可穿戴健康传感器市场——增长、趋势、COVID-19 影响和预测 (2023-2028)

可穿戴健康传感器市场预计在预测期内以 10.5% 的复合年增长率增长。

生理传感器的小型化、智能设备中先进过程传感器的增长、电池尺寸的进步、医疗保健服务中对持续监测的需求增加有利于可穿戴健康传感器市场的增长。这是增长的主要因素。 加速度计、陀螺仪和其他运动传感器等可穿戴健康传感器有望用于活动监测器、健身器材、计步器、高尔夫和网球挥桿分析工具以及运动动力学应用。

主要亮点

• 利用无线连接、强大的应用程序处理和智能手机存储功能，可穿戴传感器正在寻找新的用例，例如远程患者监控，它可以将患者运动数据分析直接传输给医生，进一步推动市场增长。这是有可能的。
• 此外，2022 年 8 月，麻省理工学院的工程师开发了一种没有内置蓝牙模块的可穿戴无线传感器。 这是一种无线传输的可穿戴传感器，无需使用板载芯片或电池。 该项目为无芯片无线传感器铺平了道路。 这种称为“电子皮肤”的传感器将压电材料的超薄半导体薄膜附着在皮肤上以感应身体振动，并且不需要电源。
• 健康传感器设备的技术进步有望帮助临床医生识别疾病高危患者，从而推动市场增长。 例如，2021 年 1 月，Biosticker 是一种先进的体表传感器，可轻鬆监测生命体征并提供可操作的洞察力，临床医生将从医院和家庭护理机构的患者那里获得该传感器，从而为早期发现并发症创造了独特的机会。
• 随着人们对医疗保健意识的提高，人们越来越需要智能健康传感器技术和监测设备来感知健康状况并提供反馈以提高安全性。 此外，2021 年 2 月，加州大学圣地亚哥分校的工程师开发了一种柔软、有弹性的皮肤贴片，可以戴在脖子上。 它测量佩戴者的葡萄糖、乳酸、酒精和咖啡因水平，同时监测血压和心率。 此外，还可以分析人体的几种生化水平和心血管指标。
• 低成本 MEMS 技术、低功耗微控制器以及高效可靠的遥测模块的可用性是医疗保健领域可穿戴传感器激增的主要驱动力。 此外，Honeywell还提供 26PC SMT（表面贴装技术）系列压力传感器。 这种小型、低成本、高价值的压力传感解决方案取代了医疗保健专业人员将听诊器放在血压监测仪下以听到血液流动的需要。
• 尤其是在当今的医疗保健行业，机器学习和 AI 功能正在将医护人员的技能提升到一个新的水平。 由此可见，兼容物联网的可穿戴传感器的价格一直在下降，随着製造商以更低的价格提供可穿戴设备，各行各业开始推出适合自己系统和运营的产品。 此外，近几年可穿戴终端销量增长明显。
• 此外，行业参与者不断的技术进步正在推动智能手錶的发展，因为技术设备需要不断研究和开发其各种功能。 Amazfit Bip U Pro 和 BOAT Xplorer 于 2021 年 4 月在印度推出。 智能手錶中的 PPG 生物跟踪光学传感器持续监测您的心率。
• 此外，由于世界人口的增加，居家保健的趋势也在进步。 COVID-19 大流行加速了远程患者监测和连续诊断设备（包括医用可穿戴设备）的使用。 可穿戴传感器有助于监测一个人的健康，因为它们不断测量血压、血糖水平、心率和其他活动。 此外，2021 年 2 月，加拿大卫生部批准了 Bactigard 用于预防感染的温度感应导尿管的临时订单。 该批准是由 COVID-19 推动的，因为 Bactiguard 的导管倾向于降低重症患者继发感染的风险。

