Several key players operating in unmanned aerial vehicles simulation market are developing and launching simulation software for UAV testing, which fuels the growth of the market. For instance, in March 2019, UAVOS introduced a simulator for different types of drones and unmanned systems offering a wide range of learning experiences. The software has been integrated with drones weighing from 1 kg to 1200 kg.
The global unmanned aerial vehicles simulation market is experiencing growth, due to rising adoption of UAVs in military and commercial applications, and a smaller number of skilled and trained pilots. However, high cost of UAV simulation systems hampers the growth of the market. Furthermore, rise in defense expenditure globally, and contracts & agreements with military forces are expected to offer growth opportunities during the forecast period.
The unmanned aerial vehicles (UAVs) simulation market is segmented on the basis of component, drone type, end use, and region. By component, it is bifurcated into hardware, and software. By drone type, it is classified into fixed-wing, and rotary wing. By end use, it is categorized into military, and civil & commercial. By region, the report is analyzed across North America, Europe, Asia-Pacific, and LAMEA.
KEY BENEFITS FOR STAKEHOLDERS
- This report provides a quantitative analysis of the market segments, current trends, estimations, and dynamics of the unmanned aerial vehicles (uavs) simulation market analysis from 2021 to 2031 to identify the prevailing unmanned aerial vehicles (uavs) simulation market opportunities.
- The market research is offered along with information related to key drivers, restraints, and opportunities.
- Porter's five forces analysis highlights the potency of buyers and suppliers to enable stakeholders make profit-oriented business decisions and strengthen their supplier-buyer network.
- In-depth analysis of the unmanned aerial vehicles (uavs) simulation market segmentation assists to determine the prevailing market opportunities.
- Major countries in each region are mapped according to their revenue contribution to the global market.
- Market player positioning facilitates benchmarking and provides a clear understanding of the present position of the market players.
- The report includes the analysis of the regional as well as global unmanned aerial vehicles (uavs) simulation market trends, key players, market segments, application areas, and market growth strategies.
Key Market Segments
By Component
- Hardware
- Software
By Drone Type
- Rotary wing
- Fixed wing
By End Use
- Military
- Civil and Commercial
By Region
- North America
- U. S.
- Canada
- Mexico
- Europe
- Germany
- UK
- France
- Italy
- Rest Of Europe
- Asia-Pacific
- China
- Japan
- India
- South Korea
- Rest Of Asia-Pacific
- LAMEA
- Latin America
- Middle East
- Africa
Key Market Players
- SIMLAT UAS SIMULATION
- SINGAPORE TECHNOLOGIES ELECTRONICS LIMITED
- BLUEHALO
- Quantum3D
- Raytheon Technologies
- L3Harris Technologies, Inc.
- CAE Inc.
- General Atomics Aeronautical Systems, Inc.
- Israel Aerospace Industries Ltd.
- Leonardo S. p. A.
- HAVELSAN A. S.
