Sensonic, based in Schärding, Austria, specializes in deep-tech information solutions for the railway industry. Utilizing advanced fiber optic sensing technology combined with Artificial Intelligence (AI), Sensonic enables comprehensive monitoring of track conditions, physical security, and natural hazards such as landslides and rockfalls. Their proprietary SonicTwin® system transforms optical fibers into vibration sensors, providing real-time insights that enhance railway safety and efficiency. Sensonic's innovative approach positions it at the forefront of modernizing railway infrastructure monitoring.
The world of data storage and processing has been undergoing a paradigm shift, with cloud computing emerging as a dominant force in the general market.
This handy guide explains what the colours of hydrogen mean and will help you navigate the rainbow, or perhaps trainbow, of colours used when referring to this power source.
Annually we take a moment to catch our breath and look back to recognise the progress and achievements of our team as we celebrate Sensonics 4th birthday.
Before we dive straight into SonicTwins, let us briefly explore digital twins and BIM (Building Information Modelling). They are subjects often talked about often interchangeably yet are rarely well understood.
Fiber optic vibration sensing is often referred to as Distributed Acoustic Sensing (DAS). It is a technology that uses the properties of light combined with the material properties of fibre optic cables to measure acoustic vibrations along the cable length.