Categories: Agriculture
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Smart Agriculture Market Overview
“The Smart Agriculture Market is estimated to increase at a CAGR of 12.67% from $ 22.53 billion in 2023 to $ 52.78 Billion by 2030.”
Smart agriculture is a new concept that uses technologies like the Internet of Things, sensors, positioning systems, robots, and artificial intelligence to increase crop quality and quantity while optimizing human labor. This Report aims to explain the benefits of using smart agriculture on farms and explore its advantages in the future.
Smart Agriculture, also known as precision agriculture, is a management concept that uses advanced technology.
It is software-managed and sensor-monitored, and is increasingly important due to the growing global population, increased demand for higher crop yields, efficient use of natural resources, advanced information and communication technology, and the need for climate-smart agriculture.
The global farming industry faces food safety challenges due to non-standardized pest treatment, fluctuating meteorological conditions, and unpredictable contamination, leading to numerous diseases causing significant harm to human health and potentially affecting the credibility of food producers and manufacturers.
The article explores the potential of Smart Agriculture as the future of agriculture.
Smart agriculture and IoT-driven agriculture are paving the way for a "third green revolution" using information and communications technology.
IoT technology improves agricultural processes, reduces production risks, and allows farmers to plan and distribute output more effectively. It also helps in reducing labor and waste by providing data on specific crop batches and harvest numbers.
Service providers and mobile operators are also modernizing their network architecture in various industries, including agriculture, by delivering network resources to the edge and integrating long distances using technologies like small cells and massive MIMO for 5G roll-out.
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Benefits of Smart Agriculture
Growth Drivers
Restraints
Smart Agriculture technologies
The intelligent farm incorporates various technology, including:
Smart Agriculture utilizes various technologies, including sensors for soil scanning, advanced networking, GPS, specialized hardware and software, IoT-based solutions, robotics, and automation.
Data analytics is crucial for decision-making and prediction. With growing access to data from crop yields, soil mapping, climate change, fertilizer applications, meteorological data, machinery, and animal health, satellites and drones collect data for a whole field around the clock, which is then routed to IT systems for tracking and analysis, providing remote monitoring.
The integration of these technologies allows for machine-to-machine data collection, which is then used in a decision support system to provide farmers with detailed insights. This allows for more precise application of pesticides and fertilizers, and better monitoring of individual animal demands. Smart Agriculture approaches also help in preventing disease and improving herd health.
Smart Agriculture Market Segment Analysis
By Agriculture Type
In 2022, the livestock monitoring segment dominated the market, accounting for over 23% of total revenue. Livestock monitoring helps farmers track animal health and production statistics. The growth is driven by technology advancements and rising demand for dairy products. The smart greenhouse segment is expected to be the fastest-growing segment in the smart agriculture market, driven by environmental concerns and rising greenhouse gas emissions. Smart greenhouses help preserve climatic conditions, improve fertilization, and irrigation.
By Offering
The growth of the smart agriculture industry is primarily driven by technological advancements and the adoption of cloud and web-based software in smart agriculture devices and equipment, which aids farmers and cattle in data collection, tracking, and monitoring.
In 2022, the hardware segment is expected to be the fastest-growing segment in the smart agricultural market due to the increasing automation of raw material and dairy product manufacturing, which reduces labor expenses and supports the global market's growth. The increasing trend of automation technologies also contributes to this rapid growth.
Competitive Landscape of the Smart Agriculture Market Analysis
New Developments in Smart Agriculture Market
September 13, 2023 “AGCO Announces Sustainable Test Farm in North Dakota”
” Dakota Smart Farm” is dedicated to developing sustainable farming practices and high-value retrofit precision technology solutions. AGCO Corporation, a global leader in the design, manufacture, and distribution of agricultural machinery and precision ag technology, announced today plans to build a state-of-the-art test farm in Casselton, North Dakota. This strategic initiative aims to develop innovative farming practices to create a truly sustainable farm, specifically focusing on precision agriculture technologies and high-value retrofit solutions. The 300-acre operation, named “Dakota Smart Farm,” will make AGCO an anchor tenant at the Grand Farm Innovation Campus, which fosters innovative research and technology to solve agricultural challenges. AGCO-owned company Appareo, based in Fargo, North Dakota, will lead the farm with agronomists, scientists, engineers and agricultural experts to execute agronomic studies and host tours to educate farmers on sustainable and precision ag farming practices
Oct. 11, 2023, “Syngenta aligns sustainable outcomes in agriculture standard with TSC’s THESIS to improve sustainability reporting”
In 2023, Syngenta benchmarked the SOA standard to TSC’s THESIS - a performance assessment system that guides retailers and suppliers in benchmarking, quantifying, and taking action on critical sustainability issues within their consumer product supply chains.
