市场调查报告书
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1284086
到 2028 年的无线占用传感器市场预测——按建筑类型、类型(双技术、被动红外、超声波、其他类型)、应用、最终用户和地区进行的全球分析Wireless Occupancy Sensors Market Forecasts to 2028 - Global Analysis By Building Type, Type (Dual Technology, Passive Infrared, Ultrasonic and Other Types), Application, End User and By Geography |
根据 Stratistics MRC 的数据,2022 年全球无线占用传感器市场规模将达到 25 亿美元,预计到 2028 年将达到 58 亿美元,预测期内增长 15.3%。预计将以復合年增长率增长。
无线占用传感器是一种了解您周围是否有人的工具。 这些类型的传感器有时用于根据房间内的人数调整照明、空调系统和其他设备。 无线占用传感器经常用于办公楼和教育机构等大型建筑物,因为在不使用时通过关灯和供暖和製冷来节约能源非常重要。 无线占用传感器对于节能至关重要。 节能通常是通过传感器检测来关闭电灯、家用电器等来实现的。
根据联合国经济和社会事务部的数据,到 2050 年,60% 的人口将居住在城市。
占用传感器之所以如此受欢迎,是因为各个行业对节能设备的需求不断增加。 此外,节能被认为是占用传感器市场发展的关键因素之一。 占用传感器主要用于照明控制、HVAC 系统和安全监控等应用,以降低能耗水平。 使用占用传感器已被引用为减少能源使用的策略。 在这方面,公共和私营公司以及政府机构已采取有效措施,将占用传感器纳入大多数建筑类型。
将乘员传感器与其他控制系统(例如照明控制系统和气候控制系统)连接起来有时会出现复杂情况。 主要原因是通过一种无线协议连接到照明和气候控制系统的乘员传感器与通过另一种无线协议连接的乘员传感器之间存在兼容性问题。 例如,如果所有照明设备都连接到一个网络,并且支持互联网的系统使用 ZigBee 技术与智能控制系统通信,则整个网络必须与类似的兼容无线技术集成。 在照明领域,有人指出目前还没有明确的无线连接策略。
目前,许多国家的首要目标之一是提高能源效率,以减少碳排放和能源消耗。 近年来,欧洲各国政府一直在推动在整个地区引入节能政策。 政府法规支持使用家庭自动化系统。 对全球变暖负面影响的了解进一步推动了自动化家庭能源管理系统的使用。 此类政府举措将支持智能家居趋势和带有占用传感器的照明控制系统的开发。
占用传感器的使用频率低于其他照明技术,例如占用传感器和空置传感器。 因为它难以应对正确预测居民入住率的挑战。 用户习惯、照明控制模式和传感器选择都会影响占用传感器的性能。 此外,有一种形象认为占用传感器价格昂贵,很少有人意识到占用传感器在成本方面的优势。 然而,随着政府对节能的重视和公众意识的提高,预计客户将接受和使用占用传感器。
COVID-19 和在家工作事件席捲了该地区的许多专业协会。 COVID-19 事件给该地区的各种企业造成了困难。 例如需要製定灵活的商业惯例,以保持当地经济的运转,并使个人及其家庭能够维持现在和未来的生计。
据估计,超声领域的增长利润丰厚。 超声波传感器是一种超声波型无线占用传感器,可以使用声波来寻找房间中的人。 使用麦克风查找附近人反射的声波。 根据传感器发送的信号,控制板可以改变房间的照明和温度。 超声波占用传感器经常用于商业和工业设施。
由于对自动化和效率的需求不断增加,预计工业部门在预测期内将以最快的复合年增长率增长。 无线占用传感器用于能源管理、照明控制、安全和 HVAC 监控等工业应用。 这些传感器有时用于跟踪建筑物内的运动,从而实现工业操作的自动化。
由于工业化和城市化进程加快,预计亚太地区在预测期内将占据最大的市场份额。 由于人口增长以及对消费品和服务的需求增加,包括印度、中国和印度尼西亚在内的亚太经济体的住宅建筑活动正在激增。
由于其在许多不同的行业和应用中的使用,预计在预测期内北美的复合年增长率最高。 在北美,商业、工业和住宅市场是最受欢迎的。 这些市场正在采用无线占用传感器来自动和远程控制照明和温度,从而节省能源和成本。
2019 年 1 月,在拉斯维加斯举行的 CES 上,能量收集无线技术的全球领导者 EnOcean 推出了一种用于蓝牙照明控制系统的新型吸顶式太阳能占用装置,该系统通过蓝牙低功耗 (BLE) 进行通信。传感器 (PIR) )宣布。 该产品是市场上第一款集成了EnOcean经过现场验证的能量收集技术的自供电蓝牙占用传感器,在免维护、可自由部署、易于安装和高度灵活方面提供最佳客户体验。
According to Stratistics MRC, the Global Wireless Occupancy Sensors Market is accounted for $2.5 billion in 2022 and is expected to reach $5.8 billion by 2028 growing at a CAGR of 15.3% during the forecast period. A wireless occupancy sensor is a tool for figuring out whether there are people around. Based on the number of people in a room, this kind of sensor can be used to regulate lighting, HVAC systems, or other devices. In office buildings, educational institutions, and other large buildings where it is crucial to save energy by turning off lights or heating/cooling systems when not in use, wireless occupancy sensors are frequently employed. Wireless occupancy sensors are crucial for cutting down on energy use. This is frequently accomplished with sensors, which turn off lights, appliances, and other equipment when they sense occupancy.
