Courses

Learning ObjectivesLearn automotive design principles, including aerodynamics, safety, and manufacturing.Gain practical skills for automotive design roles.Build a portfolio of automotive design projects.Benefits for StudentsLearn automotive design principles, including aerodynamics, safety, and manufacturing.Gain practical skills for automotive design roles.Build a portfolio of automotive design projects.Benefits for Professionals/EngineersGain expertise in automotive design for industry careers.Optimize vehicle design and meet regulatory standards.Enhance career prospects in the automotive industry.Benefits for EnterprisesOptimize vehicle design and meet regulatory standards.Accelerate innovation in automotive product development.Reduce development costs with skilled designers.Benefits for AcademiaOffer specialized courses in automotive design and engineering.Equip students with skills in automotive design principles.Promote research in vehicle design and safety.

A learners Guide: Covers Automotive Cyber Security, Concepts of Security and many more What you'll learn: Learners would be able to grasp the basic foundation of Cyber Security including Encryption, Digital Signature & Certificate, Hashing, PKI, CIA triadThe course will cover key concepts of Automotive Software Sector like Network Topology, Gateway ECU, Domain Controllers, Autosar ArchitectureLearners would be able to connect the difference between safety and security, Grip on concepts like Layered Security Approach, Smart Card Integrated CircuitsCompetency on Security Controls like Secure OnBoard Communication, Secure Flashing, Secure Diagnostic, Secure Boot, Hardware Protection, Secure Storage Increased incidences of vehicle cyber-attacks and major car recalls by OEMs have raised awareness of automotive cybersecurity among OEMs worldwide. Furthermore, rising government mandates for the incorporation of various safety features, such as a rear-view camera, automatic emergency braking, a lane departure warning system, and electronic stability control, have created new opportunities for automotive cybersecurity service providers worldwide. As a result, the automotive cybersecurity ecosystem include a number of start-ups. Government ambitions to establish an intelligent transportation system have also increased global demand for cybersecurity solutions. In addition, the introduction of 5G technology is likely to boost market growth in the future years. In the context of road vehicles and cars, cybersecurity refers to the protection of automotive electronic systems, communication networks, control algorithms, software, users, and underlying data against malicious attacks, damage, illegal access, or manipulation. In the context of road cars, cybersecurity refers to the protection of automotive electronic systems, communication networks, control algorithms, software, users, and underlying data against malicious attacks, damage, illegal access, or manipulation. This course is specially crafted towards bringing all the topics of Automotive Cyber Security in one place. Also the course would include all the pre requisite for getting strong ground in Automotive Cyber Security.

AES -128,AUTOSAR Crypto stack,ISO21434,TARA,Cyber Attacks , Automotive penetration testing, PKI, IDS, secure flash, boot What you'll learn: Domain specific automotive cyber attacksNeed of automotive securityBrief summary about Automotive cybersecurity standards- ISO21434 (TARA), UN R155TARA Practical report with usecaseBasic properties of security (CIA)Basic terminology of CryptographySymmetric algorithm (AES-128 - CBC, ECB mode)Asymmetric algorithm(RSA)Advantages and disadvantages of Symmetric and asymmetric algorithmAchieving Security through SW and HW solution in automotiveOverview of security related components in ECUAutomotive trust Anchors (SHE, HSM)Detailed Difference between SHE and HSM ( Only by Experience)Key management (Key storage in Secure slot)Diffie Hellman (DH) key exchange algorithmAUTOSAR Crypto stack (CSM, Secure on board communication (Secoc), Cry, CryIf, Crypto)Interaction between AUTOSAR Crypto models ( User friendly animations)What is the need of freshness value?Demonstration of Freshness valueWhat happens if MAC verification failsSecure Boot - Why ? what ? How ?Types of Cyber Attacks - Sniffing , Injection, Denial of service , Fuzzing, Replay attacksTesla hacked - ProofAutomotive penetration testingSecure boot, Secure FlashIntrusion detection system (IDS), IDS-R(Reporter), IDS -M (Manager)VSOC(Vehicle Security operation center) Today, cybersecurity affects each one of us on a multitude of levels. Our professional work, our personal lives—even our vehicles—depend on connectivity and technology that runs on complex software. Today in the Automotive autonomous driving, connected cars, electric vehicles, and shared mobility—have dominated the agenda of automotive industry leaders in recent years. These innovations, built on the digitization of in-car systems, the extension of car IT systems into the back end, and the propagation of software, turn modern cars into information clearinghouses while also making them tempting targets for cyberattacks, Lets have a short look about interesting information of last 4 yearsThe frequency of cyberattacks on cars increased 225 percent from 2018 to 2021Nearly 85% of attacks in 2021 were carried out remotely, outnumbering physical attacks four to one.40% of attacks targeted back-end servers.2021 saw 54.1% of attacks carried out by Malicious actors, up from 49.3% in 2020The top attack categories were data/privacy breach (38%), car theft/break-ins (27%), and control systems (20%).Keyless entry and key fob attacks account for 50% of all vehicle thefts. Thieves only need to be close to the key fob for a Black Hat hacker to pick up and reproduce its signal.In very few years Cybersecurity will raise as a mandatory element in Automotive and this course will be helpful understanding the overall view about Cyber security concepts.

