MATLAB ASSIGNMENTS

🎥 Electromagnetic Disturbance with Parasitic Elements in Solar PV Power Systems | MATLAB Simulink 🔗 Watch:     • ⚡ Electromagnetic Disturbance (EMC) in PV ...   🌟 Why Watch? This video demonstrates the *modeling and simulation of electromagnetic disturbances (EMC/EMI)* in *solar photovoltaic (PV) power systems* caused by **parasitic elements**. It highlights how PV arrays, switching devices, and circuit parasitics contribute to electromagnetic compatibility issues and power quality concerns. 📦 Get Project Files / Assignment Help: 🌐 www.matlabprojectscode.com 📱 WhatsApp: https://wa.me/+918300015425 📧 matlabprojectscode@gmail.com 🎯 Key Topics Covered: Introduction to EMC/EMI in renewable energy systems Parasitic elements in PV systems (capacitances, inductances, stray couplings) EMC disturbance propagation in grid-connected PV inverters MATLAB Simulink model for PV–EMC system Analysis of voltage/current harmoni...

🚀 Watermark-Aided Residual-Aware Adaptive Event-Triggered Sliding Mode Control (RAA-AET-SMC) is a cutting-edge control strategy for securing PV inverters in modern power systems against false-data injection (FDI) attacks. In this video, we demonstrate a MATLAB/Simulink simulation on the IEEE-14 Bus test system, showing how adaptive sliding mode control and watermarking ensure resilience, stability, and cyber-security. 📦 Get Project Files / Assignment Help 🌐 Website: www.matlabprojectscode.com 📱 WhatsApp: https://wa.me/+918300015425 📧 Email: matlabprojectscode@gmail.com 🔋 Key Contributions: PV inverter modeling on the IEEE-14 Bus Adaptive event-triggered sliding mode control for robustness Watermark-aided detection against false-data injection (FDI) Improved system resilience, stability, and reduced communication load 🌍 Target Audience: This video is designed for PhD & MSc students, researchers, and engineers worldwide—especially those in UK, Australia, USA, India, ...

🎯 Sliding Mode Control (SMC) with Event-Triggered Updates is one of the most powerful robust control techniques used to stabilize nonlinear systems. In this video, we apply it to Maglev and Inverted Pendulum systems under false-data injection (FDI) attacks, showcasing resilience, robustness, and efficiency in a cyber-physical environment. 🔋 What’s inside this video? Introduction to Maglev and Inverted Pendulum dynamics Sliding Mode Control theory and event-triggered update mechanism Simulation of Maglev & inverted pendulum systems under data injection attacks Comparative performance with/without event-triggered updates Insights for thesis writing, IEEE-style publications, and research projects 🌍 Who should watch this video? This is designed for PhD/MSc students, researchers, and engineers in: Control Systems Engineering Cyber-Physical Systems Security Nonlinear and Robust Control (SMC, Adaptive, Event-Triggered) MATLAB/Simulink-based Research Projects Academic thesis...

🚀 Improved Fuzzy Logic Controller for UAV Quadcopter implemented in MATLAB Simulink! This video demonstrates how fuzzy logic can be enhanced to provide stable, efficient, and adaptive control of a UAV quadcopter system under nonlinear dynamics. 🔋 What’s inside this video? Introduction to UAV Quadcopter dynamics Design of fuzzy logic controller in MATLAB Simulink Improvements over traditional fuzzy logic for stability & accuracy Real-time simulation of quadcopter pitch, roll, yaw, and altitude control Performance comparisons & research insights 📦 Get Project Files / Assignment Help 🌐 Website: www.matlabprojectscode.com 📱 WhatsApp: https://wa.me/+918300015425 📧 Email: matlabprojectscode@gmail.com 🌍 Target Audience: This content is designed for PhD/MSc students, researchers, and engineers in: UAV & drone control systems Artificial intelligence & fuzzy logic applications Nonlinear and adaptive control strategies MATLAB/Simulink academic projects and thesis w...

