# US Connected Agriculture Market

> US Connected Agriculture Market Size, Share and Research Report: By Technology (Internet of Things, Satellite Imagery, Drones, Big Data Analytics, Cloud Computing), By Application (Precision Farming, Livestock Monitoring, Greenhouse Automation, Supply Chain Management, Farm Management Software), By End Use (Farms, Agricultural Cooperatives, Food Processing Enterprises, Research Institutions) and By Deployment (On-Premises, Cloud-Based, Hybrid) - Industry Forecast to 2035

- **Forecast Period:** 2025 - 2035
- **CAGR:** 7.54%
- **2024:** $ 1,038.7 Million
- **2025:** $ 1,117.02 Million
- **2035:** $ 2,310.14 Million
- **Key Players:** John Deere (US), Trimble (US), AG Leader Technology (US), BASF (DE), Syngenta (CH), Monsanto (US), Corteva Agriscience (US), Topcon Positioning Systems (JP), Raven Industries (US)

**Report ID:** MRFR/ICT/17112-HCR · **Pages:** 100 · **Author:** Nirmit Biswas & Garvit Vyas · **Last Updated:** April 06, 2026

**URL:** https://www.marketresearchfuture.com/reports/us-connected-agriculture-market-18640

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## Market Summary

## **US Connected Agriculture Market Overview:**

As per MRFR analysis, the US Connected Agriculture Market Size was estimated at 1.37 (USD Billion) in 2023. The US Connected Agriculture Market Industry is expected to grow from 1.52(USD Billion) in 2024 to 5.28 (USD Billion) by 2035. The US Connected Agriculture Market CAGR (growth rate) is expected to be around 11.959% during the forecast period (2025 - 2035).

## **Key US Connected Agriculture Market Trends Highlighted**

The US Connected Agriculture Market is witnessing significant trends shaped by technological advancements and changing consumer demands. One of the key market drivers is the increasing adoption of IoT (Internet of Things) devices among farmers and agricultural enterprises. This trend allows for better monitoring of crop health, soil conditions, and weather patterns, leading to more efficient resource management. Moreover, the focus on sustainability and environmental preservation is prompting farmers to leverage data analytics for precision agriculture.

As American consumers become more conscious of food sourcing and sustainability practices, producers are using connected technologies to provide transparency and improve supply chain efficiency.This shift is encouraged by government programs aimed at promoting smart farming techniques and reducing agricultural waste. Opportunities to be explored in this market include the integration of artificial intelligence and machine learning in agriculture, which can help in predictive analysis and enhance decision-making processes. Farmers are increasingly turning to mobile applications for real-time updates and to access market information, creating a demand for user-friendly tech solutions.

Trends in recent times also indicate rising investments in agricultural drones and automated machinery, which can optimize irrigation and planting tasks, further minimizing labor costs and maximizing yield.As the US agriculture sector evolves, the connected agriculture space is likely to grow, driven by a combination of technological innovations and a growing emphasis on sustainable practices. The convergence of these factors highlights an evolving market landscape that is poised for growth and adaptability in the face of new challenges and opportunities.

Source: Primary Research, Secondary Research, _Market Research Future_ Database and Analyst Review

## **US Connected Agriculture Market Drivers**

### **Increasing Adoption of Precision Agriculture Technologies**

The adoption of precision agriculture technologies is a significant driver for the US Connected Agriculture Market Industry. According to the United States Department of Agriculture (USDA), farmers are increasingly utilizing technologies that allow them to optimize field-level management regarding crop farming. The USDA reported a rise in the use of data-driven decisions in agriculture, with around 70% of farmers using some form of precision farming systems in 2021, which is a 20% increase from 2017.This surge in technology use allows for better resource management and improved crop yields, contributing to a growing market.

Companies like John Deere and AG Leader Technology are leading this shift by offering innovative precision agriculture solutions that facilitate the adoption of smart farming practices, thereby supporting the expansion of the US Connected Agriculture Market.

### **Government Initiatives and Support for Smart Farming**

Government initiatives aimed at promoting smart farming practices significantly bolster the US Connected Agriculture Market Industry. The USDA has launched several programs, including the Agricultural Innovation Agenda, which focuses on increasing agricultural innovation and sustainability. The agency allocated a budget of approximately USD 123 million to enhance research and development in agricultural technologies over the next several years.

