Agriculture Drone Market

Agriculture Drone Market

Category : Information & Communication Technology Reports | Delivery Format : PDF,PPT | Publisher: Reports and Insights | Pages : 212

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Agriculture Drone Market Overview

The report is titled as ‘Agriculture Drone Market: Opportunity Analysis and Future Assessment 2020-2028’. An overview of conceptual frameworks, analytical approaches of the agriculture drone market is the main objective of the report, which further consists of the market opportunity and insights of the data involved in the making of the respective market. The agriculture drone market is expected to grow at a significant rate in the near future.

The global agriculture drone market in 2020 is estimated for more than US$ 1.3 Bn and expected to reach a value of US$ 10.5 Bn by 2028 with a significant CAGR of 35.6%.

Agricultural Drone Introduction

The agriculture industry is considered the most promising industry as it holds the responsibility to feed the constantly increasing population all across the world. The agricultural sector has been witnessing plentiful obstacles and disputes from the scratch such as unavailability of skilled laborers or farmers, extreme weather situations, lack of amount and ineffective functions of fertilizers, diseases, infections, allergies, and other health issues because of chemical application such as pesticides, fungicides, insecticides or animal/insect sting.

Although these days, the agriculture industry is fixated on evolving by employing better and technologically advanced equipment. The agricultural drone is an unmanned flying wagon, which has the potential to keep an eye on the growth of crops and elevate crop production.

The innovative technology is embedded with smart sensors as well as the capacity of digital imaging, which assists the farmers to monitor the field with an elevated view and cuts the complexities such as fungal and pest infections, irrigation issues, fluctuations within soil and many more.

Agricultural Drone Market Dynamics

The surging need for an abundant food supply coupled with the constantly rising world’s population is majorly propelling the growth of the global agricultural drones market. In addition to that, agricultural drones have the capacity to assist farmers in monitoring the fields, upsurge the crop production, and keep the crops healthy and infection-free, which in turn has accelerated the demand for agricultural drones in the global market.

Owing to this, the agricultural drones market is expected to boost in the forthcoming years. On top of that, the growing trend of precision farming, in recent times, is also projected to give a breakthrough to the growth of the agricultural drones market in the near future, owing to the soaring need for field mapping that helps in overseeing the health and conditions of crops with various soil types in a precise manner.

By the same token, the abundant funding from several governments from all across the world with regard to the adoption of smart agricultural techniques is also acting as a positive driver in order to further fuel the growth of the global agricultural drones market in the coming years.

However, the lack of knowledge among the farmers and the huge cost of agricultural drones across the world may hold back the growth of the global agricultural drones market during the forecast period.

The agriculture drone market is expected to increase at a significant CAGR over the forecast period owing to the growth of advanced software solutions that are available for data Analytics and field service, supportive government policies and incentives in order to promote the agricultural sectors, and growing awareness about the benefits of agricultural drones.

Agriculture Drone Market Key Players

Some of the key participating players in the agriculture drone market are:

    DJI

    PrecisionHawk

    Trimble Inc.

    Parrot Drones

    3DR

    AeroVironment, Inc.

    Yamaha Motor Corp.

    DroneDeploy

    AgEagle Aerial Systems, Inc.

    OPTiM Corp.

    senseFLY

    Pix4D

    Agribotix

    Sentera Inc.

    ATMOS UAV

    Delair

    Nileworks Inc.

Agriculture Drone Market Segmentation

The agriculture drone market is segmented on the basis of product type, component, application, and region.

By Product Type

•    Hardware 

o    Fixed Wing Drones

o    Rotary Blade Drones

o    Hybrid Drones

•    Software and Services

o    Data Management Software

o    Imaging Software

o    Data Analytics Software

o    Others

By Component

•    Frames

•    Controller Systems

•    Propulsion Systems

•    Camera System

•    IR Cameras

o    Thermal Cameras

o    Lidar Cameras

o    Others

•    Navigation Systems

o    Global Positioning System (GPS)

o    Geographic Information System (GIS)

•    Batteries

•    Others

By Application

•    Precision Agriculture

o    Field Mapping

    Weed Detection

    Plant Counting

    Crop Health Monitoring

    Harvest Season Monitoring

    Others

o    Variable Rate Application

o    Crop Scouting

o    Crop Spraying

o    Others 

•    Livestock Monitoring

•    Precision Fish Farming

•    Smart Greenhouse

•    Others

By Region

    North America

    Latin America

    Europe

    Asia Pacific

    Middle East

    Africa

Agricultural Drone Market Regional Overview

On the basis of region, the global agriculture drone market is segmented into six regions namely North America, Latin America, Asia Pacific, Europe, Middle East, and Africa. North America agriculture drone market is expected to be the most dominating market throughout the forecast period. Increasing research and development personality in the agricultural sector, increasing venture funding and adoption of drones to monitor the crop health is also boosting the growth of Agriculture drones in the market. However, security and safety issues along with the reliability factor and long flight time of agriculture drones hinder the growth of this market.

