Harvesting Robots Market Size, Share, & Trends Analysis Report By Type (Driverless Tractors, UAVs), By Robot Type (Semi Autonomous, Fully Autonomous), By Farming Environment (Indoor, Outdoor), By End Use, And Segment Forecasts,

Published Date: May - 2025 | Publisher: MIR | No of Pages: 240 | Industry: technology | Format: Report available in PDF / Excel Format

View Details Buy Now 2999 Download Sample Ask for Discount Request Customization

Harvesting Robots Market Size & Trends

The size of the worldwide harvesting robots market was valued at USD 2.24 billion in 2024 and is expected to grow at a rate of 21.9% during 2025-2035. The development of AI, machine vision, and sensor technology is essential in driving the harvesting robot market growth. Robots are becoming more able to detect ripe crops, move through maze-like environments such as orchards, and execute fine tasks without hurting produce. The combination of deep learning and computer vision provides the capacity for real-time decision-making and adaptive behavior, which makes the robots more effective and usable with a broader range of crops. With decreasing costs and improved reliability, their robot type in agricultural robotics is likely to grow considerably.

The increasing focus on precision and sustainable agriculture is pushing the use of harvesting robots. Precision agriculture is focused on utilizing resources more efficiently and minimizing environmental effects. Harvesting robots help by reducing waste, maximizing picking time, and minimizing the use of machinery that can compact soil or damage ecosystems. They also gather useful information on crop health, ripeness, and yield predictions, which can be used to guide wider farm management decisions and enhance long-term sustainability.

The increasing use of controlled-environment agriculture (CEA) systems, including vertical farming and greenhouse cultivation, is fueling market growth. Such environments are conducive to the robot type of robotic solutions because they offer consistent lighting, climate, and spatial configurations, which robots find it easier to move and work in. In such environments, robots can be made to operate on repetitive timetables with high accuracy, minimizing reliance on seasonal labor and optimizing space and yield returns. As urban farming and CEA continue to grow, particularly in land-constrained cities, efficient automated harvesting systems become increasingly needed.

The increasing popularity of precision farming is compelling farms to adopt automation technologies to enhance every function of farming. Precision farming is dependent on real-time data gathering and automation to make the process more efficient, and harvesting robots also easily fit into this framework by allowing real-time monitoring of the harvest, making decisions based on data, and being integrated into farm management software. This convergence with precision farming practices is further compelling farmers to embrace robotic harvest solutions.

In addition, the development of leasing schemes and robotics-as-a-service (RaaS) is reducing the cost of harvesting robots to small and medium-sized farms that historically had no money to spend on such advanced investments. These schemes enable farmers to employ high-end robotics without taking ownership of them, breaking down costs and diminishing financial hurdles. As these service models continue to develop, uptake among larger numbers of farm sizes and types is set to grow, further fueling the market.

Market Size

Report Coverage & Deliverables

  • Competitive benchmarking
  • Historical data & forecasts
  • Company revenue shares
  • Regional opportunities
  • Latest trends & dynamics

Type Insights

The driverless tractors segment held the highest revenue share of more than 37.0% in 2024 in the harvesting robots market. The growth of indoor and greenhouse agriculture is driving growth in this segment. In such controlled environments, autonomous material handling systems are best suited to repetitive tasks like transporting harvested produce to centralized collection areas or processing facilities. These robots tend to be navigated by pre-programmed paths or vision-based navigation systems, enabling them to work safely and effectively in limited spaces, even in the presence of human workers or other machinery.

The UAVs market is expected to expand with the highest CAGR over the forecast period. The UAVs (Unmanned Aerial Vehicles) market segment of the harvesting robots market is fast picking up pace as farm producers increasingly seek to leverage aerial technologies to improve harvesting accuracy and operational effectiveness. Although UAVs don't perform mechanical harvesting of crops, they are an important supporting component in maximizing harvest activities. Drones with sophisticated imaging sensors and multispectral cameras can precisely determine crop readiness, detect the best time to harvest, and map fields for autonomous ground robots to navigate. This data-driven strategy enhances yield estimation, minimizes waste, and allows for improved planning and robot type of ground-based harvesting equipment.