These initiatives support the integration of connected technologies in agriculture, enabling farmers to improve productivity and sustainability.As a result, established organizations like the National Corn Growers Association are increasingly fostering collaboration with tech companies, promoting smart agriculture practices, and further driving market growth.

### **Rising Demand for Food Security and Sustainability**

Food security and sustainability concerns are increasingly driving the US Connected Agriculture Market Industry. As the population in the U.S. continues to grow, there is a projected 27% increase in food demand by 2030 according to the USDA. This urgency encourages farmers and agricultural stakeholders to adopt connected agriculture practices to enhance their productivity while minimizing environmental impact. Companies like Trimble and Farmer's Edge are at the forefront of this movement, providing innovative solutions that help farmers monitor resource use efficiently and sustainably.This growing priority for food security leads to an increased adoption of connected technologies in agriculture.

## **US Connected Agriculture Market Segment Insights:**

### **Connected Agriculture Market Technology Insights**

The Technology segment of the US Connected Agriculture Market is witnessing robust growth as agricultural practices increasingly leverage advanced technologies to enhance productivity and sustainability. This segment encompasses a variety of innovations, including the Internet of Things, Satellite Imagery, Drones, Big Data Analytics, and Cloud Computing, each contributing significantly to the overall efficiency and effectiveness of the agricultural sector. The Internet of Things plays a crucial role in connecting devices and sensors across diverse agricultural environments, enabling real-time monitoring and management of crops, livestock, and equipment, which helps in making more informed decisions.

Satellite Imagery is also pivotal, as it provides farmers with detailed insights into land use, crop health, and irrigation practices, thus aiding precision farming initiatives. Drones, on the other hand, have transformed data collection and field surveillance, providing aerial views for crop assessment and enabling targeted interventions, which can lead to increased yields and resource management.

Big Data Analytics is essential for interpreting the vast amounts of data generated from these technologies, allowing farmers to understand trends and make predictions that optimize production and reduce waste.Finally, Cloud Computing facilitates the seamless storage and sharing of agricultural data, offering farmers access to powerful computing resources and analytical tools without the need for significant capital investment in IT infrastructure. This integration of technology in agriculture supports better resource management and enhances food security.

The increasing demand for efficient agricultural practices, coupled with advancing technologies, is expected to drive continued growth and innovation in this segment, showcasing the significance of technology in transitioning to smarter agriculture solutions in the US.Overall, the US Connected Agriculture Market is set to evolve significantly as these technological advancements offer new opportunities for farmers to enhance their productivity and sustainability initiatives.

Source: Primary Research, Secondary Research, _Market Research Future_ Database and Analyst Review

### **Connected Agriculture Market Application Insights**

The US Connected Agriculture Market is witnessing remarkable advancements in its Application segment, driven by the growing need for improved agricultural efficiency and productivity. Precision Farming has emerged as a crucial area, leveraging data analytics to optimize crop yields, making it a significant player in the market. Livestock Monitoring solutions are also gaining traction, allowing farmers to track animal health and productivity in real-time, which enhances overall livestock management practices.

Greenhouse Automation is transforming operations by integrating technologies that control environmental factors, thereby increasing crop quality and reducing resource usage.Supply Chain Management tools are streamlining processes from farm to market, facilitating transparency and traceability, which are essential for meeting consumer demands. Meanwhile, Farm Management Software is providing farmers with comprehensive solutions to better manage their operations, finances, and resources. Overall, the segmentation within the Application market reveals a strong focus on innovation and technology to solve existing agricultural challenges and meet the evolving needs of the industry.

The rising reliance on data-driven solutions is pivotal in reshaping the landscape of agriculture in the US, aligning with national efforts to enhance food production sustainably.

### **Connected Agriculture Market End Use Insights**

The US Connected Agriculture Market is significantly shaped by its diverse End Use categories, which play a crucial role in enhancing agricultural efficiency and productivity. Farms represent a primary component, leveraging connected technologies for precision farming, resource management, and real-time monitoring. Agricultural Cooperatives, on the other hand, benefit from data aggregation and collaborative approaches that enhance supply chain transparency and facilitate decision-making among members.

