Agriculture Drones Market Report by Offering (Hardware, Software), Component (Controller Systems, Propulsion Systems, Cameras, Batteries, Navigation Systems, and Others), Farming Environment (Indoor, Outdoor), Application (Field Mapping, Variable Rate App

Agriculture Drones Market Report by Offering (Hardware, Software), Component (Controller Systems, Propulsion Systems, Cameras, Batteries, Navigation Systems, and Others), Farming Environment (Indoor, Outdoor), Application (Field Mapping, Variable Rate Application, Crop Scouting, and Others), and Region 2024-2032


The global agriculture drones market size reached US$ 2,076.5 Million in 2023. Looking forward, IMARC Group expects the market to reach US$ 22,564.6 Million by 2032, exhibiting a growth rate (CAGR) of 29.4% during 2024-2032. The significant technological advancements, rising labor shortage across the globe, escalating environmental consciousness among the masses, imposition of various government initiatives, escalating consumer expectation for better-quality, and increasing unpredictability of weather patterns are some of the major factors propelling the market.

Agriculture drones refer to unmanned aerial vehicles (UAVs) that are equipped with devices to assist in farming and agriculture tasks. It includes fixed-wing, multi-rotor, and hybrid drones, each with distinct capabilities. They are comprised of several components, such as flight controllers, sensors, cameras, navigation systems, and application-specific payloads. Agriculture drones finds extensive applications in soil analysis, crop monitoring, planting, irrigation management, livestock tracking, pest control, yield estimation, weather forecasting, aerial mapping, and data collection. They aid in increasing operational efficiency, reducing labor costs, enhancing crop yield, and improving safety.

The imposition of various government initiatives offering grants and subsidies to encourage the adoption of modern farming technology, including drones, is positively influencing the market growth. Besides this, the escalating consumer expectation for better-quality, pesticide-free produce is facilitating the product demand to enable more precise and data-driven agriculture. Additionally, the widespread product utilization to provide actionable insights that assist in the efficient use of limited resources, such as water and soil, is contributing to the market growth. Furthermore, the growing product demand, owing to its economic benefits over traditional agricultural practices, such as resource optimization, low labor cost, and improved efficiency, is catalyzing the market growth. In addition, the rising product adoption owing to the increasing unpredictability of weather patterns, which require frequent and precise monitoring and quick decision-making, is supporting the market growth.

Agriculture Drones Market Trends/Drivers:
The significant technological advancements

Technological advancement in drone capabilities is a key driver in the agriculture drones market. Drones are becoming more specialized and equipped with advanced features tailored to agricultural needs. In line with this, the integration of sophisticated sensors, such as multispectral, hyperspectral, and thermal cameras, has enabled the collection of highly accurate data, which can be analyzed in real-time for informed decision-making. Furthermore, the incorporation of advanced global positioning systems (GPS) and geographic information systems (GIS) to offer precise location tracking and data mapping is positively influencing the market growth. Apart from this, the advancements in artificial intelligence (AI) and machine learning (ML) algorithms that are revolutionizing data analytics and providing actionable insights into crop health, soil conditions, and irrigation needs is contributing to the market growth.

The rising labor shortage across the globe

The agricultural sector is facing a growing labor shortage problem, which is driving the demand for automated solutions, such as drones. Additionally, the rising geriatric population in many developed countries and younger generations increasingly moving towards urban areas for employment opportunities are causing a shortage of skilled labor for farming activities. Besides this, manual labor is not only hard to find but can also be expensive and seasonal, adding to the inconsistency in workforce availability. Drones provide a solution to this labor gap by automating many tasks, such as crop monitoring, that would otherwise require significant human effort. In addition, they can also apply fertilizers and pesticides in a targeted manner, thus reducing the need for manpower. As a result, drones allow agricultural enterprises to maintain or even increase productivity despite labor shortages.

The escalating environmental consciousness among the masses

The growing environmental consciousness is a crucial factor driving the adoption of drones in agriculture. Traditional farming practices involve the indiscriminate use of resources, such as water and fertilizers, which causes soil degradation and water pollution. Drones, with their precision agriculture capabilities, address these concerns effectively by enabling targeted application of fertilizers and pesticides, thereby reducing wastage and minimizing environmental impact. In addition, drones can generate detailed maps of farmland, highlighting areas that may require special attention, such as those with poor drainage or soil conditions. This data aids in the optimal utilization of resources, thus preserving the environment, saving costs, and promoting eco-friendly practices.

Agriculture Drones Industry Segmentation:
IMARC Group provides an analysis of the key trends in each segment of the global agriculture drones market report, along with forecasts at the global, regional and country levels for 2024-2032. Our report has categorized the market based on offering, component, farming environment, and application.

