How to find a job with Systems Engineering skills

1. Introduction to Systems Engineering

Introduction to Systems Engineering introduces you to the holistic and interdisciplinary systems engineering approach to designing, realizing, and managing complex systems. In this three-course specialization, you will learn how to evolve a project from idea to fielded hardware customized to meet customer requirements while effectively managing costs, timescales, and limiting risks. You will identify and define a system and its components, model a system life cycle, and apply systems engineering methods using real-world engineering examples. The knowledge and terminology gained here empower you to work effectively with your project team and allow you to understand and speak the specialized language of systems engineering.\n\nThis specialization can be taken for academic credit as part of CU Boulder’s Master of Engineering in Engineering Management (ME-EM) degree offered on the Coursera platform. The ME-EM is designed to help engineers, scientists, and technical professionals move into leadership and management roles in the engineering and technical sectors. With performance-based admissions and no application process, the ME-EM is ideal for individuals with a broad range of undergraduate education and/or professional experience. Learn more about the ME-EM program at https://www.coursera.org/degrees/me-engineering-management-boulder...

2. Automotive Engineering; Engine Lubrication Systems

4.2

(58)

Basic Functions of lubrication system-Six main functions of Lubrication subsystemsBasic components of lubrication system-Basic components of the lubrication systems Types of lubrication in IC engines-Pressure lubrication , Splash lubricationProperties of Lube oils-Flash point, pour point, viscosity, Viscosity index, Oil pressure signal in EnginesLube oil terminology-grades of lubrication , How to judge the grades of lube oil and climatic conditions in which the oil must be used Calibrate lube oil dipstick-When replacing a missing or defective dipstick, replace the engine oil and filters, installing the exact OEM specified quantity. Run the engine for a couple of minutes then shut down and leave for 10 minutes. Dip the oil sump with the new dipstick and scribe the high level graduation with an electric pencil. Measure the distance from the high-level to low-level graduations on the old dipstick and then duplicate on the replacement. Calibrate lube oil dipstick-When replacing a missing or defective dipstick, replace the engine oil and filters, installing the exact OEM specified quantity. Run the engine for a couple of minutes then shut down and leave for 10 minutes. Dip the oil sump with the new dipstick and scribe the high level graduation with an electric pencil. Measure the distance from the high-level to low-level graduations on the old dipstick and then duplicate on the replacement. Lubrication system-Fault diagnosis...

3. The Need for Systems Engineering

Systems engineering is an interdisciplinary approach to designing, realizing, and managing complex systems. In this course, you will be introduced to principles of systems engineering and its importance to the development of complex systems. You will learn to identify and define systems, manage their complexity, and describe their life cycle. The course uses real-world engineering examples to address how the systems engineering approach can address challenges. This course can be taken for academic credit as part of CU Boulder’s Master of Engineering in Engineering Management (ME-EM) degree offered on the Coursera platform. The ME-EM is designed to help engineers, scientists, and technical professionals move into leadership and management roles in the engineering and technical sectors. With performance-based admissions and no application process, the ME-EM is ideal for individuals with a broad range of undergraduate education and/or professional experience. Learn more about the ME-EM program at https://www.coursera.org/degrees/me-engineering-management-boulder...

4. Product Development & Systems Engineering

4.6

(3,086)

Product Development & Systems Engineering uses a structured yet flexible approach to provide a holistic, solid foundation to the successful development of complex products or systems. This course will take you step by step through the product life cycle, from conception to design, development, production, deployment, sustainment and disposal. You will learn how the different components of a system interrelate, and how each contributes product accomplishing its missions. Systems engineering terminology, which can so often confuse the newcomer, is presented in an easily digestible form. Video lectures for individual topics will introduce key concepts. This course welcomes anyone who wants to find out how complex products or systems can be developed and implemented successfully. It is relevant to anyone in project management, engineering, quality assurance, product support, operations, management, maintenance and many other areas. No specific background is required, and we welcome learners with all levels of interest and experience. The course aligns closely with ISO/IEC/IEEE 15288:2015 and 29148:2015 - the same standards used by the International Council on Systems Engineering (INCOSE). Therefore, students will be armed with much of the knowledge required to take the INCOSE knowledge exam for Systems Engineering Preparation (SEP) certification. This course covers most of the material from the INCOSE Systems Engineering Handbook 4th edition - and much more!...