Food Processing Enterprises are increasingly adopting connected solutions to ensure quality control and compliance with safety regulations, streamlining operations from farm to fork.Additionally, Research Institutions utilize connected agriculture technologies to carry out experiments and analyze agricultural data, contributing vital insights for future innovations. The integration of these segments not only enriches the overall landscape of the US Connected Agriculture Market but also fosters a progressive environment, facilitating advancements in sustainable farming practices and enhancing food security in the nation. As a result, these segments represent significant opportunities for growth and innovation within the agricultural sector.

### **Connected Agriculture Market Deployment Insights**

The Deployment segment of the US Connected Agriculture Market plays a crucial role in how agricultural stakeholders leverage technology for enhanced operational efficiency. This segment encompasses various models such as On-Premises, Cloud-Based, and Hybrid solutions, each offering distinct advantages suited to different needs. On-Premises solutions provide farmers and agribusinesses with significant control over their data and systems, making it a preferred choice for those prioritizing security and customization. In contrast, Cloud-Based solutions have gained popularity due to their scalability and lower upfront costs, enabling a broader range of users, from large enterprises to smaller farms, to adopt connected agriculture practices.

Hybrid models combine the best of both worlds, allowing organizations to maintain critical systems on-site while utilizing cloud capabilities for data analysis and accessibility. The growth drivers behind these diverse deployment options include the increasing adoption of IoT technologies in farming, the need for data-driven decision-making, and the shift towards sustainable agricultural practices, making it imperative for stakeholders to choose the right deployment strategy. With the US government emphasizing smart farming initiatives and advancements in agricultural tech, the Deployment segment is poised to significantly influence the overall US Connected Agriculture Market landscape.

## **US Connected Agriculture Market Key Players and Competitive Insights:**

The US Connected Agriculture Market has seen significant growth and innovation, driven by advancements in technology and a rising demand for efficient agricultural practices. This market encompasses a range of technologies that integrate the Internet of Things (IoT), precision farming tools, and data analytics to enhance productivity, crop management, and resource optimization in agriculture. With the increasing need for sustainable farming solutions and the ability to monitor crops, soil conditions, and weather patterns in real-time, numerous companies are entering the landscape, each vying for a competitive edge.

The presence of these companies is fundamentally changing traditional farming methods, enabling farmers to make informed decisions based on accurate data and insights.John Deere has a robust presence in the US Connected Agriculture Market, further solidifying its reputation as a leader in agricultural machinery and technology. The company's strength lies in its commitment to innovation and product development focused on connectivity and automation. John Deere's suite of products includes advanced tractors, harvesters, and precision agriculture equipment equipped with sensors and GPS technology that facilitate real-time data collection and analytics. This allows farmers to optimize their operations effectively and enhance yield.

Additionally, John Deere's strong brand equity, extensive customer service network, and strategic partnerships contribute to its competitive advantage within the market. The company's ability to integrate software solutions with its machinery further positions it as a key player in helping farmers transition to more connected and efficient agricultural practices.AgJunction focuses on delivering advanced precision agriculture solutions designed to improve farming efficiency across the US market. This company specializes in providing hardware and software solutions that enhance vehicle guidance, data management, and farm planning.

AgJunction’s product line features integrated systems for precision steering and fleet management, allowing farmers to streamline their operations and reduce costs significantly. The company's strategic approach towards partnerships and collaborations has led to innovations in smart farming technology, drawing attention from various sectors within agriculture. Additionally, AgJunction's focus on user-friendly interfaces and compatibility with a wide range of agricultural equipment strengthens their market presence. Through gradual mergers and acquisitions, the company has expanded its capabilities, reinforcing its position as a critical player in the Connected Agriculture Market in the US, thereby providing cutting-edge solutions tailored to modern agricultural needs.

### **Key Companies in the US Connected Agriculture Market Include:**

## **US Connected Agriculture Market Industry Developments**

Significant developments have been occurring in the US Connected Agriculture Market, particularly involving major players such as John Deere and Precision Planting. In July 2023, John Deere expanded its precision agriculture offerings by acquiring a leading software firm, enhancing its digital farming capabilities aimed at improving farm productivity. AgJunction announced its partnerships in August 2023 to integrate advanced automation into farming practices, addressing labor shortages in the agricultural sector. In September 2023, Corteva Agriscience showcased new cutting-edge genetics to improve crop resilience, which is increasingly crucial amid climate change challenges.

