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感測器

市場調查報告書

商品編碼

1639426

穿戴式健康感測器：市場佔有率分析、行業趨勢和統計、成長預測（2025-2030 年）

Wearable Health Sensors - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2025 - 2030)

出版日期: 2025年01月05日 | 出版商:

Mordor Intelligence | 英文 120 Pages | 商品交期: 2-3個工作天內

價格

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簡介目錄

穿戴式健康感測器市場預計在預測期內實現 10.5% 的複合年成長率

主要亮點

穿戴式感測器利用智慧型手機的無線連接、強大的應用處理和儲存功能，正在尋找新的使用案例，例如遠端患者監護，其中患者行為資料分析可以直接髮送給醫生，從而進一步推動市場成長。的。
此外，2022年8月，麻省理工學院的工程師開發了一種沒有內建藍牙模組的穿戴式無線感測器。這是一種穿戴式感測器，無需任何板載晶片或電池即可進行無線傳輸。該計劃為無晶片無線感測器鋪平了道路。這種名為「電子皮膚」的新感測器是一種壓電材料的超薄半導體薄膜，貼在皮膚上，可以感知身體的振動。它也不需要電源。
健康感測器設備的技術進步可以幫助臨床醫生識別患病風險高的患者，這有望推動市場成長。例如，2021 年1 月，Biosticker 將為醫院和家庭護理環境中的臨床醫生提供，這是一種非常先進的貼身感測器，可輕鬆監測生命徵象並提供可付諸行動的見解。了獨特的機會併發症。
人們對醫療保健的認知不斷提高，對智慧健康感測器技術和監測設備產生了新的需求，這些技術和設備可以感知健康狀況並向使用者提供回饋，以提高安全性。隨後，2021 年 2 月，加州大學聖地牙哥分校的工程師開發出一種可以戴在脖子上的柔軟、有彈性的皮膚貼片。此貼片可測量配戴者的葡萄糖、乳酸、酒精和咖啡因含量，同時監測血壓和心率。此外，它還分析了人體的幾個生化水平和心血管系統的跡象。
穿戴式感測器在醫療保健領域廣泛應用的主要促進因素是低成本 MEMS 技術、低功耗微控制器以及高效可靠的遠端檢測模組。此外，Honeywell也提供26PC SMT（表面黏著技術）系列壓力感測器。這種小型、低成本、高價值的壓力感測解決方案取代了醫療專業人員將聽診器放在壓力袖帶下聆聽血液流動聲音的需要。
機器學習和人工智慧能力，尤其是在當今的醫療保健行業，正在將醫療專業技能提升到新的水平。與此相配套的是，支援物聯網的穿戴式感測器的價格也在下降，使得製造商能夠製造出更實惠的穿戴式設備，從而使各個行業能夠開發適合其自身系統和業務的產品，採用它正變得越來越普遍。此外，過去幾年穿戴式裝置的銷量大幅成長。
此外，智慧型手錶的發展。 Amazfit Bip U Pro 和 BOAT Xplorer 於 2021 年 4 月在印度推出。智慧型手錶的 PPG 生物辨識追蹤光學感測器永續監測心率。
此外，全球人口正在推動家庭醫療保健的趨勢。 COVID-19疫情加速了遠端患者監護和連續診斷設備（包括醫療穿戴裝置）的使用。穿戴式感測器透過不斷測量血壓、血糖水平、心率和其他活動來幫助監測一個人的健康狀況。此外，2021年2月，加拿大衛生署通過一項臨時命令，核准了帶有溫度感測器的BactiGuard導尿管用於預防感染。此次核准是由於 COVID-19，因為 Bactiguard 導管往往可以降低重症患者繼發性感染的風險。

穿戴式健康感測器市場趨勢

醫療保健產業主導穿戴式健康感測器市場

隨著人們對醫療保健認知的不斷提高，對能夠檢測健康狀況並向用戶提供反饋以提高安全性的智慧感測器技術和監測設備的需求也日益成長。健康感測器的小型化將為其應用帶來巨大好處，因為小型化感測器具有高度的靈活性，可以併入各種設備中以即時獲取資訊。
例如，2022 年 5 月，醫療科技新興企業Movano Inc. 宣布將利用射頻技術開發取得專利的系統晶片(SoC) 平台，用於將一系列感測器整合到未來的醫療穿戴裝置中。該公司已開始對能夠感測血液和葡萄糖的原型進行 Beta 測試。
此外，各種醫療監測系統使用不同類型的感測器，這些感測器已被開發用於持續監測患者的某些身體參數。可用於測量心率、體氧水平和體溫的各種生物感測器連接到 Arduino Nano 開發板，並使用 Node MCU ESP8266 無線通訊將記錄的訊號傳輸到伺服器。
例如，2021年8月，雅培報告了GUIDE-HF臨床試驗的資料，顯示其CardioMEMSHF系統降低了紐約心臟協會（NYHA）II、III和IV級心臟衰竭患者的死亡率。 CardioMEMS 是一種小型可植入感測器，旨在無線測量和追蹤肺動脈壓力和心率。這些壓力變化甚至在患者出現症狀之前就已顯示心臟衰竭正在惡化。
此外，穿戴式裝置在醫療分析中發揮重要作用，從裝置收集的資料可用於分析和診斷疾病。從測量腦電波的耳機，到包含感測裝置的衣服，再到血壓監測儀，這些都將個人健康監測提升到一個新的水平。此外，2021 年 9 月，Rockley 光電宣布正在擴大其非侵入性生物標記感測技術的應用範圍，以支援更廣泛的醫療器材與設備。
此外，壓力感測器在呼吸監測中發揮重要作用，並用於人工呼吸器中監測患者的呼吸。壓力感測器是人工呼吸器的關鍵部件，為對抗 COVID-19 的患者提供急需的呼吸輔助。基於MEMS的壓力感測器可以幫助改進和改善傳統人工呼吸器，避免呼吸過程中的各種損壞。
此外，2022 年 7 月，呼吸輔助科技公司 Inspira Technologies OXY BHN Ltd 宣布開發 HYLA 血液感測器。 Inspira 的非侵入式光學血液感測器旨在進行即時連續血液監測，無需抽取實際血液樣本即可提醒醫生患者臨床狀況的即時變化。

