Inertial Systems Market in Land-Based Applications was valued at US$ 3.63 Bn in 2022 and is expected to reach US$ 6.12 Bn by 2029 at a CAGR of 7.73%. The report includes the analysis of the impact of COVID-19 lockdown on the revenue of market leaders, followers, and disruptors. Since the lockdown was implemented differently in various regions and countries; the impact of the same is also seen differently by regions and segments. The report has covered the current short-term and long-term impact on the market, and it would help the decision-makers to prepare the outline and strategies for companies by region.To know about the Research Methodology:-Request Free Sample Report An inertial system in the land is a self-contained inertial navigation technique in which measurements provided by accelerometers and gyroscopes are used to track the position and orientation of an object relative to a known starting point, velocity, and orientation. The land-based applications include car motion analysis, mobile mapping, antenna tracking, unmanned ground vehicles, and also land defense. The inertial navigation systems are used for radar, artillery, and combat vehicle applications in land defense. Some of the driving factors of the market are, the rapid rise of unmanned vehicles in both defense and civilian applications, increasing applications based on motion sensing, and technological advancement allowing more effective components at a smaller and lighter size. However, integration drift error is a major concern in navigation systems, and the complex nature of integration in existing systems & the need for ancillary components are restraining the inertial systems market in land-based applications market growth. Inertial measurement unit (IMU) segment leading the inertial systems market in land-based applications. An inertial measurement unit (IMU) works by detecting linear acceleration using one or more rotational and accelerometers rotational rate using one or more gyroscopes. Some also include a magnetometer which is mostly used as a heading reference. Land applications hold a dynamic market for high-end inertial measurement unit, witnessing high growth in terms of the range of applications & in terms of market players, since these systems offer high reliability in testing conditions, once other navigational systems are prone to errors. Region-wise, North America dominated the market accounting for close to 45% of the market share. Factors like the growing passenger air traffic in the U.S. is expected to result in an augmented demand for aircraft to accommodate passengers will spur the growth prospects of the inertial systems market in the land-based applications market in the Americas over the forecast period. Global inertial systems market in land-based applications report includes PESTLE analysis, competitive landscape, and Porter’s five force model. Market attractive analysis wherein all the segments are benchmarked based on the market size, growth rate, and general attractiveness. The key market players operating in the inertial systems market in land-based applications are, Analog Devices Inc., Bosch Sensortec GmbH, Safran Group, Honeywell International Inc., Kearfott Corporation, STMicroelectronics, Invensense Inc., Meggitt PLC, Northrop Grumman Corporation, KVH Industries, Inc., Silicon Sensing Systems Ltd., Rockwell Collins, Vector NA AND Epson Europe Electronics.
Scope of the Global Inertial Systems Market in Land-Based Applications: Inquire before buying
Inertial Systems Market Report Coverage Details Base Year: 2022 Forecast Period: 2023-2029 Historical Data: 2017 to 2022 Market Size in 2022: US$ 3.63 Bn. Forecast Period 2023 to 2029 CAGR: 7.73% Market Size in 2029: US$ 6.12 Bn. Segments Covered: by Component • Gyroscopes • Accelerometers • Magnetometers by Type • Attitude Heading Reference System • Inertial Positioning and Orientation Systems • Inertial Measurement Units Inertial Systems Market, by Region
