IoT in Agriculture: Actual Use Cases, Projects, and Main Features

The Internet of Things (IoT) is revolutionizing the agriculture sector, making it more efficient, sustainable, and productive. By integrating sensors, drones, and advanced irrigation systems, IoT enables real-time crop monitoring and optimized resource usage. This technology empowers farmers to make informed decisions based on data-driven insights, transforming traditional farming practices and enhancing overall agricultural outcomes.

In this article, we will discuss what is IoT, how it aids in monitoring crops and optimizing irrigation systems. Besides, here you will be presented with comprehensive examples of digital solutions that demonstrate IoT engagement in real-world conditions, discuss challenges, and more

What is smart farming? 

Agtech, or intelligent farming, transforms agriculture with the help of IoT technologies. Farmers get a more accurate knowledge of the status of crops, soil, weather conditions, and equipment operations using real-time data collected from sensors, drones, and other devices. This kind of connectedness allows a grower to be far more operationally efficient, leading to higher productivity and better use of resources.

The primary focus of smart farming is sustainable development. IoT-based solutions enable farmers to optimize water usage, reduce their reliance on chemicals, and minimize environmental pollution. These innovations not only increase crop yields and reduce food production costs but also ensure the safety of agricultural workers. By leveraging technology, farmers can cultivate more efficiently and responsibly, contributing to a healthier planet and a more sustainable future.

When agricultural sustainability is being questioned under conditions of resource constraints and labor scarcity, smart farming appears to be one of the rays of hope for a seamless and greener future. 

Benefits of IoT in Agriculture 

Here are key benefits you may obtain by implementing IoT within your agriculture business:

Valuable data extraction

Data plays a crucial role in agriculture. With the deployment of IoT devices, farmers can gather detailed information about their environment, crops, and livestock, enabling them to make informed decisions to boost yields and reduce waste. For instance, soil sensors can provide real-time alerts about water needs, helping farmers conserve resources and enhance productivity.

Risk management

In terms of risk management, farming involves navigating numerous challenges such as weather, pests, and diseases. IoT acts like an ever-vigilant guardian, providing farmers with tools to manage risks effectively. With accurate warning systems and predictive analysis, farmers can take proactive measures to safeguard their crops and livestock, ensuring a more resilient and successful farming operation. It minimizes the risks of crop failure and economic losses, making farming less hazardous. 

Efficiency and automation 

With IoT technology, all processes like watering, fertilizing, and harvesting are automated, thus saving time and labor but not losing in accuracy. Moreover, intelligent logistics and supply chain systems smooth the conveyance of harvests, thereby decreasing spoilage and increasing profit. 

Improved product quality 

IoT helps farmers maintain ideal conditions for crops and livestock so that better-quality yields are obtained. Therefore, the farmers can demand high prices in the market and ensure that consumers will receive better-quality produce and livestock products.

Use Cases of IoT in Agriculture 

Here is an example of the practical application of the IoT in agriculture:

Livestock Monitoring 

Previously, monitoring the livestock was pretty labor-intensive. However, nowadays, with the IoT enabled, health and presence can be monitored constantly. Nowadays, vital signs, feeding habits, and activity levels of animals are monitored through wearable sensors. The deviation is instantly informed to the farmer, almost like having a private vet 24/7. If a cow grazes too far or is showing signs of illness, the system sends off instant notifications so that timely interventions can be made. 

Monitoring the weather conditions 

The realization of the farming season is highly dependent on weather conditions. A farmer places IoT sensors around the farm to get critical data regarding temperature, humidity, and soil moisture, among other environmental conditions. This way, they can forecast the weather, hence ensuring proper decisions on when to plant a particular crop and how to set watering schedules. It’s just like holding a crystal ball that shows you exactly what’s going to happen in the future—which helps avoid calamities and maximizes one’s opportunities. 

Automated greenhouses 

Automated greenhouses are the ideal environment for IoT. In such an environment, sensors and controllers control temperature, humidity, light, and soil moisture levels. This ensures that plants flourish in ideal conditions without requiring constant human attention. It’s as if a dedicated team of expert gardeners is always on hand, meticulously caring for the plants and ensuring they thrive in carefully monitored environments. 

Crop health monitoring

The power of IoT allows drones and ground sensors to closely monitor the health of crops, providing farmers with real-time insights and data. Drones, along with ground sensors, scan crops in granular detail. They can thus automatically detect diseases, pests, or nutrient deficiencies when they start, giving the farmer the optimal window to act. It’s as if a watchful scout is always out in the field and able to act on potential issues before they become acute concerns. 

Integrated farm management systems 

IoT technologies within farm management systems are a total approach. These systems provide a central platform for farmers to manage everything from planting times to equipment servicing time. For example, real-time data and analytics can be accessed both from smartphones and computers, enabling one to manage the resources for optimum productivity. It is almost like a centralized controlling mechanism for the farm now transferred into one’s hand.

Drones utilization

Drones are important in modern agriculture, measuring farmlands with advanced cameras and sensors. Drones make comprehensive maps, check the health of crops, apply pesticides, or do controlled application of fertilizers. It is as if an entire fleet of flying personal assistants could carry out agricultural work over vast tracts of land faster than ever before and far better than any human physically on foot or driving machinery to do the same. 

Key Factors to Consider When Deploying an IoT Solution in Agriculture 

Anyway, implementing IoT systems within your agriculture business may be tricky. Here are the main points you should consider before full-scale incorporation: 

Specify your farm’s unique needs 

Understanding specific farm needs is essential to embrace technology on a farm effectively. This involves considerations of crop or livestock type, farm size, and certain environmental conditions that situate the farm. This will help meet the actual operational needs of the farm better by tailoring a solution for these specifics. 

Manage connectivity 

Proper connectivity is the base on which every IoT solution is built. Farming is often located in the countryside, and no quality and stable internet connections can be taken for granted when out there. In this light, it is crucial to choose resilient communication technologies applicable to such conditions. Examples are LPWAN (Low Power Wide Area Network), satellite links, and cellular networks. 

Focus on data security and privacy 

The data created in agriculture is valuable and sensitive. Robust mechanisms should be set up on the security part to safeguard data from being accessed by unauthorized persons and from cyber threats. Techniques including encryption, secure storage solutions, and continual security updates are required to secure valuable information from IoT gadgets. 

Check the power management 

In fields and most remote areas, the functionality of most IoT devices is always maintained under a meager power supply. Sensors and Device Energy Requirements Review the energy demands of sensors and devices, together with their sustainable options, such as solar power or rugged batteries, to keep them operational with little downtime due to maintenance. 

Ensure interoperability with existing systems 

Farms typically have various tools and systems that they use for management. Any IoT solution has to integrate easily with the systems currently on the ground and the software. This ensures that compatibility leads to a holistic approach in farm management, thus increasing overall efficiency. 

Assess cost consideration

Implementing an IoT solution is costly, and it presents one of the significant problems. We should consider not only the investment at inception but also operating costs. To make this less of an impact on the balance sheet, custom software development can emphasize high expected benefits in terms of efficiency, productivity enhancement, and effective utilization of resources.

Author bio
Yuliya Melnik is a technical writer at Cleveroad, a software development company in Ukraine. She is passionate about innovative technologies that make the world a better place and loves creating content that evokes vivid emotions.