The market has seen strong valuation growth, with the demand for IoT-enabled farming solutions skyrocketing, driven by technological innovations and the need for efficiency. Companies like Trimble and Bayer are investing heavily in Research and Development to leverage machine learning and data analytics. Additionally, Raven Industries made headlines in October 2022 for its collaboration with major agricultural equipment manufacturers to streamline data sharing processes. These trends highlight a dynamic and rapidly evolving market landscape that is critical for ensuring sustainable agricultural practices in the United States.

## **US Connected Agriculture Market Segmentation Insights**

### **Connected Agriculture Market Technology****Outlook**

### **Connected Agriculture Market Application****Outlook**

### **Connected Agriculture Market End Use****Outlook**

### **Connected Agriculture Market Deployment****Outlook**

## Market Drivers

### Advancements in Agricultural Robotics

The connected agriculture market is witnessing significant advancements in agricultural robotics, which are transforming traditional farming practices. Robotics technology, including autonomous tractors and drones, is being integrated into farming operations to improve efficiency and reduce labor costs. These innovations allow for tasks such as planting, harvesting, and monitoring crops to be performed with greater precision and speed. The market for agricultural robots is projected to grow substantially, with estimates suggesting a compound annual growth rate (CAGR) of over 25% in the coming years. This trend indicates a shift towards automation in agriculture, further driving the connected agriculture market.

### Rising Demand for Precision Agriculture

The connected agriculture market is experiencing a notable surge in demand for precision agriculture techniques. Farmers are increasingly adopting technologies that enable them to monitor crop health, soil conditions, and weather patterns in real-time. This shift is driven by the need to optimize resource use and enhance yield. According to recent data, precision agriculture can lead to yield increases of up to 20%, which is particularly appealing in a competitive market. The integration of sensors, drones, and satellite imagery allows for more informed decision-making, thereby improving overall farm productivity. As a result, The connected agriculture market is likely to expand. This expansion will occur as more farmers recognize the benefits of precision farming methods.

### Government Support and Funding Initiatives

Government initiatives play a crucial role in the growth of the connected agriculture market. Various federal and state programs are designed to support the adoption of advanced agricultural technologies. For instance, funding opportunities for research and development in smart farming technologies have increased significantly. The USDA has allocated millions of dollars to promote innovation in agriculture, which includes grants for farmers to implement connected technologies. This financial backing not only encourages farmers to invest in new solutions but also fosters a more robust ecosystem for technology providers. Consequently, the connected agriculture market is poised for growth as government support continues to bolster technological advancements.

### Integration of Big Data and AI Technologies

The integration of big data and artificial intelligence (AI) technologies is reshaping the connected agriculture market. Farmers are increasingly leveraging data analytics to make informed decisions regarding crop management and resource allocation. By analyzing vast amounts of data from various sources, including weather forecasts and soil sensors, farmers can optimize their operations and improve yields. The use of AI algorithms can predict crop performance and identify potential issues before they escalate. This data-driven approach is expected to enhance productivity and sustainability in agriculture, thereby propelling the connected agriculture market forward.

### Consumer Demand for Transparency and Traceability

In the connected agriculture market, there is a growing consumer demand for transparency and traceability in food production. Consumers are increasingly interested in knowing the origins of their food and the methods used in its production. This trend has prompted farmers to adopt connected technologies that provide real-time data on crop production and supply chain processes. By utilizing blockchain and IoT solutions, producers can offer detailed insights into their farming practices, thereby enhancing consumer trust. As a result, the connected agriculture market is likely to benefit from this shift, as more producers seek to meet consumer expectations for transparency.

## Future Outlook

The [Connected Agriculture Market](https://www.marketresearchfuture.com/reports/connected-agriculture-market-5218) is projected to grow at a 7.54% CAGR from 2025 to 2035, driven by technological advancements, increased demand for efficiency, and sustainability initiatives.

**New opportunities:**

- Development of precision irrigation systems to optimize water usage and reduce costs.
- Integration of AI-driven analytics for crop yield forecasting and resource management.
- Expansion of IoT-enabled livestock monitoring solutions to enhance animal health and productivity.