可穿戴健康传感器的市场趋势

医疗保健行业占据可穿戴健康传感器市场的主导份额

• 人们对医疗保健意识的提高催生了对智能传感器技术和监控设备的新需求，这些设备可以感知健康状况并向用户提供反馈以提高安全性。 健康传感器的小型化增加了传感器的灵活性，可以嵌入到各种设备中实时获取信息，这为其应用带来了巨大的优势。
• 例如，2022 年 5 月，医疗技术初创公司 Movano Inc. 开始使用射频技术开发获得专利的片上系统 (SoC) 平台，用于将各种传感器整合到未来的医疗可穿戴设备中。 该公司已经开始对可以进行血液和葡萄糖传感的原型进行 Beta 测试。
• 此外，各种医疗保健监控系统使用不同类型的传感器来持续监控患者的特定身体参数。 在 Arduino Nano 板上安装各种用于测量心率、体氧浓度和体温的生物传感器，并使用 Node MCU ESP8266 的无线通信将记录的信号发送到服务器。
• 例如，2021 年 8 月，Abbott宣布其 CardioMEMSHF 系统在一项临床试验 (GUIDE-HF) 中降低了纽约心臟协会 (NYHA) II、III 和 IV 级心力衰竭患者的死亡率。报告数据。 CardioMEMS 是一种小型植入式传感器，旨在无线测量和跟踪肺动脉压力和心率。 这些压力变化表明心力衰竭甚至在患者出现症状之前就已经恶化。
• 可穿戴设备在医疗保健分析中也发挥着重要作用，医疗保健分析使用从设备收集的数据来分析和诊断疾病。 从脑电波测量耳机到配备传感设备的服装、血压计等，这些都将个人健康护理推向了新的高度。 此外，2021 年 9 月，Rockley Photonics 宣布正在扩大其非侵入性生物标记传感技术的可能应用范围，以解决更广泛的医疗仪器和设备。
• 此外，压力传感器在呼吸监测中具有重要意义，用于呼吸机以监测患者呼吸。 压力传感器是呼吸机的重要组成部分，可为与 COVID-19 作斗争的患者提供急需的呼吸帮助。 基于 MEMS 的压力传感器可以推进和改进传统的呼吸机，避免在通气过程中发生各种伤害。
• 2022 年 7 月，呼吸支持技术公司 Inspira Technologies OXY B.H.N Ltd 宣布开发血液传感器“HYLA”。 Inspira 的无创光学血液传感器专为实时、连续的血液监测而设计，无需采集实际血样即可提醒医生立即了解患者临床状态的变化。我来了。

欧洲占有很大的市场份额

• 由于传感器成本的降低和智能手机的普及，欧洲可穿戴健康传感器市场正在显着增长。 消费者健身意识的提高以及健身追踪和监控应用的现成可用性正在推动市场的增长。
• 根据 GSMA 的数据，到 2021 年，欧洲将有 4.74 亿人（占人口的 86%）使用移动服务，预计到 2025 年这一数字将增至 4.8 亿。。 此类家电的发展将进一步推动市场的增长。
• 可穿戴设备在保健和医疗行业越来越受欢迎，欧洲市场的公司已经发布了用于这些应用的创新传感器。
• 例如，2021 年 7 月，全球硅光子技术公司 Rockley Photonics 推出了完整的全堆栈“腕戴式”数字健康传感器系统。 Rockley 的传感器模块和相关的消费者可穿戴设备参考设计能够监测多种生物标誌物，例如血压、核心体温、酒精、乳酸、身体水分和葡萄糖趋势。
• 此外，无线技术在欧洲的扩展大大提高了传感器的通信能力。 此外，由于传感器的小型化和省电化，可以精美地融入各种设备，成为寻求科技与时尚融合的年轻用户的热门话题。
• 例如，德国初创公司 8sense 製造了世界上第一个带虚拟教练的智能背部传感器。 8sense 的系统定期提供用户姿势反馈，将位置和运动分析与实时交互和训练相结合。 这款可穿戴教练旨在改善和保护您的健康和工作效率，帮助您坐得更积极，并告知您在办公室的实际健康水平。
• 随着老龄化社会的到来，西方国家有望实现高速增长。 使用可穿戴设备来监测和跟踪健康状况对可穿戴健康传感器产生了巨大的需求。 2021 年 8 月，Masimo 宣布获得 CE 标誌并在西欧推出 Masimo SafetyNet Alert，这是一种专为家庭设计的动脉血氧饱和度监测和警报系统。 Masimo SafetyNet Alert 具有来自 Signal Extraction Technology 的可穿戴指尖脉搏血氧仪传感器，可与随附的 Home Medical Hub 和智能手机应用程序进行无线通信。
• 医疗保健是可穿戴传感器市场的很大一部分，尤其是在英国和法国等发达市场。 由于国防和信息娱乐领域的应用增加，预计市场将扩大。 开发新的应用已经成为大趋势。

可穿戴健康传感器市场竞争者分析

可穿戴健康传感器市场竞争适中，由几家主要参与者组成。 就市场份额而言，目前很少有重要参与者主导市场。 此外，主要参与者正在投资研发以通过推出新产品和对现有产品进行技术升级来增强其产品组合，显示出利润丰厚的增长率。 玩家专注于製造专利产品，这有望推动市场竞争。