• North America (United States, Canada and Mexico) • Europe (UK, France, Germany, Italy, Spain, Sweden, Austria and Rest of Europe) • Asia Pacific (China, South Korea, Japan, India, Australia, Indonesia, Malaysia, Vietnam, Taiwan, Bangladesh, Pakistan and Rest of APAC) • Middle East and Africa (South Africa, GCC, Egypt, Nigeria and Rest of ME&A) • South America (Brazil, Argentina Rest of South America)Key Players Operating in the Inertial Systems Market In Land-Based Applications
• Analog Devices Inc. • Bosch Sensortec GmbH • Afran Group • Honeywell International Inc. • Kearfott Corporation • STMicroelectronics • Invensense Inc. • Meggitt PLC • Northrop Grumman Corporation • KVH Industries, Inc. • Silicon Sensing Systems Ltd. • Rockwell Collins • UTC Aerospace Systems • Vector NA • Epson Europe Electronics. Frequently Asked Questions: 1. Which region has the largest share in Global Inertial Systems Market? Ans: North America region held the highest share in 2022. 2. What is the growth rate of Global Inertial Systems Market? Ans: The Global Inertial Systems Market is growing at a CAGR of 7.73% during forecasting period 2023-2029. 3. What is scope of the Global Inertial Systems Market report? Ans: Global Inertial Systems Market report helps with the PESTEL, PORTER, COVID-19 Impact analysis, Recommendations for Investors & Leaders, and market estimation of the forecast period. 4. Who are the key players in Global Inertial Systems Market? Ans: The important key players in the Global Inertial Systems Market are – Analog Devices Inc., Bosch Sensortec GmbH, Afran Group, Honeywell International Inc., Kearfott Corporation, STMicroelectronics, Invensense Inc., Meggitt PLC, Northrop Grumman Corporation, KVH Industries, Inc., Silicon Sensing Systems Ltd., Rockwell Collins, UTC Aerospace Systems, Vector NA, and Epson Europe Electronics. 5. What is the study period of this Market? Ans: The Global Inertial Systems Market is studied from 2022 to 2029. Global Planting Equipment Market
Global Inertial Systems Market in Land Based Applications
1. Preface 1.1. Research Objectives 1.2. Report Scope and Market Segmentation 1.3. Research Highlights 2. Assumptions and Research Methodology 2.1. Abbreviations 3. Executive Summary 3.1. Global Inertial Systems Market in Land Based Applications Size, by Market Value (US$ Bn) 4. Market Overview 4.1. Introduction 4.2. Market Dynamics 4.2.1. Drivers 4.2.2. Restraints 4.2.3. Opportunities 4.2.4. Challenges 4.2.5. Emerging Technology 4.3. Market Analysis 4.3.1. Value Chain Analysis 4.3.2. Pricing Analysis 4.3.3. Market risk analysis 4.3.4. Porter’s Analysis 5. Global Inertial Systems Market in Land Based Applications Analysis and Forecast 5.1. Global Inertial Systems Market in Land Based Applications Analysis and Forecast 5.2. Global Inertial Systems Market in Land Based Applications Size& Y-o-Y Growth Analysis 5.2.1. North America 5.2.2. Europe 5.2.3. Asia Pacific 5.2.4. Middle East & Africa 5.2.5. South America 6. Global Inertial Systems Market in Land Based Applications Analysis and Forecast, by Component 6.1. Introduction and Definition 6.2. Key Findings 6.3. Global Inertial Systems Market in Land Based Applications Value Share Analysis, by Component 6.4. Market Size (US$ Bn) Forecast, by Component 6.5. Global Inertial Systems Market in Land Based Applications Analysis, by Component 6.6. Inertial Systems Market in Land Based Applications Attractiveness Analysis, by Component 7. Global Inertial Systems Market in Land Based Applications Analysis and Forecast, by Type 7.1. Introduction and Definition 7.2. Global Inertial Systems