By 2035, the connected agriculture market is expected to achieve substantial growth, driven by innovation and strategic investments.

## Segment Insights

### By Technology: Big Data Analytics (Largest) vs. Drones (Fastest-Growing)

The technology segment in the US connected agriculture market exhibits diverse solutions with Big Data Analytics holding the largest market share. Other significant players include Internet of Things, Satellite Imagery, and Cloud Computing, each contributing to the operational efficiency of agricultural practices. As precision agriculture becomes increasingly vital, these technologies collectively enhance decision-making capabilities, improve crop yields, and optimize resource use.

Growth trends in this segment are heavily driven by advancements in IoT and data analytics. Farmers are increasingly adopting drones for real-time monitoring and insights, marking them as the fastest-growing technology. The integration of satellite imagery with big data analytics is also creating valuable opportunities for farmers to gain predictive insights, thus fostering a shift toward data-driven agriculture practices.

Technology: Big Data Analytics (Dominant) vs. Drones (Emerging)

Big Data Analytics represents a dominant force in the technology segment, enabling farmers to derive actionable insights from vast amounts of data. This technology helps optimize agricultural operations by analyzing factors such as weather patterns, soil conditions, and crop health. On the other hand, Drones are emerging rapidly as a crucial tool for precision farming, offering capabilities such as aerial imagery, crop monitoring, and targeted interventions at lower costs. Both technologies complement each other, as drones provide the data needed for robust analysis, while Big Data Analytics enhances decision-making and increases operational efficiency in agriculture.

### By Application: Precision Farming (Largest) vs. Livestock Monitoring (Fastest-Growing)

The application segment of the US connected agriculture market is characterized by significant market share distribution among various areas, primarily led by precision farming, which has established itself as the largest segment. Following closely are livestock monitoring and greenhouse automation, which are essential for improving efficiency and sustainability in agriculture. Supply chain management and farm management software are also crucial components, catering to the increasing demand for data-driven decision-making in farming practices.

Growth trends in the US connected agriculture market are propelled by advancements in technology and the increasing adoption of IoT devices. Precision farming, leveraging GPS and data analytics, continues to dominate as it significantly enhances crop yield and resource management. Livestock monitoring is emerging rapidly, driven by the demand for improving animal welfare and optimizing production. As farmers seek innovative solutions for sustainability and productivity, the growth potential for greenhouse automation is substantial, reflecting a shift towards more controlled and efficient farming practices.

Precision Farming (Dominant) vs. Supply Chain Management (Emerging)

Precision farming remains the dominant application within the US connected agriculture market, characterized by its use of advanced technologies such as GIS, GPS, and IoT sensors to optimize agricultural production. This segment focuses on enhancing crop yield, reducing resource wastage, and improving decision-making through data analytics. Conversely, supply chain management is emerging as a vital segment, as farms increasingly prioritize efficiency and traceability in their operations. This segment leverages connectivity to streamline processes and enhance transparency in product flow from farm to consumer, addressing the challenges of logistics and distribution in agriculture. Together, these segments represent a transformative shift towards smarter agriculture, driven by technological integration.

### By End Use: Farms (Largest) vs. Agricultural Cooperatives (Fastest-Growing)

In the US connected agriculture market, farms hold the largest market share, significantly contributing to the overall growth of the sector. Agricultural cooperatives are also noteworthy, as they are gaining traction among farmers looking for collective solutions, thus enhancing their market position. Food processing enterprises and research institutions, while important, represent a smaller portion of the market share, focusing primarily on specialized applications and innovations.

The growth trends in the end-use segment are driven by increasing technological adoption among farms and cooperatives. The need for sustainable practices and efficiency in food production is propelling farms to upgrade their operations with smart technologies. Agricultural cooperatives are experiencing rapid expansion as they harness these innovations to improve supply chain management and member services, thereby attracting more farmers to join.

Farms: Dominant vs. Agricultural Cooperatives: Emerging

Farms are the dominant force in the connected agriculture market, representing a critical segment that leverages technology to enhance productivity and efficiency. Their robust infrastructure supports the integration of IoT devices and data analytics, making them crucial players in shaping market dynamics. In contrast, agricultural cooperatives are emerging as significant entities due to their ability to pool resources and share technology among members. This collective approach allows for increased access to advanced agricultural practices and smart solutions, positioning them for rapid growth as more farmers recognize the benefits of collaboration and innovation.

