Project Idea
Develop an IoT-based smart campus management system that integrates real-time monitoring and control of campus facilities such as lighting, energy usage, security, and environmental conditions. The system enhances campus efficiency, safety, and automation through centralized management accessible via smartphones or web dashboards.
Project Description
The IoT-Based Smart Campus Management System utilizes multiple NodeMCU ESP8266/ESP32 modules connected to sensors and actuators distributed across the campus infrastructure. It monitors parameters like energy consumption, lighting status, room occupancy, air quality, and security (via RFID or motion sensors). Data from these nodes is transmitted to a centralized cloud platform (Blynk, Firebase, or ThingSpeak) through Wi-Fi. The system enables administrators to control lighting, HVAC systems, and security access remotely via a smartphone or PC dashboard. It also provides data analytics for optimizing resource usage, scheduling maintenance, and enhancing overall campus sustainability and safety.
Components List
Multiple NodeMCU ESP8266 / ESP32 Modules
Energy Meter Sensors (Current Sensors / Smart Plugs)
PIR Motion Sensors (for occupancy detection)
DHT22 Temperature & Humidity Sensors
LDR Sensors (for lighting automation)
RFID Module (for access control)
Relay Modules (for lighting/HVAC control)
Buzzer / Alarms (for security alerts)
Power Supply Units
Jumper Wires
Breadboards / Custom PCB (for large installations)
IoT Platform (Blynk / Firebase / ThingSpeak)
Smartphone or PC with IoT Dashboard Access
Features
Centralized Real-Time Monitoring of Campus Facilities
Remote Control of Lighting, HVAC, and Security Systems
Energy Consumption Monitoring and Optimization
Occupancy-Based Lighting and Energy Automation
Alerts for Intrusion or Unauthorized Access
Environmental Condition Monitoring (Temperature, Humidity, Air Quality)
Scalable to Large Multi-Building Campuses
Cloud-Based Data Logging and Analytics
Schedule-Based Automation for Efficient Resource Usage
Smartphone and Web Dashboard Access for Administrators
Project Applications
University & College Campuses – Efficiently manage large campus facilities.
School Infrastructure Automation – Enhance energy efficiency and security.
Corporate Office Parks – Monitor and automate office infrastructure remotely.
Government and Public Buildings – Centralized management for large facilities.
Research & Technology Parks – Integrate smart infrastructure in innovation hubs.
Hostels & Dormitory Management – Control utilities and ensure resident safety.
Smart City Projects – A foundational module for urban campus management.
Hospitals & Healthcare Campuses – Monitor and automate healthcare facility environments.
Exhibition Grounds & Event Venues – Manage temporary setups and utilities.
DIY Scalable IoT Projects – Ideal for large educational IoT demonstration models.
Shipping Dimensions
Length: 30 cm
Width: 20 cm
Height: 10 cm
Weight: 1.5 Kg
Project Includes:
Fully assembled and tested circuit
Circuit diagram
Source code
(For DIY KITs - only the components will be provided)
Project Types:
- DIY KIT(Do IT YourSelf KIT) - We are providing only components in this kit for this project
- Breadboard based - We are providing fully assembled, tested and ready-made project using plug-n-play jumper wires and breadboard with all the other components, code & circuit diagram.
- Soldering/PCB based - We are providing fully assembled, tested and ready-made project soldered on a PCB with all the other components, code & circuit diagram.
Note - For some projects the code & circuit diagram may not be provided and might have to be purchased separately
Notes -
All the products are made by LearnElectronics India and not for re-sale.
These project is a prototype project to show/present/explain and work like to real life product. It is not a product, if you need a ready-made product then reach out to us here.
Iot Based Smart Campus Management System
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Order Processing Time:
- All project orders are processed within 2-3 business days after payment confirmation.
- After processing, the development of your project will begin. We require a minimum of 10-15 days to complete and prepare your project for shipment. However, please note that the delivery time is an estimate and may vary depending on project complexity and component availability.
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Delivery Timeframe:
- While we strive to deliver your project within the specified timeframe, there is no guaranteed delivery date. The actual delivery time may be shorter or longer depending on various factors, including shipping delays, customs clearance, and unforeseen technical challenges.
- We will keep you informed of your project's progress and provide updates on the estimated delivery time as needed.
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Shipping and Delivery Charges:
- Delivery charges are additional and are not included in the project price. The shipping cost will be calculated at checkout based on your location and the chosen shipping method.
- Customers are responsible for any customs duties, taxes, or fees that may be applicable in their country.
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Order Cancellations:
- Due to the customized nature of our projects, orders can only be canceled within 24 hours of placement. After this period, the order is non-cancellable as work will have already begun.
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Returns and Refunds:
- As these are custom-built projects, we do not accept returns or offer refunds unless the project is defective or significantly not as described.
- If there are any issues with your project upon delivery, please contact us within 7 days to resolve the matter.
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Technical Support:
- We provide basic technical support for the first 30 days after delivery to help you set up and operate your project.
- Extended support and customization services are available at an additional cost.
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Disclaimer:
- We are not responsible for delays caused by external factors beyond our control, including but not limited to shipping carrier delays, natural disasters, or government restrictions.
- By placing an order, you agree to the terms and conditions outlined in this policy.
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