- Indra Sistema
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Table of Contents
CHAPTER 1: INTRODUCTION1.1. Report description
1.2. Key market segments
1.3. Key benefits to the stakeholders
1.4. Research Methodology
1.4.1. Secondary research
1.4.2. Primary research
1.4.3. Analyst tools and models
CHAPTER 2: EXECUTIVE SUMMARY
2.1. Key findings of the study
2.2. CXO Perspective
CHAPTER 3: MARKET OVERVIEW
3.1. Market definition and scope
3.2. Key findings
3.2.1. Top investment pockets
3.3. Porter’s five forces analysis
3.4. Top player positioning
3.5. Market dynamics
3.5.1. Drivers
3.5.2. Restraints
3.5.3. Opportunities
3.6. COVID-19 Impact Analysis on the market
CHAPTER 4: UNMANNED AERIAL VEHICLES (UAVS) SIMULATION MARKET, BY COMPONENT
4.1 Overview
4.1.1 Market size and forecast
4.2 Hardware
4.2.1 Key market trends, growth factors and opportunities
4.2.2 Market size and forecast, by region
4.2.3 Market analysis by country
4.3 Software
4.3.1 Key market trends, growth factors and opportunities
4.3.2 Market size and forecast, by region
4.3.3 Market analysis by country
CHAPTER 5: UNMANNED AERIAL VEHICLES (UAVS) SIMULATION MARKET, BY DRONE TYPE
5.1 Overview
5.1.1 Market size and forecast
5.2 Fixed wing
5.2.1 Key market trends, growth factors and opportunities
5.2.2 Market size and forecast, by region
5.2.3 Market analysis by country
5.3 Rotary wing
5.3.1 Key market trends, growth factors and opportunities
5.3.2 Market size and forecast, by region
5.3.3 Market analysis by country
CHAPTER 6: UNMANNED AERIAL VEHICLES (UAVS) SIMULATION MARKET, BY END USE
6.1 Overview
6.1.1 Market size and forecast
6.2 Military
6.2.1 Key market trends, growth factors and opportunities
6.2.2 Market size and forecast, by region
6.2.3 Market analysis by country
6.3 Civil and Commercial
6.3.1 Key market trends, growth factors and opportunities
6.3.2 Market size and forecast, by region
6.3.3 Market analysis by country
CHAPTER 7: UNMANNED AERIAL VEHICLES (UAVS) SIMULATION MARKET, BY REGION
7.1 Overview
7.1.1 Market size and forecast
7.2 North America
7.2.1 Key trends and opportunities
7.2.2 North America Market size and forecast, by Component
7.2.3 North America Market size and forecast, by Drone Type
7.2.4 North America Market size and forecast, by End Use
7.2.5 North America Market size and forecast, by country
7.2.5.1 U. S.
7.2.5.1.1 Market size and forecast, by Component
7.2.5.1.2 Market size and forecast, by Drone Type
7.2.5.1.3 Market size and forecast, by End Use
7.2.5.2 Canada
7.2.5.2.1 Market size and forecast, by Component
7.2.5.2.2 Market size and forecast, by Drone Type
7.2.5.2.3 Market size and forecast, by End Use
7.2.5.3 Mexico
7.2.5.3.1 Market size and forecast, by Component
7.2.5.3.2 Market size and forecast, by Drone Type
7.2.5.3.3 Market size and forecast, by End Use
7.3 Europe
7.3.1 Key trends and opportunities
7.3.2 Europe Market size and forecast, by Component
7.3.3 Europe Market size and forecast, by Drone Type
7.3.4 Europe Market size and forecast, by End Use
7.3.5 Europe Market size and forecast, by country
7.3.5.1 Germany
7.3.5.1.1 Market size and forecast, by Component
7.3.5.1.2 Market size and forecast, by Drone Type
7.3.5.1.3 Market size and forecast, by End Use
7.3.5.2 UK
7.3.5.2.1 Market size and forecast, by Component
7.3.5.2.2 Market size and forecast, by Drone Type
7.3.5.2.3 Market size and forecast, by End Use
7.3.5.3 France
7.3.5.3.1 Market size and forecast, by Component
7.3.5.3.2 Market size and forecast, by Drone Type
7.3.5.3.3 Market size and forecast, by End Use
7.3.5.4 Italy
7.3.5.4.1 Market size and forecast, by Component
7.3.5.4.2 Market size and forecast, by Drone Type
7.3.5.4.3 Market size and forecast, by End Use
7.3.5.5 Rest of Europe
7.3.5.5.1 Market size and forecast, by Component
7.3.5.5.2 Market size and forecast, by Drone Type
7.3.5.5.3 Market size and forecast, by End Use
7.4 Asia-Pacific
7.4.1 Key trends and opportunities
7.4.2 Asia-Pacific Market size and forecast, by Component
7.4.3 Asia-Pacific Market size and forecast, by Drone Type
7.4.4 Asia-Pacific Market size and forecast, by End Use
7.4.5 Asia-Pacific Market size and forecast, by country
7.4.5.1 China
7.4.5.1.1 Market size and forecast, by Component
7.4.5.1.2 Market size and forecast, by Drone Type
7.4.5.1.3 Market size and forecast, by End Use
7.4.5.2 Japan
7.4.5.2.1 Market size and forecast, by Component
7.4.5.2.2 Market size and forecast, by Drone Type
7.4.5.2.3 Market size and forecast, by End Use
7.4.5.3 India
7.4.5.3.1 Market size and forecast, by Component
7.4.5.3.2 Market size and forecast, by Drone Type
7.4.5.3.3 Market size and forecast, by End Use
