Training

TRAINING

Workforce Training

Are you willing to go the extra mile? YOU could be our next success story!

Register Now

BrightSharks trainers are industry experts offering placement-oriented training thats hands on. The training is personalized, contextual, engaging and short making us unique. Cross Functional dynamics and leadership training is an integral part of our training.

BrightSharks trainings are heavily focused on the industry to minimize the learning curve while on the job. Our curriculum is based on the complete product life cycle. Every student gets an overview of the Product life cycle (Cradle to Grave). The tasks and activities, different job functions (faculties) involved in the product life cycle will be reviewed in detail to enable students to get a better understanding of the job functions.

Whether you are an Individual, an SMB or a MNC, we cater to all your training needs.

Software Engineer (Embedded Systems)

BrightSharks Engineering Services provides training that is unique to Automotive Industry. The course syllabus and curriculum are systematically designed in sync with industry needs. It covers different applications of Automotive Industry and includes extensive hands-on labs covering all aspects of the design, coding and testing process.

This Full Stack Embedded Systems Syllabus will enable you to bring up a hardware from the scratch, interface them with external peripherals, port an Embedded OS into it and create a vertical (Automotive) specific Application. The training replicates the actual development environment of a real production project and will make you a complete hands-on embedded system engineer, ready to be deployed in core embedded companies.

  1. Become an Industry-ready Hands-on Embedded Engineer, by completing all the related course-ware and projects.
  2. Design, code, validate and optimize embedded electronic systems in different industrial application areas with focus on Automotive Industry.
  3. Acquire knowledge on the process and tools used for the development and debugging of programs implemented on Microcontrollers.
  4. Develop skills to solve theoretical and practical problems with emphasis on electronic circuits, software and hardware interfaces.
  5. Develop knowledge of different control modules and their functionalities in a vehicle.
  6. Learn conflict Management skills at work place.
  7. Develop skills in oral and written communication of analysis, development and evaluation in the field of embedded systems.
  8. Ready to appear for certification exams in Embedded Systems.
  9. Confidence to appear for interview and to perform well in the first Job.
  • Engineers with Electrical, Electronics, Computer, Mechatronics, Industrial and Automation background/degree.
  • Professionals looking to up-scale their Career.
  • 12 Weeks – Weekday evenings and Weekends (Working or Non-Working Professionals)

Model Based Engineer

Model-Based Design (MBD) is becoming an Industry trend in Automotive sector when developing software, as it is more robust and efficient than writing C code. Due to its End to End traceability and ease of testing and validation across all phases of Software Development Life Cycle (SDLC), it has created a method of portable rapid prototyping. It allowed to move away from intensive lab setup as it provides high fidelity model testing in simulation domain before going to the hardware cutting down huge re-engineering costs. Join BRIGHTSharks Engineering for a hands-on practice using industry-standard tools with Simulink for a greater understanding of developing software through model-based design.

The training is conducted in a hands-on format focused on various Model Based practices in the industry so that the transition from training to workplace is seamless.

Understanding Model Based Design concepts and building a project

Developing a Manual/Cruise Accelerator Control system (ETCM) Model to the Industry requirements.

Modelling PI and PID controllers needed for ETCM system.

Modelling a Potentiometer Position Sensor

Understanding CAN/J1939 Communication between two different ECU from Modelling Environment.

Simulation testing (Model-in-the-loop) for the developed models

Code generation for the ETCM system

Requirements management/Systems Engineering/Algorithm Design/Control logic development/Testing and Validation.

  1. What is Model Based Design? Creating and simulating models for smart structures
  2. Different Methods of modelling and Modelling Parameters, Analysis with DATA and Plots
  3. Requirements traceability from concept to development/testing and Code-gen
  4. Analysis of Close loop and Open loop systems in models
  5. Modelling Algorithm’s with various conditionally enabled requirements or Parameters
  6. Different Structures and Libraries, Debugging the models
  7. Model-in-loop Testing using Modelling tools
  8. Project Management (Version control SVN/GIT) and Model Architecture
  9. Reports for service team for Diagnostics from Models
  10. Introduction to Model to code generation process
  11. Basics of programming / code understanding

Able to confidently crack an interview and start their career with a clear understanding of industry jargon and process flow of product development.

Learn critical functions of the Product Engineer, Systems engineer, Algorithm Engineer and Test/Validation Engineer

  • Engineers with Mechanical, Electrical, Mechatronics, Industrial and Automotive background/degree.
  • Professionals looking for career progression.
  • 8 Weeks – Weekday evenings and Weekends (Working or Non-Working Professionals)

Product/Systems Engineer

Systems/Product Engineer (Automotive) is a key position of the product life cycle from concept to production. This role requires product knowledge development process and their change management process. Objective of this course is to cover the Product life cycle and processes that aid in performing the required duties of Systems and Product Engineer. Depending on the company, these roles can be titled as Design Engineers or Product Engineers or Program Engineers or Systems Engineers, etc.