### By Deployment: Cloud-Based (Largest) vs. On-Premises (Fastest-Growing)

In the US connected agriculture market, the deployment segment showcases a diverse landscape characterized by distinct preferences for On-Premises, Cloud-Based, and Hybrid solutions. Currently, Cloud-Based deployments dominate the market, leveraging their flexibility and scalability to meet the needs of various agricultural businesses. In contrast, On-Premises solutions account for a significant share, though they are increasingly being outpaced by the growing adoption of hybrid models that combine both approaches. 

Growth trends in this sector indicate a robust shift towards Cloud-Based solutions, driven by factors such as increased data accessibility, enhanced collaboration, and cost-effectiveness. On-Premises systems experience burgeoning interest as agricultural enterprises seek to maintain control over their data and infrastructure. However, the Hybrid model is gaining traction as it offers a balanced solution that capitalizes on the strengths of both deployment types, ensuring greater adaptability in a rapidly evolving market environment.

Cloud-Based (Dominant) vs. On-Premises (Emerging)

Cloud-Based deployment stands as the dominant force within the US connected agriculture market, characterized by its ability to provide real-time data access and remote management capabilities. This model aligns well with modern agricultural practices, facilitating seamless integration with IoT devices and analytics tools that enhance decision-making. Meanwhile, On-Premises deployment, though traditionally viewed as a more conservative option, is emerging as businesses recognize the value of customized solutions and internal data control. This approach allows for tailored functionalities that can better meet specific agricultural needs, appealing particularly to larger enterprises with the resources to maintain and manage local infrastructure. The prospect of combining both models through Hybrid deployment offers an exciting path forward, as it promises a blend of flexibility and security.

## Competitive Benchmarking

The connected agriculture market is currently characterized by a dynamic competitive landscape, driven by technological advancements and increasing demand for efficient farming practices. Key players such as John Deere (US), Trimble (US), and Corteva Agriscience (US) are at the forefront, leveraging innovation and strategic partnerships to enhance their market positions. John Deere (US) focuses on integrating advanced data analytics and machine learning into its equipment, thereby improving operational efficiency for farmers. Trimble (US) emphasizes precision agriculture solutions, which allow for better resource management and yield optimization. Meanwhile, Corteva Agriscience (US) is investing in digital tools that support sustainable farming practices, indicating a collective shift towards technology-driven solutions in the sector.In terms of business tactics, companies are increasingly localizing manufacturing and optimizing supply chains to enhance responsiveness to market demands. The competitive structure of the market appears moderately fragmented, with several players vying for market share. However, the influence of major companies is substantial, as they set industry standards and drive innovation. This competitive environment fosters collaboration and knowledge sharing, which is essential for the advancement of connected agriculture technologies.

In October  John Deere (US) announced a partnership with a leading AI firm to develop predictive analytics tools aimed at improving crop management. This strategic move is likely to enhance John Deere's product offerings, allowing farmers to make data-driven decisions that could lead to increased yields and reduced costs. The integration of AI into their existing platforms may also position John Deere as a leader in the digital transformation of agriculture.

In September  Trimble (US) launched a new suite of precision agriculture tools designed to integrate seamlessly with existing farm management systems. This initiative reflects Trimble's commitment to enhancing user experience and operational efficiency. By providing farmers with comprehensive solutions that streamline data collection and analysis, Trimble is likely to strengthen its competitive edge in the market.

In August  Corteva Agriscience (US) unveiled a new digital platform that connects farmers with agronomists for real-time advice and support. This platform not only enhances the decision-making process for farmers but also fosters a community of knowledge sharing. Such initiatives are indicative of a broader trend towards collaborative approaches in agriculture, which may lead to improved sustainability and productivity.

As of November  the most pressing trends in the connected agriculture market include the integration of digital technologies, a focus on sustainability, and the application of AI in farming practices. Strategic alliances among key players are shaping the competitive landscape, as companies recognize the value of collaboration in driving innovation. Looking ahead, it appears that competitive differentiation will increasingly hinge on technological advancements and supply chain reliability, rather than solely on price. This shift suggests a future where innovation and sustainability are paramount in defining market leadership.