5. Unreal Engine: Character Skill System

4.3

(513)

In this game design course, I'll be guiding you step-by-step through the construction of a custom made CHARACTER SKILL SYSTEM using the Unreal Engine:  THE premier free to download gaming engine!  (AND the SAME engine used to build Fortnite.)This course contains over 145+ fun to follow video lessons.  Topics covered include: How to create a 3D Sidescroller Project using the Unreal EngineHow to add (free!) asset packs from the Marketplace (Countess from the game Paragon by Epic Games)How to import outside art and audio assets into UnrealHow to create interactive and animated Menus and HUD utilizing Widget BlueprintsHow to create interactive objects using Blueprint Scripting (NO CODING KNOWLEDGE REQUIRED!)How to master basic concepts when Blueprint Scripting such as: Creating Variables of various typesCreation FunctionsUtilizing Events, Flow Control, and Timeline NodesOrganizing and arranging Blueprints and ScriptsHow to create 6 different Player Skills using Blueprint Scripting: Double JumpBack DashFireball (direct attack)Electro Shock (AOE attack)Lens of Truth (reveals secret passageways and platforms)Transform into Mist (allows you to pass through gates)How to make offensive skills (like Fireball) damage an enemyHow to retarget Skeletal Meshes and AnimationsHow to create and edit an Animation State MachineAnd more! With the knowledge gained in these video lessons, you will be armed with the necessary skills to start building your OWN character skill system (WITHOUT any programming knowledge needed)!...

6. Linux KVM for System Engineers

4.1

(331)

Kernel-based Virtual Machine (KVM) is a virtualization infrastructure for the Linux kernel that turns it into a hypervisor. It was merged into the Linux kernel  mainline in kernel version 2.6.20, which was released on February 5, 2007.  In this quick training on KVM ( Kernel Based Machines) , we will discuss the following topics with appropriate LABs at end of the session: Quick Introduction to Hypervior and KVM: What is a Hypervisor ?KVM Quick Intro , its Pros/Cons and TerminologyKVM Installation and Configuration LAB Details, Pre-Reqs for KVM InstallationKVM InstallationKVM Network ConfigurationKVM Storage Pool Configuration Creating Guest Virtual Machines KVM Administration Management of Guest Virtual MachinesBackup of Guest Virtual MachinesExpanding the disk sizes of Guest Virtual MachineGuest Virtual Machines Snapshot Create/RestoreRenaming a Guest VMIncreasing resources on of Guest Virtual MachinesCloning a guest VMTroubleshooting the KVM issues...

7. Introduction to Control Systems for Engineers

3.8

(103)

This course covers everything an Introduction to Controls Course should cover and much more. I will clearly explain to you control systems from the most basic ideas to where we currently are in research. I cover a huge range of topics including: system response, root-locus, bode plots, nyquist, state-space, digital control, optimal control. I use MATLAB in the course to help you learn!...

8. Aerospace Engineering: Aircraft Systems and Avionics

4.6

(960)

The Aerospace Engineering: Aircraft Systems and Avionics Course is a multidisciplinary course where you will study the engineering of the many systems onboard of Airplanes and Aircraft. My intention is that you fully understand the main topics regarding Systems Engineering of Aircraft and Airplanes. The structure of the Course is the following: IntroductionFlight InstrumentsElectrical SystemPneumatic SystemHydraulic SystemAvionicsCockpitWe will discuss topics such as Flight Instruments on Civil Aircraft, the generators used to produce electricity on board, the Key differences between Pneumatic and Hydraulic Systems and more! The objective of the Course are for you tu understand why Aircraft require a specific set of systems in order to operate at normal conditions. Why the hydraulic system is essential to move the control surfaces on the aircraft and how it is linked to the Landing Gear. Cockpit main instruments and their relation to the conditions of flight. I highly recommend having taken the course on Aerospace Engineering: Aircraft Fundamentals and Advanced in order to clearly grasp the concepts mentioned in this course! I encourage you to begin this journey to Aerospace 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!...