MMC Overview on Agricultural Drone Market Report

The non-identical approach of Reports and Insights stands with conceptual methods backed up with the data analysis. The novel market understanding approach makes up the standard of the assessment results that give better opportunity for the customers to put their effort.

A research report on the Agriculture Drone market by Reports and Insights is an in-depth and extensive study of the market based on the necessary data crunching and statistical analysis. It provides a brief view of the dynamics flowing through the market, which includes the factors that supports market and the factors that are acting as impedance for the growth of the market. Furthermore, the report includes the various trends and opportunities in the respective market in different regions for a better understanding of readers that helps to analyze the potential of the market.

Factors that are benchmarked while estimating the market

Various factors that are benchmarked while estimating the market growth includes (but not restricted to):

•    New product designs and launches

•    Current product compliance

•    Reimbursement

•    Concerns for use of Agricultural Drone

•    Advantages of Agricultural Drone

Actions taken by the manufacturer and respective regulatory authorities also impact the market growth of the segment. These factors are understood at regional level and in major countries globally for providing regional insights of the product segment in the report. This helps our clients to take informed decision.

A mix of top-down and bottom-up approach is followed to arrive and validate our market value estimations. For a product segment like wherein one/two manufacturer(s) dominates the market, it’s product sales, previous growth rates and market expansion plans are considered to generate market share in the global market.


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1.    Global Agriculture Drone Market Report Overview