2022 年 2 月，美国医疗设备公司 Abbott Laboratories 将跟踪关键的身体信号，以帮助用户更好地了解他们的整体健康状况并采取措施改善健康状况。开发了一款名为“Lingo”的消费类生物可穿戴设备，它可以 这可以让生物黑客利用连续的数据流，而不是零星的指尖、尿液样本和呼吸测量。

2021 年 12 月，下一代 GPS 专家 NextNav 与 Bosch Sensortec 合作。 该公司专注于消费电子产品的传感解决方案，可在气压传感器中实现更精确的垂直放置。 NextNav Certified 计划对来自 Bosch Sensortec 的压力传感器进行严格测试，以确保其精度和性能在各种应用场景中超过严格标准。

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

第四章市场动态

• 市场概览
• 评估 COVID-19 对市场的影响
• 市场驱动因素
  • 对医疗保健服务进行持续监控的需求不断增加
  • 随着智能设备变得越来越复杂，传感器数量也在增加
  • 生理传感器的小型化
• 市场製约因素
  • 缺乏通用标准和互操作性问题
• 波特的五力分析
  • 供应商的议价能力
  • 消费者的议价能力
  • 新进入者的威胁
  • 替代品的威胁
  • 竞争公司之间的敌对关係
• 价值链分析
• 技术快照

第 5 章市场细分

• 按类型
  • 压力传感器
  • 温度传感器
  • 位置传感器
  • 其他类型
• 按最终用户行业
  • 医疗保健
  • 消费类电子产品
  • 运动/健身
  • 其他最终用户
• 区域信息
  • 亚太地区
  • 欧洲
  • 拉丁美洲
  • 中东
  • 北美

第六章竞争格局

• 公司简介
  • TE Connectivity Ltd
  • Analog Devices Inc
  • TDK Corporation
  • Texas Instruments Incorporated
  • Maxim Integrated Products Inc
  • Infineon Technologies AG
  • STMicroelectronics Inc.
  • Arm Limited
  • Fraunhofer IIS
  • mCube Inc.

第七章投资分析

第八章市场潜力

The Wearable Health Sensor Market is expected to grow at a CAGR of 10.5% over the forecast period. The miniaturization of physiological sensors, increasing growth toward advanced process sensors in smart gadgets, advancement in battery sizes, and increasing need for continuous monitoring in healthcare services are the key drivers making the wearable health sensors market grow lucratively. Wearable health sensors, such as accelerometers, gyroscopes, and other motion sensors, are expected to be incorporated into activity monitors, fitness devices, pedometers, golf and tennis swing analysis tools, and sports kinetics applications.

Key Highlights

• Leveraging wireless connectivity, powerful application processing, and smartphone storage capabilities, wearable sensors are finding new use cases, such as remote patient monitoring, where the patient's motion data analysis can be sent directly to the physician, which may further boost the market growth.
• Furthermore, In August 2022, engineers from the Massachusetts Institute of Technology developed wearable wireless sensors without the Bluetooth module housed in them. It is a wearable sensor that transmits wirelessly without onboard chips or batteries. This project opens an avenue toward chip-free wireless sensors. The new sensor, called - 'e-skin', is an ultrathin semiconductor film of piezoelectric material which adheres to the skin, sensing the body's vibration. It also does not require any power source.
• Technological advances in health sensor devices can assist clinicians in identifying patients at high risk of disease, which is expected to drive market growth. For instance, in January 2021, Biosticker, a highly advanced on-body sensor that allows effortless monitoring of vital signs and actionable insights, was provided to clinicians from patients in hospitals or home care settings, creating a unique opportunity for the early detection of complications.
• The increased level of awareness concerning healthcare has created an emerging need for smart health sensor technologies and monitoring devices that can sense and provide users feedback about their health status for increased safety. Further, in February 2021, engineers at the University of California, San Diego, developed a soft, elastic skin patch that can be worn around the neck. It measures the wearer's glucose, lactate, alcohol, and caffeine levels while monitoring blood pressure and heart rate. Additionally, it analyzes several biochemical levels and cardiovascular signs in the human body.
• The key factors in the proliferation of wearable sensors in healthcare are the availability of low-cost MEMS technologies, low-power microcontrollers, and efficient and reliable telemetry modules. Furthermore, Honeywell offers the 26PC SMT (Surface Mount Technology) Series pressure sensor. This small, low-cost, high-value pressure sensing solution replaces the need of the healthcare professional to place a stethoscope under the pressure cuff, to hear the noise of the rushing blood.
• Machine learning and AI capabilities are taking healthcare professionals' skills to the next level, especially in the current healthcare industry. In support of this, IoT-compatible wearable sensors are also witnessing a decline in pricing, which leads to manufacturers offering wearable devices at a more affordable rate, thus encouraging various industries to adopt products catered to their systems and operations. Additionally, there has been a significant increase in the number of wearable devices sold over the past few years.
• Furthermore, as technical devices require continuous R&D for various features, industry players' ongoing technological advances are fueling the development of smartwatches. Amazfit Bip U Pro and BOAT Xplorer were launched in India in April 2021. PPG bio-tracking optical sensors in smartwatches continuously monitor heart rate.
• Further, the global population is driving a trend toward home healthcare. The COVID-19 pandemic accelerated the use of remote patient monitoring and continuous diagnostic devices, including medical wearables. Wearable sensors help monitor a person's health, as they constantly measure their blood pressure, glucose concentrations, heart rate, and other activities. Moreover, in February 2021, Health Canada approved Bactiguard's urinary catheter with temperature sensor for infection prevention through an Interim Order. This approval was driven by COVID-19, as Bactiguard's catheters tend to reduce the risk of secondary infections for critically ill patients.

