Drones As A Service Market Report (2025-2030): Agritech Set For UAV Revolution With Iot-Driven Agricultural Innovations

(MENAFN- GlobeNewsWire - Nasdaq) Explore the dynamic growth of the Drones-as-a-Service market in this comprehensive report. Key solutions include surveillance, mapping, and maintenance, with forecasts to 2030. Major growth areas include AgriTech and package delivery. Cloud computing and robotics innovations further enhance service efficiency.

Dublin, May 08, 2025 (GLOBE NEWSWIRE) -- The "Drones as a Service Market by Applications and Leading Industries with Global, Regional and Country Forecasts 2025 - 2030" report has been added to ResearchAndMarkets.com's offering.

This report provides analysis for the drones-as-a-service market including applications and services targeted at different use cases. The report evaluates solutions for leading industry verticals such as agricultural technology.

Solution areas evaluated include surveillance and monitoring, surveying and mapping, maintenance and inspection, filming and photography, package delivery, and scientific research. The report includes forecasts by solution and industry verticals from 2025 through 2030.

Select Report Findings:

• The overall drones as a service market will reach $179.3 billion by 2030
• Surveillance and monitoring will be the largest revenue opportunity through 2030
• High potential industry verticals include construction, insurance, aerospace and real estate
• Surveillance and mapping remain largest opportunities with maintenance and inspection rapidly gaining ground as high ROI solutions
• Developing countries are fastest growing for many solutions due largely to substantial cost avoidance for expensive professional services

Cloud Computing a Major Enabler of Drones as a Service

The fundamental principle underpinning cloud computing is the decentralization of computational resources. It posits that the physical infrastructure required for processing data and running applications no longer necessitates a local presence within a customer's own facilities.

Furthermore, the precise geographical location of these computing resources becomes largely immaterial to the end-user. Imagine, if you will, computational power existing almost ubiquitously, like a utility that can be tapped into whenever and wherever the need arises. This abstract notion of computing residing "in the ether" highlights the on-demand and location-independent nature of the cloud.

This shift in paradigm has yielded significant advantages. Firstly, it has dramatically improved the utilization of computing assets. Instead of individual organizations maintaining underutilized servers and infrastructure, cloud providers can aggregate demand from numerous customers, leading to far greater efficiency.

Consequently, for those investing in the underlying hardware and software, this translates to a substantial optimization of capital expenditures. Simultaneously, for businesses consuming these computing services, the model shifts to scalable operational expenses, meaning they only pay for the resources they consume, offering unparalleled flexibility and cost-effectiveness.

The evolution of cloud computing has fostered the "as a service" delivery model. This framework provides computational capabilities - be it processing power, storage, or specialized software - as a service that can be accessed over a network, typically the internet. This "as a service" approach has proven to be an exceptionally adaptable and scalable method for organizations to introduce and expand their computational capabilities without the upfront investment and management overhead associated with traditional IT infrastructure.

This transformative "as a service" paradigm is now profoundly impacting the field of robotics. It is paving the way for "automation as a service", where robotic capabilities are offered as a readily available service rather than requiring the outright purchase and maintenance of physical robots. This shift unlocks new possibilities for businesses that may have previously found robotics cost-prohibitive or lacked the in-house expertise to deploy and manage them effectively.

In particular, the synergistic combination of robotics, teleoperation, and cloud technologies is revolutionizing enterprise operations. This convergence is making the concept of "robotics on demand" a viable and increasingly attractive business model. Imagine being able to access and control robotic arms for manufacturing tasks, mobile robots for warehouse logistics, or inspection robots for remote monitoring, all through a cloud-based platform and paying only for the time and resources utilized.

This innovative model is not confined to specific industries; it is rapidly permeating virtually every use case, application, and solution across a wide spectrum of sectors. The realm of drones is no exception. We are witnessing "Drones-as-a-Service" (DaaS) gaining significant traction as an outsourced solution for enhancing operational efficiency in numerous industries. A prime example, particularly highlighted by recent global events, is package delivery, which is anticipated to be a key market for drone-based services.

