Our world is experiencing an era of dwindling raw materials and limited resources. When we examine pollution, rising emissions, land deterioration, and water depletion, we can see that the sustainability issues are genuine. However, 3G mobile networks have just entered this similar scenario.
Although agriculture and mobile app technology appear to be unrelated on the surface, there is growing evidence that using mobile and cloud-based applications not only addresses these sustainability challenges but also creates financial value for both large agriculture-based companies and smallholder farmers.
The emergence of such mobile technology and portable, wireless devices and farm apps has resulted in the development of novel services and applications utilized in both developed and developing nations’ agricultural chains. There is some variance in these technologies’ acceptance in these two sectors though. Mechanization is more advanced in wealthy countries, and the farm workforce is substantially smaller.
Mobile apps are typically installed further up the value chain. Mobile technology is more routinely used to provide services to farmers and dealers in developing nations, where agriculture employs a big part of the workforce. The host of applications of mobile technology and farm apps in agriculture provides market information such as trading facilities, weather information, peer-to-peer learning, and financial services such as payments, loans, and insurance.
Cloud computing, integrated IT systems, online education via mobile phones make it simpler to disseminate agricultural-related information to farmers in the poorest areas. One advantage of such connectedness and information flow is that it assists farmers in making better land management decisions.
You may use it to monitor soil conditions and meteorological data to better plan the planting and harvesting season. Geographical Information Systems may offer farmers predictive information about pests and animal illnesses, allowing them to respond appropriately. Mobile and cloud computing technology may also optimize the usage of fertilizer and seeds.
Here are key advantages that a farmer can get from a Farm App.
Information is essential for a farmer's survival. Unless they knew what the future weather would be like or what kind of products would grow best on certain plots of land, there’s hardly any informed decision farmers can make.
Mobile farm applications come to the rescue. They provide farmers with any information they require at their fingertips. You may also use apps to assess terrain using drones. It saves people’s time and helps reduce danger.
Farmers are no exception to the rule that every business owner should know how the market works. This is especially significant for people living in rural regions.
They are required to gather as much market knowledge as possible to obtain negotiating power. And, with the usage of a smartphone and a farm app, you have access to all of the market information you require.
As with any other industry, technological advancement helps organizations to boost efficiency, and farmers are no exception. High-tech equipment combined with mobile apps significantly improves efficiency.
Farmers save time and money by integrating smart irrigation equipment, enhanced communication, GPS trackers, and smart monitoring systems.
Regarding payment, mobile apps may save both the farmer and the client/ consumer a lot of time. A payment gateway merely completes the task swiftly and conveniently.
Diseases frequently spread among crops and can have disastrous consequences if not addressed. Farmers no longer need to consult an expert for this because of an app. They can just check up on proper therapy on the phone.
The advancement of technology provides many chances for farmers to expand their enterprises. They no longer need to walk around the farm to monitor their crops or make guesses about the weather.
STAGE by Hydenmet is an end-to-end farm intelligence system. It addresses environmental and agricultural issues, providing farmers with effective solutions via sensor and instrument implementations.