How internet used in agriculture


How is the Internet of Things used in agriculture?

  • Demand for irrigation identification. The need for water for crops is indisputable. However, when applied in the…
  • Identification of the need for soil correction. As in the case of water, sensors installed in the soil can also measure…
  • Diagnosis of the crop with the use of drones. The use of drones on agricultural…

The internet of things for agriculture leverages crop management devices, such as soil monitors. These devices are typically placed throughout fields to collect data specific to crop farming. The temperature, moisture, presence of pests, and more is detected by these devices and delivered for the farmer to analyze.


How do farmers use the Internet?

“When we accounted for multiple forms of access, 70% of farmers reported they use the Internet,” notes Arbuckle. The most common means of access, at 27%, was through a digital subscriber line (DSL) service; 14% of farmers reported accessing broadband through a satellite service, 13% through a wireless/cell phone service and 12% through cable.

What are the benefits of Internet of things in agriculture?

Benefits of Internet of Things (IoT) in Agriculture and Smart Farming Application of IoT in agriculture could be a life-changer for humanity and the whole planet. Currently, we witness how extreme weather, deteriorating soil, drying lands and collapsing ecosystems make food production more and more complicated and expensive.

What are the technologies used in agriculture?

Sensor-based systems for monitoring crops, soil, fields, livestock, storage facilities, or basically any important factor that influences the production. Smart agriculture vehicles, drones, autonomous robots and actuators. Connected agriculture spaces such as smart greenhouses or hydroponics. Data analytics, visualization and management systems.

How IoT is used in agriculture?

Plenty of ag IoT solutions are focused on optimizing the use of resources—water, energy, land. Precision farming using IoT relies on the data collected from diverse sensors in the field which helps farmers accurately allocate just enough resources to within one plant.


How does the Internet of things affect agriculture?

With IoT, companies can enjoy benefits like better crop productivity and improved worker safety. They can use less fertilizer, water and pesticides. Because farmers can decrease the fertilizers and pesticides they use, there is less runoff into groundwater and rivers. This results in a lower impact on the ecosystem.

How is technology used in agriculture?

Today’s agriculture routinely uses sophisticated technologies such as robots, temperature and moisture sensors, aerial images, and GPS technology. These advanced devices and precision agriculture and robotic systems allow businesses to be more profitable, efficient, safer, and more environmentally friendly.

What are 5 examples of technologies used in agriculture?

5 Unique Technological Advancements in AgriculturePrecision Agriculture. … Industrial Automation. … Automated Irrigation Systems. … Remote Monitoring of Crops Using Sensors. … Genetically Modified Crops. … Merging Datasets. … Learn More About the Impact of Technology on Agriculture.

How does e technology help farmers?

It improves the agricultural value chain through the application of the Internet and similar technologies. Information technology enables farmers to have better access to information which boosts productivity. It also facilitates him to get better rates through the information of change in price in various markets.

Demand for irrigation identification

The need for water for crops is indisputable. However, when applied in the appropriate amount and at the most favourable moment, the results enable the crop’s maximum productivity.

Identification of the need for soil correction

As in the case of water, sensors installed in the soil can also measure parameters such as pH (referring to soil acidity) and nutrient content. With this, they can identify local demands and allow a mapping of correction needs (liming, fertilization).

Diagnosis of the crop with the use of drones

The use of drones on agricultural properties has brought a infinity of practical solutions. Its integration via the Internet with sensors, GPS, and other equipment facilitated the acquisition of information and the system’s taking of actions and by the farmers themselves.

Use of smart greenhouses

Greenhouses are protected environments whose conditions of luminosity, humidity and temperature need to be controlled, either for the production of seedlings or for intensive agriculture. In general, this control is manual and mechanical, making use of its covers, sprinkling and other management measures.

Crop pest control

Anticipating the damage that a pest infestation can cause to the crop is a significant operational and economic advantage.

Why is IoT important in agriculture?