Wearable Health Sensors Market Trends

Healthcare Industry Holds a Dominant Share in Wearable Health Sensors Market

• The increased level of awareness concerning healthcare has created an emerging need for smart sensor technologies and monitoring devices that are able to sense and provide feedback to users about their health status for increased safety. Miniaturization of health sensors will lead to significant benefits in their application since smaller versions of sensors are more flexible, and they can be embedded in a variety of devices to obtain real-time information.
• For instance, in May 2022, MovanoInc., a medical technology start-up, started using radiofrequency technology to develop a patented system-on-chip (SoC) platform for a range of sensors to be incorporated into future medical wearables. The company has started the beta testing of a prototype that will be able to perform blood and glucose sensing.
• Further, various healthcare monitoring systems use different types of sensors developed to monitor specific body parameters of the patient continuously. Different biosensors available to measure heart rate, body oxygen level, and temperature are attached to the Arduino Nano board, and recorded signals are sent to the server using Node MCU ESP8266 wireless communication.
• For instance, in August 2021, Abbott reported data from the GUIDE-HF clinical trial, where its CardioMEMSHF System reduced mortality in New York Heart Association (NYHA) Class II, III, and IV heart failure patients. A small implantable sensor, CardioMEMS, is designed to measure and track pulmonary artery pressure and heart rate wirelessly. These pressure changes suggest deteriorating heart failure even before patients feel symptoms.
• Moreover, wearable devices play a significant role in healthcare analytics, where the data collected from the device can be used to analyze and diagnose disease. From headsets that measure brainwaves to clothes that include sensing devices, BP monitors, etc., these have taken personal health monitoring to a new level. Furthermore, in September 2021, Rockley Photonics announced that the company had expanded the range of possible applications for its non-invasive biomarker sensing technology to support a wider range of medical equipment and devices.
• Further, pressure sensors hold significant importance in respiratory monitoring and are used in ventilators to monitor patients' breathing. Pressure sensors are critical components in ventilators and provide necessary breathing assistance to patients battling COVID-19. MEMS-based pressure sensors contribute to advancing and improving conventional ventilators to avoid various injuries during the ventilation process.
• Additionally, in July 2022, Inspira Technologies OXY B.H.N Ltd, a respiratory support technology company, announced the development of the HYLA blood sensor. Inspira's non-invasive optical blood sensor is designed to perform real-time and continuous blood monitoring to alert physicians of immediate changes in a patient's clinical condition without taking actual blood samples.