Robot Type Insights

The semi-autonomous segment held the highest revenue share in 2024 in the harvesting robots market. Increasing farm input cost and dwindling profit margins are also forcing farmers to use semi-autonomous solutions. As input costs for labor, fuel, and fertilizers continue to rise, growers are pressured to enhance cost-effectiveness in all operations. Semi-autonomous robots mitigate long-term costs by minimizing labor needs and facilitating quicker, more uniform harvesting. These machines provide a return on investment over time by enhancing productivity and decreasing the use of migrant or temporary labor, which is expensive and unstable.

The autonomous segment will account for the highest CAGR during the period between 2025 and 2035. The increasing demand for stable crop quality and yield maximization is also driving the transition toward full autonomy. Human harvesters can differ in accuracy and efficiency, whereas completely autonomous robots can stick to a standardized level throughout the whole field. Such uniformity not only assures higher quality control but also ensures compliance with very strict market and export regulations, particularly for products being sold in foreign markets. Enhanced harvesting accuracy also reduces damage to both crop and plant to ensure sustainable agriculture activities.

Farming Environment Insights

The outdoor segment led the market in 2024 for harvesting robots. The outdoor segment of the harvesting robot market is experiencing strong growth, boosted mainly by the growth of extensive commercial farming operations that need scalable and efficient solutions for enhanced productivity. Outdoor farming encompasses large areas of land and varying topography, making labor-intensive and time-consuming manual harvesting. Outdoor harvesting robots are being used more and more to automate recurring operations and lower reliance on seasonal workers, especially in areas that experience labor shortages.

The indoor market is projected to have the highest CAGR between 2025 and 2035. The growth of urban farming and the necessity of year-round production are fueling the application of harvesting robots in indoor environments. With an increasing number of cities adopting sustainable food systems to cut transportation expenses and emissions, the position of automated indoor agricultural systems gains traction. Here, harvest robots are not only seen as efficiency tools but as vital elements of a complete automated, resource-saving food production system. Their consolidation enables greater throughput and operational reliability, both of which are key to the success of urban and indoor agriculture enterprises.

Regional Insights

Market Analysis

North America harvesting robots market accounted for the largest revenue share of more than 36.0% of the harvesting robots market in 2024. Growth in vertical farming and controlled-environment agriculture (CEA) in urban regions is another key driver in the North American market. As urban centers develop and locally produced, pesticide-free food becomes increasingly sought after, vertical farming and CEA techniques are gaining momentum. These agricultural methods, usually space-saving and resource-frugal, are significantly aided by the help of harvesting robots, which can be applied in the small spaces of indoor farms. Under this environment, robots are able to work with high accuracy and assist farmers in fulfilling the increasing demand for fresh products throughout the year.

U.S. Harvesting Robots Market Trends
The U.S. market for harvesting robots is expected to expand in the forecast period. Growing demand for autonomy in robots is a motivating force in the U.S. market. Earlier versions of agricultural robots needed immense human intervention and experience to handle, but latest innovations have highly enhanced the ease of use and autonomy of harvest robots. Nowadays, these robots are capable of performing activities with very little or no human input, enabling farmers to work more effectively while being cost-effective when it comes to labor. In addition, the robots are becoming easier to use, with user-friendly interfaces that demand less technical expertise, and are thus more available to farmers throughout the U.S. who lack experience with advanced robotics.

Europe Harvesting Robots Market Trends
The Europe harvesting robots market is anticipated to grow at a CAGR of 21.4% during the forecast period. The growing European demand for local and organic products is also spurring the demand for harvesting robots. As people are becoming health and environmentally conscious, they want to see the trend towards eating fresh, pesticide-free, and locally grown produce that is more organically sourced. This in turn is prompting farmers in Europe to implement up-to-date farm methods, and the deployment of harvesting robots is part of those. Robots will make it possible to harvest produce at the correct time, increasing quality and minimizing food wastage. They also assist farmers in fulfilling increased demands for transparency in food production and sustainability.

