Final Report: IOT in FARMING Length: 4000 words max Start writing your draft, as you do your research project. (Put it all together) i. Write an executive summary of the report (Purpose, Scope,...

Full Name
    
    Student ID
    
    Subject
    INTERNET OF THINGS
    Assignment No
    IoT Research Report - Milestones
    Due Date
    
    Lecturer’s Name
    Malka N. Halgamuge
IOT in FARMING
Running head: IoT in farming
IoT in farming
2
Contents
ABSTRACT    3
1.    INTRODUCTION    5
2. ANNOTATED BIBLIOGRAPHY    6
3. Review of Literature    13
4. PROBLEM SOLUTION OR RECOMMENDATIONS OR FINDINGS    17
References    20
ABSTRACT
For producers and farmers, the IoT opened highly productive methods to increase livestock for the increase of livestock and the abundance of insight data provided by the use of cheap, easy-to-install sensors are there. The rich, smart farming applications on this brilliant construction of the things in agriculture are acquiring land with the promises of providing 24/7 visibility in the soil as well as crop well being, storage conditions, machinery performance, animal behavior, moreover level of energy consumption.
Cloud computing in cloud issues is a comprehensive set of technologies, policies and controls designed to defend cloud security data, applications moreover cloud computing related infrastructure, or more easily. This is a sub-domain of information security, computer security, network security, and more widely. In the order to save cut costs, resources as well as maintain efficiency, the cloud service provider often stored more than the one customer data on same servers. As a result, the user's personal data is likely to be seen by other users. To handle such sensitive situations, the cloud service providers should ensure appropriate data segregation and logical storage separation.
Fog computing is a well promising cloud computing paradigm, which enhances cloud computing (CC) to edge of the network. Similar to the cloud computing, nevertheless with specific features, mist computing faces latest privacy and security challenges inherited from the cloud computing. The proliferation of ubiquitous associated smart devices is shaping the major elements of computing. The quick development or growth of the wearable computing, the smart city, smart metering, connected vehicle as well as large scale network wireless sensor is called IOT, everything is connected moreover smart. IDC has predicting that in year 2014, "IOT 2014 will continue to expand rapidly to 14% of the traditional IT industry.
Research assignment focuses on IOT in cultivation. Farming and agriculture industry depend on innovative ideas and technical progress to help increase yield and allocate resources. In the second half of the 19th century and the twentieth century, many mechanical innovations came in the way of tractors and harvesters. Today, behind the increase in agricultural production, there is a driver force IoT, which leave the door broad open for the engineers who are looking for a smart farming resolution and IoT agricultural market sensor.
1. INTRODUCTION
Over the last two decades, the vast majority of the internet and the organizations around a world have unlimited benefits. The most significant advantage was the capability to consume as well as produce services and data in a real time. Currently, I promise to bring the same benefits to the things the Internet everyday object, making us find a method to increase our capability to modify their perception and around us surroundings. In this contexts, agricultural-industrial or environmental files are ideal candidate for deployment of Internet of Things solutions as they are in broad areas which need constant monitoring and control. Additionally, IOT Ground floor beyond Orr Automation is to create new opportunities opens when aggregated forecast data using algorithmic machine learning, decision-making close to the owners, decision-makings for the policy makers or managers (Babu & Anjan Babu, 2018). The IOT may be use at various levels in industrial-agricultural production chain. This soil can help to assess state, atmospheric conditions, and large variables such as biomass of animals or plants. It can be used to control and assess variables for example temperature, vibration, humidity as well as shock during the product transport. This can be used to monitor the production condition and to meet the demand for shelf or refrigerators. In addition, it can provide information to the user/customer who receives information about the origin and properties of the product. IOTs implemented in the agricultural industry can contribute to creating an informative, connected, developed and adaptable rural community. Depending on the IOT model, low-cost electronic equipment can improve human interaction with the physical world and can provide valuable analysis of electricity and software available on the Internet. In short, the IOT may be a valuable tool in coming years the people who interact within agro-industrial systems: technicians, super-players, farmers, distributors, and professional guy, consumer and government representatives.