Europe holds Significant Market Share

• The significant growth in Europe's Wearable Health Sensors market is being stimulated by the reduced costs of sensors and the increasing adoption of smartphones. The growing consciousness among consumers regarding fitness and the easy availability of applications that track and monitor fitness are driving the market ahead.
• According to the GSMA, 474 million people in Europe (86% of the population) subscribed to mobile services in 2021, with this figure expected to rise to 480 million by 2025. Such developments in consumer electronics will further drive market growth.
• With the increasing trend of wearable gadgets in the healthcare and medical industry, companies in the European market have been launching new and innovative sensors for such applications.
• For instance, in July 2021, Rockley Photonics, a global silicon photonics technology company, launched its complete full-stack, "clinic-on-the-wrist" digital health sensor system. Rockley's sensor module and associated reference designs for consumer wearable devices could monitor multiple biomarkers, including blood pressure, core body temperature, alcohol, lactate, body hydration, and glucose trends.
• Further, expanding wireless technology in Europe has considerably improved sensors' communication capabilities. The miniaturization, coupled with the reduction in power requirement of sensors, has enabled their integration into various devices in an aesthetic manner, thus generating significant buzz among the younger users who are seeking a combination of technology and fashion.
• For instance, 8sense is a wearable start-up from Germany that makes the world's first smart back sensor with a virtual coach. The 8sense system regularly gives feedback on the user's posture, combining position and movement analysis with real-time interaction and training. Designed to enhance and protect health and productivity, this attachable coach helps to sit more actively and informs about actual fitness levels in the office.
• The market is expected to register high growth in Western European countries, owing to the increasing aging population. The use of wearables to monitor and track their well-being creates a significant demand for wearable health sensors. In August 2021, Masimo announced the CE marking and launch in western Europe of Masimo SafetyNet Alert, an arterial blood oxygen saturation monitoring and alert system designed for the home. Masimo SafetyNet Alert features a Signal Extraction Technology wearable fingertip pulse oximetry sensor that communicates wirelessly to an accompanying Home Medical Hub and smartphone app.
• Healthcare accounts for a significant chunk of the wearable sensors market, particularly in developed markets like the United Kingdom and France. Increasing applications in the fields of Defense and Infotainment are expected to enhance the market. The development of novel applications is the primary trend.

Wearable Health Sensors Market Competitor Analysis

The wearable health sensors market is moderately competitive and consists of several major players. In terms of market share, few significant players currently dominate the market. It also has a lucrative growth rate, with key players investing in R&D to strengthen their product portfolios by launching novel products and technologically upgrading their existing products. Players' focus on manufacturing patent products is expected to fuel market competition.

In February 2022, Abbott Laboratories, a US-based medical device company, developed consumer bio wearables called Lingo that can track key body signals to help users better understand their overall health and take steps to improve it. It may allow biohackers to use a continuous stream of data rather than sporadic finger-prick tests, urine samples, and breath readings.

In December 2021, NextNav, a company specializing in next-generation GPS, teamed up with Bosch Sensortec. This company specializes in sensing solutions for consumer electronics, enabling more exact vertical placement in barometric pressure sensors. The NextNav Certified program will put Bosch Sensortec's barometric pressure sensors through rigorous testing to ensure that their accuracy and performance exceed strict standards across various application scenarios.

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 DYNAMICS

• 4.1 Market Overview
• 4.2 Assessment on Impact of COVID-19 on the market
• 4.3 Market Drivers
  • 4.3.1 Increasing Need for Continuous Monitoring In Healthcare Services
  • 4.3.2 Rising Growth toward Advanced Functions Sensors in Smart Gadgets
  • 4.3.3 Miniaturization of Physiological Sensors
• 4.4 Market Restraints
  • 4.4.1 Dearth of Common Standards and Interoperability Issues
• 4.5 Porter's Five Forces Analysis
  • 4.5.1 Bargaining Power of Suppliers
  • 4.5.2 Bargaining Power of Consumers
  • 4.5.3 Threat of New Entrants
  • 4.5.4 Threat of Substitute Products
  • 4.5.5 Intensity of Competitive Rivalry
• 4.6 Value Chain Analysis
• 4.7 Technology Snapshot

5 MARKET SEGMENTATION

• 5.1 By Type
  • 5.1.1 Pressure Sensor
  • 5.1.2 Temperature Sensor
  • 5.1.3 Position Sensor
  • 5.1.4 Other Types
• 5.2 By End User Industry
  • 5.2.1 Healthcare
  • 5.2.2 Consumer Electronic
  • 5.2.3 Sports/Fitness
  • 5.2.4 Other End User Industries
• 5.3 By Geography
  • 5.3.1 Asia Pacific
  • 5.3.2 Europe
  • 5.3.3 Latin America
  • 5.3.4 Middle East
  • 5.3.5 North America

6 COMPETITIVE LANDSCAPE

• 6.1 Company Profiles
  • 6.1.1 TE Connectivity Ltd
  • 6.1.2 Analog Devices Inc
  • 6.1.3 TDK Corporation
  • 6.1.4 Texas Instruments Incorporated
  • 6.1.5 Maxim Integrated Products Inc
  • 6.1.6 Infineon Technologies AG
  • 6.1.7 STMicroelectronics Inc.
  • 6.1.8 Arm Limited
  • 6.1.9 Fraunhofer IIS
  • 6.1.10 mCube Inc.

7 INVESTMENT ANALYSIS

8 FUTURE OF THE MARKET