How can I search the complete project collection?
Use the homepage project finder or the All Project Search page. Searches can combine alternate titles, technical keywords, software, domain and research level.
MATLAB Simulink, COMSOL Multiphysics, HFSS, CST, ANSYS, Modelica, PLECS, PSCAD, ADS and Python project support for PhD research, assignments, FYP, thesis and journal-oriented engineering work.
Browse technical demonstrations by engineering platform, research application and simulation software.
Research-ready MATLAB and Simulink simulation projects for power systems, electric vehicles, renewable energy, smart grids, microgrids, motor drives, controllers and thesis-level electrical engineering studies.
A focused antenna and RF simulation catalogue for HFSS, CST, MIMO, UWB, metamaterial, wearable, 5G and microwave design studies.
Modern vehicle simulation projects for EV powertrains, regenerative braking, motor drives, suspension, battery SOC, FCEV and intelligent automotive controllers.
Image processing and AI vision titles for MATLAB, segmentation, recognition, medical image analysis, classification, feature extraction and thesis work.
Python-based engineering, machine learning, data science, dashboard, GUI and automation projects for research scholars and final-year students.
COMSOL Multiphysics simulation support for MEMS, piezoelectric, thermal, CFD, electromagnetics, sensors, semiconductor and coupled-field studies.
ANSYS and SolidWorks simulation topics for structural, thermal, CFD, electromagnetic, Maxwell, workbench and CAD-based engineering analysis.
Power electronics and grid simulation studies for PLECS and PSCAD: converters, inverters, HVDC, microgrid controls and switching studies.
ADS RF and microwave design projects for amplifiers, filters, matching networks, S-parameters, resonators, mixers and communication electronics.
MATLAB/Simulink block models, COMSOL FEM studies, HFSS/CST antenna models, ANSYS/Maxwell setups, PLECS/PSCAD and Python utilities.
Scope outputs, performance comparison graphs, controller response, voltage/current waveforms, S-parameters, field plots, thermal contours and report-ready interpretation.
Thesis chapters, IEEE-style papers, literature survey, methodology, novelty framing, simulation discussion and plagiarism-conscious technical rewriting.
Browse project demonstrations prepared for PhD researchers, engineering scholars, assignments, FYP, thesis work and simulation-based academic support.
A DFIG wind energy conversion model using direct active and reactive power control for grid-connected operation under variable wind conditions.
A 12.5 GHz microstrip antenna incorporating a complementary split-ring resonator to study resonance, impedance matching, radiation pattern and gain.
A permanent-magnet synchronous motor drive using six-sector direct torque control for fast torque response without an inner current-control loop.
A neural-network digital canceller that learns nonlinear transmitter leakage and suppresses residual self-interference in an in-band full-duplex link.
A three-stage solid-state transformer converting a 13.2 kV three-phase supply to a regulated 220 V output for isolated electric-vehicle charging.
An electro-thermal PMSM electric-vehicle powertrain model that estimates motor and inverter temperatures and evaluates cooling control over a drive cycle.
A parallel hybrid electric-vehicle model using deterministic operating rules to coordinate engine, motor, battery and regenerative braking power.
A six-degree-of-freedom quadcopter simulation with cascaded attitude and altitude controllers for hover, command tracking and disturbance rejection.
A synchronous motor field-oriented control model with dq current regulation, speed control and space-vector PWM for decoupled torque and flux control.
Project video demonstrations across engineering domains
Support across established and emerging engineering research domains
Support for established and newly released engineering software
Research support for Europe, Asia, the UAE, UK and USA
Continue to related project domains, thesis support pages, assignment resources and country-focused engineering simulation services.
Trust is built through visible technical evidence rather than unsupported claims.
Browse dedicated watch pages with model context, methodology, output signals and related research pathways.
Coverage can extend to established domains as well as new and interdisciplinary research areas.
Share a paper, abstract, block diagram or dataset through WhatsApp or email for a scope-based technical discussion.
Project pages show the available video, output images, system architecture, expected signals and research extensions.
Model development, result explanation, comparison studies and documentation can be discussed as separate deliverables.
Each page states that final work must follow the selected paper, dataset and university requirements.
Read free 2,000+ word guides covering topic selection, architecture, validation, novelty and thesis structure.
Electrical MATLAB and Simulink research connects physical power-system behaviour with control logic, converter switching, energy management and measurable engineering performance.
Antenna and RF simulation research requires a defensible geometry, reliable electromagnetic boundaries, converged meshing and a clear link between physical dimensions and measured S-parameter or radiation behaviour.
Automobile simulation research combines longitudinal vehicle dynamics, electric machines, batteries, converters, braking, thermal limits and supervisory energy management in one reproducible model.
MATLAB image-processing research should be organized around a traceable data pipeline, reproducible preprocessing, unbiased evaluation and visual evidence that supports every reported performance metric.
Python engineering research succeeds when code, datasets, environments, metrics and visual outputs are organized as one reproducible workflow rather than a collection of disconnected scripts.
COMSOL research depends on a disciplined relationship between geometry, materials, governing equations, boundary conditions, mesh resolution and solver strategy.
Individual website project pages contain local HTML5 video demonstrations. The YouTube channel provides another route to discover engineering simulations and related topics.
Provide the project topic, preferred software and required output. The form opens a prepared WhatsApp message; no requirement is uploaded publicly.
Use the homepage project finder or the All Project Search page. Searches can combine alternate titles, technical keywords, software, domain and research level.
Yes. Project pages use server-rendered headings, descriptions, direct HTML5 video sources, image elements, methodology, outputs, internal links and structured data.
The model architecture, parameters, algorithm, test cases and output discussion can be reviewed against a selected paper or university brief.
The website covers MATLAB, Simulink, COMSOL, HFSS, CST, ANSYS, SolidWorks, Python, PLECS, PSCAD, ADS and related engineering tools.
Yes. The simulation-domain guides are publicly accessible and provide research planning, validation, novelty and thesis-structure guidance.
Share your abstract, paper, block diagram, dataset or university brief. We prepare simulation models, results, documentation and thesis-oriented explanations.