Assessfy Capstone Lab Advanced 6 milestones 100 marks

Design and Deployment of ESP32-Based Smart Energy Metering and Home Automation System

Branch: Electronics Engineering Type: Industry-applied final-year Major Project Standard: Mumbai University Rev-2019 'C' Scheme (Major Project I + II) Group: up to 4 students Assessment: 6 review-based milestones (100 marks)

Real-world project · AICTE-aligned · AI-graded · Audit-ready certificate

6
Milestones
0
Available mentors
0
Enrolled students
16
Core skills
About this project

Objective: To engineer and demonstrate an integrated IoT solution for real-time energy monitoring and intelligent home automation using ESP32 microcontroller.

India faces rising energy costs and frequent power wastage in households, driven by lack of real-time monitoring, inefficient appliance control, and manual management. Urban and semi-urban residents, as well as housing societies, require affordable, automated solutions to optimize electricity usage and reduce bills.

This project develops a smart energy-metering and home automation system using ESP32, integrating wireless sensors, actuators, and a cloud dashboard. The system provides real-time consumption data, automated appliance control, user notifications, and analytics, accessible via mobile/web interfaces.

Key deliverables include a live prototype with energy metering (current, voltage, power), relay-based appliance control, Wi-Fi/Bluetooth connectivity, mobile/web dashboard, and integration of safety features (overload detection, alerts). The working model is demonstrated with actual loads and live data, including system validation and cost analysis.

The solution enables scalable adoption in Indian homes, helps reduce energy bills, supports sustainability goals, and forms a foundation for smart city infrastructure. Industry relevance spans utility companies, IoT startups, and residential automation integrators.

Milestones
1. Synopsis & Problem Definition (Stage-I Review-1)
10 marks 25d
Submission of project synopsis outlining the real-world need, objective, and expected outcomes; reviewed by project guide.
2. Literature / Market Survey & Requirement Analysis (Stage-I Review-2)
12 marks 28d
Detailed analysis of existing solutions, market study, and definition of functional requirements; peer and faculty review.
3. System Design, Methodology & Cost Analysis (Stage-I close)
18 marks 32d
Presentation and documentation of system architecture, block diagrams, component selection, and cost estimation; reviewed by department panel.
4. Implementation / Fabrication of Working Model (Stage-II Review-1)
24 marks 38d
Completion of hardware assembly, firmware coding, dashboard setup, and integration of all subsystems; interim demonstration to guide and peers.
5. Testing, Results & Validation (Stage-II Review-2)
20 marks 30d
System testing with real loads, validation of energy metering accuracy, appliance control, and cloud connectivity; results reviewed by faculty panel.
6. Report, Paper & Demonstration / Oral Defense (Stage-II final Oral & Practical)
16 marks 32d
Submission of final report, IEEE-format paper, and live demonstration of the working system before examiner panel; oral defense of methodology and results.
Open internships using this project -->
Upcoming sessions
SessionWindowEnrolled
Design and Deployment of ESP32-Based Smart Energy Meterin... 11 Jun 2026 to 10 Jun 2028 0
Skills you'll learn
CapstoneFinal-year projectMajor projectElectronics EngineeringEmbedded system hardware and firmware developmentIoT device integration and wireless communication (Wi-Fi/Bluetooth)Sensor interfacing and real-time data acquisitionWeb/mobile dashboard design and cloud data handlingSystem-level designcost estimationand documentationPrototypingPCB fabricationand hardware testingTeamwork and technical presentation skillsTechnical report and paper writing
Tools used
ESP32 microcontroller moduleEnergy metering IC (e.g.ADE7753)Relay modules for appliance controlPCB design software (e.g.KiCADEagle)Arduino IDE / PlatformIO for firmwareNode-RED / MQTT broker for cloud integrationMobile/web dashboard (ReactAngularor MIT App Inventor)IEC 62053-21 standard for energy metering validation
Prerequisites
Microcontrollers and Embedded SystemsAnalog and Digital ElectronicsSensors and TransducersWireless Communication and NetworkingPower Electronics
Available mentors

No mentors have signed up for this project yet.

Be the first to mentor
Share
You'll earn — Certificate (PDF)

AICTE-aligned Project Completion Certificate

A formal, audit-ready PDF certificate issued by Assessfy + your institute on successful completion. Includes AICTE credit hours, your evaluator's signature, and a QR code for third-party verification.

Certificate of Project Completion

This is to certify that

has successfully completed the project

Design and Deployment of ESP32-Based Smart Energy Metering …

Auto-issued on completion QR-verifiable
You'll earn — Digital Badge

Shareable LinkedIn / Resume Skill Badge

A compact, verifiable Open-Badges-2.0-compliant digital credential. Add to your LinkedIn profile, GitHub README, or resume in one click. Recruiters can validate authenticity via a unique URL.

Advanced
Design and Deployment of ESP32-Based …
Assessfy
Auto-issued on completion One-click LinkedIn add

Similar Projects you might like

Hand-picked by the recommender from your program & skill area.

Build the skills for this project

Matched to this project's skills & tools. Study free, then earn a recruiter-recognized certificate from the Assessfy Certification library.

100 marks Advanced
Sign up & enroll