Breakup by Offering:

Hardware
Fixed Wing
Rotary Wing
Hybrid Wing
Software
Data Management Software
Imaging Software
Data Analytics Software
Others

Hardware (Fixed wing) dominates the market

The report has provided a detailed breakup and analysis of the market based on offering. This includes hardware (fixed wing, rotary wing, and hybrid wing) and software (data management software, imaging software, data analytics software, and others). According to the report, hardware (fixed wing) represented the largest segment.

Hardware (fixed-wing) is dominating the market as it offers longer flight times compared to its rotary-wing counterparts, allowing for the surveying of larger agricultural fields in a single flight. Furthermore, it is generally faster, covering more ground in less time, which enhances its suitability for large-scale agricultural applications, such as crop monitoring, soil analysis, and mapping. Moreover, fixed-wing drones are more energy-efficient, as they require less power to stay aloft, which makes them highly cost-effective in the long run, lowering operational costs for farmers and agricultural companies. Additionally, their designs enable them to carry heavier payloads, including advanced imaging technologies and larger batteries. This capacity allows for more sophisticated data collection, which is crucial for modern, data-driven agricultural practices.

Breakup by Component:

Controller Systems
Propulsion Systems
Cameras
Batteries
Navigation Systems
Others

Cameras hold the largest share in the market

A detailed breakup and analysis of the market based on component has also been provided in the report. This includes controller systems, propulsion systems, cameras, batteries, navigation systems, and others. According to the report, cameras represented the largest segment.

Cameras are dominating the market as they provide high-resolution imaging, which allows detailed crop monitoring, soil assessment, and mapping, enabling farmers to make informed decisions. Additionally, the recent advancements in camera technology, which have led to the development of specialized cameras capable of multispectral, hyperspectral, and thermal imaging, are contributing to the market growth. Besides this, cameras are becoming increasingly cost-effective, making them an accessible option for even smaller agricultural operations. Furthermore, the cost-effectiveness and wider affordability has accelerated the adoption of camera-equipped drones across the agricultural sector. Moreover, the ease of integrating cameras with drone hardware and data analytics platforms facilitates efficient data processing and interpretation, which is crucial for modern agriculture practices that rely on real-time information.

Breakup by Farming Environment:

Indoor
Outdoor

Outdoor holds the largest share in the market

A detailed breakup and analysis of the market based on farming environment has also been provided in the report. This includes indoor and outdoor. According to the report, outdoor accounted for the largest market share.

Outdoor farming environments, such as large farms and plantations, cover vast areas that are difficult to monitor manually. Drones offer an efficient, scalable solution to survey these large tracts of land, making them highly suitable for outdoor applications. Furthermore, agricultural drones are primarily used for field mapping, crop monitoring, and soil analysis, tasks that are predominantly relevant to outdoor farming practices. Additionally, outdoor farming often involves varied terrains and ecological conditions, which can be challenging to navigate through ground-based methods. In line with this, drones offer the flexibility to easily adapt to different outdoor conditions, thus offering more reliable and efficient data collection. Moreover, the outdoor environment provides more opportunities for the deployment of advanced drone technologies, such as multispectral imaging and LIDAR.

Breakup by Application:

Field Mapping
Variable Rate Application
Crop Scouting
Others

Field mapping holds the largest share in the market

A detailed breakup and analysis of the market based on application has also been provided in the report. This includes field mapping, variable rate application, crop scouting, and others. According to the report, field mapping accounted for the largest market share.

Field mapping is dominating the market as it provides critical data that helps farmers understand the variability in their fields, allowing them to make informed decisions about irrigation, fertilization, and pest control. Furthermore, the advancements in drone technology, which have enabled high-resolution imaging capabilities, making field mapping more precise and accurate, are positively influencing the market growth. Additionally, the advent of precision agriculture, which depends heavily on accurate field maps, is acting as another growth-inducing factor. Moreover, field mapping with drones is significantly faster and provides the ability to quickly gather data, which allows timely interventions, such as planting adjustments, irrigation modifications, or pest treatments. Along with this, the imposition of favorable policies by governments to encourage the use of drones for non-intrusive applications like field mapping is catalyzing the market growth.

Breakup by Region:

North America
United States
Canada
Asia-Pacific
China
Japan
India
South Korea
Australia
Indonesia
Others
Europe
Germany
France
United Kingdom
Italy
Spain
Russia
Others
Latin America
Brazil
Mexico
Others
Middle East and Africa

North America exhibits a clear dominance, accounting for the largest agriculture drones market share

The market research report has also provided a comprehensive analysis of all the major regional markets, which include North America (the United States and Canada); Asia Pacific (China, Japan, India, South Korea, Australia, Indonesia, and others); Europe (Germany, France, the United Kingdom, Italy, Spain, Russia, and others); Latin America (Brazil, Mexico, and others); and the Middle East and Africa. According to the report, North America accounted for the largest market share.

