Gurukul of Civil engineers- Online Civil Engineering Courses for Creative Minds

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ETABS Advance

The course will cover all the steps involved in the structural analysis & designing of concrete & steel. Here are some key features of the course module that we focus on within the course: The first module starts with the process of the installation procedure of ETAB software. The second module covers the advantages of ETAB, explanation of the plan, the position of columns, beam, the centerline of the plan, etc. The third module covers the modelling in ETAB, explanation of the plan, 3D view and elevation of ETAB. The fourth module covers design parameters, calculation, assigning of load and assigning of various types of loads like DL, LL, WL, EL, load combination. The fifth module covers the analysis of structure, explanation of deformation and storey displacement. The sixth module of analysis of structure, explanation of shear force, bending moment and 2-2 &3-3. The seventh module covers the analysis of structure, explanation of axial forces, torsion and its reactions. The eighth module covers the design of beams and columns. The ninth module covers the design of slabs. The tenth module covers the detailing of the beam, column, and slab. The eleventh module covers the optimization of the structure. The twelfth module covers two typical examples of modelling of structure with lift and staircase.

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MS Project - Basics

A Project is an undertaking, carried out individually or collectively as a team to achieve a goal. Every company or firm carry out projects activities every day either properly or casually. Every project requires detailed project planning in order to run the project more effectively and efficiently. Project planning provides organizations with a framework for scoping projects, sequencing activities, utilizing resources, and minimizing risks. This is a basic course covering key concepts of project planning using MS Project as a tool. A hands-on civil engineering project program is developed and step by step process is explained for the student to learn how to plan, analyse, and manage projects. Students will witness state-of-the-art methodologies to develop the project program. In the first module, students will learn about the following topics -Launching MS Project, start-up window, quick access toolbar, Ribbons and Menu, Options settings, etc. The second module provides a quick process to develop a civil engineering project with key design tasks. The course then explains the key parameters of a task and how one task is linked with another task. Please click to see the Preview of the Course. In the third module, students will learn task dependencies. How the function like start to start or start to finish etc works. The course also provides details of task constraint in civil engineering project environment and how to incorporate that in the project program. The fourth module provides a detailed process of sub-task development and how to link those sub-tasks within the main task. The course develops a situation where a sub-task comes with a constraint and explain the process to deal with the constraint without impacting the project duration. The project belongs to a civil engineering environment so it would be very useful for a student to correlate it with real-time project scenarios. The fifth module provides a detailed process of splitting a task. This is extremely critical for a task if it needs to be delivered in phases due to interlinking with other tasks. The course also provides a process of task formatting to make it unique against other tasks to easily identify it. The sixth module details out the meaning of free slack in the program and its advantage. The module explains the process of how to utilise free slack in a project program to effectively add any new task without affecting the overall duration of the project. The seventh module details the process of resource allocation. In this module, resources are assigned for a particular task of a civil engineering project and team members of different grades are assigned to carry out a task. The process will assist the student to understand how to assign a time frame to all team members to complete a task. The eighth module provides a detailed process of optimising resources. By doing this, key members of the team could be free up for carrying out another project. This would help the project team to efficiently utilize limited resources at any given time.

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Fundamentals of Road Lighting Design

Road Lighting Engineering involves the design, construction, operation & maintenance of Road Light and associated infrastructure to ensure adequate and uniform lighting levels are provided for drivers and pedestrians safety. Road lighting design supports lighting engineers to develop a lighting model to remove dark spots, provide a clear view of the road and associated infrastructure to provide a desirable minimum illumination for all road users. The first module covers key industry of road lighting engineering, basic principles of road lighting design, site assessment criteria before initiating lighting design and lighting terminologies. Within lighting terminologies, we have covered set back distance, arm Length, mounting height, straight vertical distance, candela (cd), footcandle (fc), Illuminance (E), luminance (L), lux (lx), the lumen (lm). The second module covers the basics of lighting design, luminaire selection, road lighting mounting options. The primary methods of lighting design are luminance method and Illuminance method. The module also recommends the illuminance level, for various road types, junction types, mid-block crossings, etc. The module also covers the concept BUG Rating System that provides a numerical rating of the luminaire light distribution as it applies to the lighting trespass up light and glare. The third module covers lighting column protection measures. passively safe lighting columns, road lighting cable network, smart lighting systems and road lighting maintenance regime. When lighting columns are placed very close to the road edge or at a vulnerable location, it is highly possible to be crashed by an errant vehicle? There are two possible ways to protect it, by placing road restraint system or by using passively safe lighting columns. The module has described both measures in detail. The module also describes the smart road lighting system such as LoRaWAN. The fourth volume covers the features of LED Lighting, advantages of LED lighting, implementation of LED lighting and LED adoption challenges. LED lights are diodes that emit high-quality light with high lumen efficacy and high lumen outputs. The module has described LED lighting and all associated features in detail. The fifth module covers standard details of lighting columns, LED lanterns, feeder pillars and chambers. We have also provided a bonus section where we have shared 20 interview questions & tips for fresh civil engineer jobs. It will help newbie civil engineers to better prepare for job interviews.

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Road Restraint System Design

Road Restraint Systems are designed to reduce the severity of injuries if a vehicle leaves the carriageway and would otherwise encounter a hazardous feature (such as on-coming vehicles, an embankment, a lighting column, trees, etc.). The Course Module shares key aspects of Road Restraint System (RRS) Design Process, RRS Examples, Innovations and RRS Standard Details. Please see the Promotional Course Videos for a quick flavour. The first module covers all types of RRS systems like flexible system, semi-rigid barriers, rigid barriers and bridge parapet. It also covers RRS family such as vehicle restraint system and pedestrian restraint system. It covers RRS appraisal process and various situations where RRS would be a preferable solution like embankment, cutting, single hazards, culverts, etc. The second module covers Road Restraint System terminologies such as containment levels, working width, set back distance, types of terminals, Length of needs, etc The third module covers Road Restraint System examples, visibility criteria, transition barriers, etc. The fourth volume covers lesson learnt in various cases such as missing working width, missing set back, missing transition barrier and broken terminals. It also covers Innovative solution like Rolling Barriers, Crash Cushions and Noise Barriers. The fifth module covers Road Restraint System standard details of the concrete barrier, steel barrier, wire rope barrier and terminals.

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MS Excel Advance

MS Excel Advance COMING SOON !!!!

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ETABS Advance

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MS Project - Basics

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Fundamentals of Road Lighting Design

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Road Restraint System Design

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MS Excel Advance

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Training and Evaluation

Course Completion Certificates

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