The UK harvesting robots market is anticipated to grow in the forecasted period.  Precision farming growth is also another driver for the increase in harvesting robots in the UK. Precision farming methods, where data and technology are employed to maximize crop yields and resource utilization, are increasingly being adopted in the nation. Harvesting robots are a crucial part of precision farming, as they come with sensors and artificial intelligence that can monitor crop health and harvesting conditions in real-time. This enables farmers to have better knowledge about when and how to harvest, which enhances the quality of the produce and minimizes wastage. With precision farming on the rise in the UK, the need for sophisticated robotic solutions, such as harvesting robots, will increase.

Asia Pacific Harvesting Robots Market Trends
The Asia Pacific harvest robots demand is predicted to grow at the fastest CAGR of 33.9% from 2025 to 2035. There is a growth in smart farm projects in the region, contributing to the rising demand for harvest robots. There are many countries in the Asia Pacific region which are embracing digital farming methods that involve data aggregation and efficient farm operations with assistance from sensors, drones, and robots. Harvesting robots are at the center of this shift, being integrated with other smart farming solutions to enhance the overall efficiency of the farming process. As smart farming initiatives gain momentum in countries like China and India, autonomous and semi-autonomous harvesting robot demand will surely grow.

The Chinese market for harvesting robots is projected to evolve during the period under review. China's focus on agricultural modernization and technological innovation is also a major catalyst for the application of harvesting robots. The government of China has placed considerable emphasis on modernizing agriculture to make it more efficient, sustainable, and secure in terms of food. As part of its vision for rural development as a whole, China has been investing heavily in smart farming technologies like robotics, AI, and the Internet of Things (IoT). Harvesting robots are included in this effort to enable farmers to increase productivity without using much resources and wasting materials. Farmers also gain more accurate harvesting with the help of automation, reducing losses to crops and improving overall quality of produce.

Key Harvesting Robots Company Insights

Certain major firms that compete in the industry include Deere & Company and AGCO Corporation, among others.

Deere & Company is a multinational firm that produces agricultural equipment, construction equipment, and forestry equipment. Deere competes in four major segmentsProduction and Precision Agriculture, Small Agriculture and Turf, Construction and Forestry, and Financial UAVs. Deere & Company has led the way in combining robotics and automation with agriculture operations, most notably in harvest work. The Company has developed various autonomous systems meant to drive greater efficiency and productivity in the field. During CES 2025, Deere introduced its first fully autonomous 9RX tractor, complete with sophisticated sensors and AI that allow it to execute tasks like tillage and cultivation on its own. This technology represents a major milestone towards complete automation of harvesting operations.

AGCO Corporation is a leading US-based manufacturer dealing in agricultural equipment and precision farming solutions. AGCO provides a wide array of products, ranging from tractors to combines, forage and tillage machinery, hay harvesting tools, and sprayers. The company works under various well-established brands, including Fendt, Massey Ferguson, Valtra, and Gleaner. The firm has created the Fendt Xaver autonomous farm robot, which is meant for seeding and possibly harvesting. In order to further boost the features of the Fendt Xaver, AGCO collaborated with Apex.AI to integrate Apex.OS, a safety-certified software development kit, to support advanced autonomous features.

SPUDNIK Equipment Company LLC and FFRobotics are some new market entrants in the market for harvesting robots.

SPUDNIK Equipment Company LLC is an agricultural machinery manufacturer, focusing on the potato, sugar beet, and vegetable industries. SPUDNIK's product portfolio consists of harvesters, planters, conveyors, and storage facilities, all of which are intended to make agriculture more productive and efficient. SPUDNIK Equipment Company LLC has been engaged in developing and integrating automation technologies into the harvesting equipment. The firm produces a variety of harvesters, among them the 3-row AirSep potato harvester, used to effectively separate soil and trash from harvested potatoes with minimal damage to the crops. 

FFRobotics is an Israeli AgTech firm. The firm is focused on designing fully automated robotic harvesting systems for fresh fruits to help combat labor shortages and increase efficiency in farming. FFRobotics' lead product is the FFRobot, a patented robot harvester that replicates the human hand-picking process, harvesting fruits efficiently, cost-effectively, and bruise-free. The FFRobot leverages cutting-edge robotics, computer vision, and machine learning algorithms to detect and harvest ripe fruits like apples, citrus, pears, peaches, and cherries.