The training is conducted in a hands-on format focused on managing a program with classroom instruction as needed. A significant amount of time will be dedicated to various business practices in the industry so that the transition from training to work place is seamless.

  1. Gain Knowledge of product design life cycle from design concept to production.
  2. Able to confidently start their career with a clear understanding of industry jargon and process flow of product development.
  3. Learn critical functions of the Product or Systems engineer.
  • Benchmarking
  • Engineering/ Manufacturing Bill of Material – EBOM/MBOM
  • General Design and Engineering principles
  • Engineering tool in Automotive Industry.
  • Plastics
  • Joint Design concepts – Fastening, Welding and Bonding.
  • Design for Assembly – DFA
  • Poke Yoke concepts
  • Molding/ Tooling concepts
  • Geometric Dimensioning and Tolerancing- GD&T
  • Design Failure Model and Effects Analysis - DFMEA
  • Testing and Validation – DVP&R
  • Change Management process
  • Advanced Product Quality Planning - APQP
  • Design of Experiments - DOE
  • Engineers with Mechanical, Mechatronics, Industrial and Automotive background/degree.
  • Professionals looking for career progression.
  • 12 Weeks – Weekday evenings and Weekends (Working or Non-Working Professionals)

Program Manager

Program Manager (Automotive) is a highly coveted skill set with visibility both inside and outside of an organization. This role requires leadership, business knowledge, product knowledge and thorough knowledge of customers product development process and their change management process. Depending on the company these roles can be titled as Program Managers or Program Engineers or Systems Engineers, etc.

The training is conducted in a hands-on format focused on managing a program with classroom instruction as needed. A significant amount of time will be dedicated to various business practices in the industry so that the transition from training to work place is seamless.

At the end of this training you will be able to confidently manage a program from cradle to grave.

  1. Understand the Scope of the Project – Program, budget, timing, deliverables
  2. Understand corporate goals (internal) and financial thresholds
  3. Primary customer contact – Managing open issues
  4. Knowledge of Customer Product Development process and deliverables
  5. Change Management process (Customer and Internal)
  6. APQP – reviews with Management
  7. Develop a program timeline considering external and internal deliverables.
  8. Roles and responsibilities of the team members, how to manage cross functional teams and conflicts (internal and external)
  9. Product design and validation process
  10. Process development and validation including tooling and capital equipment procurement and buy off
  11. Supply chain tracking – Component tool tracking
  12. Validation testing
  13. PPAP
  14. Launch plan and support
  15. Tool tracking, tagging and invoicing
  • Engineers with Mechanical, Electrical, Electronics, Computer, Mechatronics, Industrial and Automation background/degree.
  • MBA or Engineering Management degrees.
  • Professionals looking for career progression.
  • 12 Weeks – Week day evenings and weekends (Working or non-working professionals).

Quality Engineer

Quality assurance in a Product design/development, supply base and manufacturing are the key to successful launch of a program/product and meet all the company objectives in Profits, quality, deliverables, etc. This role demands technical abilities along with good interpersonal skills. At BrightSharks, we instill the fundamental Quality Philosophy and provide hands on training to strengthen the technical know-how.

This training focuses on business practices in the industry to make the leap from training to work place seamless.

At the end of this training you will be able to confidently function in the roles of Advance Quality engineer or Supplier Quality Engineer or a Quality Engineer.

  1. Roles and responsibilities of a Quality professional
  2. Product knowledge and design reviews, GD&T
  3. Foundation documents – DFMEA, Critical and Significant Characteristics, DVP, PFMEA, Control Plan, Process flow
  4. Reliability and Robustness requirements, Warranty analysis
  5. Knowledge of Customer Product Development process and deliverables
  6. Change Management process (Customer and Internal)
  7. APQP – reviews with Management
  8. MSA
  9. Root cause analysis tools and methods
  10. Internal and external quality metrics reporting
  11. Supply chain APQP - Supplier PPAP’s, IMDS
  12. Validation testing
  13. Capability Studies
  14. PPAP
  15. Supplier Audits
  16. Internal and External Quality System audit support
  • Engineers with Mechanical, Electrical, Electronics, Computer, Mechatronics, Industrial and Automation background/degree.
  • MBA or Engineering Management degrees.
  • Professionals looking for career progression.
  • 12 Weeks – Week day evenings and weekends (Working or non-working professionals).