9. Ultimate Electrical Power System Engineering Masterclass

4.4

(69)

Hi and welcome everyone to our course Ultimate Electrical Power System Engineering MasterclassIn this course, you are going to learn everything about power system analysis starting from the power system basics and fundamentals of single phase and three phase electric systems moving to designing and modelling different power system components such as: generators, transformers, and transmission lines, ending with a complete power system studies such as load flow studies and power system faults analysis. Thus, this course will be your complete guide in one of the main areas of power engineering:  ( power system analysis )The course is structured as follows: Firstly, an overview on the power system structure is illustrated through the following topics: Generation, transmission, distribution, and consumption of electric powerHow to draw a single line diagram (SLD) of any power systemThen, the next topic will be about a review on basic electrical engineering concepts to be a quick refresh for you. The following topics will be covered: Different types of powers in power systemComplex power, power triangle, and power factor definitionspower factor correction Complex power flow in any power systemThen, a complete study of three phase systems is introduced since 99% of  practical electric networks are actually three phase systems. Thus, three phase circuits are explained in depth through the following topics: Why we need three phase systems?Three phase supply and load Different 3-ph connections (star-star), (star-delta), (delta-star), (delta-delta) Difference between (3-wire) and (4-wire) 3-ph systemsThe relations between line and phase currents and voltagesPower analysis in 3-ph systemsPower factor improvement in 3-ph circuitsThen, you are going to learn the modelling and characteristics of generators in power systems starting from the operation and construction of alternators moving to measuring the performance indices of synchronous generators. The following topics will be covered: Construction and operation of alternatorsSalient pole vs. Cylindrical rotor generatorsGenerator model in power systemsGenerator phasor diagram and characteristicsGenerator performance parametersPower angle curve of synchronous generatorsThe next topic is about transformers and their use in power systems. We are going to discuss how the transformers work and their importance in power systems through the following outlines: Construction and operation of transformersTransformer equivalent circuitTests performed on transformersTransformer efficiency and regulationThree-phase transformer types and connectionsPer phase model of three phase transformerAfter that, we are going to a complete modelling of different types of transmission lines with assessing the transmission line performance in electric networks through the following topics: Overhead lines vs. Under ground cables (UGC)Transmission line modelling and performanceShort, medium, and long line modelsLossless transmission linesSurge impedance loading (SIL)Now, after modelling and analyzing different power system components, lets move to the per unit system and learn the concept and importance of per unit in power system analysis through the following outlines: Concept of per unitPer unit calculationsHow to draw per unit reactance diagramChange of baseNumerical examples on practical power systemsThen, we are going to a complete power flow analysis where we are going to know the electrical parameters for any power system under any operating conditions. The following topics are discussedConcept and importance of power flow studyDefinitions in power flow analysisTypes of power system busesFormation of YbusApproximate methodIterative methods for load flow analysisGauss-Seidal methodPower flows and losses analysisDC power flow methodNumerical examples on practical power systemsThen, a complete fault analysis is performed on power systems to find the fault current, bus voltages and line current during the fault. All these outlines are discussedDefinition, causes, types, and consequences of electric faultsComplete symmetrical fault analysis using thevenin and ZbusSymmetrical components and sequence networksComplete unsymmetrical fault analysis using thevenin and ZbusFinally, after the complete analysis of power system, practical projects are performed on MATLAB related to power systems  as follows: Project 1 - Stand alone synchronous GeneratorProject 2 - Synchronous Generator connected to the gridProject 3 - Simulation of 3-ph transformersProject 4 - Transmission line designProject 5 - Power flow study in MATLABProject 6 - Fault analysis in MATLABSo, if you are Looking for a COMPREHENSIVE course about Electrical power system analysis engineering for power system modelling, design and analysis ?              If your answer is YES, then you're definitely in the right place...

