2. PROBLEM
Challenges in Green Houses
and Tunnel Farming
Water management
Crop monitoring
Control of actuators
Human efforts
3. SOLUTION
A System where users can monitor crop remotely through mobile and
automate actuators management to:
through economical pricing
SAVE
MONEY
through minimized labor
and chances of failure
EARN
MONEY
through quality and high
yield
SAVE
WATER
through automatic drip
irrigation system
6. DELIVERABLES
7th Semester 8th Semester
• Literature Review
• System Design
• Sensors and microcontroller Selection
• Sensors Testing and Integration
• Cloud for web server, database and
decision logic
• 7th semester Report
• Automation system Design and Testing
• Manual control system design and
testing
• Develop Mobile/web Application for the
User interface
• Installing multiple sensor nodes
• 8th semester report
7. LITERATURE REVIEW
Papers Automation Remote User Control Remote Monitoring Cloud Data Base
A Low Power IoT Network for
Smart Agriculture
No No Yes Yes
IOT BASED MONITORING
SYSTEM IN SMART
AGRICULTURE
No No Yes No
IoT-Based Smart Agriculture
Monitoring System with Double-
Tier Data Storage Facility.
No Yes Yes Yes
A wireless sensor network
prototype for environmental
monitoring in greenhouses
No No Yes No
Soil moisture monitoring using IoT
enabled Arduino sensors with
neural networks
No No Yes Yes
Our Proposed System Yes Yes Yes Yes
8. PROJECT TIMELINE
8 5/7/2024 Add a footer
Phase 1
Phase 3
Phase 4
Phase 5
Phase 6
Phase 7
Phase 2
OCT
NOV
DEC
JAN
FEB
MAR
APR
MAY
JUN
JUL
AUG
SEP
OCT - DEC
NOV
DEC
JAN-FEB
MAR - APR
MAY-JUN
JUN - SEP
Literature Review and System design
Developing cloud and 7th semester report
Automation System
Sensor testing and integration
Mobile Application
User Control System
System Testing, 8th semester report