Move S.P.A
Stand D1
Move Solutions provides advanced wireless IoT sensing systems for structural health monitoring.
Our expertise lies in developing high-precision sensors and the MyMove platform, which delivers real-time data visualization, advanced analysis, reporting, and alarms for bridges, railways, tunnels, buildings, heritage sites, and construction projects.
We combine engineering precision with scalable wireless technology to ensure reliable and efficient monitoring worldwide.
Documents
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Bridge monitoringBridge structures exhibit complex static and dynamic behavior influenced by traffic loads, temperature variation, foundation movement, and material fatigue.Effective monitoring requires focusing on critical components where structural performance, stability, or safety can degrade over time.
Products
Tiltmeter
Advanced wireless sensor for static inclination monitoring The Tiltmeter is a wireless, battery-powered sensor designed to measure variations in the static tilt angle relative to the horizontal plane. Multiple devices can be synchronized across large assets to reconstruct deformation profiles and monitor structural movement via the MyMove IoT Platform.
Accelerometer
Wireless triaxial sensor for acceleration monitoring The Accelerometer is a wireless, battery-powered sensor that measures structural vibrations on three axes with high resolution. Designed for dynamic monitoring and modal analysis, it records acceleration events with a programmable sampling rate from 40 to 640 Hz. It can acquire threshold-triggered events automatically when a threshold is exceeded, or can be set in programmed mode when high synchronization accuracy among different sensors is required. Ideal for many applications, it enables synchronized data acquisition with with accurate time alignment for advanced structural diagnostics and long-term monitoring strategies.
Vibrometer
The Vibrometer is a triaxial, battery-powered device engineered to monitor structural vibrations through particle velocity measurements. Based on MEMS technology, it provides information about vibrational amplitude and dominant frequency across three axes. Fully wireless and LoRaWAN-enabled, it operates autonomously and transmits time-synchronized data to the MyMove platform for advanced analysis. Ideal for working with vibration monitoring standards such as DIN 4150 and UNI 9916, the sensor supports long-term deployments in infrastructure and construction environments where vibration must be assessed precisely.
Environmental Sensor
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.
Dynamic Displacement Sensor
The Dynamic Displacement Sensor measures structural movements when a displacement threshold is exceeded. It then captures a time window around the trigger and wirelessly transmits the data via LoRaWAN — ensuring efficient, event-based monitoring of dynamic structural behavior.
Communication Node
The Communication Node is a versatile device that enables third-party analog sensors, like geotechnical probes, to be monitored remotely through wireless monitoring networks. By converting analog signals into LoRaWAN packets, it transforms traditional wired instrumentation (such as strain gauges, crack meters, piezometers, temperature probes, and load cells) into fully wireless, remotely accessible assets.
Gateway
The Gateway is the communication hub of any LoRaWAN-based monitoring network. It connects wireless sensors to the MyMove cloud platform by receiving data from multiple field devices and transmitting it via 4G, Ethernet, or Wi-Fi. With flexible powering and connectivity options, the Gateway ensures autonomous, reliable operation even in remote or hard-to-access infrastructure sites.