North America has a strong technological infrastructure that readily supports advancements in drone technology. Along with this, the region hosts some of the world's leading tech companies specializing in drone manufacturing. Furthermore, North America benefits from robust regulatory frameworks that facilitate easier implementation of drone technology in agriculture, including clear guidelines and quicker approvals for drone operations. Besides this, the regional farmers possess the capital required to invest in sophisticated drone systems, making it a lucrative market for companies. Additionally, the agricultural sector in the region is more industrialized and open to adopting new technologies to improve efficiency and yields. Moreover, North America has a vast expanse of arable land, which necessitates more effective and scalable solutions, such as drones, for crop monitoring, soil assessment, and yield prediction.

Competitive Landscape:
Leading players are focusing on technological innovation to provide drones with advanced features, such as enhanced imaging capabilities, machine learning (ML) algorithms for crop analysis, and improved battery life for extended flight times. Besides this, companies are entering into partnerships and collaborations with agricultural tech firms and research institutions to develop drones with specialized functionalities. Furthermore, they are participating in agricultural exhibitions, hosting webinars, and publishing case studies to demonstrate the effectiveness of drone technology in modern agriculture. Additionally, several product manufacturers are actively working with governmental bodies to help define regulations that are conducive to the agricultural drone industry, ensuring safety and compliance. Moreover, they are exploring various pricing models, including leasing options, to make drone technology accessible to small and medium-sized farms, thus broadening the consumer base.

The report has provided a comprehensive analysis of the competitive landscape in the market. Detailed profiles of all major companies have also been provided. Some of the key players in the market include:

3D Robotics Inc.
AeroVironment Inc.
AGCO Corporation
AgEagle Aerial Systems Inc.
American Robotics Inc. (Ondas Holdings Inc.)
DJI
DroneDeploy
Parrot Drone SAS
PrecisionHawk
Trimble Inc.
Yamaha Motor Co. Ltd.
Recent Developments:
In October 2022, DJI launched the Agras T40 drone to help cultivators easily and quickly spray crop fields, orchards, and fruit trees.
In August 2021, PrecisionHawk launched a pilot training program with Wake Technical Community College to teach how to fly drones for personal and professional applications, such as utilities, construction, and agriculture.
In October 2021, AgEagle Aerial Systems Inc. unveiled the MicaSense drone sensor that can provide highly precise data analysis capabilities for agriculture, forestry, and land management drone programs.

Key Questions Answered in This Report

1. What was the size of the global agriculture drones market in 2023?
2. What is the expected growth rate of the global agriculture drones market during 2024-2032?
3. What are the key factors driving the global agriculture drones market?
4. What has been the impact of COVID-19 on the global agriculture drones market?
5. What is the breakup of the global agriculture drones market based on the offering?
6. What is the breakup of the global agriculture drones market based on component?
7. What is the breakup of the global agriculture drones market based on the farming environment?
8. What is the breakup of the global agriculture drones market based on the application?
9. What are the key regions in the global agriculture drones market?
10. Who are the key players/companies in the global agriculture drones market?


