市場調查報告書
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機器人傳感器全球市場規模、份額、行業趨勢分析報告:按行業(製造、物流、航空航天與國防、醫療保健、其他)、類型、地區、展望和預測2022-2028Global Robotic Sensors Market Size, Share & Industry Trends Analysis Report By Vertical (Manufacturing, Logistics, Aerospace & Defense, Healthcare, and Others), By Type, By Regional Outlook and Forecast, 2022 - 2028 |
機器人傳感器的全球市場規模預計將在 2028 年達到 31 億美元,在預測期內以 10.2% 的複合年增長率增長。
對機器人領域至關重要的一項有用技術是傳感器的使用。這些設備對於安全評估、工作部件檢查中的質量控制、工作單元控制中的聯鎖以及機器人工作單元中項目的數據收集至關重要。工業機器人使用傳感器來檢測機器人單元中的危險和安全情況。通過這樣做,它在防止對人類工人造成身體傷害方面發揮作用。
在機器人工作單元中,開關控制各種設備的動作,傳感器在進入下一個工作週期之前確認當前工作週期的結束。傳統上,質量控制是通過人工檢查來完成的。然而,現在可以在檢測過程中使用傳感器來捕捉工件的某些質量特徵。該傳感器只能評估少量工件特徵和缺陷,但仍能產生高度準確的結果。
COVID-19 影響分析
COVID-19 的爆發將對 2020 年改進消費品安全測試解決方案產生重大影響,因為它將嚴重影響供應鏈中的主要利益相關者。另一方面,COVID-19 大流行對市場產生了重大負面影響,原因包括合格勞動力短缺、由於全球部分或全部關閉而導致項目延誤和取消等挑戰。此外,工業和醫療機器人的迅速普及有望加強除 COVID-19 以外的機器人傳感器的市場機會。
市場增長因素
在軍事和國防領域擴大使用情報收集、監視和偵察 (ISR) 機器人
由於自動化程度的提高和機器人技術的加速進步,許多軍事和國防組織決定部署機器人。這些機器人具有內置傳感器,可以進行更廣泛的戰爭,從狙擊手選擇到打擊目標。對於推進、武器控制、現場監視、飛行控制和通信,軍事和國防組織正在各種安全系統、犯罪檢測系統、入侵檢測系統、爆炸物檢測系統和民用設施中安裝傳感器。
醫療保健領域對機器人的需求不斷增長
在預測期內,醫療應用對機器人的需求不斷增長預計將成為推動市場向前發展的關鍵因素之一,因為它們被用於骨科、神經外科和腹腔鏡技術等侵入性手術。隨著對機器人設備輔助康復的需求增長,對機器人傳感器的需求也在增長。機器人在康復治療中發揮著重要作用,通過增強移動性、協調性、力量和生活質量來幫助患者從中風、殘疾和其他疾病中恢復。
市場增長因素
傳感器使用範圍和壽命限制
傳感器用於各種應用,但其有限的帶寬和範圍使其不適合從遠距離或遠程位置收集數據。此外,由於機器人上的傳感器放置取決於電力資源,因此即使在電力不足的情況下,確保傳感器繼續工作也很重要。此外,根據應用的不同,傳感器的保質期通常為六個月至一年。出於這個原因,需要定期更換傳感器,許多公司避免將其集成到他們的產品中。
按類型劃分的前景
按類型,機器人傳感器市場分為接近傳感器、視覺傳感器、位置傳感器、溫度傳感器、力(扭矩)傳感器等。接近傳感器部門在 2021 年的機器人傳感器市場中佔據了可觀的收入份額。這要歸功於這些傳感器的低成本。這種在傳感器領域檢測物品的廣泛應用也有望支持增長。不同的接近傳感器目標需要多個傳感器。
行業展望
機器人傳感器市場根據垂直方向細分為物流、航空航天和國防、製造、醫療保健等。到 2021 年,製造部門將在機器人傳感器市場中獲得最大的收入份額。這是由於製造設備對自動化的接受度很高。在整個行業中,基於傳感器的協作和仿人機器人被用於包裝、揀選和滾動等各種任務。
區域展望
按地區分析了北美、歐洲、亞太地區和 LAMEA 的機器人傳感器市場。亞太地區將在 2021 年佔據機器人傳感器市場的最高收入份額。這是由於韓國、中國、印度、日本和台灣等許多國家越來越多地安裝工業機器人。中國在機器人應用傳感器的地區採用率方面處於領先地位,在該地區占主導地位的汽車和半導體製造行業安裝了大量設備。
The Global Robotic Sensors Market size is expected to reach $3.1 billion by 2028, rising at a market growth of 10.2% CAGR during the forecast period.