1.1.    Introduction

1.2.    Report Description

1.3.    Methodology

2.    Global Agriculture Drone Market Overview

2.1.    Introduction

2.1.1.    Introduction

2.1.2.    Market Taxonomy

2.2.    Executive Summary

2.3.    Global Agriculture Drone Market Snapshot

2.4.    Global Agriculture Drone Market Size and Forecast, 2020–2028

2.4.1.    Introduction

2.4.2.    Market Value Forecast and Annual Growth Rate (AGR) Comparison (2020–2028)

2.5.    Global Agriculture Drone Market Dynamics

2.5.1.    Drivers

2.5.2.    Restraints

2.5.3.    Opportunity

2.5.4.    Trends

2.6.    Key Regulations

2.7.    Porter’s Five Forces Model

3.    Global Agriculture Drone Market, By Component

3.1.    Introduction

3.1.1.    Annual Growth Rate Comparison, By Component

3.1.2.    BPS Analysis, By Component

3.2.    Market Revenue (US$Mn) Forecast, By Component

3.2.1.    Frames

3.2.2.    Controller Systems

3.2.3.    Propulsion Systems

3.2.4.    Camera System

3.2.4.1.    IR Cameras

3.2.4.2.    Thermal Cameras

3.2.4.3.    Lidar Cameras

3.2.4.4.    Others

3.2.5.    Navigation Systems

3.2.5.1.    Global Positioning System (GPS)

3.2.5.2.    Geographic Information System (GIS)

3.2.6.    Batteries

3.2.7.    Others

3.3.    Global Agriculture Drone Market Attractiveness Index, By Component

4.    Global Agriculture Drone Market, By Application

4.1.    Introduction

4.1.1.    Annual Growth Rate Comparison, By Application

4.1.2.    BPS Analysis, By Application

4.2.    Market Revenue (US$Mn) Forecast, By Application

4.2.1.    Precision Agriculture

4.2.1.1.    Field Mapping

4.2.1.1.1.    Weed Detection

4.2.1.1.2.    Plant Counting

4.2.1.1.3.    Crop Health Monitoring

4.2.1.1.4.    Harvest Season Monitoring

4.2.1.1.5.    Others

4.2.1.2.    Variable Rate Application

4.2.1.3.    Crop Scouting

4.2.1.4.    Crop Spraying

4.2.1.5.    Others 

4.2.2.    Livestock Monitoring

4.2.3.    Precision Fish Farming

4.2.4.    Smart Greenhouse

4.2.5.    Others

4.3.    Global Agriculture Drone Market Attractiveness Index, By Application

5.    Global Agriculture Drone Market, By Product Type

5.1.    Introduction

5.1.1.    Annual Growth Rate Comparison, By Product Type

5.1.2.    BPS Analysis, By Product Type

5.2.    Market Revenue (US$Mn) Forecast, By Product Type

5.2.1.    Hardware 

5.2.1.1.    Fixed Wing Drones

5.2.1.2.    Rotary Blade Drones

5.2.1.3.    Hybrid Drones

5.2.2.    Software and Services

5.2.2.1.    Data Management Software

5.2.2.2.    Imaging Software

5.2.2.3.    Data Analytics Software

5.2.2.4.    Others

5.3.    Global Agriculture Drone Market Attractiveness Index, By Product Type

6.    Global Agriculture Drone Market, By Region

6.1.    Introduction

6.1.1.    Annual Growth Rate Comparison, By Region

6.1.2.    BPS Analysis, By Region

6.2.    Market Revenue (US$Mn) Forecast, By Region

6.2.1.    North America

6.2.2.    Latin America

6.2.3.    Europe

6.2.4.    Asia Pacific

6.2.5.    Middle East

6.2.6.    Africa

6.3.    Global Agriculture Drone Market Attractiveness Index, By Region

7.    North America Agriculture Drone Market Analysis and Forecast, 2020–2028

7.1.    Introduction

7.1.1.    Annual Growth Rate Comparison, By Country

7.1.2.    BPS Analysis, By Country

7.2.    Market Revenue (US$Mn) Forecast, By Country

7.2.1.    U.S. Agriculture Drone Market

7.2.2.    Canada Agriculture Drone Market

7.3.    North America Agriculture Drone Market, By Component

7.3.1.    Frames

7.3.2.    Controller Systems

7.3.3.    Propulsion Systems

7.3.4.    Camera System

7.3.4.1.    IR Cameras

7.3.4.2.    Thermal Cameras

7.3.4.3.    Lidar Cameras

7.3.4.4.    Others

7.3.5.    Navigation Systems

7.3.5.1.    Global Positioning System (GPS)

7.3.5.2.    Geographic Information System (GIS)

7.3.6.    Batteries

7.3.7.    Others

7.4.    North America Agriculture Drone Market, By Application

7.4.1.    Precision Agriculture

7.4.1.1.    Field Mapping

7.4.1.1.1.    Weed Detection

7.4.1.1.2.    Plant Counting

7.4.1.1.3.    Crop Health Monitoring

7.4.1.1.4.    Harvest Season Monitoring

7.4.1.1.5.    Others