Regional Analysis of Global Smart Agriculture Industry
North America dominated the smart agriculture market in 2022, with a revenue share of 44.34%. The market is expected to grow at a CAGR of 9.23% over the forecast period. Government initiatives, favorable rules, and partnerships with government agencies are contributing to the growth. Additionally, subsidies and tax breaks are being offered to encourage the development of the smart agriculture industry, propelling the North America market forward.
The Asia-Pacific smart agriculture market is expected to grow rapidly due to government initiatives and increased use of organic agriculture. Singapore, Japan, and India are actively expanding their smart agriculture businesses, while also offering financial support for their development. This growth is fueled by the increasing adoption of organic farming in the region.
Segments Covered in the Smart Agriculture Market Report
By Agriculture Type
By Offering
By Farm Size
Frequently Asked Questions
What is the expected growth rate of the Smart Agriculture market over the next 7 years?
Smart Agriculture Market is estimated to increase at a CAGR of 12.67% from $ 22.53 billion in 2023 to $ 52.78 Billion by 2030| Report 2023 by published by Market Report Service.
Who are the major players in the Smart Agriculture market and what is their market share?
AG Leader Technology, AGCO Corporation, AgJunction Inc., Autonomous Solutions Inc., Deers& Company, DroneDeploy, Farmers Edge Inc., GEA Group Aktiengesellschaft, The Climate Corporation, DeLaval Inc., are prominent players operating and dominating in the market.
Who are the top 3 Smart Agriculture Market Key Vendors?
AG Leader Technology, AGCO Corporation, AgJunction Inc, are key players in the Smart Agriculture market.
Which geographical areas dominate the worldwide market for Smart Agriculture?
North America region are emerging as the top regional markets for Smart Agriculture solutions.
1.SUMMARY
1.1. Smart Agriculture Market Overview
1.2. Key Insights
1.3. Report Scope
1.4. Research Methodology
1.5. Frequently Asked Questions
1.6. Chapter Outlines
3.1. Overview of Smart Agriculture
3.2. Key Historical Events
3.3. Structure
3.4. Biochemical Interaction
3.5. Target Indications
3.6. Advantages of Smart Agriculture
3.7 Challenges associated with Smart Agriculture
3.8. Future Perspectives.
4.1. Methodology
4.2 Smart Agriculture: Developer Landscape
4.2.1. Analysis by Year of Establishment
4.2.2. Analysis by Company Size
4.2.3. Analysis by Location of Headquarters (Region-wise)
4.2.4. Analysis by Location of Headquarters (Country-wise)
4.2.5. Analysis by Year of Establishment, Company Size and Location of Headquarters (Region-wise)
4.2.6. Most Active Players
5.1. Company Overview
5.1.2 Management Team
5.1.3. Product Portfolio
5.1.4. Recent Developments and Future Outlook
6.1. Partnership Models
6.2. Smart Agriculture: Partnerships and Collaborations
6.2.1. Analysis by Year of Partnership
6.2.2. Analysis by Type of Partnership
6.2.3. Analysis by Year and Type of Partnership
6.2.4. Analysis by Type of Partner
6.2.5. Analysis by Year of Partnership and Type of Partner
6.2.6. Analysis by Type of Partnership and Type of Partner
6.2.7. Analysis by Type of Partner and Parent Company Size
7.1. Methodology and Key Parameters
7.2. Smart Agriculture: Academic Grants Analysis
7.2.1. Analysis by Year of Grant Award
7.2.2. Analysis by Amount Awarded
7.2.3. Analysis by Funding Institute Center
7.2.4. Analysis by Support Period
7.2.5. Analysis by Funding Institute Center and Support Period
7.2.6. Analysis by Type of Grant Application
7.2.7. Analysis by Purpose of Grant
8.1. Analysis Methodology and Key Parameters
8.2. Smart Agriculture: Publication Analysis
8.2.1. Analysis by Year of Publication
8.2.2. Analysis by Type of Publication
8.2.3. Analysis by Type of Conjugate
8.2.4. Analysis by Target Indication
8.2.5. Analysis by Copyright Holder
8.2.6. Word Cloud: Emerging Focus Area
8.2.7. Most Active Publishers: Analysis by Number of Publications
9.1. Methodology and Key Parameters
9.2. Key Assumptions and Scoring Criteria
9.3. Success Protocol Analysis
9.4. Assessment of Approved Smart Agriculture
Segments Covered in the Smart Agriculture Market Report
By Agriculture Type
By Offering
By Farm Size
Research Methodology
Base Year:2022
Historical Data:2018-2022
No of Pages:122
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