Smart Energy Management System for Solar-Based EV Charging Station Dispatch

@EhtishamHaider1

Drawing from my in-depth knowledge and experience, I am the ideal person to bring your Smart Energy Management System to life. My focused skill set in *Electrical & Electronics Engineering* allows me to develop electrical systems tailored to specific needs—especially those that need a deep understanding of circuit design and management like this project. Moreover, I am an avid user of MATLAB/Simulink for simulations and system modeling, therefore proficiently experienced in interpreting engineering concepts into a real-world context. Building on my programming expertise, your project will be developed with an eye on the future. My mastery of programming languages including C, C++, Java, Python, R, coupled with my ability to use Google Apps scripting for automation and data scraping — guaranteeing your solar-based EV Charging system would be also compatible with future technologies and open for expansions. Lastly but not exhaustively, my skills extend beyond engineering into *data science and machine learning* (ML), which gives me the unique ability to provide data-driven insights from various sources such as the EV charging demand and solar energy generation. Using ML models and pattern recognition principles, I can guide you towards increasingly smarter energy distribution strategies for an optimized power flow management system. So, let's collaborate to create a sustainable EV charging infrastructure today that is ready for the smart grids of tomorrow.

@mehwishb3

As an engineering expert , Having prior experience in renewable energy I want to offer my services. Let's connect to discuss details.

@AhmedAlaa001

Hi there, I’m a senior mechanical engineer and have extensive experience in machine and product design. You can see my portfolio. I’m ready to help you make: ✨ MATLAB/Simulink modeling of the complete multiport bidirectional power routing architecture. ✨ Design and simulation of the three-phase interleaved boost converter with MPPT control implementation. ✨ Three-phase bidirectional inverter development using SVPWM and PR current control in the αβ stationary frame. ✨ DC-link stability analysis during operating-mode transitions and transient conditions. ✨ Efficiency, THD, harmonic, and power-quality evaluation under different loading and grid scenarios. ✨ Energy management system implementation and optimization support including MILP-based scheduling strategies. ✨ Battery degradation modeling integrated with V2G economic optimization. ✨ Detailed technical document I’m excited to work with you on your project and deliver the best results possible. I’m waiting for your message.

@divyam12345

Dear Sir/Madam, I have experience in MATLAB/Simulink, renewable energy systems, and EV charging projects. I can develop your complete dissertation model, including Solar PV, MPPT, Battery Energy Storage, Grid Connection, EV Charging Station, and Smart Energy Management System. I will provide the Simulink model, MATLAB code, results, and a well-structured dissertation report with explanations and references. Let’s connect in the chatbox to discuss the project further, including the budget and timeline. I am ready to work with you, please connect in the chatbox for further discussions. Thank You. Dr. Divya.

@Abdulyaqs

Yes, I can deliver this complete Smart Energy Management System. I have already delivered an MPPT optimization project using evolutionary algorithms in MATLAB/Simulink, and I have six published papers in international journals. My expertise matches your requirements exactly: MPPT controller design and optimization using evolutionary algorithms (delivered project) MATLAB/Simulink modeling of solar PV, DC-DC converters, battery systems, and grid integration Energy Management System (EMS) development for optimal power dispatch Dissertation writing and publication-ready documentation What I Will Deliver: Complete MATLAB/Simulink model including solar PV array, MPPT controller, DC-DC boost converter, BESS, bidirectional converter, EV charger, and utility grid Smart EMS controller for power flow optimization between solar, battery, and grid Simulation results under varying solar and load conditions Performance analysis: solar utilization, grid dependency reduction, charging reliability Full dissertation-ready report with methodology, results, and conclusions My Approach: Build and validate MPPT-controlled PV system Integrate battery storage with bidirectional converter Develop EMS logic for intelligent power dispatch Simulate multiple scenarios (low solar, peak demand, grid outage) Document complete system and results Timeline: 14-21 days Best regards, Yakubu Abdullahi

@himat8

I like the topic; I understand you completely. I'm working on something similar. I think the solution is to provide solar energy at 1 cent per watt.

@ramy0120

I want to design this project as it is part of my study and my field. Energy, power, robotics, and designing are my best skills I have.

@SertkayaAli

Hi there, I specialize in power electronics and MATLAB/Simulink modeling, making me an ideal fit to develop your Grid-Connected Solar PV and EV Charging system. While many can wire up standard Simulink blocks, my professional background in R&D engineering—designing physical high-power Switch Mode Power Supplies (SMPS) and CCM Boost PFC topologies—means I understand the actual, real-world control dynamics of DC-DC boost converters, bidirectional battery chargers, and grid synchronization. Here is how I will architect your Simulink model: Source & Conversion: Accurate Solar PV array modeling paired with a highly responsive MPPT algorithm and DC-DC Boost Converter. Storage Management: A robust bidirectional converter for the Battery Energy Storage System (BESS) to handle charge/discharge cycles seamlessly. The Smart EMS: A custom logic controller (via Stateflow or MATLAB Functions) that continuously monitors irradiance, EV load demand, and battery SOC to intelligently route power between the PV, Battery, Grid, and EV load. I will deliver the complete, fully functional .slx model, carefully tuned to ensure stability, along with the performance scopes/graphs proving system efficiency under various environmental conditions. Let's open a chat to discuss your specific EV load profiles, grid parameters, and whether you also need a formal written report alongside the simulation! Best regards,