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市场调查报告书
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1197277

陆地应用惯性系统市场——增长、趋势、COVID-19 影响和预测 (2023-2028)

Inertial Systems Market In Land-Based Applications - Growth, Trends, and Forecasts (2023 - 2028)
出版日期: | 出版商: Mordor Intelligence | 英文 110 Pages | 商品交期: 2-3个工作天内

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简介目录

在 2022 年至 2027 年的预测期内,陆地应用惯性系统市场预计将以 10.68% 的复合年增长率增长。

世界生活的快速改善需要开发更易于使用的设备。 严重依赖惯性传感器的运动传感技术可以帮助实现这一点。 惯性传感器技术已成为市场的主要驱动力。 自世纪之交以来,惯性传感器的製造方式发生了范式转变。

*随着 MEMS(微机电系统)技术的出现,在传感器和半导体领域使用微製造和微加工技术使机械和机电元件小型化成为可能。 . 因此,MEMS 已成为未来导航系统不可或缺的一部分,并有望推动惯性系统市场的增长。

*此外,高端惯性系统由带有高性能传感器(陀螺仪、磁力计、加速度计)的IMU组成,通过相对运动提供有关周围环境的高精度信息。。 因此,对更高精度导航系统的需求越来越大,对高性能惯性系统的需求也越来越大。

*此外,这些惯性导航系统正在被采用,以实现深水钻井平台的高级操作。 Sonardyne 开发了一种新的惯性导航系统 (DP-INS),该系统将 LUSBL(长基线和超短基线)定位技术与来自 Lodestar AHRS/INS 平台的高精度惯性测量相结合。 陀螺仪传感器是一种用于检测高度角和角速度的惯性传感器。 由于具有体积小、功耗低、重量轻、成本低、批量处理等特点,已被采用以替代传统的陀螺仪传感器。

*此外,由于 COVID-19 大流行,中国已经停止了包括半导体行业在内的主要生产活动。 预计这将对 2020 年工业惯性系统市场的供应链产生重大影响,之后市场有望走向復苏。 中国的动盪可能对全球企业和电子产品价值链产生重大影响,直接影响传感器市场。

陆地应用的惯性系统市场趋势

对精密度的需求增加推动了市场

*惯性导航系统具有高精度和可靠性的特点。 惯性导航系统与其他导航系统相比具有明显的优势,因为它们可以在不依赖外部辅助的情况下确定运动物体的旋转和加速度。 通过陀螺仪、加速度计和地磁传感器的组合来确定车辆或移动物体的矢量变量的系统。

*导航系统天生适用于恶劣环境下车辆的综合导航、控制和引导。 与 GPS 和其他导航系统不同,惯性系统即使在恶劣的环境中也能保持其性能。 惯性测量单元 (IMU) 非常适合导航系统计算某些指标。 这些系统不受辐射和干扰问题的影响。 对于惯性导航系统,捷联繫统比万向节系统更可靠、性能更好,因为它们固定在移动物体上。 此外,由于应用了MEMS技术,在成本方面也具有优势。

*随着人工智能和机器学习等先进技术的普及,可以通过传感器技术远程控制的先进机器人汽车正变得司空见惯。 无人机、无人驾驶飞行器、无人驾驶地面飞机等正在使用这项新技术进行更新。 因此,精确的位置参数(例如战术设备的高度和方向)在当今的战斗场景中至关重要。

*惯性导航系统用于商用飞机、无人机、军事和国防。 惯性导航系统已在商用飞机、无人机、军事和国防领域得到实际应用,是导航控制系统不可或缺的一部分,系统处理能力的提高可与其他导航系统进行交互。 某些形式的惯性系统(例如磁力计)以及其他形式的惯性系统被广泛用于确定方向和磁场的存在。

北美市场份额最大

*由于领先的 MEMS 供应商的存在,北美有望成为创新的源泉并占据巨大的市场份额。 北美是世界上最大的海上石油和天然气通信市场之一。 美国新发现的页岩气资源和加拿大石油和天然气项目的增加预计将推动该地区对电信设备的需求。

*美国内政部 (DoI) 将允许在外大陆架 (OCS) 上大约 90% 的土地上进行海上勘探钻探。 根据 2019-2024 年国家外大陆架石油和天然气租赁计划(国家 OCS 计划),该地区的石油和天然气行业有望创造新的机遇。

*此外,无人机数量的增加和国防开支的增加是这些系统在美国得到广泛采用的主要原因。 此外,根据美国国防高级研究计划局 (DARPA) 计划,美国国防部将为美国海军提供先进工具,使美国潜艇能够探测敌方潜艇,从而扩大水下传感器的范围和有效性。我们已投资开发小型无人水下航行器 (UUV) 帮助我们参与战争。 因此,政府的举措和研发支出预计将进一步刺激该地区的市场增长。

陆地应用惯性系统市场竞争分析

由于各种惯性系统解决方案提供商的存在,陆地应用惯性系统市场的竞争格局适度分散。 然而,供应商一直专注于产品开发,提高他们的知名度和全球影响力。 这些公司还建立战略合作伙伴关係和收购以增加其市场份额。

