Lora Iot Based Self Powered Multi Sensors Wireless Network For Next Generation Integrated Farming.pptx

: Lora Iot Based Self Powered Multi Sensors Wireless Network For Next Generation Integrated Farming

The primary target of this project is to give a programmed water system framework consequently saving time, cash and energy of the agriculturist. At whatever point there is an adjustment in temperature and humidity of the surroundings these sensors detects the change in temperature , PIR and stickiness and gives an interfere with flag to the micro-controller. This p roject proposes a computerized water system framework which screens and keeps up the coveted soil dampness content by means of programmed watering. ABSTRACT:

India's real wellspring of wage is from agriculture division and 70% of ranchers and general individuals rely upon the agriculture. In India the vast majority of the irrigation frameworks are worked physically. The worldwide irrigation situation is arranged by expanded interest for higher horticultural efficiency, poor execution and diminished accessibility of water for agriculture. These issues can be suitably amended on the off chance that we utilize computerized framework for irrigation. In Irrigation Control System Using Android and Google Assistant for Efficient Use of Water and Power. Mechanized irrigation framework utilizes Google Assistant to turn engine ON and OFF. INTRODUCTION:

The problem in existing system is that the agricultural land is fully maintained by human. Human power is required for detecting the infected plant, watering the plants. This intern required adequate number of human power at the land site for frequent monitoring of the land and control of required features. Problem statement :

Iot Based Smart Agricultural Monitoring System Dr.G.Rajakumar, M.Saroja Sankari, D.Shunmugapriyaand S.P.Uma Maheswari Article Received: 29 January 2018 Article Accepted: 26 February 2018 Article Published: 18 April 2018 Smart Agriculture System using IoT Technology Muthunoori Naresh, P Munaswamy International Journal of Recent Technology and Engineering (IJRTE) ISSN: 2277-3878, Volume-7 Issue-5, January 2019 IoT Based Irrigation Remote Real-Time Monitoring And Controlling Systems Tigist Hilemariam Senbetu, Kishore Kumar K, G.M. Karpura Dheepan International Journal of Innovative Technology and Exploring Engineering (IJITEE) ISSN: 2278-3075, Volume-8 Issue-7, May, 2019 LITERATURE SURVEY

EXISTING SYSTEM The current technique and one of the most seasoned routes in agriculture is the manual strategy for checking the parameters. In this strategy the ranchers they themselves confirm every one of the parameters and figure the readings. It centres on creating gadgets and instruments to oversee, show and alarm the clients utilizing the benefits of a remote sensor arrange system. It goes for influencing agriculture to keen utilizing computerization and IoT technologies.

1.Introduction In this chapter, the methods that available to involve in monitor and security system that given to agriculture field has been discussed . 2.Method Description in terms of monitoring aspects the presence of water in the well is monitored and then the moisturizing level of the soil and the temperature of the surroundings are monitored. These values are monitored by using respective sensors and are feed to the controller. The pump can control through Google Assistance server and can be controlled based on temperature and moisture level. Proposed System

Block Diagram:

A sensor that will sense the moisture level in the land (sand) called SOIL MOISTURE SENSOR. SOIL MOISTURE SENSOR

28 pin IC Board AT mega 328p microcontroller 32KB of flash memory Powered by USB 5V SRAM of 2 KB Clock speed 16MHz Arduino UNO:

Display data RAM (DDRAM) stores display data represented in 8-bit character codes. Its extended capacity is 80 X 8 bits, or 80 characters. The area in display data RAM (DDRAM) that is not used for display can be used as general data RAM. So whatever you send on the DDRAM is actually displayed on the LCD. For LCDs like 1x16, only 16 characters are visible, so whatever you write after 16 chars is written in DDRAM but is not visible to the user. 2 X 16 LCD DISPLAYS:

The DHT11 Humidity and Temperature Sensor consists of 3 main components. A resistive type humidity sensor, an NTC (negative temperature coefficient) thermistor (to measure the temperature) and an 8-bit microcontroller, which converts the analog signals from both the sensors and sends out single digital signal. This digital signal can be read by any microcontroller or microprocessor for further analysis. DHT11 Temperature and Humidity Sensor

ESP8266 offers a complete and self-contained Wi-Fi networking solution, allowing it to either host the application or to offload all Wi-Fi networking functions from another application processor. When ESP8266 hosts the application, and when it is the only application processor in the device, it is able to boot up directly from an external flash. It has integrated cache to improve the performance of the system in such applications, and to minimize the memory requirements. Wi-Fi ESP8266:

Submersible Water Pump A submersible pump (or sub pump, electric submersible pump) is a device which has a hermetically sealed motor close-coupled to the pump body. The whole assembly is submerged in the fluid to be pumped. The main advantage of this type of pump is that it prevents pump cavitation ’ s , a problem associated with a high elevation difference between pump and the fluid surface. Small DC Submersible water pumps push fluid to the surface as opposed to jet pumps having to pull fluids. Submersibles are more efficient than jet pumps. It is usually operated between 3v to 12v.

What does IFTTT stand for? Sign up for an account on the IFTTT website . It's a one-step process that only requires an email, username, and password. You can even sign in via Facebook and user Google ID. Once you've joined (it's free to do so), user will be able to find and set up Applet. Services IFTTT( I f T his T hen T hat) currently supports more than 360 services . User can find integrations for everything from iRobot vacuums to Facebook .

Reducing the risk of electric shocks, deaths due to poisonous creatures in the fields. Watering depends on the moisture level present in the field. Automatic controlling of water pump. It saves water and energy. Sustain high-yielding High quality crop production Initial Cost is high.

There are many other applications 1. Framers field monitoring 2. Public gardening 3. Domestic gardening 4. Green house monitoring

We can predict soil moisture level and motion of predators. Irrigation system can be monitored . Damage caused by predators is reduced. Increased productivity. Water conservation. Profit to farmers.

1. Iot Based Smart Agricultural Monitoring System Dr.G.Rajakumar, M.Saroja Sankari, D.Shunmugapriyaand S.P.Uma Maheswari Article Received: 29 January 2018 Article Accepted: 26 February 2018 Article Published: 18 April 2018 2. Smart Agriculture System using IoT Technology Muthunoori Naresh, P Munaswamy International Journal of Recent Technology and Engineering (IJRTE) ISSN: 2277-3878, Volume-7 Issue-5, January 2019 3. IoT Based Irrigation Remote Real-Time Monitoring And Controlling Systems Tigist Hilemariam Senbetu, Kishore Kumar K, G.M. Karpura Dheepan International Journal of Innovative Technology and Exploring Engineering (IJITEE) ISSN: 2278-3075, Volume-8 Issue-7, May, 2019 REFERENCES:

Lora Iot Based Self Powered Multi Sensors Wireless Network For Next Generation Integrated Farming.pptx

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