This trend is not a fleeting phenomenon. Certain leading industries, such as AgriTech, are poised to become major investment areas for Unmanned Aerial Vehicles (UAVs), commonly known as drones. The integration of the Internet of Things (IoT) in agriculture will increasingly involve a sophisticated interplay of robots, drones, remote sensors, and computer imaging.

These technologies, coupled with continuously advancing machine learning and analytical tools, will enable comprehensive monitoring of crops, precise surveying and mapping of fields, and the provision of actionable insights to farmers. Drones equipped with specialized sensors and cameras are already being deployed for detailed imaging, accurate mapping, and thorough surveying of smart farms.

The practice of mapping farms using aerial drones and terrestrial robots is rapidly becoming a fundamental requirement - "table stakes" for connected agriculture. Agribusiness operations are also leveraging UAVs to acquire real-time data pertaining to a multitude of aspects within their farming operations.

This will involve a synthesis of perspectives and images captured from both aerial platforms (drones) and ground-based robots, utilizing multi-spectral cameras and various sensors installed on these agricultural robotic systems. This rich data will empower more informed decision-making and drive greater efficiency and sustainability in agricultural practices.

Key Topics Covered:

Introduction

• Drone Overview
• Drone Use Cases and Value
• Drone Technologies

Drone Applications in Industry Verticals

• Package Delivery
• Imaging
• Security
• Search and Rescue
• Fire Fighting
• Military/Defense

Drones As a Service Market Dynamics

• Drivers
• Challenges
• Porter's Five Forces

Drone Company Analysis

• 1Martian Way Corporation
• 3D Robotics
• Aereo (formerly Aarav Unmanned Systems)
• ABJ Drones
• Aerial Photo India
• Aerialair
• Aero360
• Aerodyne Group
• AeroVironment Inc.
• Agribotix
• Airinov
• AirPix
• Airsight Australia
• Asteria Aerospace
• Aurora Integrated Systems
• Australian UAV
• Azur Drones
• Bubblefly
• Cyberhawk Innovations Limited
• Delair
• DeTect Technologies
• Deveron UAS
• DJI
• Draganfly Innovations Inc.
• Drona Aviation
• Drone Nation
• Drone Volt
• DroneCloud / CLUE Corporation
• DroneDeploy
• DroneView Technologies
• Dronifi
• Edall Systems
• Envent Digital
• FEDS
• Flytrex
• Gravo / Gravodrone
• Hemav
• HUVR Data
• IdeaForge
• Identified Technologies
• INDrone Aero Systems
• Indrones
• Industrial SkyWorks / Qii.AI
• Intel (Ascending Technologies)
• Johnnette
• Kadet Defence Systems
• Kespry
• Matternet
• Measure
• Measure Australia
• Microdrones
• Mirs Innovate Private Limited
• MMC
• Omnipresent Robot Tech
• Parrot SA
• Phoenix Drone Services
• Pigeon Innovative Solutions
• Pix4D
• Quidich Innovation Labs
• Samhams Technologies
• SenseFly (Part of AgEagle)
• Sentera
• Sharper Shape
• Skeye
• Sky Futures
• Sky Vision Aerial Photography Services
• Skycatch, Inc.
• Skylark Drones
• SkySkopes
• Skyspecs
• Sree Sai Aerotech Innovations
• Takvaviya Technologies
• Talon Aerolytics
• Terra Drone Corporation
• Texo Drone Services
• The Sky Guys
• Trumbull Unmanned
• Unmanned Experts Inc.
• V Drone Agro
• Verity Studios
• Vermeer
• Viper Drones
• Xaircraft UAV
• Yamaha Motor Company
• Zipline

Drones as a Service Market 2025 - 2030

• Drones as a Service Applications 2025 - 2030
• Drones as a Service in Leading Industries 2025 - 2030
• Drones as a Service by Region 2025 - 2030

Appendix One: Drone Classifications and Technologies

• Drone Classifications
  • Ready-to-Fly
  • Commercial-off-the-Shelf
  • Heavy Drones
• Drone Technologies
  • Aerodynamics Designs
  • VTOL Configurations
  • Power Supply

Appendix Two: Future of the Drone Market

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