Imaging Technology for Precision Agriculture Market Forecasts to 2030 – Global Analysis By Product (Sensors, Software, Cameras and Other Products), Technology (Hyperspectral technology and Multispectral technology), Application(Crop Scouting, Field Mapping, Inventory Management, Irrigation Management, Weather Tracking & Forecasting and Yield Monitoring) and by Geography
According to Stratistics MRC, the Global Imaging Technology for Precision Agriculture Market is accounted for $1,034.73 million in 2023 and is expected to reach $1,965.63 million by 2030 growing at a CAGR of 9.6% during the forecast period. Imaging Technology for Precision agriculture (PA) is an agricultural management idea built on monitoring, quantifying, and reacting to crop variability both within and between fields. Precision agriculture is the process of making crop management decisions using real-time data for agricultural characteristics including soil quality, chemical composition, air quality, moisture content, etc. There are many technologies accessible, including the global positioning system, unmanned aerial vehicles, variable rate technology, guidance technology, and mapping technology.
According to the UN Food and Agriculture Organization, to meet the demand of rapidly growing world population, food production must rise by 60% by the end of 2050 for which precision agriculture can assist in this situation.
Market DynamicsDriver
High demand in image technology and reduce in cost
Precision farming with reduced costs, enhanced data accuracy, and simplicity of use are driving the market growth. Additionally, there are several uses for imaging systems in precision farming, including monitoring of animals, crop health, environmental impact assessment, irrigation equipment monitoring, identification of weeds and pests, and variable rate fertility. The demand for image technology in precision farming is expected to increase in the near future.
RestraintLack of internet and standardization
Particularly in isolated or rural regions, precision agriculture depends on dependable connectivity and a strong infrastructure. The transmission and processing of real-time data may be hampered in some areas, though, by a lack of effective internet connectivity. Imaging technology's uptake and efficacy can be constrained by a lack of infrastructure, particularly for farmers operating in sparsely networked regions. However, data formats, interoperability, and system compatibility are not standardized and this inhibits the use of various systems. This lack of standardization might make it difficult to combine various technologies or share data across platforms, impeding easy data sharing and cooperation.
OpportunityGovernment support and new education programmes
Governments all across the world are becoming aware of precision agriculture's potential to address issues with food security, lessen its negative effects on the environment, and increase farm profitability. They are putting policies into place, offering financial incentives, and boosting technological use in agriculture as a result. Farmers are encouraged to embrace imaging technologies and make investments in precision agriculture methods through such support and legislation and are becoming more and more aware of the advantages of imaging technologies and precision agriculture. Additionally, education-related programs, business gatherings, and demonstration projects are promoting and displaying the advantages of these technologies.
ThreatLow financial resources and high costs
Precision agricultural imaging technology implementation sometimes entails high initial expenses. The cost of purchasing tools like drones, sensors, and imaging equipment can be high. There can also be expenses for software, training, and data management systems. Smaller farmers or those with low financial resources may find it difficult to get started because of these hefty initial costs. Specialized knowledge may be necessary for the interpretation of imaging data, sensor calibration, data integration, and result analysis.
Covid-19 ImpactThe farms were understaffed as a result of the lockdown. The farmers are finding it difficult to carry out plantation activities as a result of the labor scarcity. Additionally, there is a dearth of transportation equipment like trucks and trains. Farmers may have trouble comprehending and using the technology successfully, especially if they don't have access to technical assistance or training. The COVID-19 pandemic is anticipated to impede market expansion due to the aforementioned issues.
The camera segment is expected to be the largest during the forecast period
The imaging technology for precision agriculture has a sizable camera section. Cameras are essential for gathering visual information and imagery for a variety of agricultural applications. Some of the cameras like aerial vehicles fly above the fields and take pictures and videos in high definition, which can provide important details about the health of the crops, the density of the plants, weed infestations, and other factors. These cameras make it possible to efficiently and swiftly monitor vast areas.
The field mapping segment is expected to have the highest CAGR during the forecast period
Field mapping segment is expected to witness lucrative growth throughout the projected time frame. Making accurate and detailed maps or representations of agricultural fields while collecting diverse spatial and non-spatial data is known as field mapping. Moreover, farmers can construct prescription maps that direct the precise use of inputs by mapping the characteristics and variations of their fields. By ensuring that resources are allocated as efficiently as possible, VRA mapping increases productivity and decreases waste in agricultural operations.
Region with largest shareDuring the forecast period, Asia Pacific is anticipated to report extremely rapid revenue growth. The demand for imaging technologies for precision agriculture in the region is driven by the growing requirement to feed a population that is expanding quickly. The region is adopting imaging systems, GIS-based soil analysis, climate prediction, water asset information, and mobile-based farming technologies at a faster rate due to the growing need to boost farm productivity and agricultural yield. The agricultural sector in the region is using imaging systems more frequently as a result of the growing use of digital imaging to assess crop health, particularly fungus infection.
Region with highest CAGRNorth America is expected to have the highest CAGR over the forecast period. The market for imaging technology for precision agriculture in the area is expanding as a result of the growing usage of advanced imaging technologies in the agricultural sector. The need for imaging systems in the agricultural sector is increasing as a result of the high cost of labor in agriculture and the reduction in the agricultural workforce in the region's countries.
Key players in the marketSome of the key players in Imaging Technology For Precision Agriculture market include 4D Technologies, Bayspec, MicaSense, Pixelteq, Quest-InnovationsBV, Resonon, Sentek Technologies, Teledyne DALSA, Tetracam and XIMEA
Key DevelopmentsIn March 2023, XIMEA Releases 3rd Generation of Sony CMOS Pregius Sensors in Cameras. XIMEA design additionally provides the smallest size with a 26 x 26 x 30 mm footprint and weight of around 30 grams
In October 2022, XIMEA and Agrowing are pleased to announce their cooperation for the development and distribution of high-resolution, multispectral systems at VISION 2022.Both companies combine their existing technologies to produce fast, integrated systems. Agrowing manufactures multiple lenses systems with different spectral bands. XIMEA is adapting its fast PCIe and USB3 cameras with large image sensors to optimally support the lenses.
Products Covered
• Sensors
• Software
• Cameras
• Other Products
Technologies Covered
• Hyperspectral Technology
• Multispectral Technology
Applications Covered
• Crop Scouting
• Field Mapping
• Inventory Management
• Irrigation Management
• Weather Tracking & Forecasting
• Yield Monitoring
Regions Covered
• North America
US
Canada
Mexico
• Europe
Germany
UK
Italy
France
Spain
Rest of Europe
• Asia Pacific
Japan
China
India
Australia
New Zealand
South Korea
Rest of Asia Pacific
• South America
Argentina
Brazil
Chile
Rest of South America
• Middle East & Africa
Saudi Arabia
UAE
Qatar
South Africa
Rest of Middle East & Africa
What our report offers- Market share assessments for the regional and country-level segments
- Strategic recommendations for the new entrants
- Covers Market data for the years 2021, 2022, 2023, 2026, and 2030
- Market Trends (Drivers, Constraints, Opportunities, Threats, Challenges, Investment Opportunities, and recommendations)
- Strategic recommendations in key business segments based on the market estimations
- Competitive landscaping mapping the key common trends
- Company profiling with detailed strategies, financials, and recent developments
- Supply chain trends mapping the latest technological advancements