Robotic sensors are tools that assess the surroundings wherein the robot is functioning and enable the robot to modify its actions in response to data gathered. Because of Industry 4.0 and digitization, the utilization of robots has considerably grown over the forecast period. As robotics innovations result in versatile production models, it is projected that the use of industrial robot sensors in robotics would increase quickly in the coming years.
The implementation of autonomous and collaborative robots throughout end-user industries is also anticipated to raise the demand for robotic sensors. The robotic sensors market is expanding due to the rising requirement for automation and security in organizations as well as the development of reasonably priced, energy-efficient robots. The robotic sensors are developed as a result of rising labor and energy expenses as well as increased utilization of robotic sensors in various industry verticals.
One of the helpful technologies which are essential to the realm of robotics is the usage of sensors. These devices are crucial for safety assessment, quality control in work component inspection, interlocking in work cell control, and data collecting on the items in the robot work cell. In industrial robotics, sensors are employed to detect hazardous and safe situations in the robot cell architecture. By doing so, they serve to prevent bodily harm and other harm to human workers.
The robot work cell uses switches to govern a variety of equipment's actions, and sensors are utilized to confirm that the current work cycle has ended before moving on to the next one. Traditionally, quality control was carried out using a human inspection method. Presently, however, sensors are employed during the inspection procedure to identify specific quality characteristics of the work item. The sensors can only evaluate a small number of work part features and flaws, but they nonetheless produce very precise results.
COVID-19 Impact Analysis
Due to its severe effects on key supply chain stakeholders, the COVID-19 outbreak will have a significant effect on the improvement of consumer product safety testing solutions in 2020. On the other hand, the COVID-19 pandemic had a significant negative impact on the market because of several challenges, including a shortage of competent labor and delays or cancellations of projects owing to partial or total lockdowns around the world. Additionally, the market opportunity for robotic sensors beyond COVID-19 is anticipated to be strengthened by the rapid deployment of industrial and medical robots.
Market Growth Factors
Rising Use Of Robots In The Military And Defense Sector For Intelligence, Surveillance, And Reconnaissance (Isr)
Numerous military & defense organizations have decided to introduce robots into their environments as a result of ongoing automation breakthroughs and accelerating robotics advancements. These robots have built-in sensors that let them carry out a wider range of warfare operations, from choosing snipers to engaging targets more successfully. For propulsion, weaponry controls, site monitoring, flight controls, and communications, military and defense organizations are installing sensors in a variety of security systems, crime detection systems, intrusion detection systems, explosives detection systems, and civil establishments.
Growing Demand For Robots In The Healthcare Sector
Due to its usage in invasive surgeries like orthopedic, neurologic, and laparoscopic techniques, increasing demand for robots in medical applications is expected to be among the key factors identified to propel the market forward over the projected period. As the need for robotic devices to aid in rehabilitation grows, so does the need for robotic sensors. Robots play a critical part in rehabilitation therapy by assisting patients in recovering from strokes, impairments, and other conditions by enhancing mobility, coordination, strength, and quality of life.
Market Growth Factors
Restricted Range And Shelf Life Of Sensors
While sensors are employed in a variety of applications, their restricted bandwidth and range prevent them from collecting data from far-off or remote places. Given that robotic sensor installations depend on electrical resources, it is essential to make sure that sensors can continue to function even when there is little power. Furthermore, depending on the sort of application they are used for, such sensors typically get a shelf life of six months to a year. This short shelf life creates the need for changing these sensors within a fixed interval of time, which is restricting many companies to use them in their products.