10. RHCE Linux System Engineer Complete Course

4

(819)

In the Linux Administration Field , we can not get started with any Linux Advanced Tasks without getting Mastered in these Topics, this Course will Help all Students who aim at enhancing their Knowledge and reaching to the Senior Level of Linux Administration. This Course is the ONLY in Udemy that discusses the RHCE 7 Related Topics with Documentations in all Lessons. This Course is a preparation for the RHCE Exam with all of its conetnts CentOS 7 System Engineer Complete Course includes Videos and Documentations for each Module , This Course is Consisted of 14 of Modules , each Module has a Number of Lessons.  This is not the RHCE official course. But will extremely help anyone wants to get certified RHCE on RHEL7 The Course Modules:  Kerberos Authentication. NFS File Sharing. SMB File Sharing. Advanced Networking. Firewalld. Unbound DNS. Apache Web Service. iSCSI SAN Storage. Mail Service. Managing SSH. Managing MariaDB. NTP. Starting with Bash Scripting. Logging and Monitoring...

11. Electrical Engineering: Introduction to Signals and Systems

3.9

(63)

One of the most fundamental courses for electrical engineering students, specially communication and control engineering majors, is of course signals and systems. This course is all about basics of what signals and systems are, and how they are characterized and how can one deal with them systematically. After the general introduction to basics and definitions of signals and systems in chapter 1 and 2, gradually starts to build up the powerful tools of manipulating signals mathematically, tools like Fourier series and transform, and Laplace and Z-transform. There is also a very interesting chapter about sampling and modulation, chapter 5, which talks about how can one basically take samples from a continuous signal and prepare it for transmission, via modulation...

12. Railway Systems Engineering (Equivalent to Micro MSc )

4.3

(377)

This course represents a comprehensive explanation for railway systems. It can be described as a Micro MSc in Railway Systems, I will include the following chapters:- 1- Introduction to Railway Operations and Management.         In this section, you will learn about Railway Operations Management Railway Safety Management  Rail History and Railway Systems Complexity and more. 2- Introduction to Railway Rolling Stock        In this section, you will learn about Railway Rolling Stock and many scientific  disciplines associated with this subject, including Railway Aerodynamics, Railway Vehicle Dynamics, Railway Materials and More. 3- Introduction to Railway Traction Systems.        In this section, you will learn about Railway Traction Systems, AC and DC Motors, Railway Power Supply systems and a brief introduction to power Electronics. 4- Introduction to Railway Systems Engineering.      In this section, you will learn about the discipline of systems engineering and how you can apply this discipline in the world of railways. 5- Introduction to Railway Infrastructure Systems.       In this section you will learn about Railway infrastructure systems such as Track, Station, Tunnels, bridges and Switches and Crossings, but you will also learn about railway construction and maintenance.  6- Introduction to Railway Signaling and Train Control Systems.        In this section, you will learn about Railway Infrastructure Signaling and Control systems, including European Railway Traffic Management System (ERTMS), ETCS signaling as well three and four aspects signaling. 7- Introduction to Railway Economics and Strategic Management.        In this section, we will provide you with a brief introduction to the world of railway economics and strategic management. 8- Questions Thursdays        Students will be able to ask questions and we will be answering them and adding them to the course materials, we will have a zoom meeting Every Thursday at 1:00 PM GMT. 9- Innovations Wednesday     We will be introducing Rail innovation and Small to Medium Size Companies every Wednesday at 1:00 PM GMT. This course represent a comprehensive explanation for railway systems that is useful for Professionals who are working in the railway field. It also represent a great introduction to students who are studying any engineering dripline and would like to know more about the railway world. The course is being delivered by leader Feras Naser, who is one of the most innovative spirits in the world, his story of venturing to the railway industry is remarkable. You will enjoy this course and it will act as a great reference for any railway professional. You can know more about Feras by visiting his group Feras Naser or his university Feras Uni or his transport consultancy Transport MenFeras is keen to help the next generation of entrepreneurs and innovators as well the next generation of railway engineers...

13. ETAP Power System Analysis For Electrical Engineers

4.3

(1,061)