7.4.1.2.    Variable Rate Application

7.4.1.3.    Crop Scouting

7.4.1.4.    Crop Spraying

7.4.1.5.    Others 

7.4.2.    Livestock Monitoring

7.4.3.    Precision Fish Farming

7.4.4.    Smart Greenhouse

7.4.5.    Others

7.5.    North America Agriculture Drone Market, By Product Type

7.5.1.    Hardware 

7.5.1.1.    Fixed Wing Drones

7.5.1.2.    Rotary Blade Drones

7.5.1.3.    Hybrid Drones

7.5.2.    Software and Services

7.5.2.1.    Data Management Software

7.5.2.2.    Imaging Software

7.5.2.3.    Data Analytics Software

7.5.2.4.    Others

7.6.    North America Agriculture Drone Market Attractiveness Index

7.6.1.    By Country

7.6.2.    By Component

7.6.3.    By Application

7.6.4.    By Product Type

8.    Latin America Agriculture Drone Market Analysis and Forecast, 2020–2028

8.1.    Introduction

8.1.1.    Annual Growth Rate Comparison, By Country

8.1.2.    BPS Analysis, By Country

8.2.    Market (US$Mn) Forecast, By Country

8.2.1.    Brazil Agriculture Drone Market

8.2.2.    Mexico Agriculture Drone Market

8.2.3.    Argentina Agriculture Drone Market

8.2.4.    Rest of Latin America Agriculture Drone Market

8.3.    Latin America Agriculture Drone Market, By Component

8.3.1.    Frames

8.3.2.    Controller Systems

8.3.3.    Propulsion Systems

8.3.4.    Camera System

8.3.4.1.    IR Cameras

8.3.4.2.    Thermal Cameras

8.3.4.3.    Lidar Cameras

8.3.4.4.    Others

8.3.5.    Navigation Systems

8.3.5.1.    Global Positioning System (GPS)

8.3.5.2.    Geographic Information System (GIS)

8.3.6.    Batteries

8.3.7.    Others

8.4.    Latin America Agriculture Drone Market, By Application

8.4.1.    Precision Agriculture

8.4.1.1.    Field Mapping

8.4.1.1.1.    Weed Detection

8.4.1.1.2.    Plant Counting

8.4.1.1.3.    Crop Health Monitoring

8.4.1.1.4.    Harvest Season Monitoring

8.4.1.1.5.    Others

8.4.1.2.    Variable Rate Application

8.4.1.3.    Crop Scouting

8.4.1.4.    Crop Spraying

8.4.1.5.    Others 

8.4.2.    Livestock Monitoring

8.4.3.    Precision Fish Farming

8.4.4.    Smart Greenhouse

8.4.5.    Others

8.5.    Latin America Agriculture Drone Market, By Product Type

8.5.1.    Hardware 

8.5.1.1.    Fixed Wing Drones

8.5.1.2.    Rotary Blade Drones

8.5.1.3.    Hybrid Drones

8.5.2.    Software and Services

8.5.2.1.    Data Management Software

8.5.2.2.    Imaging Software

8.5.2.3.    Data Analytics Software

8.5.2.4.    Others

8.6.    Latin America Agriculture Drone Market Attractiveness Index

8.6.1.    By Country

8.6.2.    By Component

8.6.3.    By Application

8.6.4.    By Product Type

9.    Europe Agriculture Drone Market Analysis and Forecast, 2020–2028

9.1.    Introduction

9.1.1.    Annual Growth Rate Comparison, By Country

9.1.2.    BPS Analysis, By Country

9.2.    Market (US$Mn) Forecast, By Country

9.2.1.    U.K. Agriculture Drone Market

9.2.2.    Germany Agriculture Drone Market

9.2.3.    Italy Agriculture Drone Market

9.2.4.    France Agriculture Drone Market

9.2.5.    Spain Agriculture Drone Market

9.2.6.    Russia Agriculture Drone Market

9.2.7.    Poland Agriculture Drone Market

9.2.8.    BENELUX Agriculture Drone Market

9.2.9.    NORDIC Agriculture Drone Market

9.2.10.    Rest of Europe Agriculture Drone Market

9.3.    Europe Agriculture Drone Market, By Component

9.3.1.    Frames

9.3.2.    Controller Systems

9.3.3.    Propulsion Systems

9.3.4.    Camera System

9.3.4.1.    IR Cameras

9.3.4.2.    Thermal Cameras

9.3.4.3.    Lidar Cameras

9.3.4.4.    Others

9.3.5.    Navigation Systems

9.3.5.1.    Global Positioning System (GPS)

9.3.5.2.    Geographic Information System (GIS)

9.3.6.    Batteries

9.3.7.    Others

9.4.    Europe Agriculture Drone Market, By Application

9.4.1.    Precision Agriculture

9.4.1.1.    Field Mapping

9.4.1.1.1.    Weed Detection

9.4.1.1.2.    Plant Counting

9.4.1.1.3.    Crop Health Monitoring

9.4.1.1.4.    Harvest Season Monitoring

9.4.1.1.5.    Others

9.4.1.2.    Variable Rate Application

9.4.1.3.    Crop Scouting

9.4.1.4.    Crop Spraying

9.4.1.5.    Others 

9.4.2.    Livestock Monitoring

9.4.3.    Precision Fish Farming

