Monitor rain, wind, air quality, and noise in real time with the Environmental Sensor Rain & Wind Kit. LoRaWAN-enabled and integrated with MyMove IoT.

Environmental Sensor – Rain & Wind Kit

The Environmental Sensor – Rain & Wind Kit is a wireless monitoring solution designed to track key environmental conditions in real time. Integrated with the MyMove IoT Platform and utilising LoRaWAN connectivity, this sensor provides reliable data on weather and environmental factors to support safer, more informed site operations.

Ideal for construction sites, infrastructure projects, and environmental monitoring applications, the system delivers continuous insight into conditions that can impact safety, compliance, and operational decision-making.

Key Benefits

• Real-time monitoring of rain, wind, and environmental conditions
• Wireless data transmission via LoRaWAN
• Fully integrated with the MyMove IoT Platform
• Supports proactive site safety and environmental awareness
• Suitable for temporary or long-term deployment

Designed for Real-Time Environmental Monitoring
The Environmental Sensor captures a range of environmental parameters, including weather-related data, particulate matter, and environmental noise, providing a comprehensive view of site conditions. Real-time data transmission allows teams to monitor changes as they happen, supporting better planning and faster response to adverse conditions.

With wireless connectivity and remote access through the MyMove IoT Platform, the system reduces the need for manual checks and improves visibility across multiple sites.

Ideal Applications

• Construction and civil worksites
• Infrastructure and utilities projects
• Environmental and compliance monitoring
• Safety and risk management
• Remote or distributed site monitoring

Why Choose the Environmental Sensor – Rain & Wind Kit?
This sensor kit provides a reliable, scalable solution for environmental monitoring, helping organisations understand and respond to changing site conditions. By combining real-time data, wireless connectivity, and platform integration, it supports smarter decisions, improved safety outcomes, and better environmental oversight.

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Wind monitoring

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Wind direction sensor is a sensitive wind direction indicator that gives a visual indication of wind direction. Digital circuits capable of strong RFI & EMI resistance and automatic temperature compensation are build-in. The construction of the sensor reflects the requirements for reliability and durability.

Features:

• Low starting threshold
• Massive all-metal construction
• Strong corrosion resistant ability
• Various output signals optional
• Easy Installation

Applications:

• Weather monitoring stations
• Ports
• Solar and wind power generation
• Mobile weather monitoring vehicles
• Remote airports & helipads.

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The Environmental Sensor monitors key environmental factors — air quality, noise, and wind — with real-time data transmission via LoRaWAN, fully integrated into the MyMove IoT Platform. It combines multiple functions in a single, standalone device, eliminating the need for separate sensors. Ideal for structural monitoring in construction, infrastructure, and environmental applications.

One sensor. Three channels. Total environmental insight.

Captures air quality, weather, and noise conditions in real time—including PM levels, temperature, humidity, pressure, and acoustic pressure. Essential for correlating structural behavior with environmental stressors.

Noise monitoring

Air monitoring

OPTIONAL SENSORS

Wind monitoring

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The triaxial Accelerometer is able to measure the acceleration of the point where it is installed, which is essential for measuring the vibration frequencies and for carrying out a modal study of the structure.
With the use of Accelerometer devices it is possible to highlight any seismic vibrations and monitor its risk. With the interface of the Web Platform, it is possible to synchronize the acquisitions of each sensor, an optimal feature for dynamic load tests. All sensors also record temperature, are battery powered and use the LoRaWAN wireless communication protocol.

ACCELEROMETER OUTPUT
The Accelerometer acquires 10 seconds of data for each stress on the structure whenever the activation threshold
– previously set on the Web Platform – is exceeded. The measured acceleration values are expressed in mg.
The acquisition methods can be set by the user through the Web Platform provided with the Move SolutionsTM
monitoring system. It is possible to take advantage of an operating mode with programmed acquisition, with a fixed frequency set by the user, lasting 180 seconds. The device also acquires temperature data.