Key Harvesting Robots Companies

The following are the leading companies in the harvesting robots market. These companies collectively hold the largest market share and dictate industry trends.

Recent Developments

  • During September 2024, Kubota North America Corporation, a wholly owned subsidiary of Kubota Corporation, acquired Bloomfield Robotics, Inc. With this acquisition, Kubota will be able to take advantage of Bloomfield's experience in SaaS-based business intelligence and use of data. Through the incorporation of these skills, Kubota plans to further advance the development of sophisticated crop monitoring technologies to be used on tractors, sprayers, and other ag equipment, which will enable more rapid delivery of solutions specific to the specialty crop market.

    In August 2024, Yanmar Holdings Co., Ltd. purchased CLAAS India, an Indian agricultural machinery producer, from its subsidiary Yanmar Coromandel Agrisolutions. The acquisition is intended to enhance Yanmar's Agribusiness growth in India by incorporating a firm with an industry-leading plant and a history of offering high-quality harvesters.

    Yanmar Vineyard Solutions SAS, a French subsidiary of YANMAR HOLDINGS CO., LTD., introduced in March 2023 the YV01, a cutting-edge smart vineyard robot. The easy-to-transport robot can ride on a small trailer or truck. Additionally, it enables the operator to control its operation through a remote remote control. It provides safety by keeping them away from spraying liquids and preventing injury from possible overturning.

Harvesting Robots Report Scope

Report Attribute

Details

Market size value in 2025

USD 2.57 billion

Revenue forecast in 2030

USD 6.93 billion

Growth rate

CAGR of 21.9% from 2025 to 2035

Actual data

2018 - 2024

Forecast period

2025 - 2035

Quantitative units

Revenue in USD million/billion and CAGR from 2025 to 2035

Report coverage

Revenue forecast, company share, competitive landscape, growth factors, and trends

Segments covered

Type, robot type, farming environment, region

Regional scope

North America; Europe; Asia Pacific; Latin America; MEA

Country scope

U.S.; Canada; Mexico; UK; Germany; France; China; India; Japan; Australia; South Korea; Brazil; UAE; Saudi Arabia; South Africa

Key companies profiled

Clearpath Robotics Inc.; AgEagle Aerial Systems Inc.; Deere & Company; YANMAR HOLDINGS CO., LTD; Kubota Corporation; AGCO Corporation; Harvest Automation; Advanced Farm Technologies; FFRobotics; SPUDNIK Equipment Company LLC

Customization scope

Free report customization (equivalent to 8 analysts working days) with purchase. Addition or alteration to country, regional & segment scope.

Pricing and purchase options

Avail customized purchase options to meet your exact research needs. Explore purchase options

Global Harvesting Robots Market Report Segmentation

Harvesting Robots Type Outlook (Revenue, USD Million, 2018 - 2035)

    • Driverless Tractors

    • UAVs

    • Dairy Robots

    • Material Management

  • Harvesting Robots Robot Type Outlook (Revenue, USD Million, 2018 - 2035)

    • Semi-Autonomous

    • Fully-Autonomous

  • Harvesting Robots Farming Environment Outlook (Revenue, USD Million, 2018 - 2035)

    • Indoor

    • Outdoor

  • Harvesting Robots Regional Outlook (Revenue, USD Million, 2018 - 2035)

    • North America

      • U.S.

      • Canada

      • Mexico

    • Europe

      • Germany

      • UK

      • France

    • Asia Pacific

      • China

      • India

      • Japan

      • South Korea

      • Australia

    • Latin America

      • Brazil

    • Middle East & Africa

      • UAE

      • Saudi Arabia

      • South Africa

Related Reports

Table of Content

List Tables Figures

FAQ'S

For a single, multi and corporate client license, the report will be available in PDF format. Sample report would be given you in excel format. For more questions please contact:

sales@marketinsightsresearch.com

Within 24 to 48 hrs.

You can contact Sales team (sales@marketinsightsresearch.com) and they will direct you on email

You can order a report by selecting payment methods, which is bank wire or online payment through any Debit/Credit card, Razor pay or PayPal.

Discounts are available.

Hard Copy

Email