FMCW Radar, Signal Processing, Applications in ADAS and Autonomous Driving What you'll learn: Basic Understanding of ADAS and Autonomous Driving (AD)Very Good Knowledge of Automotive Radar Sensor and its use in ADAS and ADComplete Signal Processing and briefly Data Processing of Automotive Radar with relevant examplesExercise problems in form of Quiz to understand mathematics behind the sensorIndustry oriented Material to help learners to use the course knowledge directly at work Autonomous Driving is getting its fame very fast across the world and lot of companies are investing huge money to reach the goal. As a result, there is high demand of Skilled people especially Engineers in this field. But as the field itself is quite complex and challenging, it demands multiple skills from one person. Sensors are very important non-separable part in the Autonomous driving and knowledge of them is very important for everyone working in this field. Depending on the use, either basic knowledge or deep knowledge is necessary. Among the sensors, Camera, Radar, Lidar and Ultrasonic sensors are prominent for environment perception. There are lot of online resources available for Camera and computer vision, Lidar is still in development and even though Radar Technology is very mature in Automotive Sector and also having very wide scope of further research, very limited resources are available for beginners and for experience people at one location. Keeping this in mind, this course is created to provide basic and deep knowledge of Radar Technology with main focus in ADAS (Advanced Driver Assistance Systems) and AD (Autonomous Driving) applications.This course will help to:Understand ADAS and AD and the importance of various sensors in the fieldHow both ADAS and AD are connected to each otherWhy Radar Technology is so important and how it works in this fieldAll about Automotive Radar - including Hardware components, basic and advance Signal processing and data processingAbout FFT, Range, Doppler, Angle, RCS Measurements, RD map generation, Radar Detections, etc.Briefly about Clustering, feature extractions, object formation, Single Object Tracking, Multi Object Tracking, etc.

A Basic Introduction to The Automotive Repair Industry. What you'll learn: begin a path to the Automotive Repair Industry whether that be future online courses or through an accredited Automotive Repair Program.have the knowledge to begin basic repairs on your own personal vehicle. This course is a basic overview of a large majority of the drive-train and mechanics of the basic automobile. It is intended as an aid to those seeking a career in the automotive industry. It is not intended to be a substitute for a college degree or course in automotive repair but, it will assist you in beginning a career in the automotive repair industry. The impact of this course will be increased by as much hands on contact you can have with an automobile to practice what is taught in each lesson. This course also assumes little to no prior knowledge about automotive repair. So enjoy the course and we hope to teach you as much as we can. We don't aim to teach all of the concepts you would learn in automotive technology because so much material exists and it is every changing. This will give you the basis of knowledge to begin the journey on the road to becoming proficient in the automotive field. Check out our other courses we have on Udemy. We try to teach each set of concepts the most efficient way we know how so we have broken it up into several courses to zero in on each individual topic. Again thank you for choosing to learn with us and we hope to provide you with the best classes and knowledge that we know how to do.

In today’s ever-evolving world of the automotive industry, this course stands as a beacon for aspiring engineers and leaders like you. You'll embark on a journey through the history of the automotive industrial sector, unravel some of the current automotive challenges, and absorb crucial engineering concepts. Our curriculum is crafted to provide an in-depth look at supply chain processes, innovative business strategies, and adept management practices. Aiming to provide learners with theoretical knowledge and practical lessons, this course is your stepping stone to success in automotive industrial engineering. This course is designed for managers, team leaders, automotive professionals, business strategists, and individuals interested in the dynamic landscape of the automotive industry. It assumes a basic understanding of automotive concepts and industry fundamentals as a prerequisite for enrollment.