Want To Become Expert In ETAP Software and Power System? This course will help you to achieve your goals to become ETAP and Power System Expert. Welcome to the course ETAP Power System Analysis For Electrical EngineersETAP is an analytical engineering software which is helpful for an electrical engineer to simulate and analyze the steady state and dynamic power system. It is used by various sectors such as Generation, Transmission, Distribution, Industrial, Transportation and Low voltage. The purpose of this course is to learn power system modeling & analysis using ETAP software which will cover a range of ETAP functionalities used to design & solve various power system practical problems. The course will begin with the software overview, basics of one-line diagram creation, data entry, and quickly expands the users' knowledge to include methods to automatically perform multiple 'what if' studies using multiple scenarios. Wherever possible, the topics are explained with hand calculations and results are compared with ETAP software so that it becomes more easier to the attendees to understand the concepts. Below major topics are covered in this course: Load Flow Analysis With Supporting Hand CalculationsCable Ampacity and SizingTransformer MVA SizingShort Circuit Analysis With Supporting Hand CalculationsProtection & Coordination AnalysisArc Flash Analysis Using IEEE 1584-2002 StandardMotor Starting AnalysisDynamic Motor Starting Static Motor StartingStar-Delta Motor StartingAuto-Transformer Motor StartingImpedance Method for Voltage Drop CalculationTransient Stability AnalysisLoad AdditionLoad RejectionFaulted TransientsMultiple Generator Transient StabilityUnder-Frequency Load SheddingD-Q Axis ModellingSwing Equation DerivationDerivation of InertiaHarmonic AnalysisGround Grid AnalysisBenefits of attending this course: Course is published using ETAP 19.5 and ETAP 20.6ETAP software generated results are supported with Hand CalculationsDownloadable course material and Hand CalculationsWhat Our Learner Says: We have received so many five (5) star ratings for the course. Below is what our learners say:1) Brian BlakeExcellent quality and content from the lectures in the videos. I love that they have examples too.2) Bruce Kgothatso SekataneThis was a well-presented course and will really be helpful in my next project.3) Sindisiwe NgcoboThis course is out of this world. I am enjoy every section discuss. After completing my undergraduate degree, I had a stint opportunity to learn designing but not in details. For four years I have been researching and learning design concept from many resources without better understanding. after going through this course, I had an online interview with a large company for an Electrical Design Engineer. They were very impressed the way I responded to all the questions and was hired. I have no doubt that in whatever situation that I will face with everything that I am learning in this course I will succeed. The goal of being a Consultant and starting a company will surely be accomplished. This is the best ever course been design specifically for Electrical Design Engineer. The Instructor is very informative. Thank you Sir, I still have to do Short Circuit Studies, Protection Coordination, Motor Starting Study, Harmonic Study and Transient Stability and more.4) Tan Wen HaoAlthough I have experience using ETAP, I still learned new things from this course. Look forward to an advanced course with examples for hands on practice. Good job and well done!5) Okechukwu EzeabaThis course is awesome. It is the best ETAP course I have seen on Udemy. Highly recommended for anyone interested in electrical power system studies...

14. Linux KVM for System and cloud Engineers

4.7

(88)

KVM (Kernel based Virtual Machine) is the virtualization solution for Linux. It consist of a loadable Kernel module that allows the Linux Kernel to work as a Hypervisor. KVM provides hardware-assisted virtualization for a wide variety of guest operating systems. Under KVM, each VM is a Linux process that is scheduled and managed by the kernel and has private virtualized hardware (i. e CPU, network card, disk, etc.). It also supports nested virtualization, which allows you to run a VM inside another VM. In this course, we are going to cover the objectives on KVM ( Kernel Based Machines) , we will discuss the following topics with appropriate LABs at end of the session: Quick Introduction to Hypervior and KVM: What is a Hypervisor ?KVM Quick Intro , its Pros/Cons and TerminologyKVM Installation and ConfigurationLAB Details, Pre-Reqs for KVM InstallationKVM InstallationKVM Network ConfigurationKVM Storage Pool ConfigurationCreating Guest Virtual MachinesKVM AdministrationManagement of Guest Virtual MachinesBackup (Snapshots) of Guest Virtual MachinesExpanding the disk sizes of Guest Virtual MachineGuest Virtual Machines Snapshot Create/RestoreRenaming a Guest VMIncreasing resources on of Guest Virtual MachinesCloning a guest VMTroubleshooting the KVM issues. VM restoreKVM vBridge creation (Host Only and NAT)KVM (Kernel based Virtual Machine) is the virtualization solution for Linux. It consist of a loadable Kernel module that allows the Linux Kernel to work as a Hypervisor. KVM provides hardware-assisted virtualization for a wide variety of guest operating systems...