Market in Land Based Applications Value Share Analysis, by Type 7.3. Market Size (US$ Bn) Forecast, by Type 7.4. Global Inertial Systems Market in Land Based Applications Analysis, by Type 7.5. Global Inertial Systems Market in Land Based Applications Attractiveness Analysis, by Type 8. Global Inertial Systems Market in Land Based Applications Analysis, by Region 8.1. Global Inertial Systems Market in Land Based Applications Value Share Analysis, by Region 8.2. Market Size (US$ Bn) Forecast, by Region 8.3. Global Inertial Systems Market in Land Based Applications Attractiveness Analysis, by Region 9. North America Inertial Systems Market in Land Based Applications Analysis 9.1. North America Inertial Systems Market in Land Based Applications Overview 9.2. North America Inertial Systems Market in Land Based Applications Value Share Analysis, by Component 9.3. North America Inertial Systems Market in Land Based Applications Forecast, by Component 9.3.1. Gyroscopes 9.3.2. Accelerometers 9.3.3. Magnetometers 9.4. North America Inertial Systems Market in Land Based Applications Value Share Analysis, by Type 9.5. North America Inertial Systems Market in Land Based Applications Forecast, by Type 9.5.1. Attitude Heading Reference System 9.5.2. Inertial Positioning and Orientation Systems 9.5.3. Inertial Measurement Units 9.6. North America Inertial Systems Market in Land Based Applications Value Share Analysis, by Country 9.7. North America Inertial Systems Market in Land Based Applications Forecast, by Country 9.7.1. U.S. 9.7.2. Canada 9.8. North America Inertial Systems Market in Land Based Applications Analysis, by Country 9.9. U.S. Inertial Systems Market in Land Based Applications Forecast, by Component 9.9.1. Gyroscopes 9.9.2. Accelerometers 9.9.3. Magnetometers 9.10. U.S. Inertial Systems Market in Land Based Applications Forecast, by Type 9.10.1. Attitude Heading Reference System 9.10.2. Inertial Positioning and Orientation Systems 9.10.3. Inertial Measurement Units 9.11. Canada Inertial Systems Market in Land Based Applications Forecast, by Component 9.11.1. Gyroscopes 9.11.2. Accelerometers 9.11.3. Magnetometers 9.12. Canada Inertial Systems Market in Land Based Applications Forecast, by Type 9.12.1. Attitude Heading Reference System 9.12.2. Inertial Positioning and Orientation Systems 9.12.3. Inertial Measurement Units 9.13. North America Inertial Systems Market in Land Based Applications Attractiveness Analysis 9.13.1. By Component 9.13.2. By Type 9.14. PEST Analysis 9.15. Key Trends 9.16. Key Developments 10. Europe Inertial Systems Market in Land Based Applications Analysis 10.1. Europe Inertial Systems Market in Land Based Applications Overview 10.2. Europe Inertial Systems Market in Land Based Applications Value Share Analysis, by Component 10.3. Europe Inertial Systems Market in Land Based Applications Forecast, by Component 10.3.1. Gyroscopes 10.3.2. Accelerometers 10.3.3. Magnetometers 10.4. Europe Inertial Systems Market in Land Based Applications Value Share Analysis, by Type 10.5. Europe Inertial Systems Market in Land Based Applications Forecast, by Type 10.5.1. Attitude Heading Reference System 10.5.2. Inertial Positioning and Orientation Systems 10.5.3. Inertial Measurement Units 10.6. Europe Inertial Systems Market in Land Based Applications Value Share Analysis, by Country 10.7. Europe Inertial Systems Market in Land Based Applications Forecast, by Country 10.7.1. Germany 10.7.2. U.K. 10.7.3. France 10.7.4. Italy 10.7.5. Spain 10.7.6. Rest of Europe 10.8. Europe Inertial Systems Market in Land Based Applications Analysis, by Country/ Sub-region 10.9. Germany Inertial Systems Market in Land Based Applications Forecast, by Component 10.9.1. Gyroscopes 10.9.2. Accelerometers 10.9.3. Magnetometers 10.10. Germany