2. ANNOTATED BIBLIOGRAPHY
Article 1
    CITATION
    Kaewmard, Nattapol, and Saiyan Saiyod. "Sensor Data Collection and Irrigation Control on Vegetable Crop Using Smart Phone and Wireless SensorNetworks for Smart Farm." 2014 IEEE Conference on Wireless Sensors (ICWiSE), 2014. doi:10.1109/icwise.2014.7042670.
    SUMMARY
    This article talks about feeding the current population in this century as the main problem, mainly to the smart trade. It author states that smart farm employs agriculture automation system in place of old- style farming. Old-style farming approaches used by the local societies are greatly viable, though the wide-ranging cost is not cheap. The author of this article aims to offer long term workable resolution to mechanization of farming. Farming mechanization has a number of ways to gathering information concerning vegetable yield such as sensor for conservational capacity. Thus, the article develops a convenient measurement technology involving air humidity, air, soil moisture, and temperature sensors. Furthermore, irrigation scheme employing sensor wireless network have fitted the devices, aiming at gathering information regarding environment as well as monitoring the irrigation system through phone devices.
    CRITIQUE
    This article aims to catch healthier means of governing an irrigation system made up of both manual control and automatic system through smart phone devices. Therefore, to manage the irrigation system, the article has developed the communication approach of wireless sensor network to handle the gathered environment information and conveying switch command to switch off/on the irrigation tool. It is fruitful in monitoring the irrigation scheme and directing the water adjoining the vegetable habitats. The article also attempts to validate the mechanization of the irrigation scheme that is suitable for homestead trade which make it better as compared to employing old-style farming by employing smart phone devices in controlling and monitoring the system. Therefore, in the long-term has minimized the cost too. The trial outcomes in the article indicates that the precision of receiving and sending command switch for irrigation scheme is 96% and accurateness of environs assortment is around 98%.
Article 2
    CITATION
    Nayyar, A., & Puri, V. (2016). Smart farming: IoT based smart sensors agriculture stick for live temperature and moisture monitoring using Arduino, cloud computing & solar technology. Retrieved from https://www.researchgate.net/publication/313804002_Smart_farming_IoT_based_smart_sensors_agriculture_stick_for_live_temperature_and_moisture_monitoring_using_Arduino_cloud_computing_solar_technology
    SUMMARY
    By making things smart and intelligent, the IOT technology has brought revolutions in every area of ​​the common man's life. IOT refers to IoT that make up a self-configurable network. The development or growth of intelligent smart farming IOT-based equipment varies from day to day production of face not only by increasing it but due to cost-effective and waste reduction. The object / purpose of this paper is to present a novel smart IOT based farm stick to help farmers achieve live data (temperature, soil moisture) for efficient environmental monitoring so that they can make smart farming and the overall yield and quality of the products Will help in increasing. Through this study, the proposed agricultural stick has been integrated with Ardino Technologies, mixed bred-boards and live data feeds with different sensors can be obtained online from Thingsspeak.com. The test of the proposed product is done on live agricultural areas which provide more than 98% accuracy in data feeds. In order to get more information on pest control in particular, this stick will be focused more on the growing sensor and integrating the GPS module into this IOT stick to enhance this agricultural IOT technology in the complete agricultural precision product as well.
    CRITIQUE
    In this research paper, a novel smart farming enabled: Proposal of IOT based agriculture stick for live monitoring of temperature and soil moisture has been proposed using Arduino, cloud computing and solar technology. Stick has high efficiency and accuracy in bringing live data of temperature and soil moisture. Proposal of Agriculture stick through this paper will help agricultural farmers to increase agricultural produce and take efficient care of food production, because the stick is always to get soil moisture with more than 99% accuracy of the temperature and soil moisture to help the farmers in the hands the result is.
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