## Recent News & Developments

Significant developments have been occurring in the US Connected Agriculture Market, particularly involving major players such as John Deere and Precision Planting. In July 2023, John Deere expanded its precision agriculture offerings by acquiring a leading software firm, enhancing its digital farming capabilities aimed at improving farm productivity. AgJunction announced its partnerships in August 2023 to integrate advanced automation into farming practices, addressing labor shortages in the agricultural sector. In September 2023, Corteva Agriscience showcased new cutting-edge genetics to improve crop resilience, which is increasingly crucial amid climate change challenges.

The market has seen strong valuation growth, with the demand for IoT-enabled farming solutions skyrocketing, driven by technological innovations and the need for efficiency. Companies like Trimble and Bayer are investing heavily in Research and Development to leverage machine learning and data analytics. Additionally, Raven Industries made headlines in October 2022 for its collaboration with major agricultural equipment manufacturers to streamline data sharing processes. These trends highlight a dynamic and rapidly evolving market landscape that is critical for ensuring sustainable agricultural practices in the United States.

## Report Scope

| MARKET SIZE 2024 | 1038.7(USD Million) |
| --- | --- |
| MARKET SIZE 2025 | 1117.02(USD Million) |
| MARKET SIZE 2035 | 2310.14(USD Million) |
| COMPOUND ANNUAL GROWTH RATE (CAGR) | 7.54% (2025 - 2035) |
| REPORT COVERAGE | Revenue Forecast, Competitive Landscape, Growth Factors, and Trends |
| BASE YEAR | 2024 |
| Market Forecast Period | 2025 - 2035 |
| Historical Data | 2019 - 2024 |
| Market Forecast Units | USD Million |
| Key Companies Profiled | John Deere (US), Trimble (US), AG Leader Technology (US), BASF (DE), Syngenta (CH), Monsanto (US), Corteva Agriscience (US), Topcon Positioning Systems (JP), Raven Industries (US) |
| Segments Covered | Technology, Application, End Use, Deployment |
| Key Market Opportunities | Integration of IoT and AI technologies enhances efficiency in the connected agriculture market. |
| Key Market Dynamics | Technological advancements drive efficiency and sustainability in agriculture, reshaping competitive dynamics and consumer expectations. |
| Countries Covered | US |

## Frequently Asked Questions

**Q: What is the current valuation of the US connected agriculture market?**
A: The market valuation was $1038.7 Million in 2024.

**Q: What is the projected market size for the US connected agriculture market by 2035?**
A: The market is expected to reach $2310.14 Million by 2035.

**Q: What is the expected CAGR for the US connected agriculture market during 2025 - 2035?**
A: The expected CAGR is 7.54% during the forecast period.

**Q: Which technology segments are driving growth in the US connected agriculture market?**
A: Key technology segments include Internet of Things, Big Data Analytics, and Cloud Computing, with valuations ranging from $138.7 Million to $900 Million.

**Q: What applications are most prominent in the US connected agriculture market?**
A: Prominent applications include Precision Farming and Livestock Monitoring, with valuations between $250 Million and $900 Million.

**Q: Who are the key players in the US connected agriculture market?**
A: Key players include John Deere, Trimble, AG Leader Technology, and Corteva Agriscience.

**Q: What is the significance of cloud-based deployment in the US connected agriculture market?**
A: Cloud-based deployment is projected to reach $1100 Million, indicating its growing importance.

**Q: How do end-use segments contribute to the US connected agriculture market?**
A: End-use segments like Farms and Agricultural Cooperatives contribute significantly, with valuations from $310 Million to $900 Million.

**Q: What role does big data analytics play in the US connected agriculture market?**
A: Big Data Analytics is expected to grow from $250 Million to $500 Million, highlighting its critical role.

**Q: What is the future outlook for greenhouse automation in the US connected agriculture market?**
A: Greenhouse Automation is projected to grow from $150 Million to $300 Million, indicating a positive future outlook.


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*This Markdown endpoint is provided for AI systems and LLM crawlers. For the full interactive report visit https://www.marketresearchfuture.com/reports/us-connected-agriculture-market-18640*