QUICK GUIDE TO USE
The triaxial Accelerometer device is “plug and play”; by screwing the special antenna on the cover, the device will immediately start to detect and try to send data to the Gateway device. To ensure correct operation the Accelerometer sensor must be correctly oriented and installed, following these specific steps:
1.
ORIENTATION:
•
The three axes shown on the orientation label, placed on the sensor cover, must be aligned as the axes of interest of the structure.
•
The Accelerometer device can be rotated freely on the structure.
2.
INSTALLATION ON THE STRUCTURE:
•
Agree with the supplier company on the correct place of installation on the structure of the Accelerometer device.
•
Firmly install the Accelerometer on the wall, ceiling or floor using the special plate and screws/wall plugs supplied. It is possible to rotate the plate relative to the device.
•
To install multiple Accelerometers on the same structure, use the same orientation convention, i.e. with the axes shown on the label of each specific device oriented in the same way.
•
Install all sensors on the structure before powering and turning on the Gateway device.
3.
SCREWING THE ANTENNA:
•
Before activating the Gateway, screw the LoRaWAN 868 Mhz antenna onto the device cover.
After meeting these orientation and installation requirements, the Accelerometer device will be able to detect and send data to the Gateway without interference or data alteration.
Verify, via the Web Platform, the correct functioning of the sensor just installed. From the moment the Gateway is powered up, and therefore from the actual start-up and activation moment, a maximum waiting of about an hour is required before it is possible to correctly view all the sensors online.

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Deck Sensor Vertical Displacement

The Dynamic Displacement Sensor (DDS) is a wireless device that remotely monitors the dynamic displacement and the frequencies of infrastructures. Dynamic displacement measures the displacement of a structure from its initial position due to dynamic forces, and it is typically represented as a distance in millimetres (mm).

Frequencies measure the rate or speed at which a structure vibrates or oscillates when subjected to dynamic forces, and they are expressed in Hertz (Hz).

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Deck Sensor Horizontal Displacement

The Dynamic Displacement Sensor (DDS) is a wireless device that remotely monitors the dynamic displacement and the frequencies of infrastructures. Dynamic displacement measures the displacement of a structure from its initial position due to dynamic forces, and it is typically represented as a distance in millimetres (mm).

Frequencies measure the rate or speed at which a structure vibrates or oscillates when subjected to dynamic forces, and they are expressed in Hertz (Hz).

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Deck Sensor Vertical Displacement (CEIL)

The DECK device is the only patented wireless sensor
on the market capable of measuring the uniaxial oscillations
of the structure providing displacement values
with an accuracy equal to that of the interferometric
radar (0.01 mm). The DECK device samples at 100 Hz,
constantly and remotely. It is also capable of detecting
temperature and vibration frequency. DECK is battery
powered and uses the LoRaWAN wireless communication
protocol.

OUTPUT DECK
DECK acquires data from 10 seconds before to 20 seconds
after (tot. 30 seconds) each stress of the structure
when the activation threshold – previously set on the
Web Platform – is exceeded.
The displacement values measured are expressed in
mm. It also acquires temperature data.

QUICK GUIDE TO USE
The DECK sensor is “plug and play”; by screwing the special antenna on its cover, the device will immediately start
trying to communicate with the Gateway. To ensure that the device is working properly the DECK device must be
oriented and installed correctly, following these specific steps:
1. ORIENTATION:
• The symbol shown in the center of the label indicates which is the axis of the structure (X; Y; Z) with
respect to which the DECK device collects measurements. This symbol also shows the orientation and
direction of that axis. Therefore:
• The axis of the structure of interest to the measurement must be aligned and oriented according to
the representation of the symbol.
• The letter identifies DECK’s specific measurement axis.
Z axis = Gravitational axis.
X – Y axes = Longitudinal or transverse axis of the structure.
2. INSTALLATION ON THE STRUCTURE:
• The installation location may vary depending on the orientation label on the device. Agree with the supplier
company on the correct place of installation of the DECK device on the structure.
• Securely install the DECK device on the wall, ceiling or floor using the special plate and screws/wall plugs
supplied.
• Install all sensors on the structure before powering and turning on the Gateway device.
3. SCREWING THE ANTENNA:
• Before activating the Gateway, screw the LoRaWAN 868 Mhz antenna onto the DECK device cover.
After meeting these orientation and installation requirements, the DECK device will be able to detect and forward
data to the Gateway without interference or data alteration. Verify, via the Web Platform, if the sensor just installed
is working properly. From the moment the Gateway is powered up, and therefore from the actual start-up
and activation moment, a maximum waiting of about an hour is required before it is possible to correctly view all
the sensors online.

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