*2021 年 10 月,美国海军从诺斯罗普·格鲁曼公司接收了第 500 套 WSN-7 环形激光陀螺仪惯性导航系统 (INS)。 Northrop Grumman 继续支持美国和北约在全球范围内的水面和潜艇海军资产,其设施遍及美国海军舰队。

*2021 年 4 月,Inertial Labs 宣布发布下一代 GPS 辅助系统 INS-DH-OEM、IMU-NAV-100 和 INS-U。 这些 INS 旨在用于无人机、直升机和机载 LiDAR 测量。 MEMS加速度计和MEMS陀螺仪传感器就是其中之一。

其他好处

  • Excel 格式的市场预测 (ME) 表
  • 3 个月的分析师支持

内容

第一章介绍

  • 研究假设和市场定义
  • 调查范围

第二章研究方法论

第 3 章执行摘要

第 4 章市场洞察

  • 市场概览
  • 价值链/供应链分析
  • 产业吸引力 - 波特五力分析
    • 新进入者的威胁
    • 买家的议价能力
    • 供应商的议价能力
    • 替代品的威胁
    • 竞争公司之间的敌对关係
  • 评估 COVID-19 对行业的影响

第 5 章市场动态

  • 市场驱动力
    • MEMS 技术的出现
    • 增加基于运动感应的应用
  • 市场製约因素
    • 积分漂移误差

第 6 章市场细分

  • 按组件
    • 加速度计
    • IMU
    • 陀螺仪
    • 磁力计
    • 姿态方位角
    • 匹配系统
  • 按地区
    • 北美
    • 欧洲
    • 亚太地区
    • 世界其他地方

第七章竞争格局

  • 公司简介
    • Honeywell International Inc.
    • Northrop Grumman Corporation
    • Rockwell Collins
    • Bosch Sensortec GmbH
    • ST Microelectronics
    • Safran Group
    • SBG Systems
    • Raytheon Anschtz GmbH
    • KVH Industries Inc.
    • Silicon Sensing Systems Ltd
    • Vector NAV

第8章 投资分析

第9章 未来展望

简介目录
Product Code: 51871

The inertial systems market in land-based applications is expected to register a CAGR of 10.68% during the forecast period 2022-2027. The fast improvement of global living has necessitated the development of more user-friendly equipment. Motion-sensing technology, which heavily relies on inertial sensors, can aid this. Inertial sensor technology has emerged as a major market driver. After the turn of the century, manufacturing procedures for inertial systems underwent a paradigm shift.

* The emergence of Micro Electro Mechanical Systems (MEMS) technology resulted in the miniaturization of mechanical and electro-mechanical elements in the field of sensors and semiconductors through the use of micro-fabrication and micro-machining techniques. Hence, MEMS has become an indisputable part of future navigation systems and is expected to propel the inertial systems market's growth.

* Additionally, high-end inertial systems are comprised of IMU with high-performance sensors (gyroscopes, magnetometers, accelerometers), which provide high accuracy information about the surrounding environment through relative movement. Hence, the need for higher accuracy in navigation systems is increasing, thus, increasing the demand for advanced inertial systems.

* Moreover, these inertial systems are increasingly used in deep-water drilling units for advanced operations. Sonardyne International came up with a new DP-INS (inertial navigation system) that combined the complementary characteristics of its long and ultra-short baseline (LUSBL) positioning technology with high-integrity inertial measurements from its Lodestar AHRS/INS platform. Further, a gyroscope is a kind of inertial sensor used to detect the altitude angle and angular rate. Characteristics such as small size, low power consumption, lightweight, low cost, and the possibility of batch fabrication drive their adoption over conventional gyroscopes.

* Further, due to the COVID-19 pandemic, China has stopped all major production activities, including its semiconductor industry. This is expected to significantly influence the global industrial inertial systems market supply chain in 2020, and the market is expected to pick up afterward. Disruption in China may significantly impact companies worldwide and up and down the electronics value chain, directly impacting the sensor market.

Land-based Applications Inertial Systems Market Trends

Increasing Demand for Accuracy to Drive the Market

* A high level of accuracy and reliability is a navigational system's prime feature. Inertial navigational systems have a distinct advantage over other forms of navigation systems in terms of their lack of dependence on external aids to determine the rotation and acceleration of a moving object. These systems use a combination of gyroscopes, accelerometers, and magnetometers to determine the vector variables of a vehicle or a moving object.

* Navigational systems are inherently suited for use in integrated navigation, control, and guidance of vehicles in challenging environs. Unlike GPS and other navigation systems, inertial systems can retain their performance even under challenging conditions. Inertial measurement units (IMU) are well suited for navigational systems to calculate several metrics. These systems remain unaffected by radiation and jamming problems. Strapdown inertial systems find more usage in inertial navigation systems than gimbaled systems, as they are strapped to the moving object and offer better reliability and performance. Moreover, they provide cost-effectiveness as they are incorporated with MEMS techniques.