According to the United Nations, Department of Economic and Social Affairs, 60% of the population will be living in cities by 2050.
Occupancy sensors have become widely used for a number of reasons, including the rising demand for energy-efficient equipment across a variety of industries. Additionally, energy conservation is regarded as one of the key elements in the market's development of occupancy sensors. Occupancy sensors are mostly used in applications like lighting control, HVAC systems, and security surveillance to lower the level of energy consumption. The use of occupancy sensors has been cited as a strategy to cut back on energy usage. In this regard, effective steps are being taken by both public and private businesses as well as government organisations to integrate occupancy sensors in the majority of building types.
Connecting an occupancy sensor with other control systems such as lighting control systems and HVAC control systems occasionally poses complications. The main cause of this is incompatibility problems when an occupancy sensor connected to a lighting and HVAC control system using one wireless protocol and another. For instance, if all the lighting devices are linked to a single network and an internet-enabled system uses ZigBee technology to communicate with smart control systems, the entire network must be integrated with a similar wireless technology that is compatible. The lighting sector has been noted to lack a clear strategy for wireless connectivity at the moment.
One of many nations' top goals nowadays is energy efficiency in order to reduce carbon emissions and energy consumption. The governments of European nations have been pushing for the adoption of energy-efficient policies across the region during the last few years. Government regulations support the use of home automation systems. The knowledge regarding the unfavourable impacts of global warming further encourages the usage of automated home energy management systems. Such government actions will support the development of the smart home trend and its occupancy sensor-equipped lighting control system.
Compared to other lighting technologies like motion sensors and vacancy sensors, occupancy sensors are less often used. It struggles with the challenge of correctly anticipating occupant occupancy. User occupancy, lighting control patterns, and sensor choice all affect how well an occupancy sensor performs. Additionally, it is thought to be expensive, and few people are aware of the advantages of occupancy sensors in terms of cost. However, it is anticipated that customers would accept and use occupancy sensors as a result of the government's emphasis on energy conservation and the growing public awareness of this issue.
The COVID-19 and Working from home episode have dominated many professional associations in the area. The COVID-19 incident has created difficulties for various businesses in the area, including the need to develop flexible business practises to keep the local economy afloat and assist individuals and their families in making ends meet both now and in the future.
The ultrasonic segment is estimated to have a lucrative growth. The ultrasonic variety of wireless occupancy sensor makes use of sound waves to find people in a room. It uses a microphone to find sound waves reflected off of nearby persons. The control panel can then use the signal the sensor sends to change the room's lighting or temperature. In commercial and industrial settings, occupancy sensors of the ultrasonic variety are frequently utilised.
The Industrial segment is anticipated to witness the fastest CAGR growth during the forecast period, due to the increasing demand for automation and efficiency in industry. Industrial uses for wireless occupancy sensors include energy management, lighting control, security, and HVAC monitoring. These sensors may be used to track movement inside buildings, which enables the industrial operations to be automated.
Asia Pacific is projected to hold the largest market share during the forecast period owing to the area's escalating industrialisation and quick urbanisation. The Asia Pacific region's economies, including India, China, and Indonesia among others, have seen a surge in residential construction activity as a result of the region's expanding population and increased demand for consumer goods and services.
North America is projected to have the highest CAGR over the forecast period, owing to it is used in so many different sectors and applications. In North America, the commercial, industrial, and residential markets are the most well-liked. In order to give automated and remote control of lighting and temperature in order to save energy and money, Wireless Occupancy Sensors are employed in all of these markets.
Some of the key players profiled in the Wireless Occupancy Sensors Market include Cooper Industries, Acuity Brands, Honeywell, Lutron Electronics, Schneider electric, Johnson Controls, Hubbell Automation, Eaton, Pammvi Group, Texas Instruments, Leviton, Philips, GE and CES.
In January 2019, CES in Las Vegas, EnOcean, the world leader in energy harvesting wireless technology launched a new ceiling-mounted solar-powered occupancy sensor (PIR) for Bluetooth lighting control systems communicating via Bluetooth Low Energy (BLE). It will be the first self-powered Bluetooth occupancy sensor on the market integrating EnOcean's field-proven energy harvesting technology and offering the best customer experience by being maintenance-free, freely positionable, and highly flexible with easy installation.