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

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Signal Design

Traffic Signals are the control system to improve intersection operations, capacity, and junction safety. The course module provides a detailed process of Traffic Signal Design. It also covers the key aspects of signal phasing, signal timing, etc. The course will open a new window for students to consider Traffic Signal Designer role as a career opportunity. The first module explained the reason for providing traffic signals at junction. then it covers traffic signal terminologies such as storage lane, acceleration lane, splitter islands, pedestrian refuge area, signal heads and their types, signal hoods, signal poles and their types. The second module provided details of Traffic Signal Phasing, Signal Cycle Time and Right Turn Phasing. It also covers pedestrian phasing details and how to prepare and read traffic signal drawings. The third module covers the concept of signal timing with respect to Pre-determined Fix Signal Timing and Actuated Signal Timing. It also covers the relationship of Cycle Length with Queuing and provides detail process of cycle Length Calculation. It covers the detail process of amber time calculation and provides Thumb rule recommendation for cycle length. Lastly, it covers key features to improve pedestrian crossing facilities by using latest technologies.

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Staad Pro V8i Advance

Learning Objectives: The course will cover all the steps involved in the structural analysis & designing of concrete & steel. This course will introduce one to STAAD Pro’s state-of-the-art user interface, prevailing analysis and design engines with a sophisticated finite element (FEM), visualization tools, and dynamic analysis capabilities. Some of the features that we focus on this course include: Model Generation: Generation of an interactive menu-driven model with concurrent 3D display 2D & 3D graphics generation using rectangular or polar coordinate systems Segments of repetitive geometry used to generate complex structural models. Model Verification: 2D/3D drawings on-screen and printer/plotter full 3D shapes for frames, elements Isometric, or any rotations for full 3D viewing. Static Analysis: 2D/3D analysis on the basis of state-of-the-art Matrix method to handle extremely large work. Linear, non-linear, p-delta analysis with automatic load & stiffness correction. Dynamic/Seismic Analysis: Mass modeling, frequency, and mode shape Response spectrum extraction, analysis of time history Modal damping ratio for individual models. Secondary Analysis: Finite element capabilities, concrete design, steel design, and timber design. Forces & displacements at sections between nodes. Maximum & minimum force envelopes. Learning Outcome: Students will be able to complete object-oriented instinctive 2D/3D graphic model generation. Students will learn to use pull-down menus, tool-tip help, and floating toolbars. Students will be able for carrying out flexible zooms and multiple views. Students will know to make isometric & perspective views and 3D shapes. Students will know the use of simple command language and a built-in command file editor. Students will learn how to generate graphics/text input. Students will be able to do efficient algorithms that will minimize disk space requirements. Students will learn to take presentation-quality printer plots of geometry and results as part of the run output. Students will be able to perform accurate and numerically efficient plate/shell elements incorporating out-of-plane shear & in-plane rotation; automatic element mesh generation; comprehensive element stress output including in-plane stresses, out-of-plane shear, bending & principal stresses at nodal, as well as, user-specified points. Students will learn how to achieve user-specified design parameters to customize a design. Students will know to perform code checks, member selection, and optimized member selection consisting of analysis/design cycles. Students will be able to design concrete beams/columns/slabs/footings as per all major

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Broad View of Civil Engineering

The Course Modules are designed to assist students to understand Broad division of Civil Engineering, capability enhancement of Civil Engineering disciplines and collaborative working practices. The course also provides details of various design stages, contract process, Road Safety Audit, Risk & Mitigation measures. The first module covers the identification of appropriate discipline in Civil Engineering and capability enhancement process of identified disciplines. it also covers all the stage of a civil engineering project from concept design to route selection to preliminary design, tender and construction stage. The second module provides a comprehensive process of the preliminary design of a new greenfield road development project. It covers all the key stages such as route selection stage, identification of preferred route, bridge design option, comparison of model benefits and BCR, public consultation of preferred routes, PD design of final option and road safety audit stage-1. The third module covers a comprehensive process of the detailed design of a new greenfield road development project. It covers all the key stages of detailed design, tender process, construction process and operation & maintenance stages. It also provides details of the most popular type of tender process such as Traditional Contract, Design and Build Contract and Public-Private Partnership Contract. The fourth module covers the complete process of road safety audit stage 2. These are the review of RSA-1, review of designer response RSA-1, review of DD stage-2 drawings and models. It also covers key project risks and mitigation measure such as design risk & mitigations, project risk & mitigations, commercial risk & mitigations, construction risk & mitigations, road user risk & mitigations.

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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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Highway Engineering

The Course Modules are designed to help students to understand Highway Engineering & Highway Design. Highway Engineering involves design, construction, operation & maintenance of roads to ensure safe & effective transportation of people & goods. The Course provides various key design principles and design procedures to assist students to understand best design and construction practices. Please see the Promotional Course Videos for a quick flavour. Highways Design module provides the design process of highway link design, horizontal alignment, vertical profile, super-elevation, stopping sight distance analysis, visibility checks, verge widening requirements, departure & relaxation, and various design checks. Also covers kerb and footway development. Pavement Design module provides a detailed process of pavement design and covers full depth pavement construction process and Overlay/ Inlay treatment. It covers existing pavement improvement process, carriageway widening, and subgrade improvement process. it also covers high friction surface (HFS) treatment process by providing details cold HFS and Hot HFS. Junction Design module covers the design process of the 4-legged junction, 3-legged junction and T-junctions. It covers junction visibility, junction swept path analysis, cycle lane design and provisions for disabled road users. It also covers the basic concept of grade-separated junctions such as half cloverleaf, Dumb-bell Roundabout, 2-bridge Roundabout, etc. Roundabout Design module covers the detailed process of Roundabout Design. It covers the crown line design. entry/ exit design, deflection radius requirements and various value engineering solutions. It also covers various design checks, drainage low point checks and cycle lane design provisions. It also provides key tips to design a safe roundabout. Standard Details Module covers all highway details such as Pavement Details, Kerbing & Edging details, Footpaths details, Bus Stop Details, etc. These standard products are generally procured from suppliers and installed on the site as per the standard details requirements and specifications.

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Signal Design

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Staad Pro V8i Advance

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Broad View of Civil Engineering

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Road Restraint System Design

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Highway Engineering

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