9.4.4.    Smart Greenhouse

9.4.5.    Others

9.5.    Europe Agriculture Drone Market, By Product Type

9.5.1.    Hardware 

9.5.1.1.    Fixed Wing Drones

9.5.1.2.    Rotary Blade Drones

9.5.1.3.    Hybrid Drones

9.5.2.    Software and Services

9.5.2.1.    Data Management Software

9.5.2.2.    Imaging Software

9.5.2.3.    Data Analytics Software

9.5.2.4.    Others

9.6.    Europe Agriculture Drone Market Attractiveness Index

9.6.1.    By Country

9.6.2.    By Component

9.6.3.    By Application

9.6.4.    By Product Type

10.    Asia Pacific Agriculture Drone Market Analysis and Forecast, 2020–2028

10.1.    Introduction

10.1.1.    Annual Growth Rate Comparison, By Country

10.1.2.    BPS Analysis, By Country

10.2.    Market (US$Mn) Forecast, By Country

10.2.1.    China Agriculture Drone Market

10.2.2.    India Agriculture Drone Market

10.2.3.    Japan Agriculture Drone Market

10.2.4.    Australia and New Zealand Agriculture Drone Market

10.2.5.    South Korea Agriculture Drone Market

10.2.6.    ASEAN Agriculture Drone Market

10.2.7.    Rest of Asia Pacific Agriculture Drone Market

10.3.    Asia Pacific Agriculture Drone Market, By Component

10.3.1.    Frames

10.3.2.    Controller Systems

10.3.3.    Propulsion Systems

10.3.4.    Camera System

10.3.4.1.    IR Cameras

10.3.4.2.    Thermal Cameras

10.3.4.3.    Lidar Cameras

10.3.4.4.    Others

10.3.5.    Navigation Systems

10.3.5.1.    Global Positioning System (GPS)

10.3.5.2.    Geographic Information System (GIS)

10.3.6.    Batteries

10.3.7.    Others

10.4.    Asia Pacific Agriculture Drone Market, By Application

10.4.1.    Precision Agriculture

10.4.1.1.    Field Mapping

10.4.1.1.1.    Weed Detection

10.4.1.1.2.    Plant Counting

10.4.1.1.3.    Crop Health Monitoring

10.4.1.1.4.    Harvest Season Monitoring

10.4.1.1.5.    Others

10.4.1.2.    Variable Rate Application

10.4.1.3.    Crop Scouting

10.4.1.4.    Crop Spraying

10.4.1.5.    Others 

10.4.2.    Livestock Monitoring

10.4.3.    Precision Fish Farming

10.4.4.    Smart Greenhouse

10.4.5.    Others

10.5.    Asia Pacific Agriculture Drone Market, By Product Type

10.5.1.    Hardware 

10.5.1.1.    Fixed Wing Drones

10.5.1.2.    Rotary Blade Drones

10.5.1.3.    Hybrid Drones

10.5.2.    Software and Services

10.5.2.1.    Data Management Software

10.5.2.2.    Imaging Software

10.5.2.3.    Data Analytics Software

10.5.2.4.    Others

10.6.    Asia Pacific Agriculture Drone Market Attractiveness Index

10.6.1.    By Country

10.6.2.    By Component

10.6.3.    By Application

10.6.4.    By Product Type

11.    Middle East Agriculture Drone Market Analysis and Forecast, 2020–2028

11.1.    Introduction

11.1.1.    Annual Growth Rate Comparison, By Country

11.1.2.    BPS Analysis, By Country

11.2.    Market (US$Mn) Forecast, By Country

11.2.1.    GCC Countries Agriculture Drone Market

11.2.2.    Israel Agriculture Drone Market

11.2.3.    Oman Agriculture Drone Market

11.2.4.    Rest of Middle East Agriculture Drone Market

11.3.    Middle East Agriculture Drone Market, By Component

11.3.1.    Frames

11.3.2.    Controller Systems

11.3.3.    Propulsion Systems

11.3.4.    Camera System

11.3.4.1.    IR Cameras

11.3.4.2.    Thermal Cameras

11.3.4.3.    Lidar Cameras

11.3.4.4.    Others

11.3.5.    Navigation Systems

11.3.5.1.    Global Positioning System (GPS)

11.3.5.2.    Geographic Information System (GIS)

11.3.6.    Batteries

11.3.7.    Others

11.4.    Middle East Agriculture Drone Market, By Application

11.4.1.    Precision Agriculture

11.4.1.1.    Field Mapping

11.4.1.1.1.    Weed Detection

11.4.1.1.2.    Plant Counting

11.4.1.1.3.    Crop Health Monitoring

11.4.1.1.4.    Harvest Season Monitoring

11.4.1.1.5.    Others

11.4.1.2.    Variable Rate Application

11.4.1.3.    Crop Scouting

11.4.1.4.    Crop Spraying

11.4.1.5.    Others 

11.4.2.    Livestock Monitoring

11.4.3.    Precision Fish Farming

11.4.4.    Smart Greenhouse

11.4.5.    Others

11.5.    Middle East Agriculture Drone Market, By Product Type

11.5.1.    Hardware 

11.5.1.1.    Fixed Wing Drones