15. Unreal Engine 5: Soulslike Melee Combat System

4.1

(708)

IMPORTANT NOTE: This course is aimed at intermediate users. So, to take this course you'll need good knowledge of Blueprint scripting and a good understanding of Unreal Engine. If you would like to learn how to make your own Souls-like Combat system, then this is the course for you! Using Unreal Engine 5, you'll learn how to start from a blank project all the way to a complete Dark Souls inspired combat system. While designing the logic for this course, I have focused on making the logic extendable so that you can use what you learn as a foundation for your game! So what sort of mechanics will I be teaching in this course?You'll learn about attack combos, multiple attack types, directional dodging, target locking, equipment & multiple weapon styles, collision & hit detection, hit reaction system, combat AI which will include mob enemies, tough mobs, & boss enemies. your own targeting system, hit detection system, applying & receiving damage, multiple damage types, hit reactions, visual effects, & more. By the end of the course you will have created your very own Dark Souls inspired combat system with all of the features mentioned in the video & on this page. If you have any questions regarding the course or need help with anything related to the course or for anything game development in general, feel free to join our Discord server! Ready to create your own souls-like combat system? Come join the course now!...

16. Unreal Engine 5 C++: Climbing System

4.7

(80)

Welcome to Unreal Engine 5 C++ Climbing System, in this course, you'll learn how to build a robust climbing system completely from scratch with a deep understanding of how to handle the climb physics, create climb locomotion, climb up and down the ledge, hand and leg IK using control rig, vaulting mechanics, hopping capabilities and a range of other exciting features for a robust climbing experience. In the first section, we'll look into how we can handle the movement for our climbing , and start with a new enhanced input with a custom movement component to handle the basic climbing logic. Then we'll go over how to use different traces to get hold of all the climbable surface info we need, and handle all the physics code needed in order for us to move our character in a custom movement mode. Once we have a working physics, we're gonna process all the climbable surface info and calculate the velocity and rotation for our climbing. In the second section, we're gonna take care of climbing up, climbing down, climbing to the left, climbing to the right, climb up the ledge, climb down the ledge, enter and exit the climb state. We'll begin with a charcter anim instance class in C++ and rebuiding our existing animation blueprint. Then we'll go through the mixamo animation pipeline and look at how we can make use of mixamo converter to retarget animation. Next, we'll handle the climb locomotion and create our own algorithms to check if we have reached the floor or the ledge. In the third section, we'll build a control rig for our hand and leg IK to fix the placement issue when we are climbing, and we'll dive into motion warping and enhanced input system to implement features like vaulting and hopping. We'll start with a handy climb IK trace function in our control rig, and dynamically adjust the position of our hands and feet based on the surface. Then we'll go into motion warping and create more algorithms to check which surface is vaultable, and dynamically set our target point during runtime. After we have fully functional vaulting mechanics, we'll dive deep into enhanced input system and look at how we can use it to create a two key action that only be triggered during climbing...

17. Power Engineering: Power System Analysis - Part 1

4.6

(394)

This course is the first part of a multi-part course series about one of the main areas of electrical engineering: power system analysis. Power system analysis is the core of power engineering and its understanding is therefore essential for a career in this field. In this first course of the multi-part course series, you will learn the fundamentals of power system analysis. The course is divided into the following sections:1. Power in Single-Phase AC Circuits: in section 2, we will start discussing the analysis of power systems, starting from power analysis in single-phase circuits. We will also be discussing the power triangle, complex power, and power flow, which are all key concepts needed to understand more complex topics in power system analysis. We will finish the section with a practice test (includes detailed solutions).2. Power in Three-Phase AC Circuits: section 3 is where we get to the core of a power system analysis, i. e., three-phase circuits. We will discuss the types of arrangements of power system loads (e. g., delta or wye connected loads) and will introduce the concept of per-phase analysis of balanced loads. We will finish the section with a practice test (includes detailed solutions). In each section, several examples are solved to illustrate how to analyze real-world power systems. By learning all the fundamentals about power system analysis, you will be able to continue your study of power system analysis for a career in power engineering and electrical engineering. Remember that Udemy offers a 30-day money-back guarantee. I am also always available for questions while you go through the course to ensure everything is clear. See you in the course!...

