SWAP Smart Water Protocol for the Irrigation of Urban Gardens in Smart Cities
Objective
The main objective of the SWAP (Smart Water Protocol) project is to develop an advanced system for the efficient irrigation of urban gardens in smart cities, leveraging smart technologies and data-driven approaches to optimize water usage and promote sustainable urban agriculture practices.
Abstract
The "SWAP Smart Water Protocol for the irrigation of urban gardens in smart cities" project introduces an innovative approach to address water conservation and efficient irrigation practices in urban gardens within the context of smart cities. Leveraging a range of advanced components, including Arduino for central control, water level sensors to monitor water levels, DHT11 sensors for environmental data, soil moisture sensors, NODEMCU for cloud data transmission, LCD displays for visual feedback, a buzzer for alerts, and pumps for automated irrigation, this system aims to optimize water usage for urban gardening. The SWAP protocol employs data analysis to trigger the irrigation system when moisture levels are low or water availability is limited. By doing so, it ensures the efficient use of water resources, promotes sustainable urban agriculture, and aligns with the smart city vision, where data-driven technologies enhance the quality of life and environmental sustainability in urban environments..
Keywords: Arduino, Water Level Sensor, IOT, DHT11 Sensor, LCD, Soil Moisture Sensor
NOTE: Without the concern of our team, please don't submit to the college. This Abstract varies based on student requirements.
Block Diagram
Specifications
Hardware Components:
- Arduino UNO
- DHT11 Sensor
- Water Level Sensor
- Soil Moisture Sensor
- LCD
- Buzzer
- Relay
- Pump
- NODEMCU
Software Components:
- Arduino IDE
- Embedded C
Learning Outcomes
- Arduino pin diagram and architecture
- How to install Arduino IDE software
- Setting up and installation procedure for Arduino
- Introduction to Arduino IDE
- Basic coding in Arduino IDE
- Working of LCD
- Interface LCD with Arduino
- Working of power supply
- About Project Development Life Cycle:
- Planning and Requirement Gathering (softwareβs, Tools, Hardware components, etc.,)
- Schematic preparation
- Code development and debugging
- Hardware development and debugging
- Development of the Project and Output testing
- Practical exposure to:
- Hardware and software tools.
- Solution providing for real time problems.
- Working with team/ individual.
- Work on Creative ideas.
- Project development Skills
- Problem analyzing skills
- Problem solving skills
- Creativity and imaginary skills
- Programming skills
- Deployment
- Testing skills
- Debugging skills
- Project presentation skills
Paper Publishing
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