11.5.1.2.    Rotary Blade Drones

11.5.1.3.    Hybrid Drones

11.5.2.    Software and Services

11.5.2.1.    Data Management Software

11.5.2.2.    Imaging Software

11.5.2.3.    Data Analytics Software

11.5.2.4.    Others

11.6.    Middle East Agriculture Drone Market Attractiveness Index

11.6.1.    By Country

11.6.2.    By Component

11.6.3.    By Application

11.6.4.    By Product Type

12.    Africa Agriculture Drone Market Analysis and Forecast, 2020–2028

12.1.    Introduction

12.1.1.    Annual Growth Rate Comparison, By Country

12.1.2.    BPS Analysis, By Country

12.2.    Market (US$Mn) Forecast, By Country

12.2.1.    South Africa Agriculture Drone Market

12.2.2.    Egypt Agriculture Drone Market

12.2.3.    North Africa Agriculture Drone Market

12.2.4.    Rest of Africa Agriculture Drone Market

12.3.    Africa Agriculture Drone Market, By Component

12.3.1.    Frames

12.3.2.    Controller Systems

12.3.3.    Propulsion Systems

12.3.4.    Camera System

12.3.4.1.    IR Cameras

12.3.4.2.    Thermal Cameras

12.3.4.3.    Lidar Cameras

12.3.4.4.    Others

12.3.5.    Navigation Systems

12.3.5.1.    Global Positioning System (GPS)

12.3.5.2.    Geographic Information System (GIS)

12.3.6.    Batteries

12.3.7.    Others

12.4.    Africa Agriculture Drone Market, By Application

12.4.1.    Precision Agriculture

12.4.1.1.    Field Mapping

12.4.1.1.1.    Weed Detection

12.4.1.1.2.    Plant Counting

12.4.1.1.3.    Crop Health Monitoring

12.4.1.1.4.    Harvest Season Monitoring

12.4.1.1.5.    Others

12.4.1.2.    Variable Rate Application

12.4.1.3.    Crop Scouting

12.4.1.4.    Crop Spraying

12.4.1.5.    Others 

12.4.2.    Livestock Monitoring

12.4.3.    Precision Fish Farming

12.4.4.    Smart Greenhouse

12.4.5.    Others

12.5.    Africa Agriculture Drone Market, By Product Type

12.5.1.    Hardware 

12.5.1.1.    Fixed Wing Drones

12.5.1.2.    Rotary Blade Drones

12.5.1.3.    Hybrid Drones

12.5.2.    Software and Services

12.5.2.1.    Data Management Software

12.5.2.2.    Imaging Software

12.5.2.3.    Data Analytics Software

12.5.2.4.    Others

12.6.    Africa Agriculture Drone Market Attractiveness Index

12.6.1.    By Country

12.6.2.    By Component

12.6.3.    By Application

12.6.4.    By Product Type

13.    Recommendation

13.1.    Market Strategy

14.    Competitive Landscape

14.1.    Competition Dashboard

14.2.    List and Company Overview of Global Key Players

14.3.    Company Profiles

14.3.1.    DJI

14.3.1.1.    Company Overview

14.3.1.2.    Financial Overview

14.3.1.3.    Component Portfolio

14.3.1.4.    Key Developments

14.3.1.5.    Business Strategies

14.3.2.    PrecisionHawk

14.3.3.    Trimble Inc.

14.3.4.    Parrot Drones

14.3.5.    3DR

14.3.6.    AeroVironment, Inc.

14.3.7.    Yamaha Motor Corp.

14.3.8.    DroneDeploy

14.3.9.    AgEagle Aerial Systems, Inc.

14.3.10.    OPTiM Corp.

14.3.11.    senseFLY

14.3.12.    Pix4D

14.3.13.    Agribotix

14.3.14.    Sentera Inc.

14.3.15.    ATMOS UAV

14.3.16.    Delair

14.3.17.    Nileworks Inc.

15.    Acronyms

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Frequently Asked Questions

The global agriculture drone market in 2020 is estimated for more than US$ 1.3 Bn and expected to reach a value of US$ 10.5 Bn by 2028 with a significant CAGR of 35.6%.

The surging need for an abundant food supply coupled with the constantly rising world’s population, growing trend of precision farming, and soaring need for field mapping that helps in overseeing the health and conditions of crops with various soil types in a precise manner are the key factors driving the growth of market

The agriculture drone market is segmented on the basis of product type, component, application, and region.

Some of the key participating players in the agriculture drone market are DJI, PrecisionHawk, Trimble Inc., Parrot Drones, 3DR, AeroVironment, Inc., Yamaha Motor Corp., DroneDeploy, AgEagle Aerial Systems, Inc., OPTiM Corp., senseFLY, Pix4D, Agribotix, Sentera Inc., ATMOS UAV, Delair, and Nileworks Inc.



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