18. Modulation in Communication System for RF Engineers RAHRF152

4.4

(456)

This course provides a second certificate completion for FREE from Rahsoft Introduction to Modulation in Communication Systems RAHRF152 is an intro course of Rahsoft Radio Frequency Certificate and it is counted toward the certificate. In this course we have concentrated to simplify the Digital and Analog Modulation topics in a way which students would understand the practicality by providing examples and simulations using GNU Octave open source software. This is a great course to understand the fundamental definitions needed in digital and analog modulation in communication system. General Consideration of Modulation 2. 1.1-Why we need modulation ?3. 1.2 - Baseband and Passband ? What is Demodulation?4. 1.3 - Career and Generic Communication System5. 1.4-Modulation Aspects: Detectability, Bandwidth & Power Efficiency, Bit Error Rate Analog Modulation 6. 2.1 - Amplitude Modulation , AM, Amplitude Demodulation, AM Applications7. How to install GNU Octave Open Source Software Used in this course8. 2.2.1 - Frequency Modulation, FM, Spectrum, FM Specs, High Index9. 2.2.2- FM Demodulation , Slope Detector , FM Pros and Cons10. 2.3- Phase Modulation, PM , FM vs PM , PM Demodulation Digital Modulation 11. Bit Rate , Baud Rate , Binary & M-ary Data, Nyquest Formula , Channel Capacity12. 3.1.1- Amplitude Shift Keying , ASK, Spectral Response Binary Data, B-ASK M-ASK13. 3.1.2- Software Example14. 3.1.3- ASK Demodulation15. 3.2.1-Frequency Shift Keying, FSK Modulator & Demodulator, Demodulation with PLL16. 3.2.2- Software Example17. 3.3.0- Phase Shift Keying (PSK) , BPSK, PSK Modulation18. 3.3.1- PSK Demodulation , PSK Demodulator, mismatch, Costas loop19. 4.1- Inter symbol interference (ISI)20. 4.2- Solving Inter symbol interference (ISI)21. 5.1- Signal Constellation, PSK and FSK Modulation Constellation22. 6.1- Quadrature modulation, I & Q , Adding Quadrature Signals and Simulation23. 6.2.0- QPSK or 4-PSK Modulation24. 5.6.2.1- Software Simulation25. 6.3.0- QPSK Features , Diagrams , Signal Constellation, Demodulation BER26. 6.3.1- I-Q Mismatch27. 6.3.2- Large Phase Change, QPSK Drawbacks , pi/4 QPSK , OQPSK...

19. Power Engineering: Power System Analysis - Part 2

4.5

(227)

This course is the second part of a multi-part course series about one of the main areas of electrical engineering: power system analysis. Power system analysis is the core of power engineering and its understanding is therefore essential for a career in this field. In this second course of the multi-part course series, you will learn about generators, electrical transformers, and transmission lines and their use in power system analysis. The course is divided into the following sections:1. Generator Models: in section 2, we will introduce the synchronous generator, which is where all the power in power systems comes from. We'll begin by defining the circuit model of the synchronous generator so that we can analyze its performance. We will then continue to discuss key concepts, such as voltage regulation and the power angle, and will end with several examples.2. Transformer Models: in section 3, we will introduce the power transformer (also called electrical transformer). Transformers allow power systems to operate at different voltage levels and are an essential part of any power system. We will begin by defining the equivalent circuit model of a power transformer, and will then move on to discuss the approximate and simplified circuits. We will also solve several examples along the way.3. The Per-Unit System: in section 4, we will introduce the per-unit system. The per-unit system is a technique used extensively in power system analysis and is therefore essential that it is understood. This technique allows for the analysis of a power system, which may have components operating at different voltage levels, into one continuous circuit. We will solve several examples to illustrate how the per-unit system can help with the analysis of power systems.4. Transmission Line Models: in section 5, we will discuss the different transmission line models depending on their length, as well as why these models are good approximations of real-life characteristics. In each section, several examples are solved to illustrate how to analyze real-world power systems. By learning all the different circuit models of the components used in power systems, you will be able to continue your study of power system analysis for a career in power engineering and electrical engineering. Remember that Udemy offers a 30-day money-back guarantee. I am also always available for questions while you go through the course to ensure everything is clear. See you in the course!...