Online ISSN: 2515-8260

Keywords : pH Sensor


SMART AGRICULTURE ROBO WITH LEAF DISEASES DETECTION USING IOT

Dr.A. SENTHIL KUMAR; Dr. VENMATHI A R; L. GANESH BABU; Dr. G. SURESH

European Journal of Molecular & Clinical Medicine, 2020, Volume 7, Issue 11, Pages 2462-2469

In our paper we endow with a comprehensive irrigation way out to cultivator fashion and expenditure important to computerized irrigation structure to shrink water’s throw away is a dispute. It is essential to evaluate dissimilar parameters to determine the resourceful measure of water for vegetation. The planned structure is self-possessed of altered types of near to the ground charge and power utilization sensors. For instance - mud humidity sensor used to be in charge of opportunity for the irrigation control device. Stylish touchtone phone is used for an out-of-the-way monitoring. The mud wetness sensor is worn for compute the earth humidity level. The wetness intensity significance is also conveying the individual portable by means of webpage. The PH sensor is used for appraise the PH significance. The water drive is second-hand for monitoring humidity stage when if its decreases the irrigate pushes into the land without human intervention. The stepper vehicle is used for automaton faction. Finally a digitalized HD camera is worn for become aware of folio diseases additional to fire disaster.

SMART AGRICULTURE ROBO WITH LEAF DISEASES DETECTION USING IOT

Dr.A. SENTHIL KUMAR; Dr. VENMATHI A R; L. GANESH BABU; Dr. G. SURESH

European Journal of Molecular & Clinical Medicine, 2020, Volume 7, Issue 9, Pages 2462-2469

In our paper we endow with a comprehensive irrigation way out to cultivator fashion and expenditure important to computerized irrigation structure to shrink water’s throw away is a dispute. It is essential to evaluate dissimilar parameters to determine the resourceful measure of water for vegetation. The planned structure is self-possessed of altered types of near to the ground charge and power utilization sensors. For instance - mud humidity sensor used to be in charge of opportunity for the irrigation control device. Stylish touchtone phone is used for an out-of-the-way monitoring. The mud wetness sensor is worn for compute the earth humidity level. The wetness intensity significance is also conveying the individual portable by means of webpage. The PH sensor is used for appraise the PH significance. The water drive is second-hand for monitoring humidity stage when if its decreases the irrigate pushes into the land without human intervention. The stepper vehicle is used for automaton faction. Finally a digitalized HD camera is worn for become aware of folio diseases additional to fire disaster.

AN ARTIFICIAL INTELLIGENCE BASED ADVANCED SHRIMP FARMING

S.Jagadeesh Babu; M. Shyam; A. Sivakumar; R. SathyaVignesh; J. Yogapriya

European Journal of Molecular & Clinical Medicine, 2020, Volume 7, Issue 4, Pages 2383-2390

In modern years, the development of technology has been rapidly improving and applying in aquaculture, also known as aqua-farming. A versatile, advanced shrimp farming based on Raspberry pi. A pH sensor, temperature sensor, water level sensor, turbidity sensor are used here to monitor the sudden abnormal change in the condition of the shrimp pond. Besides that, Raspberry pi is used as a server to control all the sensor nodes in this system. The system also sends an alert message through SMS service to prompt the user when needed or to monitor the system on the mobile phone. Thus, time consumption, man power, efforts of the farmer can be reduced. The proposed design has been successfully planned with a dependable, fast response and easy to use with a friendly environment. It is appropriate for small to mid-sized farming operations as it does not require any remodeling of the water front. In this work, a wireless sensor platform is developed, applied to the measurement of temperature, pH and water level in the environment shrimp ponds. The control platform consists of Raspberry pi to control all the system. Then the artificial intelligence system is developed to achieve data from sensor network anywhere via web application as well as Android application. The system is monitored in real-time and can be controlled manually or automatically.

IOT BASED PUBLIC WATERING SYSTEM WITH QUALITY MEASUREMENT

Dadi Kalpana; Dr.S. Venkatesulu

European Journal of Molecular & Clinical Medicine, 2020, Volume 7, Issue 1, Pages 2360-2366

Water contamination is one biggest factor for no green globalization. To prevent that and make the green globalization we need to monitor the water quality. We implement a system IoT based Public Watering System with Quality Measurement for continuous water quality measuring and alerting. In this proposed paper we implemented Internet of thins based system with pH sensor, Water quality sensor, Conductivity sensor, Flow sensor, all are integrated to the novel micro controller NodeMCU model and for IoT we used ESP8266 module for server creation and alerting to the public government dashboard.