Inertial Systems Market in Land Based Applications Forecast, by Type 10.10.1. Attitude Heading Reference System 10.10.2. Inertial Positioning and Orientation Systems 10.10.3. Inertial Measurement Units 10.11. U.K. Inertial Systems Market in Land Based Applications Forecast, by Component 10.11.1. Gyroscopes 10.11.2. Accelerometers 10.11.3. Magnetometers 10.12. U.K. Inertial Systems Market in Land Based Applications Forecast, by Type 10.12.1. Attitude Heading Reference System 10.12.2. Inertial Positioning and Orientation Systems 10.12.3. Inertial Measurement Units 10.13. France Inertial Systems Market in Land Based Applications Forecast, by Component 10.13.1. Gyroscopes 10.13.2. Accelerometers 10.13.3. Magnetometers 10.14. France Inertial Systems Market in Land Based Applications Forecast, by Type 10.14.1. Attitude Heading Reference System 10.14.2. Inertial Positioning and Orientation Systems 10.14.3. Inertial Measurement Units 10.15. Italy Inertial Systems Market in Land Based Applications Forecast, by Component 10.15.1. Gyroscopes 10.15.2. Accelerometers 10.15.3. Magnetometers 10.16. Italy Inertial Systems Market in Land Based Applications Forecast, by Type 10.16.1. Attitude Heading Reference System 10.16.2. Inertial Positioning and Orientation Systems 10.16.3. Inertial Measurement Units 10.17. Spain Inertial Systems Market in Land Based Applications Forecast, by Component 10.17.1. Gyroscopes 10.17.2. Accelerometers 10.17.3. Magnetometers 10.18. Spain Inertial Systems Market in Land Based Applications Forecast, by Type 10.18.1. Attitude Heading Reference System 10.18.2. Inertial Positioning and Orientation Systems 10.18.3. Inertial Measurement Units 10.19. Rest of Europe Inertial Systems Market in Land Based Applications Forecast, by Component 10.19.1. Gyroscopes 10.19.2. Accelerometers 10.19.3. Magnetometers 10.20. Rest of Europe Inertial Systems Market in Land Based Applications Forecast, by Type 10.20.1. Attitude Heading Reference System 10.20.2. Inertial Positioning and Orientation Systems 10.20.3. Inertial Measurement Units 10.21. Europe Inertial Systems Market in Land Based Applications Attractiveness Analysis 10.21.1. By Component 10.21.2. By Type 10.22. PEST Analysis 10.23. Key Trends 10.24. Key Developments 11. Asia Pacific Inertial Systems Market in Land Based Applications Analysis 11.1. Asia Pacific Inertial Systems Market in Land Based Applications Overview 11.2. Asia Pacific Inertial Systems Market in Land Based Applications Value Share Analysis, by Component 11.3. Asia Pacific Inertial Systems Market in Land Based Applications Forecast, by Component 11.3.1. Gyroscopes 11.3.2. Accelerometers 11.3.3. Magnetometers 11.4. Asia Pacific Inertial Systems Market in Land Based Applications Value Share Analysis, by Type 11.5. Asia Pacific Inertial Systems Market in Land Based Applications Forecast, by Type 11.5.1. Attitude Heading Reference System 11.5.2. Inertial Positioning and Orientation Systems 11.5.3. Inertial Measurement Units 11.6. Asia Pacific Inertial Systems Market in Land Based Applications Value Share Analysis, by Country 11.7. Asia Pacific Inertial Systems Market in Land Based Applications Forecast, by Country 11.7.1. China 11.7.2. India 11.7.3. Japan 11.7.4. ASEAN 11.7.5. Rest of Asia Pacific 11.8. Asia Pacific Inertial Systems Market in Land Based Applications Analysis, by Country/ Sub-region 11.9. China Inertial Systems Market in Land Based Applications Forecast, by Component 11.9.1. Gyroscopes 11.9.2. Accelerometers 11.9.3. Magnetometers 11.10. Tank Level China Inertial Systems Market in Land Based Applications Forecast, by Type 11.10.1. Attitude Heading Reference System 11.10.2. Inertial Positioning and Orientation Systems 11.10.3. Inertial Measurement Units 11.11. India Inertial Systems Market in Land Based