📡 Design and Simulation of Frequency-Reconfigurable Microstrip Patch Antenna using Copper and Graphene for 5G Applications — implemented in CST Microwave Studio. This research-level project explores how copper and graphene materials enhance antenna performance for 5G wireless communication. 📦 Get Project Files / Assignment Help 🌐 Website: www.matlabprojectscode.com 📱 WhatsApp: https://wa.me/+918300015425 📧 Email: matlabprojectscode@gmail.com 🔋 In this video, you will learn: Fundamentals of frequency-reconfigurable microstrip patch antennas Design process in CST Microwave Studio Comparison of copper vs graphene materials for antenna performance Frequency tuning techniques for 5G spectrum (27–33 GHz range) Simulation results: S-parameters, bandwidth, and radiation patterns 🌍 Who is this video for? This content is tailored for PhD researchers, MSc students, antenna designers, and wireless communication engineers working on: 5G/6G antenna design Frequency-reconfigurable antenna...

AI-Based Gated-CNN Equalizer for Fiber & FSO Optical Links in MATLAB Supercharge your optical-communications project with a deep-learning equalizer that works for fiber and free-space optical (FSO) IM/DD links. This video walks through the full MATLAB pipeline—data synthesis, training, evaluation, and plotting—using a gated 1D-CNN + squeeze-and-excitation (SE) architecture. We compare against an LMS baseline and visualize results with BER vs Es/N0 curves, confusion matrices, eye diagrams, and soft-output PDFs. What you’ll learn How to model fiber dispersion and FSO Gamma-Gamma turbulence with path loss, AWGN, and shot noise Building a sequence-to-label 1D-CNN with gated attention and SE channel re-weighting Optional focal cross-entropy + label smoothing for robust training under deep fades Generating and saving publication-ready plots automatically in MATLAB Fair, apples-to-apples DL vs LMS performance comparison across Es/N0 Chapters 00:00 Intro & goals 00:45 System mode...

🎥 MATLAB Simulink: Self-Balancing Two-Wheeled Robot Control | Inverted Pendulum Simulation 🔗 Watch:     • 🤖 Two-Wheeled Self-Balancing Robot Control...   ⚡ Why Watch? Master the control of a two-wheeled self-balancing robot—modeled as an inverted pendulum—implemented in MATLAB Simulink. Learn how to design controllers, tune parameters, and simulate behavior for real-time stabilization. 📦 Get Simulation Files / Assignment Help: 🌐 www.matlabprojectscode.com 📱 WhatsApp: https://wa.me/+918300015425 📧 matlabprojectscode@gmail.com 🎯 Key Topics Covered: Inverted pendulum modeling for a two-wheeled robot Design of PID and state-feedback controllers Balance control logic in MATLAB Simulink Simscape/Simulink block diagram setup Simulation of tilt angle, motor torque, and stabilization response Comparison of control strategies (PID vs. LQR vs. SMC) 👩‍🏫 Great For: Control systems & robotics students Final-year B.Tech/MTech/MS...

🎥 Solar PV Onboard Charger for EV | Six-Phase Motor Drive Simultaneous Driving & Charging Mode 🔗 Watch:     • ⚡ Solar PV Onboard Charger in EV | 6-Phase...   🌟 Why Watch? Discover how a solar-powered onboard charger is integrated into an electric vehicle using a six-phase motor drive to enable **simultaneous driving and charging**. This MATLAB/Simulink tutorial explores cutting-edge topologies that maximize range while minimizing extra hardware. 📦 Get Project Files / Assignment Help: 🌐 www.matlabprojectscode.com 📱 WhatsApp: https://wa.me/+918300015425 📧 matlabprojectscode@gmail.com 🎯 Key Topics Covered: Electric-drive-reconstructed onboard charger (EDROC) topology using six-phase motor drive Simultaneous driving & PV charging mode via vehicle-integrated solar panels Control schemes for stable operation and mode transitions Performance analysis: steady-state and dynamic behavior under rea...