Courses

Competency Improvement Courses

Course Method      : Instructor Led and Training (ILT) / Multimedia Based Learning (MBL)

Course Duration   : 3 to 5 Days

Target Delegates   : Pre-final Year or Final Year B.E / B.Tech Students

Minimum Seats     : 30 per Session

Mechanical 

CourseLearning Outcome(s)
Engineering StandardsThis ASME Y14.5 Standard Comparison course will teach you about the pertinent changes made to the Y14.5 standard. Delegates will learn how the subject matter has been reorganized, and about new sections that have been created for profile, orientation, and form.
Geometric Dimensioning and TolerancingThis course is designed for engineers, designers, drafters, machinists, inspectors, manufacturing, quality engineers, students or any others interested in a greater understanding of engineering drawings with GD&T specifications.
Process EngineeringThis course develops ability to select and apply appropriate mathematical, scientific and engineering principles of processes. And delegates can demonstrate professional engineering competence through understanding process and equipment.
Non-Destructive Testing in PracticeThe course aims to provide an initial grounding to employees with no prior knowledge of Non Destructive Testing (NDT). Attendees will gain a appreciation of the subject, its uses & limitations and the various NDT techniques available.
Reverse EngineeringAfter the completion of this course, delegates should be able to Understand the Reverse Engineering (RE) Methodology. Disassemble products and specify the interactions between its subsystems and their functionality. Understand Computer-Aided RE and Rapid Prototyping Technology.
Quality Assurance and Control This course is to design and perform experiments to determine critical areas of product development and analyze the results and form conclusions for quality improvement.

Automotive 

CourseLearning Outcome(s)
Mixture Formation in Petrol and Diesel EnginesThis course is set for target audience to understand, very basic principles of Mixture Formation in Petrol and Diesel Engines. And it will improve their vision towards designing ignition systems by correlating atomization and spray characteristics of fuel(s) used.
Intake and Exhaust System DesignThis course is designed for engineers, designers and analysts working with R&D of Automotive, Aerospace and Heavy Engineering domain. The target audience will understand the principle of balancing flow rate of intake air with exhaust gas which in turn improves their designing skills of intake / exhaust systems.
Combustion Design and OptimizationThis course develops ability to select and apply appropriate mathematical, scientific and engineering principles of processes involved in Combustion. And delegates can demonstrate professional technical competence on fuel, fuel properties, combustion chamber design and optimization.
Engine Performance and TestingThe course aims to provide understanding of different methods of Testing an Engine. Further, they will be able to select instrumentation (sensors and transducers) invoved in Engine Testing. Finally, they will be able to generate Engine Map and validate test results.
Tractive Effort and Power Train DesignThis course is aimed at understanding of Resistances that a vehicle can have (Rolling, Aerodynamic and Grade). And selecting appropriate intermediate gears for Transmission. Further, Matching transmission performance matching with engine.
Road Vehicle AerodynamicsThis course introduces the aerodynamic design of road vehicles. Design tools used in aerodynamics such as wind tunnel and CFD simulation. And overall aspects of History of car aerodynamics, Performance and stability and Design for speed.
Motor Sport Vehicle Design (Combustion / Hybrid)This course is aimed at design, analysis and fabrication of Motor Sport Cars.

Electronics 

CourseLearning Outcome(s)
Automotive Control SystemsAfter completion of this course, a candidate should be able to Comprehend the roles and implementations of various electronic systems used in automotive design. Design, simulate and construct various sensor signal processing hardware used in a modern automobile. Critically analyse signal processing circuits and suggest improvements to their design and functionality. Develop firmware for various pieces of hardware to communicate / exercise automobile systems. Describe the trends in development of automotive electronics systems.
Control of Self Balancing VehiclesThis course aims at understanding basic control method of a self balancing vehicle. The design and analysis tools used in that and challenges to overcome while manufacturing it.
Automotive DiagnosticsThis course is designed for audience to understand how on-board diagnostic system is made and how it is operating. Participants can design and develop their own on-board diagnostics software and can test it on a real car to validate their results.

Mathematics

CourseLearning Outcome(s)
Mathematics for Engineering ApplicationsThis course is aimed to study the theory of mathematics and then apply this theory in a variety of engineering contexts. And develop their understanding of mathematics mathematical processes and the application of mathematics in a way that promotes confidence. Finally, the candidates can extend their range of mathematical skills and techniques and use them in more difficult, unstructured engineering problems.