The automotive industry is changing in fundamental ways with the increased focus on sustainable and self-driving cars. Today, the internal combustion engine is increasingly complemented or even replaced with an electric motor. Vehicles are becoming more and more autonomous, creating an ever-increasing need for better software. Consequently, skilled automotive engineers are required to meet the demands of this new environment. In this MicroMasters program, you will learn the fundamentals of not only how a vehicle is designed, but also how to model and simulate the vehicle dynamics. Learn how to implement intelligent perception and decision procedures needed for self-driving cars and how model-based design is widely used in industry to accurately simulate the vehicle but also to design efficient algorithms. Graduates from the MicroMasters program will be equipped with the necessary skills for a career within the automotive industry and will have a broad perspective of the emerging technologies within the development of automotive technologies.

Gain Automotive Engineering and Management Skills for Industry Success In today’s ever-evolving world of automotive industry, this course stands as a beacon for aspiring engineers and leaders like you. You’ll embark on a journey through the history of the automotive industrial sector, unravel some of the current automotive challenges, and absorb crucial engineering concepts. Discover the foundations of automotive industrial engineering Explore the history and evolution of automotive engineering, gaining insight into how fundamental engineering principles drive vehicle development. You’ll learn about the core mechanical, electrical, and systems engineering concepts critical for modern automotive design and manufacturing. This foundational knowledge sets the stage for mastering more complex automotive systems. Analyze automotive systems and materials Dive deep into the study of automotive systems including engines, brakes, suspension, and transmissions. Learn about breakthroughs in new materials driving the future of electric and autonomous vehicles. With practical examples you’ll link engineering theory to industry applications and real-world outcomes. Navigate the current landscape and future challenges of the automotive industry Examine current trends including supply chain disruptions, electrification, and evolving regulatory policies. You’ll analyse the strategic challenges facing automotive manufacturers and suppliers. Learners will gain a new understanding of operational management techniques and innovative business strategies suited for today’s market. You’ll walk away prepared to contribute effectively within a dynamic, competitive industry. This course is Ideal for managers, team leaders, automotive professionals, and business strategists eager to deepen their industry knowledge and technical expertise. It’s also suited for those curious about the automotive sector’s evolving landscape.

This 27-minute video presentation showcases Continental's automotive coding assistant, an innovative AI solution developed in collaboration with AWS specifically for automotive embedded software development. Discover how this advanced tool helps developers create, review, and test embedded software while maintaining compliance with strict security, safety, and industry standards. Learn about the impressive 90% acceleration in time-to-market and the flexible deployment options, including stand-alone offline deployment or cloud-based implementation for enhanced performance—all while ensuring data remains within restricted environments. Explore how the assistant automates code generation and test creation using ECU virtualization technologies like Smart Cockpit, enabling developers to concentrate on delivering innovative features more quickly and securely. The presentation is part of AWS Events' series on automotive technology solutions.

Explore the critical considerations for implementing Software Bill of Materials (SBOM) in the automotive industry through this 26-minute conference talk from the OpenChain Automotive Mini-Mini-Summit hosted by the Linux Foundation. Delve into the unique challenges and requirements of automotive SBOM implementation, examining how software transparency and supply chain security apply specifically to automotive systems and components. Learn about the intersection of open source compliance, automotive safety standards, and SBOM practices that are becoming increasingly important as vehicles become more software-dependent. Gain insights into best practices for automotive manufacturers, suppliers, and developers working to establish comprehensive software inventory and compliance frameworks within the automotive ecosystem. Understand the regulatory landscape, technical considerations, and practical approaches for developing effective SBOM strategies that meet both automotive industry standards and open source compliance requirements.

Learn about critical security vulnerabilities in automotive diagnostic systems through a detailed conference talk from BSidesMunich. Explore potential attack vectors and security weaknesses in vehicle diagnostic protocols as security researchers Javier Vazquez and Ethan Briggs demonstrate real-world examples and discuss implications for automotive cybersecurity. Gain insights into how diagnostic interfaces can be exploited and understand the importance of implementing robust security measures in modern vehicle systems.

Computer generated cars are a staple of film and commercial projects, let's go step by step and create a 3D car from scratch. Computer generated cars are a staple of film and commercial projects. Whether the parts all fly together before our eyes in a commercial meant to show off superior engineering, or the car is tossed around by gigantic creatures in a feature film, there is a need to create 3D automotive models. The different parts of a car present specific challenges but also provide certain advantages. The workflow for creating a car can vary, from using NURBS curves and surfaces, to box modeling. In this tutorial, we'll use an edge modeling method to begin building our Audi R8. Once we're happy with the shape, we can cut the panels apart and add thickness. We'll cover methods for maintaining hard edges and smooth contours. We'll cover the common polygon modeling tools as well as some new tools in the Modeling Toolkit that will make certain tasks much easier. It's a big project, but we'll go step by step so that by the end, you'll have created a 3D car from scratch and you'll have the knowledge you need to build your own vehicle. ''Audi'', ''R8'' and the four rings logo are registered trademarks of AUDI AG. Software required: Maya 2014.

