scholarly journals IOT Based Smart Agriculture Monitoring System

In old Days Farmers was very interested to figure out the fertility of soil and impact on feeling to grow which to quite yield. They brought some thoughts which leads to detect humidity level water level climatic condition with the help of internet of things (IOT) which is redesigning the farming sector through the wide range of strategies, as an example accuracy furthermore as practical farming to house challenging within farming sector. The application of IOT helps in gathering of information which is quietly helpful in farming sector like changing in climatic condition fertility of soil , amount of water needed for crops , bug location interruption of creature to the sphere, horticulture, .IOT helps farmers to proper utilize the technology together with the information with his residence from wherever and at whatever point. Different types of sensors are used for the inspection and control of the crop which are very significant under their precise output and use. cameras are used for remotely monitoring the field. IOT technology helps in best crop management, increase in productivity and reduce the trouble of farmer as compared to normal farming.

Author(s):  
Vanita Jaitly ◽  
Shilpa Sharma ◽  
Linesh Raja

The word “smart” is quite commonly associated with different types of products of IoT sensors and its contemporary technology. The frequent progress in the contemporary technology includes convention and the progressive integration of microprocessor. This gives the smart sensors application to a wide range of applications. Smart sensors when associated with agriculture are known as smart agriculture. With the help of smart sensors, technology of internet of things has helped agriculture in facilitating its efficiency, which further helps in decreasing the impact of environment on the production of the crops and deprecate the expenses. This is done by a few methods like calculating the condition of the environment, which affects the production of the crops, keeping a check on the cattle health and indicating when some problem occurs. The author discussed about sensors, their nature and evolution, generations of smarts sensors, and how they became better with the course of time in terms of smart agriculture.


2017 ◽  
Vol 23 (1) ◽  
pp. 61-65
Author(s):  
Pavel Bučka ◽  
Vladimír Andrassy

Abstract The existing conflicts, both military and non-military are currently mostly of non-linear nature, where units composed of multiple specializations, both smaller and acting independently are prevailing. Those units are usually separated from home base and proper access to its own central supply lines of communication which strengthens emphasizes on their independent command and control, coordination within deployed forces and other assets within given operation. Therefore, prior collective training and preparation for deployment is one of the crucial operational planning requirements before deployment takes place. Modern training simulation techniques and assets do support preparedness of those units planned for deployment by aligning and synchronizing interoperability of their activities. One of such techniques - Blended simulation - can realistically generate a wide range of situations with exact imitation of activities to practice the ability of different types of units to the declared capabilities across the broad spectrum of tasks. Evaluation of the blended simulation effectiveness does further help to deliver more efficient methodologies and tactical procedures for further use within preparation stag. Such approach is in line with the trend of increased use of modelling and simulation techniques within military education and training.


2020 ◽  
Vol 12 (8) ◽  
pp. 138
Author(s):  
Andrew John Poulter ◽  
Steven J. Ossont ◽  
Simon J. Cox

This paper examines dynamic identity, as it pertains to the Internet of Things (IoT), and explores the practical implementation of a mitigation technique for some of the key weaknesses of a conventional dynamic identity model. This paper explores human-centric and machine-based observer approaches for confirming device identity, permitting automated identity confirmation for deployed systems. It also assesses the advantages of dynamic identity in the context of identity revocation permitting secure change of ownership for IoT devices. The paper explores use-cases for human and machine-based observation for authentication of device identity when devices join a Command and Control(C2) network, and considers the relative merits for these two approaches for different types of system.


2019 ◽  
Vol 8 (4) ◽  
pp. 5490-5494

Internet of Things (IoT), a well-known branch of computer science has introduced smart farming to each and every farmer’s neighborhood while offering constructive green agriculture. IoT depicts a self-configuring chain of components. The efficient implementation helps agriculture, a self-discipline as nicely as reducing human work and increasing crop cultivations. This paper endorses sensible IoT based Agriculture Stick as farmers aid by obtaining Live knowledge (Temperature, SoilMoisture) of farm data.These live readings help the farmers to try clever farming and to increase their average crop yields, also the quality of plants.The Smart Agriculture with Arduino Technology supports the farmers to control the live farm data and get the desired crop cultivation results


Author(s):  
Pratheksha Rai N

Health is the important key for any living. The monitoring of one’s health is so important in today’s busy world ,that most of the people run out of time when they get to know the disease, which actually is not fatal. Smart Health Monitoring system gives you a track of your health, making your work easier to know the data of your health without running every time to hospital. This paper is a study about Smart health Monitoring system using Internet of things (IOT).Internet of things plays An very prominent role in wide range of healthcare applications and it also serves as a catalyst for the healthcare. Smart devices and wireless sensor networks are used here for the analysis of different health parameters in real-time.


2021 ◽  
Vol 11 (1) ◽  
pp. 54-57
Author(s):  
Mrs. P.Menaka ◽  
B. M. Shrinithi

As a Smart innovation with greatness suggestions gives the better outcome when contrast and Existing System. This work about the water level detecting inside the tank and interface it to Node MCU (which holds wi-fi module to send message) to send status of the tank to Blynk application through Arduino ide code. This gives a thought that the things get associated over organization roll out more brilliant improvement for later. In nowadays everything dependent on the advanced cell and its applications. Along these lines, this venture would be helpful in impending ages. The fundamental point of this framework is to screen the water level at rustic zones with the goal that they can identify the wastage of water and measures can be taken to dodge superfluous flooding of water in the zones where observing is tricky.


Internet of Things (IoT) is an advanced technology for monitoring and controlling device anywhere in the world. It can connect devices with living things. Agriculture is one of the major sectors which contribute a lot to the financial of India and to get quality product, proper irrigation has to be performed, to reduce man power using modern technology of internet of things IoT in today’s life. Soil moisture is an integral part of plant life, which directly affects crop growth and yield, as well as irrigation scheduling. This system will be a substitute to traditional farming method. We will develop such a system that will help a farmer to know his field status in his home or he may be residing in any part of the world. It proposes an automatic irrigation system for the agricultural lands. Currently the automation is one of the important roles in the human life. It is not only provides comfort but also efficiency and time saving. So here it is also designs a smart irrigation technology by using raspberry pi and connecting to the weather API. Raspberry-pi is the main heart of the whole system. An automated irrigation system was developed to optimize water use for agricultural crops. Automation allows us to control appliances automatically. The objectives of this to control the water motor automatically, To monitor the soil, water level using weather API.A robotized irrigation system framework might have been created should streamline water utilize to agriculture crops. Mechanization permits us with control appliances naturally. Those targets for this on control those water motor naturally monitor the soil, water level utilizing weather API In previously we are using the soil moisture control by using some set of sensors by this water is pumping continuously even though it is rainy.so by this over flow of the water is taken place to overcome this problem we are using the cloud monitoring system based on the weather conditions.


2021 ◽  
Author(s):  
Shrey Chirag Shah ◽  
Anwita Chakraborty ◽  
Yelithoti Sravana Kumar ◽  
Tapaswini Samant ◽  
Swati Swayamsiddha

Author(s):  
Kushal Rajput ◽  
Rizwan Khan

Overflowing garbage tends to unwell environment and yield to pollution and diseases. As population increases, the scenario of cleanlyness withrespect to garbage management downgrading densely. The objective of the system is for improvement of waste collection and to reduce fuel consumption. Generally, the main concept of this system is about collection of huge ammount of wastein least amount of time to reduce the cost. This invention provide us a through which we can monitor and control spreading of garbage for a healthy and safe environment. In this paper authors discuss the technologies used for garbage collection with concern of time & cost.


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