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A wireless sensor network is a physical distribution of up to tens of thousands of tiny autonomous sensors (or nodes). Through radio frequency (RF) waves, these sensors are connected and effectively communicate peer-to-peer, monitoring and reporting on local statuses or situations like temperature, vibration, pressure, pollutants, movements, and so forth.
Unless a process failure develops that cannot be resolved by a smart node action or by remote human commands, these smart sensors can automatically monitor processes without manual intervention.
The smart sensors/nodes jointly transmit data to other smart sensors along a variety of network channels that may ultimately lead to the central location where the data may be examined by a person.
The Global industrial Wireless Sensors market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2022 to 2030.
New pressure and temperature sensors for the Sushi Sensor wireless industrial IoT (IIoT) solution are now available in certain Southeast Asian areas, North America, and Europe, according to Yokogawa Electric Corporation.
Other markets will see the availability of these sensors in the future. These new Sushi Sensor models, which are a member of the OpreXTM Asset Management and Integrity family, were initially made available in Japan.
The additional sensors enhance the capabilities of the integrated XS770A wireless vibration sensor’s ability to measure vibration and surface temperature as well as make it easier to gather pressure and temperature data online from equipment like tanks and furnaces.
A greater range of plant data can be used for equipment condition monitoring thanks to the enlarged sensor lineup.
Monnit announced the availability of its intrinsically safe ALTA-ISX Long-Range Wireless Sensors to safeguard personnel and equipment in potentially explosive industrial settings. The ALTA-ISX Temperature and Dry Contact Sensors and the 300 PSIG Pressure Meter are the first three IECEx-certified sensors that Monnit is making available.
Three to six more sensors will soon be included in Monnit’s ALTA-ISX product range. The ALTA-ISX product line, like all ALTA Sensors and Meters, is based on an IoT sensor platform with outdoor line-of-sight, one-mile long-range data transmission, and indoor non-line-of-sight up to 1,200+ feet through 12+ walls.
Sensata Technologies, a top supplier of sensor-rich control systems, announced today that its new Industrial Wireless Systems are now available. Sensata’s extensive offering makes it simpler for plant managers, automation engineers, and leaders of digital transformation to deploy scalable, economical connectivity to their equipment.
Additionally, Sensata’s technology provides a variety of connectivity options for interfacing with other systems and employs a proprietary wireless protocol to reliably transfer sensor data up to 500m in areas with obstructions.
Phase IV Engineering, a WIKA USA partner, introduces Leap Sensors, a newly redesigned industrial Internet of Things sensor system. It combines the benefits of a wireless IIoT system with the durable qualities needed by business and industrial clients.
With a tough polycarbonate casing rated to IP68, UL 94 V-0 (non-Ex rated) flammability rating, and an integrated internal antenna, Phase IV made sure the sensor transceiver nodes’ external design is just as durable.
Leap is not currently selling an enclosure with an intrinsic safety rating. The enclosures can endure washdowns as well as the noise and vibration of an industrial setting.
The UbiBot WS1 by CLOUD FORCE is a wireless multi-sensor smart gadget. The WS1 makes environmental condition monitoring simpler than ever. Fast and accurate measurements are provided by the built-in sensors, and the gadget periodically synchronises all data with the UbiBot IoT Platform through WiFi.
The IoT Platform provides specialised tracking, analysis, reporting, and alerts. The UbiBot mobile APP and the web both provide secure access to all of your data and reports.
Our multi-sensor WS1 has been used in many industries, such as agriculture monitoring, horticulture, pharmaceutical monitoring, pharmacy, industry monitoring, warehouse, wine cellar, server room, etc., thanks to its wireless monitoring capabilities and online access to the data.
With the release of an Industrial 5G fieldrouter that supports the local band and is approved for the Japanese market, Nokia announced that it is expanding its Industrial portfolio of ruggedized devices. Private 5G wireless enables businesses to connect employees and assets like sensors and machinery in the most dependable, secure, and low-latency manner possible.
