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virtual sensor ppt jignasa....pptx
- 1. A Project Presentation on “Water Content Virtual Sensor for Irrigation Control ” By Sheshamma Manesh Naveen Sudheshnavi Bhargavi Pallavi Under the guidance of Vidyashree DEPARTMENT OF COMPUTER SCIENCE SCNMGDC NARAYANPET
- 2. Introduction to Domain Internet of Things (IoT): is basically a cloud of interconnected devices(micro controllers, micro processors, sensors) in such a way that, when connected to internet each of these device can communicate with every other. IoT is a framework which connects physical devices with each other over internet. Iot uses MQTT(Message Query Transfer Text), web socket protocols for communication
- 3. Introduction to project Water is a limited resource in many agricultural areas. Several institutions have worked to improve water use in irrigation, reducing the environmental problems associated with irrigation in order to solve the severe structural water shortage. The water needs to be supplied precisely, given that too much supply leads to washing out of fertilizers, substrate flooding etc.
- 4. Continued… If irrigation fails to provide enough water. This can lead to a decrease in production and might even be dangerous to crop growth. Hence, automatic irrigation control systems are fundamental tools in supplying water to the crop at the required amount and frequency.
- 5. Objectives To automate the watering service. To give the information of temperature to other farmers. Improving the health of the plant. To Improve the productivity of the crops.
- 6. Existing System Suppose we have a home plant it becomes difficult for anybody to keep on constantly monitoring overall health of plant. we put extra water , too little water for which the growth and health of the plant is affected. Problem of getting real time information. In order to give a solution for the above problems we propose to do a virtual sensor approach.
- 7. Proposed System Virtual Sensor for a plant is aimed that improving the health of the plant and improving the crop yield. It takes the electrical signal on the plant (moisture, temp) and it determines what the other things needed by the plant It generates a real time message to the user. Automation in watering service. Visualize data on thingSpeak Channel.
- 8. Hardware and Software Requirements: Hardware Requirements: Intel Edison Arduino Compatible Breakout board for Intel Edison Sensors: temp, rainfall, moisture and ldr sensor Actuators: 5V relay 9v External power supply/ Mobile Power Bank Internet Connectivity( WiFi), 3G Intel processor powered PC ( minimum 2 GB RAM, iCore3 and above processor) Android Mobile ( Android 4.0 and above)
- 9. Continued.. Software Requirement: Linux Yocto Operating System for Edison Compiler: Node.js IDE: Node Red Language: JavaScript Windows 7 and Above Operating System ( preferably 64 bit) PuTTY IoT Gateway: ThingSpeak IoT protocols: MQTT
- 10. Methodology: Virtual sensor: • The meaning of virtual sensor is a sensor network is created over a large agricultural field. • There are many number of sensors monitors certain data value. For example, the soil moisture, the humidity, temperature and then it will informs that value into a central server.
- 11. Continued.. The virtual sensor acts as a controller as well as sensor once it mitigates the data into the cloud we can view it through the mobile, laptop. Internet Of the Things (IOT) we can have a small micro controller many sensors, micro controller will have a internet connectivity it will get connected to internet through Wi-Fi then it will push the data onto a cloud then that data will be able to visualize using our mobile, and we can generate some command as for as the cloud is concerned.
- 13. Modules description Sensing Service: The sensing service will keep on receiving the data from the sensors that is from the hardware like moisture sensor, humidity sensor, temperature sensor, light sensors and gives data to the recording service. Recording Service: It will take the data from the sensing service and through the http protocol the data will be given back to the ThingSpeak cloud.
- 14. Modules description Decision System: sensor data will also go to the decision system it will keep on checking whether the data is less than threshold value or not, if it is less than the threshold it will give a message to the relay system. Relay System: Relay system is connected to the watering service whenever it will get a message from the decision system the watering service is triggered to switch on the pump.
- 15. Screen Shots
- 18. Controlling device by sending command
- 21. Graph showing variations in temp, moisture, light, rainfall
- 22. Conclusion In a country like India increasing the productivity of the crop is one of the major goals in agricultural development. In this proposed work a novel architecture based on advanced IoT architecture is used to improve the productivity of the crop. The proposed system utilizes the physical sensor system to gather the environmental data about the soil and environmental conditions and notifies this data to the farmer, the data can be visualized and analyzed in the real-time using thingSpeak IoT gateway. We have also proposed an irrigation control system using mobiles, it deviates from the existing GSM and GPRS system which is extensively expensive as the SMS’s and GPRS based web access is quite expensive. Result shows that the proposed system can monitor and notify about the environmental changes in real-time
- 23. Future Enhancement This system can further be improved by incorporating a machine learning and data intelligent system deployed at the cloud where by not only the current environmental and the soil health conditions can also be predicted, irrigation, pesticides and other corresponding crop related decision could further be triggered from the observation of the machine learning technique.
- 24. Thank You…