Applications Forecast, by Component 11.11.1. Gyroscopes 11.11.2. Accelerometers 11.11.3. Magnetometers 11.12. India Inertial Systems Market in Land Based Applications Forecast, by Type 11.12.1. Attitude Heading Reference System 11.12.2. Inertial Positioning and Orientation Systems 11.12.3. Inertial Measurement Units 11.13. Japan Inertial Systems Market in Land Based Applications Forecast, by Component 11.13.1. Gyroscopes 11.13.2. Accelerometers 11.13.3. Magnetometers 11.14. Japan Inertial Systems Market in Land Based Applications Forecast, by Type 11.14.1. Attitude Heading Reference System 11.14.2. Inertial Positioning and Orientation Systems 11.14.3. Inertial Measurement Units 11.15. ASEAN Inertial Systems Market in Land Based Applications Forecast, by Component 11.15.1. Gyroscopes 11.15.2. Accelerometers 11.15.3. Magnetometers 11.16. ASEAN Inertial Systems Market in Land Based Applications Forecast, by Type 11.16.1. Attitude Heading Reference System 11.16.2. Inertial Positioning and Orientation Systems 11.16.3. Inertial Measurement Units 11.17. Rest of Asia Pacific Inertial Systems Market in Land Based Applications Forecast, by Component 11.17.1. Gyroscopes 11.17.2. Accelerometers 11.17.3. Magnetometers 11.18. Rest of Asia Pacific Inertial Systems Market in Land Based Applications Forecast, by Type 11.18.1. Attitude Heading Reference System 11.18.2. Inertial Positioning and Orientation Systems 11.18.3. Inertial Measurement Units 11.19. Asia Pacific Inertial Systems Market in Land Based Applications Attractiveness Analysis 11.19.1. By Component 11.19.2. By Type 11.20. PEST Analysis 11.21. Key Trends 11.22. Key Developments 12. Middle East & Africa Inertial Systems Market in Land Based Applications Analysis 12.1. Middle East & Africa Inertial Systems Market in Land Based Applications Overview 12.2. Middle East & Africa Inertial Systems Market in Land Based Applications Value Share Analysis, by Component 12.3. Middle East & Africa Inertial Systems Market in Land Based Applications Forecast, by Component 12.3.1. Gyroscopes 12.3.2. Accelerometers 12.3.3. Magnetometers 12.4. Middle East & Africa Inertial Systems Market in Land Based Applications Value Share Analysis, by Type 12.5. Middle East & Africa Inertial Systems Market in Land Based Applications Forecast, by Type 12.5.1. Attitude Heading Reference System 12.5.2. Inertial Positioning and Orientation Systems 12.5.3. Inertial Measurement Units 12.6. Middle East & Africa Inertial Systems Market in Land Based Applications Value Share Analysis, by Country 12.7. Middle East & Africa Inertial Systems Market in Land Based Applications Forecast, by Country 12.7.1. GCC 12.7.2. South Africa 12.7.3. Rest of Middle East & Africa 12.8. Middle East & Africa Inertial Systems Market in Land Based Applications Analysis, by Country/ Sub-region 12.9. GCC Inertial Systems Market in Land Based Applications Forecast, by Component 12.9.1. Gyroscopes 12.9.2. Accelerometers 12.9.3. Magnetometers 12.10. GCC Inertial Systems Market in Land Based Applications Forecast, by Type 12.10.1. Attitude Heading Reference System 12.10.2. Inertial Positioning and Orientation Systems 12.10.3. Inertial Measurement Units 12.11. South Africa Inertial Systems Market in Land Based Applications Forecast, by Component 12.11.1. Gyroscopes 12.11.2. Accelerometers 12.11.3. Magnetometers 12.12. South Africa Inertial Systems Market in Land Based Applications Forecast, by Type 12.12.1. Attitude Heading Reference System 12.12.2. Inertial Positioning and Orientation Systems 12.12.3. Inertial Measurement Units 12.13. Rest of Middle East & Africa Inertial Systems Market in Land Based Applications Forecast, by Component 12.13.1. Gyroscopes 12.13.2. Accelerometers 12.13.3. Magnetometers 12.14. Rest of Middle East & Africa Inertial