

How it helps

The programme Post Graduate Program in High-Rise Building Design & Analysis Fee Details makes the learners skilful and conceptual learning is afforded to the students to get apply those skills in real-world scenarios. The main objective of the academy is to place the candidate with top salary packages in a good MNC or a global company. The academy offers industrial training with the support of industry experts that are equivalent industrial projects in the industry for 6 months. Therefore can join directly in the company without any industry training further. There are different modes of communication between faculty and students according to the mode of learning. The fee is flexible for a particular type of learning therefore candidates can learn without any issues in a flexible way. So the candidates can feel free to learn in a conceptual way.

Candidates will be given training with real tools and machinery so that they are applicable in the workplace. Candidates can communicate to the faculty through Email, WhatsApp, telephone, Group video calls, individual video calls. The objective lies within the determination of the candidate and the academy is helpful to the candidate in many ways. Candidates have dedicated engineer support and paid internship in premium access account. In a premium account lifetime, access is made available along with the master’s assistance. 

The candidate will get job assistance training with all the proper study materials and soft skills that are required for the candidates to get hired. The final stage of the student's learning will be filled with confidence and requirements that are essential for the candidate to get hired in top MNCs. Although, the academy has collaborated with many top MNCs and global companies so that candidates can get hired with ease. Academy makes the candidates skilful by giving training like Mock interviews, CVs, and resume preparations. So the candidate can get beneficial by getting hired in their dream fields.

FAQs

Can I change my account from basic to pro?

Yes, It is possible. Candidates can change their accounts and after paying the additional fee. Later candidate can avail all the benefits of that account counting from the time -period of initial account

What type of training I can avail from job assistance?

The candidate will be trained for mock interviews and tools application and real experience with machines that are useful in the workplace. Also, candidates are trained to prepare their resumes and CVs for recruitment in the organizations.

How can I get hired in any MNC?

The academy has collaborated with many MNCs and global companies and the academy trains the candidates with all the requirements. Besides, the resume of the candidate is passed to all companies and thereby candidates will get recruited.

Can I access the course content if I compete for the course before the duration?

Yes, Candidates can access the course anytime even if the candidates completed the course. Candidates can get access to the course content throughout their duration time.

Can I download the online classes?

No, candidates cannot download the classes but there is the availability of record sessions so that candidates can view the classes anytime offline.

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