A country's economy relies heavily on the agriculture sector. Population growth, however, will put pressure on the agricultural sector and require multiple scaling measures to cope. Climate change, disease, and infertile land have also sparked the sector's adoption of tech-based approaches, such as artificial intelligence.
Every industry is being revolutionized by digital technologies, including agriculture. It has been shown that artificial intelligence and machine learning will have a big impact on agriculture in several ways. This includes helping farmers minimize the risk of disease, enhancing climate adaptation, tracking the security of crops with drones, etc., while cutting down labor costs.
AI-driven Smart Agriculture
An important component of Artificial Intelligence in Computer Vision. By utilizing emerging technology, machines can understand and perceive the visual world in a similar way to humans. The use of computer vision techniques in combination with remote cameras allows agriculture to provide non-contact and scalable sensing solutions.
Computer vision optimizes production costs and boosts the overall efficiency of agricultural operations. CV-driven farming activities facilitate easy farming-insight access to farmers and help in real-time troubleshooting. Computer vision-enabled smart sensors aid farmers in switching to more cost-effective farming practices and reducing risk.
Recent developments in deep learning have revolutionized image recognition. The accuracy of real-time image recognition is much higher with deep learning algorithms than with traditional computer vision algorithms. Video analytics can therefore be performed with video captured by surveillance cameras or webcams using deep learning methods.
Use Cases of computer vision and Deep Learning in Agriculture
- Drone-based crop monitoring
There is the widespread use of drone technology in the agriculture sector to boost efficiency and overcome labor shortages. Drones with high-definition cameras and computer vision are used to monitor crop health, soil conditions, the application of farmland, and the detection of abnormalities in precision agriculture. Drones can cover a larger area much more efficiently and accurately than humans.
The initial cost of investing in drones that are equipped with computer vision can be high; thus, it is crucial to evaluate the business, short- and long-term expectations, and return on investment of such technologies before making a purchase.
- Sorting and grading of crops
Computer vision has become an increasingly popular means of sorting and grading harvests. These repetitive and time-consuming jobs could be faster and more efficient if they were automated. It is possible to identify and sort crops using machine vision systems according to the specifications in the order of using these systems. This can be done much more quickly and efficiently with a machine vision system than manually.
Furthermore, machine vision systems in agriculture are capable of sorting products according to their perishability to identify which batch should be delivered first and which should be delayed.
- Drone-based pesticide spraying
To protect crops from pests and diseases, it is common practice to spray pesticides on the crops. Farmers must, however, spend a considerable amount of time on this process, which can be dangerous if they inhale it.
With drones equipped with spray guns and cameras, pesticides can be applied at the necessary rates and levels based on areas requiring pesticides.
- Phenotyping using computer vision
In phenotyping, plant characteristics are measured and analyzed for research purposes. Plants are studied to learn how they grow, what type of environment is good for them, and even their genetic make-up.
Computer vision in farming and artificial intelligence are now used to automate this process. In an era when climate change threatens agriculture, computer vision-enabled phenotyping is helping breeders obtain more information about plants so that they can be made more resistant to climate change. Moreover, it aids farmers in choosing a crop that is most likely to succeed and be sustainable.
- In the livestock industry
There is a growing use of artificial intelligence in livestock farming. Computer vision aids in collecting, storing and retrieving data for livestock farms. AI-driven livestock farms predict consumer behavior, benefitting the food chain. Managing a livestock farm and analyzing it is much more difficult than monitoring crops. Animals move from one place to another and they’re often difficult to distinguish from their herd.
Deep learning enables farmers to receive alerts whenever there is any trouble on the farm. Using remote control systems, farmers can also regulate times of feeding, milking and cleaning the animals periodically. Besides, smart livestock farms also have diet plans for each animal that are monitored from time to time for any updates.
Benefits of Computer Vision and Deep Learning in Agriculture
- Minimize risk
The use of artificial intelligence can help farmers reduce their crop failure risk by analyzing weather and soil conditions, water use, and disease risk. This is accomplished by providing valuable insights such as when to sow seeds and what crops or seeds to choose.
- Healthier harvests
By detecting plant diseases, weeds, and pests in advance, chemical applications such as herbicides and pesticides can be minimized, and costs can be reduced. Using robots has reduced herbicide usage by 90% and eliminated 80% of the chemicals sprayed on crops
- Location-optimized farming
As well, artificial intelligence in harvesting, picking, and vacuuming apparatuses can assist in determining the exact location and type of fruit to be harvested.
- Precision agriculture
Satellite imagery and weather data can be utilized by AI applications to determine market trends, such as which crops are in demand and which produce the highest profits. It assists farmers in increasing revenue by guiding future price patterns, demand levels, crop types, pesticide use, etc.
Conclusion
Due to an increase in population and food demand, farmers are becoming more dependent on innovative approaches like artificial intelligence (AI) and machine learning algorithms to protect crops. CVDL in the agriculture market is expected to grow at a CAGR of 20% and boom to about USD 2400 million by 2026. Thus, AI will transform agriculture in the future.