Type Outlook
Based on type, the robotic sensors market is segmented into Proximity Sensor, Vision Sensor, Position Sensor, Temperature Sensor, Force (Torque) Sensor and Others. The proximity sensor segment procured a significant revenue share in the robotic sensors market in 2021. It is owing to the low cost attached to these sensors. This widespread application in the detection of items working in the area of the sensor is also expected to support growth. Multiple sensors are required for various proximity sensor targets.
Vertical Outlook
On the basis of vertical, the robotic sensors market is classified into Logistics, Aerospace and Defense, Manufacturing, Healthcare and Others. The manufacturing segment recorded the maximum revenue share in the robotic sensors market in 2021. It is due to the high acceptance of automation in manufacturing units. Throughout this industry, sensor-based collaborative & humanoid robots are employed for a variety of tasks like packaging, picking, rolling, and others.
Regional Outlook
Region-wise, the robotic sensors market is analyzed across North America, Europe, Asia Pacific and LAMEA. The Asia Pacific acquired the highest revenue share in the robotic sensors market in 2021. It is due to the rising installation of industrial robots in numerous nations like South Korea, China, India, Japan, and Taiwan. Due to its huge installation in the region's dominant automotive and semiconductor manufacturing sectors, China is leading the regional adoption rate of sensors for robotic applications.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include TE Connectivity Ltd., Infineon Technologies AG, Omron Corporation, Honeywell International, Inc., ATI Industrial Automation, Inc., FANUC Corporation, Sensata Technologies Holdings PLC, Baumer Holding AG, Tekscan, Inc., and FUTEK Advanced Sensor Technology, Inc.
Recent Strategies deployed in Robotic Sensors Market
Partnerships, Collaborations and Agreements:
Feb-2022: Infineon Technologies teamed up with SensiML, a leading developer of AI tools for building intelligent Internet of Things (IoT) endpoints. The companies aimed to provide developers with an easy and effortless procedure to gather data from Infineon XENSIV sensors, train Machine Learning (ML) models, and implement real-time inferencing models on ultra-low-power PSoC 6 microcontrollers (MCUs). In addition, this collaboration would also provide designers with the right tools to make smart applications for IoT devices ranging from the smart home, industrial, and fitness sectors.
Nov-2021: Infineon Technologies came into a partnership with Toposens, a developer of a 3D ultrasound sensor technology. This partnership aimed to recognize 3D obstacle detection & collision avoidance in autonomous systems utilizing Toposens' proprietary 3D ultrasound technology. The easy-to-integrate 3D ultrasonic sensor would allow safe collision avoidance via precise 3D obstacle detection, which is based on Infineon's XENSIV MEMS microphone IM73A135V01.
May-2021: Omron Industrial Automation Europe entered into a new distribution agreement with OnRobot, the Danish manufacturer of tools for collaborative robot (cobot) applications. This agreement aimed to allow Omron to provide OnRobot's products that could be fully combined with the Omron TM cobot to its users in Europe, the Middle East, and Africa (EMEA). The agreement would provide their customers with more agility when deploying collaborative solutions.
Product Launches and Product Expansions:
Oct-2021: ATI Industrial Automation launched its "ultra-thin" Mini43LP Force/Torque Sensor. This sensor body would enable customers to improve their work envelope and preserve the robot's lifting power for end-of-arm tools.
Oct-2021: Infineon Technologies unveiled the new XENSIV TLE4972, the first automotive current sensor. This coreless current sensor would utilize Infineon's well-proven Hall technology for accurate and stable measurements. Through its compact design and diagnosis modes, the TLE4972 would be a perfect fit for xEV applications such as traction inverters utilized in hybrid and battery-driven vehicles, along with battery main switches.
Jan-2020: TE Connectivity (TE) introduced a safety torque sensor with integrated and enhanced functional safety, involving better precision and speed. This sensor could be integrated at each cobot joint, which would fulfill the new level of safety needs up to ISO13849 Category 4 PL e due to two electrically-segregated channels with no common cause of failure.
Acquisitions and Mergers:
Mar-2020: TE Connectivity acquired First Sensor, a sensor technology company. This acquisition aimed to offer a market expansion opportunity with optical sensing applications for industrial, heavy truck, and auto applications.
Market Segments covered in the Report:
By Vertical
By Type
By Geography
Companies Profiled
Unique Offerings from KBV Research
List of Figures