The Knowledge framework of Automotive SPICE (Software Process Improvement and Capability Determination) is the focus of the AutoSPICE course, which seeks to provide you with a thorough grasp of it. The automotive industry has embraced Automotive SPICE as a widely used industry standard to recall information to enhance software management and development procedures. The goal of the course is to give you the understanding and abilities you need to create, evaluate, and manage software development processes following Automotive SPICE standards. You will gain valuable skills that will help you apply and put best practices into practice, perform evaluations, and implement initiatives for process improvement that are in line with the standards and objectives of the automotive sector by the end of the course. You will develop the ability to analyze and evaluate software development processes to improve the speed, reliability, and consistency of the procedures used to build automotive software. You should be able to create and develop strategies to enhance the speed, reliability, and consistency of automotive software development procedures. You will be able to critically evaluate the outcomes and impact of implementing Automotive SPICE standards in the automotive industry and assess the success of process improvement initiatives in alignment with sector-specific objectives by the end of the course. Target learners for the course include professionals and individuals from automotive industry such as automotive software engineers, project managers in automotive software development, quality assurance and testing professionals, product managers and product owners, automotive systems architects, consultants and auditors in automotive software. To be successful in this course, you will be required to have prior knowledge of software development principles. Familiarity with process improvement methodologies like Six Sigma and CMMI can be advantageous when considering an AutoSPICE course. Additionally, having a basic understanding of the automotive sector and strong analytical problem-solving skills can enhance your grasp of the course material.

Explore the latest developments in Automotive Grade Linux (AGL) through this informative 27-minute talk presented by Walt Miner from The Linux Foundation. Gain insights into the current state of AGL, its recent advancements, and its impact on the automotive industry. Learn about the collaborative efforts driving innovation in open-source software for connected cars and discover how AGL is shaping the future of in-vehicle infotainment systems and autonomous driving technologies.

This course will guide you through the fundamentals of the Automotive industry, including its value chain, industry specific business processes, and trends. Additionally, you will explore how SAP’s solutions can enhance business value and streamline operations within the Automotive industry.

Automotive & Vehicle Engineering: Master the Mechanics of Cars including Engine, Dynamics, Transmission, Chassis & More What you'll learn: Understand the basics of Automotive EngineeringIndentify the components of an Automobile and their purposes and physicsUnderstand how Cars utilize fuel to operate the engine, transmit power to the wheels and key parametersLearn Mechanical Properties of Materials and how to Design a ChassisComprehend the operation of the Transmission System and its Mechanics The Automotive Engineering: Automobile Fundamentals and Advanced Course is a multidisciplinary course where you will study the fundamental concepts regarding the Engineering and Operation of Cars, including physics topics, mechanics, materials, transmission, engine operation and more. My intention is that you fully understand the main topics regarding the Design and Engineering of Cars and other vehicles, so that you grasp clearly how to design Cars and how to size their components and choose their materials. The course is aimed at providing a solid background in Automotive Engineering so that you can scale up your knowledge in the topic and gain confidence in your own skills. The course is about uniting Engineering and Technical skills for an overall improved know-how of Cars. The structure of the Course is the following: IntroductionVehicle DynamicsMaterials ScienceChassisEngineTransmissionWe will discuss topics such as the design of the Chassis as it evolved over time and current trends, the forces acting on cars including cornering force, traction and more. We will also get a bit more theoretical studying fictitious forces, vehicle dynamics and much more!The objectives of the Course are for you to understand the basics and some advanced concepts in the development and design of Automobiles. This will be done in a similar way as studied in Engineering schools, from the fundamental physics concepts to the real application in cars today. The concepts you will learn will enable you to work confidently in Automotive Projects as well as to expand your knowledge in this topic. I encourage you to begin this journey to Automotive Engineering, you won't regret it! If you have any doubts during the course feel free to contact me, I will answer as quick as possible!