In order to increase productivity, quality, profitability in agriculture the precise applications have been introduced using IoT devices. Moreover, it helps farmers to use crop inputs more efficiently including pesticides, fertilizers, tillage and irrigation water.

What is IoT in agriculture?

Basically, IoT in agriculture is the crop management like weather stations, the crop management devices just need to keep on the fields to collect data for the particular crop cultivation. So, real-time data for temperature, crop growth, precipitation and more can be checked by these devices ( Arable, Semios ). So, these are all-in-one weather and crop monitoring devices. Due to this, here are some benefits of using IoT crop management devices:

What are the devices used to monitor livestock?

A few smart devices that are used in monitoring livestock are SCR by Allflex and Cowlar ( collar tags). Likewise, some pet care devices are:

Why is livestock monitoring important?

Firstly, to produce enough food for the world’s increasing population , the importance of livestock monitoring has come into the picture and IoT here plays that role. Likewise, to reduce farmers daily struggle to manage crops and livestock, livestock monitoring opens a new door.

Why is precision farming important?

Likewise, it prevents soil degradation in cultivable land resulting in sustained agricultural development. Precision farming changing the socio-economic status of farmers. hence precision farming is the right thing to adapt in modern agriculture.

How does smart greenhouse work?

Basically, to make the greenhouse smart weather stations have been introduced which is controlled by the internet of things. Smart greenhouse reduces human effort, increases the accuracy at the same time. Moreover, with the help of sensors, the real-time data can be analyzed which are:

Communication for development and the global Internet: conceptual approach

The purpose of this paper is to promote expansion of Internet services in support of rural and agricultural development. It presents a vision of an integrated approach that can lead to the growth of vibrant rural and agricultural communication networks across nations, regions and the globe.

Benefits of rural Internet access and improved horizontal communication

Enormous benefits await rural communities and agricultural organizations when communication improves between the non-governmental organizations, government services, private sector entities and educational institutes that support rural and agricultural development.

Elements for sustainability and success

Current evidence suggests that to achieve sustainability and success, Internet projects for rural and agricultural development must begin with the real needs of the local community of users. Project planners should be aware of the user needs of rural and agricultural producers, such as those identified in the above survey.

A vision with cautions and a call for “champions”

“The source of cyberspace’s obsessive appeal isn’t technology or information but people. In fact, it is really an interpersonal medium in which information plays a supporting role…


Relatively little is known about the association between Internet use and environmentally-friendly agricultural innovation adoption. To fill this void, this study examines the impact of Internet use on the adoption of sustainable agricultural practices (SAPs) and their heterogeneous effects on farm income and household income.

1 Introduction

Several studies have shown that agricultural production has brought a range of issues such as water and air pollution, land degradation, loss of biodiversity and increased human health risks, which poses challenges to land productivity, food safety and security, and environmental and health concerns (e.g. Atreya et al. 2012; Alavaisha et al.

2 Estimation strategies

The decision to use the Internet is not random but voluntarily selected by farm households (Chang and Just 2009; Khanal et al. 2015; Ma et al. 2020a ). Farmers who use the Internet (i.e. treated group) may have systematically different characteristics from those who do not use the Internet (i.e. control group).

3 Data and descriptive statistics

The data used in this study were collected from a farm household survey that was conducted in January 2019. A multistage sampling procedure was used for data collection. First, three provinces (Sichuan, Henan and Fujian) were randomly selected, respectively, from western, central and eastern regions of China.

4 Empirical results

The estimates for the impact of Internet use on SAP adoption are presented in Table 4. The estimated correlation between the treatment-assignment error and the outcome error is −0.948, and the statistic value is statistically significant at the 1% level.

5 Conclusions and policy implications

Although numerous studies have shown SAP adoption enables to enhance farm economic and environmental performance, little is known about whether Internet use in rural areas can increase the SAP adoption.

Open Research

The data that support the findings of this study are available from the leading author, Wanglin Ma, upon reasonable request.


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