* As advanced technologies such as AI and Machine Learning become more widely adopted, advanced robotic cars that can be controlled remotely via sensor technology are becoming more common. Unmanned Underwater Vehicles, Unmanned Aerial Vehicles, and Unmanned Ground Vehicles are all being updated owing to this new technology. As a result, accurate position parameters, such as altitude and orientation of tactical grade equipment, are important in today's battle scenario.

* Inertial navigation systems are now being made available for commercial use in private aircraft, UAVs, military, and defense units. They form an integral part of the navigational control systems and can interact with other navigational systems due to incremental advancements in the processing ability of the systems. Several forms of inertial systems like magnetometers are widely used for determining the orientation and presence of a magnetic field in conjunction with other forms of inertial systems.

North America to Hold the Largest Market Share

* The presence of prominent vendors offering MEMS in the region is likely to emerge as a source for innovation, and it is estimated to hold a significant market share. North America is one of the largest markets for offshore oil and gas communication globally. New-found shale resources in the US and an increasing number of oil and gas projects in Canada are expected to drive the demand for communication equipment in the region.

* The US Department of the Interior (DoI) plans to allow offshore exploratory drilling in about 90% of the Outer Continental Shelf (OCS) acreage. The region's oil and gas sector is expected to create new opportunities under the National Outer Continental Shelf Oil and Gas Leasing Program (National OCS Program) for 2019-2024.

* Moreover, the rising number of unmanned aerial vehicles and rising defense spending are the key reasons for the high adoption of these systems in the US. Besides, under the US Defense Advanced Research Projects Agency (DARPA) program, to provide the US Navy with advanced tools to expand the reach and effectiveness of its underwater sensors, the US defense sector has invested in the development of small unmanned underwater vehicles (UUV) to help US submarines detect and engage adversary submarines. Hence, government initiatives and spending on R&D are expected to further stimulate the growth of the market in the region.

Land-based Applications Inertial Systems Market Competitor Analysis

The competitive landscape of the inertial systems market in land-based applications is fragmented moderately due to the presence of various inertial systems solution providers. However, vendors are consistently focusing on product development to enhance their visibility and global presence. Companies are also undergoing strategic partnerships and acquisitions to gain traction and increase their market share.

* In October 2021, the US Navy received the 500th WSN-7 ring laser gyroscope inertial navigation system (INS) from Northrop Grumman Corporation. Northrop Grumman continues to support the US and NATO surface and submarine naval assets worldwide, with installations across the US Navy Fleet.

* In April 2021, Inertial Labs announced the release of INS-DH-OEM, IMU-NAV-100, and INS-U, the next generation of GPS-assisted systems. These INS are intended for use with UAVs, helicopters, and LiDAR surveys from the air. MEMS accelerometers and MEMS gyroscopes are among them.

Additional Benefits:

  • The market estimate (ME) sheet in Excel format
  • 3 months of analyst support

TABLE OF CONTENTS

1 INTRODUCTION

  • 1.1 Study Assumptions and Market Definition
  • 1.2 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET INSIGHTS

  • 4.1 Market Overview
  • 4.2 Value Chain/Supply Chain Analysis
  • 4.3 Industry Attractiveness - Porter's Five Forces Analysis
    • 4.3.1 Threat of New Entrants
    • 4.3.2 Bargaining Power of Buyers
    • 4.3.3 Bargaining Power of Suppliers
    • 4.3.4 Threat of Substitute Products
    • 4.3.5 Intensity of Competitive Rivalry
  • 4.4 Assessment of COVID-19 Impact on the Industry

5 MARKET DYNAMICS

  • 5.1 Market Drivers
    • 5.1.1 Emergence of MEMS Technology
    • 5.1.2 Increasing Applications Based on Motion Sensing
  • 5.2 Market Restraints
    • 5.2.1 Integration Drift Error

6 MARKET SEGMENTATION

  • 6.1 By Component
    • 6.1.1 Accelerometers
    • 6.1.2 IMUs
    • 6.1.3 Gyroscopes
    • 6.1.4 Magnetometers
    • 6.1.5 Attitude Heading
    • 6.1.6 Reference Systems
  • 6.2 By Geography
    • 6.2.1 North America
    • 6.2.2 Europe
    • 6.2.3 Asia-Pacific
    • 6.2.4 Rest of the World

7 COMPETITIVE LANDSCAPE

  • 7.1 Company Profiles
    • 7.1.1 Honeywell International Inc.
    • 7.1.2 Northrop Grumman Corporation
    • 7.1.3 Rockwell Collins
    • 7.1.4 Bosch Sensortec GmbH
    • 7.1.5 ST Microelectronics
    • 7.1.6 Safran Group
    • 7.1.7 SBG Systems
    • 7.1.8 Raytheon Anschtz GmbH
    • 7.1.9 KVH Industries Inc.
    • 7.1.10 Silicon Sensing Systems Ltd
    • 7.1.11 Vector NAV

8 INVESTMENT ANALYSIS

9 FUTURE OUTLOOK