Sensors, Actuators, electronic control units ,CAN , CAN tools like busmaster , kvaser, CAN python script,EV,Motors,ADAS What you'll learn: Basics of Electronics in AutomotiveDomains in Automotive, Electronic control unitAutomotive sensors and actuators - OverviewAutomotive Harness - Detailed informationCAN Layer , Electrical characteristicsFrame format, Arbitration, Types of error Frames - BIT,ACK , CRC , FORM , STUFF error explanation with animation, Fault confinement,CAN demonstrations with open source tool KVASER , BUS MASTERDiagnostics - Overview about Onboard diagnostics(OBD) and off board diagnostics - UDSBasics of Advanced drivers assistance systems (ADAS),Connected car(V2I, V2P, V2V) and Electric vehiclesFuture trends in AutomotiveDBCAutomotive Bootloader , BootmanagerElectric vehicle , Batter management system , motors Welcome to first course of autoronics services. We would to like share our knowledge in automotive in the form of videos. As a first step we wanted to trigger a course of basic to automotive electronics. The course "Basics of Automotive Electronics" talks mainly about electronics sensors, control units, actuators and main electronic components in Automotive. This course mainly will help to those who wanted to begin their career in Automotive electronics. We will discuss mainly about Evaluation of Automotive - history of remarkable milestonesTrend of Electronic components in the vehicle - With the statisticsDomains in the Automotive - Mainly the five different domainsElectrical and Electronic system architecture - At a higher levelSensors - Frequently used in AutomotiveActuators - Useful demonstrationsHarness - What it is ?CAN protocol-Communication medium in Automotive CAN demonstrations with open source tool KVASER , BUS MASTERSend and Receive CAN Messages using pythonDiagnostics - A general IdeaADAS - Advanced driver assistance systemsOTA With this main topics anyone can get more idea behind the Automotive E/E systems. And from the course completion they may have clear vision about the electronic components, issues, future about electronics in Automotive. And we wish to all the beginners to get the best benefit out of this course. And Keep us engaged with different training programsAll the very best.

In this series of MODO tutorials, we will look at a variety of methods for modeling an automobile in MODO. CG cars are a common sight in film and commercial projects. Whether it's a commercial to show off the car's superior engineering or they're being tossed around by giant monsters in a movie, there is a big need to create 3D automotive models. The different parts of a car can present specific challenges but MODO provides some great tools to help us. In this Tutorial we'll use some polygon techniques to begin building our Dodge Charger with an eye towards its distinctive lines. Once we're happy with the shape, we can cut the panels apart and add thickness. We'll cover methods for maintaining hard edges and smooth contours. We'll cover the common polygon modeling tools like Bevel and Loop Slice, as well as some duplication methods.It's a big project, but we'll go step by step so that by the end, you'll have created a 3D car from scratch. From there you can continue to add detail, materials, or begin creating the interior.

Explore the complexities of autonomous driving in this conference talk from the WeAreDevelopers Conference 2017. Delve into the challenges faced by developers and engineers in the field of self-driving vehicles as presented by Sacha Vrazic. Learn about the technical hurdles, safety considerations, and innovative solutions being developed to bring autonomous vehicles to our roads. Gain insights into the cutting-edge technologies and algorithms that power these vehicles, including computer vision, machine learning, and sensor fusion. Discover how the automotive industry is adapting to this revolutionary shift and the potential impact on transportation infrastructure and urban planning. Whether you're a software developer, automotive engineer, or simply curious about the future of transportation, this 28-minute talk offers valuable perspectives on the rapidly evolving world of autonomous driving.

This course is designed to introduce learners to the critical role of embedded systems in automotive technology. Starting with foundational concepts and frameworks, the course progresses through the design, development, and implementation of embedded systems within vehicles. Learners will explore microcontrollers, software development, sensor integration, and the application of these systems to enhance vehicle functionality, safety, and performance. Through real-world examples and case studies, participants will understand how embedded systems are transforming the automotive industry. This course caters to Automotive Engineering Students, Entry-Level Embedded System Engineers, Technology Hobbyists intrigued by Automotive Applications, and Software Developers venturing into the Automotive Field. Whether you're a student delving into automotive technology, an engineer transitioning to embedded systems, or a hobbyist with a keen interest in automotive applications, this course provides a comprehensive introduction to the field. Participants should possess a basic understanding of programming concepts and be familiar with electronic components. An interest in automotive technology is essential, but no prior experience with embedded systems is required. Whether you're a novice programmer, an electronics enthusiast, or simply fascinated by automotive advancements, this course offers an accessible entry point into the world of embedded systems in automotive engineering. Throughout this course, learners will explore the functionalities and selection criteria of microcontrollers, essential components in embedded systems. Through a hands-on approach, participants will engage with programming and simulation tools, gaining practical skills applicable to real-world automotive projects. By analyzing case studies showcasing embedded systems in vehicles, participants will gain insights into the evolution and future prospects of automotive technologies, preparing them to contribute effectively in this dynamic field.