7.4.5.4 South Korea
7.4.5.4.1 Market size and forecast, by Component
7.4.5.4.2 Market size and forecast, by Drone Type
7.4.5.4.3 Market size and forecast, by End Use
7.4.5.5 Rest of Asia-Pacific
7.4.5.5.1 Market size and forecast, by Component
7.4.5.5.2 Market size and forecast, by Drone Type
7.4.5.5.3 Market size and forecast, by End Use
7.5 LAMEA
7.5.1 Key trends and opportunities
7.5.2 LAMEA Market size and forecast, by Component
7.5.3 LAMEA Market size and forecast, by Drone Type
7.5.4 LAMEA Market size and forecast, by End Use
7.5.5 LAMEA Market size and forecast, by country
7.5.5.1 Latin America
7.5.5.1.1 Market size and forecast, by Component
7.5.5.1.2 Market size and forecast, by Drone Type
7.5.5.1.3 Market size and forecast, by End Use
7.5.5.2 Middle East
7.5.5.2.1 Market size and forecast, by Component
7.5.5.2.2 Market size and forecast, by Drone Type
7.5.5.2.3 Market size and forecast, by End Use
7.5.5.3 Africa
7.5.5.3.1 Market size and forecast, by Component
7.5.5.3.2 Market size and forecast, by Drone Type
7.5.5.3.3 Market size and forecast, by End Use
CHAPTER 8: COMPANY LANDSCAPE
8.1. Introduction
8.2. Top winning strategies
8.3. Product Mapping of Top 10 Players
8.4. Competitive Dashboard
8.5. Competitive Heatmap
8.6. Key developments
CHAPTER 9: COMPANY PROFILES
9.1 SIMLAT UAS SIMULATION
9.1.1 Company overview
9.1.2 Company snapshot
9.1.3 Operating business segments
9.1.4 Product portfolio
9.1.5 Business performance
9.1.6 Key strategic moves and developments
9.2 SINGAPORE TECHNOLOGIES ELECTRONICS LIMITED
9.2.1 Company overview
9.2.2 Company snapshot
9.2.3 Operating business segments
9.2.4 Product portfolio
9.2.5 Business performance
9.2.6 Key strategic moves and developments
9.3 BLUEHALO
9.3.1 Company overview
9.3.2 Company snapshot
9.3.3 Operating business segments
9.3.4 Product portfolio
9.3.5 Business performance
9.3.6 Key strategic moves and developments
9.4 Quantum3D
9.4.1 Company overview
9.4.2 Company snapshot
9.4.3 Operating business segments
9.4.4 Product portfolio
9.4.5 Business performance
9.4.6 Key strategic moves and developments
9.5 Raytheon Technologies
9.5.1 Company overview
9.5.2 Company snapshot
9.5.3 Operating business segments
9.5.4 Product portfolio
9.5.5 Business performance
9.5.6 Key strategic moves and developments
9.6 L3Harris Technologies, Inc.
9.6.1 Company overview
9.6.2 Company snapshot
9.6.3 Operating business segments
9.6.4 Product portfolio
9.6.5 Business performance
9.6.6 Key strategic moves and developments
9.7 CAE Inc.
9.7.1 Company overview
9.7.2 Company snapshot
9.7.3 Operating business segments
9.7.4 Product portfolio
9.7.5 Business performance
9.7.6 Key strategic moves and developments
9.8 General Atomics Aeronautical Systems, Inc.
9.8.1 Company overview
9.8.2 Company snapshot
9.8.3 Operating business segments
9.8.4 Product portfolio
9.8.5 Business performance
9.8.6 Key strategic moves and developments
9.9 Israel Aerospace Industries Ltd.
9.9.1 Company overview
9.9.2 Company snapshot
9.9.3 Operating business segments
9.9.4 Product portfolio
9.9.5 Business performance
9.9.6 Key strategic moves and developments
9.10 Leonardo S. p. A.
9.10.1 Company overview
9.10.2 Company snapshot
9.10.3 Operating business segments
9.10.4 Product portfolio
9.10.5 Business performance
9.10.6 Key strategic moves and developments
9.11 HAVELSAN A. S.
9.11.1 Company overview
9.11.2 Company snapshot
9.11.3 Operating business segments
9.11.4 Product portfolio
9.11.5 Business performance
9.11.6 Key strategic moves and developments
9.12 Indra Sistema
9.12.1 Company overview
9.12.2 Company snapshot
9.12.3 Operating business segments
9.12.4 Product portfolio
9.12.5 Business performance
9.12.6 Key strategic moves and developments
Executive Summary
According to this report, titled, 'Unmanned Aerial Vehicles (UAVs) Simulation Market,' the unmanned aerial vehicles (UAVs) simulation market was valued at $0.6 billion in 2021, and is estimated to reach $2.5 billion by 2031, growing at a CAGR of 14.6% from 2022 to 2031.North America is expected to dominate the global unmanned aerial vehicles simulation market. The region has seen a significant surge in the use of advanced UAVs simulation technologies to reduce human labor and improve output quality in military and agriculture sector. The North American countries are investing heavily toward the advancement of UAVs simulation to augment the performance of their operations and improve the time management in security and supply chain. The increase in investment by the North American countries propel the development of advanced drone equipment and software across the North American region.