1 Preface
2 Scope and Methodology
2.1 Objectives of the Study
2.2 Stakeholders
2.3 Data Sources
2.3.1 Primary Sources
2.3.2 Secondary Sources
2.4 Market Estimation
2.4.1 Bottom-Up Approach
2.4.2 Top-Down Approach
2.5 Forecasting Methodology
3 Executive Summary
4 Introduction
4.1 Overview
4.2 Key Industry Trends
5 Global Agriculture Drones Market
5.1 Market Overview
5.2 Market Performance
5.3 Impact of COVID-19
5.4 Market Forecast
6 Market Breakup by Offering
6.1 Hardware
6.1.1 Market Trends
6.1.2 Key Segments
6.1.2.1 Fixed Wing
6.1.2.2 Rotary Wing
6.1.2.3 Hybrid Wing
6.1.3 Market Forecast
6.2 Software
6.2.1 Market Trends
6.2.2 Key Segments
6.2.2.1 Data Management Software
6.2.2.2 Imaging Software
6.2.2.3 Data Analytics Software
6.2.2.4 Others
6.2.3 Market Forecast
7 Market Breakup by Component
7.1 Controller Systems
7.1.1 Market Trends
7.1.2 Market Forecast
7.2 Propulsion Systems
7.2.1 Market Trends
7.2.2 Market Forecast
7.3 Cameras
7.3.1 Market Trends
7.3.2 Market Forecast
7.4 Batteries
7.4.1 Market Trends
7.4.2 Market Forecast
7.5 Navigation Systems
7.5.1 Market Trends
7.5.2 Market Forecast
7.6 Others
7.6.1 Market Trends
7.6.2 Market Forecast
8 Market Breakup by Farming Environment
8.1 Indoor
8.1.1 Market Trends
8.1.2 Market Forecast
8.2 Outdoor
8.2.1 Market Trends
8.2.2 Market Forecast
9 Market Breakup by Application
9.1 Field Mapping
9.1.1 Market Trends
9.1.2 Market Forecast
9.2 Variable Rate Application
9.2.1 Market Trends
9.2.2 Market Forecast
9.3 Crop Scouting
9.3.1 Market Trends
9.3.2 Market Forecast
9.4 Others
9.4.1 Market Trends
9.4.2 Market Forecast
10 Market Breakup by Region
10.1 North America
10.1.1 United States
10.1.1.1 Market Trends
10.1.1.2 Market Forecast
10.1.2 Canada
10.1.2.1 Market Trends
10.1.2.2 Market Forecast
10.2 Asia-Pacific
10.2.1 China
10.2.1.1 Market Trends
10.2.1.2 Market Forecast
10.2.2 Japan
10.2.2.1 Market Trends
10.2.2.2 Market Forecast
10.2.3 India
10.2.3.1 Market Trends
10.2.3.2 Market Forecast
10.2.4 South Korea
10.2.4.1 Market Trends
10.2.4.2 Market Forecast
10.2.5 Australia
10.2.5.1 Market Trends
10.2.5.2 Market Forecast
10.2.6 Indonesia
10.2.6.1 Market Trends
10.2.6.2 Market Forecast
10.2.7 Others
10.2.7.1 Market Trends
10.2.7.2 Market Forecast
10.3 Europe
10.3.1 Germany
10.3.1.1 Market Trends
10.3.1.2 Market Forecast
10.3.2 France
10.3.2.1 Market Trends
10.3.2.2 Market Forecast
10.3.3 United Kingdom
10.3.3.1 Market Trends
10.3.3.2 Market Forecast
10.3.4 Italy
10.3.4.1 Market Trends
10.3.4.2 Market Forecast
10.3.5 Spain
10.3.5.1 Market Trends
10.3.5.2 Market Forecast
10.3.6 Russia
10.3.6.1 Market Trends
10.3.6.2 Market Forecast
10.3.7 Others
10.3.7.1 Market Trends
10.3.7.2 Market Forecast
10.4 Latin America
10.4.1 Brazil
10.4.1.1 Market Trends
10.4.1.2 Market Forecast
10.4.2 Mexico
10.4.2.1 Market Trends
10.4.2.2 Market Forecast
10.4.3 Others
10.4.3.1 Market Trends
10.4.3.2 Market Forecast
10.5 Middle East and Africa
10.5.1 Market Trends
10.5.2 Market Breakup by Country
10.5.3 Market Forecast
11 SWOT Analysis
11.1 Overview
11.2 Strengths
11.3 Weaknesses
11.4 Opportunities
11.5 Threats
12 Value Chain Analysis
13 Porters Five Forces Analysis
13.1 Overview
13.2 Bargaining Power of Buyers
13.3 Bargaining Power of Suppliers
13.4 Degree of Competition
13.5 Threat of New Entrants
13.6 Threat of Substitutes
14 Price Analysis
15 Competitive Landscape
15.1 Market Structure
15.2 Key Players
15.3 Profiles of Key Players
15.3.1 3D Robotics Inc.
15.3.1.1 Company Overview
15.3.1.2 Product Portfolio
15.3.2 AeroVironment Inc.
15.3.2.1 Company Overview
15.3.2.2 Product Portfolio
15.3.2.3 Financials
15.3.2.4 SWOT Analysis
15.3.3 AGCO Corporation
15.3.3.1 Company Overview
15.3.3.2 Product Portfolio
15.3.3.3 Financials
15.3.3.4 SWOT Analysis
15.3.4 AgEagle Aerial Systems Inc.
15.3.4.1 Company Overview
15.3.4.2 Product Portfolio
15.3.4.3 Financials
15.3.5 American Robotics Inc. (Ondas Holdings Inc.)
15.3.5.1 Company Overview
15.3.5.2 Product Portfolio
15.3.6 DJI
15.3.6.1 Company Overview
15.3.6.2 Product Portfolio
15.3.7 DroneDeploy
15.3.7.1 Company Overview
15.3.7.2 Product Portfolio
15.3.8 Parrot Drone SAS
15.3.8.1 Company Overview
15.3.8.2 Product Portfolio
15.3.9 PrecisionHawk
15.3.9.1 Company Overview
15.3.9.2 Product Portfolio
15.3.10 Trimble Inc.
15.3.10.1 Company Overview
15.3.10.2 Product Portfolio
15.3.10.3 Financials
15.3.10.4 SWOT Analysis
15.3.11 Yamaha Motor Co. Ltd.
15.3.11.1 Company Overview
15.3.11.2 Product Portfolio
15.3.11.3 Financials
15.3.11.4 SWOT Analysis

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