MATLAB ASSIGNMENTS

Syngas vs Natural Gas | Turbocharged SI Engine – MATLAB Two-Zone Simulation 📘 Description This video builds a two-zone combustion model in MATLAB to compare Syngas (H₂/CO blend) versus Natural Gas (NG) in a turbocharged spark-ignition (SI) engine. We simulate in-cylinder thermodynamics, heat release, and emissions with a modern workflow that you can reuse for coursework or research. 📦 Project Files & Guidance: 🌐 www.matlabprojectscode.com 📧 matlabprojectscode@gmail.com 📱 WhatsApp: +91 8300015425 What’s inside ✅ Two-zone model (burned/unburned) with Wiebe heat-release, variable γ, and Woschni/Annand heat transfer ✅ Boosted operation: intake pressure/temperature from compressor map (simplified) ✅ Mixture properties for Syngas vs NG (LHV, Cp(T), laminar burn trends via Wiebe tuning) ✅ Knock margin proxy (end-gas T–p and ignition delay correlation) ✅ Full plots: P–θ, T–θ, HRR–θ, MFB–θ, V–θ ✅ Performance: Brake Power, Torque, BSFC, BTE vs RPM/CR/ϕ/Boost ✅ Emissions trends: NOx...

Lattice Structure Compression FEA in FEBio Studio | Finite Element Analysis of Gyroid & Honeycomb Lattices | FEA Tutorial Perform advanced Finite Element Analysis (FEA) of lattice structures under compression using FEBio Studio. This video demonstrates a full workflow — from importing 3D lattice geometries (gyroid, honeycomb, or cubic) to meshing, applying material properties, boundary conditions, and extracting stress–strain and deformation plots. Learn how to model realistic compression behavior and evaluate key parameters like effective modulus, yield strength, and energy absorption. Perfect for mechanical, biomedical, and materials engineering students and researchers exploring additive manufacturing, metamaterials, or topology optimization. This step-by-step simulation guide helps you build a complete lattice compression setup in FEBio Studio — ideal for thesis work, MSc/PhD projects, and research publications. 📦 Get complete project files & support (MATLAB | ANSYS | F...

🚁 Quadrotor UAV Model Predictive Control (MPC) | MATLAB Simulink Simulation | UAV Attitude and Altitude Control Learn how to design and simulate a Model Predictive Controller (MPC) for a Quadrotor UAV using MATLAB Simulink. This video demonstrates the complete workflow — from developing the quadrotor’s state-space model, configuring MPC horizons, and applying real-time constraints, to analyzing attitude and altitude control performance under different flight conditions. 🎯 In this video: ✅ Build a Quadrotor dynamic model in MATLAB/Simulink ✅ Design an MPC controller for roll, pitch, yaw, and altitude ✅ Compare MPC vs PID performance ✅ Visualize trajectory tracking and control responses Ideal for Master's and PhD students in Control Systems, Robotics, and Aerospace Engineering. Learn how to apply Model Predictive Control in UAV systems for your thesis or research simulation. 📦 Get complete project files or implementation support: 🌐 www.phdresearchlabs.com 📱 WhatsApp: https...

🚘 Six-Wheeled Rover with Rocker-Bogie Suspension – MATLAB Simulink Simulation This video demonstrates the dynamic modeling and simulation of a six-wheeled rover using a Rocker-Bogie suspension system in MATLAB Simulink. The model replicates the terrain adaptability and obstacle-climbing performance of Mars Rover–style designs, with detailed mechanical linkages and motion responses. 📦 Project Files & Support: 🌐 www.matlabprojectscode.com 📧 matlabprojectscode@gmail.com 📱 WhatsApp: https://wa.me/+918300015425 🧠 Key Highlights: 6-Wheeled Rover Dynamics and Terrain Response Rocker-Bogie Suspension Mechanism Modeling MATLAB Simulink implementation of kinematics and wheel motion Terrain profile simulation and wheel-ground contact forces Pitch, roll, and center-of-mass stability plots 🎓 Perfect For: Robotics, Mechatronics, and Mechanical Engineering students MATLAB Simulink learners and rover system designers MSc & PhD researchers in robotics or vehicle dynamics (UK, Cana...