Helicopter drones can carry a wide variety of payloads, including daytime and IR cameras, environmental sensors, LiDAR scanning systems and radio relay equipment, as well as missiles and other offensive capabilities. In addition, companies are introducing virtual reality based simulation systems to reduce the training period of pilot, supplementing the growth of the UAV simulation market. For instance, in 2021, Indra developed a virtual reality-based simulation system, namely, SIMCUI. It is a new multi-purpose and inter-operable simulation system which can halve the time required to train a civil or military pilot of any type of plane or unmanned aerial vehicles.
The global unmanned aerial vehicles (UAVs) simulation market is experiencing growth, due to rising adoption of UAVs in military and commercial applications, and less number of skilled and trained pilots. However, high cost of UAV simulation systems hampers the growth of the market. Furthermore, rise in defense expenditure globally, and contracts & agreements with military forces are expected to offer growth opportunities during the forecast period.
COVID-19 Impact Analysis
The spread of the COVID-19 pandemic has impacted the global unmanned aerial vehicle (UAV) simulation market, owing to disruption in the supply chain, tighten budgets of the end users and is expected to weaken the financial performance of the market players in 2020. In addition, governments of several countries such as the U.S. and Canada have maintained their defense spending levels. For instance, the U.S. defense spending reached $778 billion in 2020, with a yearly increase on 4.4%. This led numerous UAV manufacturers, weapon and combat system manufacturers to expedite the procurement rate of simulation systems.Various countries with the foundations of a drone-friendly environment, such as the U.S., the UK, China, Germany, and others, were able to quickly mobilize the technology from the start of the pandemic. These countries were able to incorporate unmanned aerial vehicle (UAV) into the COVID-19 response activities, due to enabling factors such as favourable regulations, skilled workforce, presence of vital resources, high adoption, and others.
KEY FINDINGS OF THE STUDY
By component, the software segment is anticipated to exhibit significant growth in the near future.By drone type, the rotary wing segment is anticipated to exhibit significant growth in the near future.
By end-use, the civil and commercial segment is anticipated to exhibit significant growth in the near future.
By region, Asia-Pacific is anticipated to register the highest CAGR during the forecast period.
Key players operating in the global unmanned aerial vehicle (UAV) simulation market include Bluehalo, CAE Inc., General Atomic Aeronautical System Inc., Havelsan A.S., Indra Sistemas, Israel Aerospace Industries Ltd., Leonardo S.P.A, L3Harris Technologies Inc., Quantum 3D, Raytheon Technologies Corporation, Simlat UAS Simulation, and Singapore Technologies Electronic Limited.
Companies Mentioned
- Simlat UAS Simulation
- Singapore Technologies Electronics Limited
- Bluehalo
- Quantum3D
- Raytheon Technologies
- L3Harris Technologies, Inc.
- Cae Inc.
- General Atomics Aeronautical Systems, Inc.
- Israel Aerospace Industries Ltd.
- Leonardo S.P.A.
- Havelsan A.S.
- Indra Sistema
Methodology
The analyst offers exhaustive research and analysis based on a wide variety of factual inputs, which largely include interviews with industry participants, reliable statistics, and regional intelligence. The in-house industry experts play an instrumental role in designing analytic tools and models, tailored to the requirements of a particular industry segment. The primary research efforts include reaching out participants through mail, tele-conversations, referrals, professional networks, and face-to-face interactions.
They are also in professional corporate relations with various companies that allow them greater flexibility for reaching out to industry participants and commentators for interviews and discussions.
They also refer to a broad array of industry sources for their secondary research, which typically include; however, not limited to:
- Company SEC filings, annual reports, company websites, broker & financial reports, and investor presentations for competitive scenario and shape of the industry
- Scientific and technical writings for product information and related preemptions
- Regional government and statistical databases for macro analysis
- Authentic news articles and other related releases for market evaluation
- Internal and external proprietary databases, key market indicators, and relevant press releases for market estimates and forecast
Furthermore, the accuracy of the data will be analyzed and validated by conducting additional primaries with various industry experts and KOLs. They also provide robust post-sales support to clients.
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