Online ISSN: 2515-8260

Keywords : Arduino IDE


MQTT BASED SMART HUSBANDRY MONITORING FRAMEWORK WITH LIVE SURVILLANCE

Mrs. SUMITRA. V; Mr. VENKATSAI. P; Mr. MANIKANTH; K. SWAMINATHAN; Mr. NIKHILKUMAR .P

European Journal of Molecular & Clinical Medicine, 2020, Volume 7, Issue 4, Pages 2412-2417

This paper is lined up with smart husbandry monitoring framework with live surveillance using MQTT. In this paper the focus is to keep track of the animals in the farm by monitoring the shed temperature level, water level which comes with a remote control. For the farm monitoring an IOT module is developed using embedded technology. The microcontroller is connected with temperature sensor, waterlevelsensor, PHsensor, ultrasonic sensor to know the accurate values and to change them accordingly. The doors and the lights can be operated using the remote control in this paper which make the shed more secured. The camera used the shed will be ESP32 WIFI camera for the vision.The software tool used Arduino IDE and the programming language used will be Embedded C.

Automatic Cardiac Rhythm Monitoring System Using Internet Of Things

Dr. A. Devipriya; Dr.P. Thangaraj; Dr.A. Kousalya; Ms.M. SalomiSamsudeen; Ms.Geetha S.K

European Journal of Molecular & Clinical Medicine, 2020, Volume 7, Issue 2, Pages 5511-5519

Various people among us lose their life to heart attack. At present in India, the coronary episode passing rate is 34%. This is an aftereffect of their eating routine, age, less actual development and various parts. The primary driver of death during respiratory failure isn't giving prompt assistance to the patient. By constantly observing the beat rate and sweat of a patient, respiratory failure can be distinguished. The goal of this suggestion is to build up a high-profitability and minimal effort contraption which gauges the quantity of heart thumps every moment of the patient and recognizing the heart attack by putting sensors on any of the fingers (with the exception of thumb because of nonappearance of hairlike tissues) or at any spot on the body that the beat can be assessed from, and subsequently indicating the result on the chronic screen of the Arduino IDE. To build the precision of the framework, a dampness sensor is utilized to distinguish sweat cold. In the event that any irregularities happen, the GSM (Global System for Mobile Communications) module is actuated and it sends an alarm message to the versatile numbers which are as of now gave in the Arduino code. Utilizing the Google Maps API the closest clinic to the patient is found and the subtleties are shared to the closest rescue vehicle and relatives. The Electronic Health Records (EHR) is shared to the particular medical clinic before the appearance of the patient. The structure performs exact distinguishing proof and hint of messages to the unmistakable supervisors of the patients. Various lives may be saved in the short length by using this made structure.