Systems Market in Land Based Applications Forecast, by Type 12.14.1. Attitude Heading Reference System 12.14.2. Inertial Positioning and Orientation Systems 12.14.3. Inertial Measurement Units 12.15. Middle East & Africa Inertial Systems Market in Land Based Applications Attractiveness Analysis 12.15.1. By Component 12.15.2. By Type 12.16. PEST Analysis 12.17. Key Trends 12.18. Key Developments 13. South America Inertial Systems Market in Land Based Applications Analysis 13.1. South America Inertial Systems Market in Land Based Applications Overview 13.2. South America Inertial Systems Market in Land Based Applications Value Share Analysis, by Component 13.3. South America Inertial Systems Market in Land Based Applications Forecast, by Component 13.3.1. Gyroscopes 13.3.2. Accelerometers 13.3.3. Magnetometers 13.4. South America Inertial Systems Market in Land Based Applications Value Share Analysis, by Type 13.5. South America Inertial Systems Market in Land Based Applications Forecast, by Type 13.5.1. Attitude Heading Reference System 13.5.2. Inertial Positioning and Orientation Systems 13.5.3. Inertial Measurement Units 13.6. South America Inertial Systems Market in Land Based Applications Value Share Analysis, by Country 13.7. South America Inertial Systems Market in Land Based Applications Forecast, by Country 13.7.1. Brazil 13.7.2. Mexico 13.7.3. Rest of South America 13.8. South America Inertial Systems Market in Land Based Applications Analysis, by Country/ Sub-region 13.9. Brazil Inertial Systems Market in Land Based Applications Forecast, by Component 13.9.1. Gyroscopes 13.9.2. Accelerometers 13.9.3. Magnetometers 13.10. Brazil Inertial Systems Market in Land Based Applications Forecast, by Type 13.10.1. Attitude Heading Reference System 13.10.2. Inertial Positioning and Orientation Systems 13.10.3. Inertial Measurement Units 13.11. Mexico Inertial Systems Market in Land Based Applications Forecast, by Component 13.11.1. Gyroscopes 13.11.2. Accelerometers 13.11.3. Magnetometers 13.12. Mexico Inertial Systems Market in Land Based Applications Forecast, by Type 13.12.1. Attitude Heading Reference System 13.12.2. Inertial Positioning and Orientation Systems 13.12.3. Inertial Measurement Units 13.13. Rest of South America Inertial Systems Market in Land Based Applications Forecast, by Component 13.13.1. Gyroscopes 13.13.2. Accelerometers 13.13.3. Magnetometers 13.14. Rest of South America Inertial Systems Market in Land Based Applications Forecast, by Type 13.14.1. Attitude Heading Reference System 13.14.2. Inertial Positioning and Orientation Systems 13.14.3. Inertial Measurement Units 13.15. South America Inertial Systems Market in Land Based Applications Attractiveness Analysis 13.15.1. By Component 13.15.2. By Type 13.16. PEST Analysis 13.17. Key Trends 13.18. Key Developments 14. Competitive Landscape 14.1. Market Share Analysis, by Key Players 14.2. Competition Matrix 14.2.1. Competitive Benchmarking of key players by price, presence, market share, Applications and R&D investment 14.2.2. Market Consolidation 14.2.2.1. M&A by regions, investment, applications 14.2.2.2. M&A Key Players, forward integration, backward integration 14.3. Company Profiles: Key Player 14.3.1. Analog Devices Inc. 14.3.1.1. Company Overview 14.3.1.2. Financial Overview 14.3.1.3. Business Strategy 14.3.1.4. Recent Developments 14.3.1.5. Manufacturing Footprint 14.3.2. Bosch Sensortec GmbH 14.3.3. Afran Group 14.3.4. Honeywell International Inc. 14.3.5. Kearfott Corporation 14.3.6. STMicroelectronics 14.3.7. Invensense Inc. 14.3.8. Meggitt PLC 14.3.9. Northrop Grumman Corporation 14.3.10. KVH Industries, Inc. 14.3.11. Silicon Sensing Systems Ltd. 14.3.12. Rockwell Collins 14.3.13. Vector NA 14.3.14. Epson Europe Electronics 15. Primary Key Insights