Behavioral Science

CourseLearning Outcome(s)
CommunicationCapable of effectively monitoring, analyzing, and adjusting their own communication behavior. Communicate appropriately and effectively within various organizational contexts. Communicate appropriately and effectively within groups. Demonstrate the ability to analyze a problem and devise a solution in a group.
CreativityLearn to identify hidden creative strengths. Understand and utilise the 'process' of creativity. Find unexpected solutions to your challenges. Blend Right and Left Brain Thinking. Break a few Rules.
Learn to Think Laterally.
FlexibilityBetter Posture. Move Faster And Better. Pre-Habitation Of Injury. Effective Preparation For Strength Training.
CollaborationBuild collaborative relationships that emphasize trust and respect. Communicate effectively using simple and concise language. Enhance listening to anticipate and avoid misunderstandings. Foster cross-cultural understanding in your workplace. Eliminate communication roadblocks and focus on nonverbal cues.
Emotional IntelligenceDevelop greater self-awareness and strengthen your leadership. Apply four core emotional intelligence competencies for achieving results. Demonstrate the attributes of an emotionally intelligent leader. Respond to difficult people by inspiring and fostering respect. Build and maintain an emotionally intelligent team.
LeadershipDevelop 21st Century leadership to achieve outstanding results. Enhance trust, communicate honestly, and establish a positive climate. Champion change in the contemporary workplace. Navigate multi-generational and diverse teams. Build bridges of understanding in chaotic environments.

 

Workshops

Course Method      : Instructor Led and Training (ILT) / Hand-on-Practice / Multimedia Based Learning

Course Duration   : 1 to 2 Days

Target Delegates   : Pre-final Year or Final Year B.E / B.Tech Students

Minimum Seats     : 30 per Session

Automotive

CourseLearning Outcome(s)
Engine Testing and InstrumentationThe workshop aims to provide understanding of different methods of Testing an Engine. Further, they will be able to select instrumentation (sensors and transducers) invoved in Engine Testing. Finally, they will be able to generate Engine Map and validate test results.
Powertrain Design and OptimizationThis workshop is aimed at understanding of Resistances that a vehicle can have (Rolling, Aerodynamic and Grade). And selecting appropriate intermediate gears for Transmission. Further, Matching transmission performance matching with engine.
Road Vehicle AerodynamicsThis workshop introduces the aerodynamic design of road vehicles. Design tools used in aerodynamics such as wind tunnel and CFD simulation. And overall aspects of History of car aerodynamics, Performance and stability and Design for speed.
Motor Sport Vehicle Design (Combustion / Hybrid)This workshop is aimed at design, analysis and fabrication of Motor Sport Cars.

Electronics

CourseLearning Outcome(s)
Design of IoTAble to understand the application areas of IOT. Able to realize the revolution of Internet in Mobile Devices, Cloud & Sensor - Networks. Able to understand building blocks of Internet of Things and characteristics.
Embedded LinuxThis workshop deals with: Design of hardware and software for embedded systems. Study of advanced 32-bit micro-controllers. Hands-on approach in learning assembly language, high-level language programming, debugging, simulators and emulators. Design of efficient embedded systems. RTOS for embedded systems and RTES Design. Project-based, requiring the design/construction of an embedded system.
V Development Cycle in Automotive IndustryThis workshop deals with development of V cycle in automotive industries. Delegates will be trained hands-on training on developing their own source codes for problem available in automotive integration.
Electric Vehicle DevelopmentThis workshop aimed at complete knowledge sharing on Electric Vehicles Development. Hands on training on batteries and electrical system controllers. Sensors and actuator used in EV development.

Mechanical

CourseLearning Outcome(s)
Drawing Reading, Design and Modelling / DetailingThis workshop is designed to improve the competencies of participating delegates' in the areas of production / manufacturing drawing reading and interpretation. Design aspects of the part to be produced / manufactured. And making a production or manufacturing drawing in line with present corporate standard(s).
Production Process Vs Software Design Trade-offThis course is designed for engineers, designers, drafters, machinists, inspectors, manufacturing, quality engineers, students or any others interested in a greater understanding of engineering production process and how to align them with software designing.