They will be able to take advantage of compelling Industry 4.0 use cases and gain real-time access to operational technology (OT) to increase productivity, efficiency, and agility. The Nokia Industrial 5G fieldrouter allows connections to local private wireless networks for machines, systems, vehicles, and sensors.
The fieldrouter’s tunnelling capabilities, in addition to its wireless connectivity, enable interoperability between industrial communications protocols like PROFINET and EtherCAT.
Sub-Zero Temperature Sensor Introduced by Swift Sensors to Meet COVID-19 Vaccine Monitoring and Storage Requirements Vaccines are kept in the required sub-zero temperature ranges down to -100°C throughout the cold chain thanks to continuous cloud-based wireless monitoring.
Data is transmitted from the gateway to a Swift Sensors Console account in a secure cloud. On their computer or mobile device, pharmacy and clinic managers can view temperatures in real time. If the temperature in the storage unit rises above predetermined thresholds, they can also get immediate alerts by text, voice, or email.
Each package from Swift Sensors comes with a choice of two temperature sensor models. Temperatures between -100°C and +200°C are measured by the SS3-110 Wireless Sub-Zero Temperature Sensor, while temperatures between -40°C and +125°C are recorded by the SS3-105 Wireless Remote Temperature Sensor.
One such partnership is between Honeywell and STMicroelectronics, two leading global companies in industrial automation. Honeywell is a leading provider of connected solutions for industrial automation and STMicroelectronics is a global semiconductor leader. The partnership focuses on providing customers with advanced solutions for industrial wireless sensing. This includes solutions for industrial automation, such as data collection, monitoring, and control.
The partnership will combine Honeywell’s expertise in connected solutions with STMicroelectronics’ advanced wireless sensors, allowing customers to gain access to a comprehensive portfolio of products. The combined portfolio will include wireless sensors for temperature, humidity, pressure, and vibration. The sensors are designed to be small, low-power, and reliable, allowing businesses to gather data from their operations quickly and efficiently.
The partnership will also allow customers to leverage analytics, machine learning, and artificial intelligence to gain further insights from the data collected by the sensors. This will enable businesses to identify opportunities for improvement and optimize their operations. Additionally, the partnership will provide customers with access to cloud-based platforms to store, manage, and analyze the data collected by the sensors.
The combination of Honeywell and STMicroelectronics’ advanced technologies will allow customers to take advantage of the benefits of industrial wireless sensors. The partnership will provide customers with an extensive portfolio of solutions for wireless sensing, analytics, and cloud-based platforms to help them gain insights from the data collected by the sensors. This will enable businesses to optimize their operations and identify opportunities for improvement.
Recent trends in industrial wireless sensor networks (WSNs) are focusing on improving performance, reliability, scalability and flexibility. The latest trend in industrial WSNs is the development of sensors that are able to sense in multiple dimensions and at greater distances. This enables WSNs to monitor, detect and analyze conditions in more detail and over greater areas.
In addition, new communication protocols and standards are being developed to support the increased data throughput and communication range required for industrial applications. These protocols are designed to reduce latency, improve reliability, and reduce power consumption.
Machine learning and artificial intelligence (AI) have also become key technologies for industrial WSNs, enabling the sensors to better analyze data and improve accuracy. AI algorithms can be used to detect anomalies and provide predictive analysis. This can be used to improve the efficiency and accuracy of the system.
Another important trend is the use of low-power wide-area networks (LPWANs), which enable WSNs to transmit data over long distances without requiring high power consumption. LPWANs also provide better data security, as they can be used to encrypt data before transmission.
Recent advances in wireless sensor technology have also enabled the development of multi-modal sensors. These sensors can measure different types of data simultaneously, such as temperature, humidity, pressure, and light. This enables WSNs to monitor conditions in more detail and can be used for more complex applications.
Finally, edge computing is becoming increasingly important for industrial WSNs. Edge computing enables WSNs to process data on-site, reducing the latency associated with transmitting data over long distances. This improves the accuracy and response time of the
