Analysis of Visible Light Communication using Integrated Avalanche Photodiode
Volume-4 | Issue-2
A Review on Identifying Suitable Machine Learning Approach for Internet of Things Applications
Volume-3 | Issue-3
TOWARDS GHZ METALLIC ACCESS NETWORKS
Volume-1 | Issue-1
REVIEW ON UBIQUITOUS CLOUDS AND PERSONAL MOBILE NETWORKS
Volume-1 | Issue-3
Process Control Ladder Logic Trouble Shooting Techniques Fundamentals
Volume-1 | Issue-4
TRUST BASED ROUTING ALGORITHM IN INTERNET OF THINGS (IoT)
Volume-1 | Issue-1
COMPUTATIONAL OFFLOADING FOR PERFORMANCE IMPROVEMENT AND ENERGY SAVING IN MOBILE DEVICES
Volume-1 | Issue-4
ANALYSIS OF ROUTING PROTOCOLS IN FLYING WIRELESS NETWORKS
Volume-1 | Issue-3
Dual Edge-Fed Left Hand and Right Hand Circularly Polarized Rectangular Micro-Strip Patch Antenna for Wireless Communication Applications
Volume-2 | Issue-3
Modified Gray Wolf Feature Selection and Machine Learning Classification for Wireless Sensor Network Intrusion Detection
Volume-3 | Issue-2
TRUST BASED ROUTING ALGORITHM IN INTERNET OF THINGS (IoT)
Volume-1 | Issue-1
Hybrid Micro-Energy Harvesting Model using WSN for Self-Sustainable Wireless Mobile Charging Application
Volume-3 | Issue-3
Three Phase Coil based Optimized Wireless Charging System for Electric Vehicles
Volume-3 | Issue-3
Cyber-attack and Measuring its Risk
Volume-3 | Issue-4
REVIEW ON UBIQUITOUS CLOUDS AND PERSONAL MOBILE NETWORKS
Volume-1 | Issue-3
Analysis of Solar Power Generation Performance Improvement Techniques
Volume-4 | Issue-3
Pollination Inspired Clustering Model for Wireless Sensor Network Optimization
Volume-3 | Issue-3
Design of Low Power Cam Memory Cell for the Next Generation Network Processors
Volume-3 | Issue-4
A STUDY OF RESEARCH NOTIONS IN WIRELESS BODY SENSOR NETWORK (WBSN)
Volume-1 | Issue-2
Computation of Constant Gain and NF Circles for 60 GHz Ultra-low noise Amplifiers
Volume-3 | Issue-3
Volume - 5 | Issue - 3 | september 2023
Published
28 August, 2023
The greenhouse business is the quickest developing area around the world. The smart greenhouse helps in isolating the harvest from the climatic changes. It shelters the plant growth from immediate sunlight and outside weather conditions. To provide a monitoring and control facility within the greenhouse, a framework based on the Internet of Things will be more flexible and sensible. The research focuses on developing a smart, climate-controlled greenhouse for vegetable cultivation. This is achieved by using a low-cost, highly efficient programmable module to monitor and control the greenhouse's climate. The boundaries of the greenhouse are adjusted based on the specific requirements for optimal harvest production. The ESP12F NodeMCU module is utilized for this purpose. The areas that require improvement include the soil's water content, the temperature, and the moisture levels of the field. The plan involves checking with a soil sensor and a DHT11 sensor. The information gathered through the sensors are sent to the NodeMCU that is connected to the IoT or the web connection through a HTTP convention. The farmer is capable of receiving the information in his mobile phone with the help of the IoT. In the field of agriculture, innovation has rapidly advanced and continues to evolve, aiming to enhance and achieve optimal plant growth in the agricultural sector. A precise framework would undoubtedly have an impact on the world of Android/IDS smartphone applications.
KeywordsAC DC DHT11 ESP8266 IoT
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