歐洲佔有較大市場佔有率

歐洲穿戴式健康感測器市場的顯著成長得益於感測器成本的下降和智慧型手機的普及。消費者健身意識的不斷增強以及健身追蹤和監測應用程式的易用性正在推動市場的發展。
根據 GSMA 預測，2021 年歐洲將有 4.74 億人（佔總人口的 86%）訂閱行動服務，預計到 2025 年這一數字將成長到 4.8 億。此類家電的發展預計將進一步推動市場成長。
隨著穿戴式裝置在醫療保健和醫療產業中的日益流行，歐洲市場的公司正在為這些應用推出新的創新感測器。
例如，2021年7月，全球矽光電技術公司Rockley Photonics推出了完整的全端「腕上診所」數位健康感測器系統。 Rockley 的感測器模組和相關的消費性穿戴裝置參考設計能夠監測多種生物標記，包括血壓、核心體溫、酒精、乳酸、水合物和葡萄糖趨勢。
此外，無線技術正在歐洲擴展，大大提高了感測器的通訊能力。感測器的小型化與降低的功耗相結合，使其能夠以美學角度融入各種設備中，並在尋求將科技與時尚相結合的年輕用戶中引起了極大的關注。
例如，8sense 是一家德國穿戴式裝置新興企業，製造了世界上第一個具有虛擬教練功能的智慧背部感測器。 8sense 系統將位置和運動分析與即時互動和訓練相結合，定期對使用者的姿勢提供回饋。這款可連接教練機旨在增強和保護您的健康和工作效率，它可以幫助您更積極地就坐，並讓您了解辦公室裡的實際健身水平。
預計該市場在人口老化的西歐國家將出現強勁成長。使用穿戴式裝置監測和追蹤健康狀況正在產生對穿戴式健康感測器的巨大需求。 2021 年 8 月，Masimo 宣布 Masimo SafetyNet Alert 獲得 CE 標誌並在西歐上市，這是一款專為家庭使用而設計的動脈血氧飽和度監測和警報系統。 Masimo SafetyNet Alert 具有穿戴式指尖脈搏血氧計感測器，該感測器具有訊號提取技術，可與配套的家庭醫療中心和智慧型手機應用程式進行無線通訊。
醫療保健佔據穿戴式感測器市場的很大一部分，尤其是在英國和法國等新興市場。國防和資訊娛樂領域的應用不斷增加預計將增強市場。主要趨勢是開發新的應用。

穿戴式健康感測器產業概況

穿戴式健康感測器市場競爭適中，由幾家領先公司組成。從市場佔有率來看，目前市場主要被幾家主要企業所佔據。它還顯示出良好的成長率，主要企業正在投資研發，透過推出新產品或對現有產品進行技術升級來增強產品系列。隨著企業專注於製造專利產品，預計市場競爭將更加活躍。

2022 年 2 月，美國醫療設備製造商雅培實驗室宣布推出一款消費者健康手錶，可以追蹤關鍵的身體訊號，幫助使用者更了解並採取措施改善整體健康狀況。款名為「Lingo」的生物穿戴裝置。這使得生物駭客能夠使用連續的資料流，而不是零星的手指刺穿測試、尿液樣本或呼吸測試。

2021 年 12 月，專門從事下一代 GPS 的公司 NextNavi 與 Bosch Sensortec 建立合作夥伴關係。該公司專門為家用電器提供感測解決方案，使氣壓感測器的垂直放置更加精確。 NextNav 認證計畫對 Bosch Sensortec 氣壓感測器進行嚴格測試，以確保其在廣泛應用場景中的準確性和性能超過嚴格的標準。

其他福利

Excel 格式的市場預測 (ME) 表
3 個月的分析師支持

市場概況
評估新冠肺炎疫情對市場的影響
市場促進因素
- 醫療服務對持續監測的需求日益增加
- 智慧型設備中高性能感測器的興起
- 生理感測器的小型化
市場限制
- 缺乏通用標準和互通性問題
波特五力分析
- 供應商的議價能力
- 消費者議價能力
- 新進入者的威脅
- 替代品的威脅
- 競爭對手之間的競爭強度
價值鏈分析
技術簡介

第5章市場區隔

按類型
- 壓力感測器
- 溫度感測器
- 位置感測器
- 其他類型
按最終用戶產業
- 衛生保健
- 家電
- 運動/健身
- 其他最終用戶產業
按地區
- 亞太地區
- 歐洲
- 拉丁美洲
- 中東和非洲
- 北美洲

第6章競爭格局

公司簡介
- 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7章投資分析

第 8 章：市場的未來

簡介目錄

Product Code: 49608

The Wearable Health Sensors Market is expected to register a CAGR of 10.5% during the forecast period.

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 Industry Overview

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

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 and Africa
- 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.