Compelling, Proven Solutions Across Multiple Industries

Opterro’s distributed optical sensing systems and solutions can be used for electricity generators and electricity distribution from mainstream natural gas-fired, combined-cycle, combustion turbine, and steam turbine AC generators.

Fiber-optic sensing provides real-time monitoring and data analysis that can improve the overall efficiency, safety, and longevity of renewable energy systems. It can be used to detect any vibrations or strains in the generator which can indicate potential issues such as cracking or damage. It is ideal for solar thermal operation and maintenance, solar photovoltaic operation and maintenance, wind turbine operation and maintenance, and geothermal operation and maintenance.

Opterro’s distributed fiber-optic and optoelectronic multifunctional sensing systems and solutions can be used for precision distributed measurements of various physical parameters and in-core instrumentation in nuclear fission and fusion energy generators. Opterro’s sensing products operate reliably in radiation-intensive environments of such reactors.

Ideal for extreme environments of semiconductor and solar manufacturing process equipment, various industrial furnaces, as well as environmental monitoring and control of semiconductor microelectronics and solar photovoltaics factories. With the use of our sensors, manufacturing can do prognostic health management (PHM), and conditional-based maintenance (CBM) to predict the future health and performance of equipment and systems.

Ideal for Industrial Internet of Things sensors that are distributed over distances across buildings, cities, and transport networks for the collection and analysis of data pertinent to reliable and efficient operations. Our sensing systems are also ideal for supporting the development of “Smart Cities.”

Opterro’s fiber-optic sensing solutions provide cost-effective, real-time monitoring for transportation systems, including trains, rail infrastructure, and commercial and passenger vehicles. Our technology enhances safety with continuous monitoring of critical systems and supports EV battery condition monitoring to improve performance, safety, and lifespan. Additionally, Opterro’s onboard sensors enable condition monitoring for both vehicles and roadways/railways, boosting overall transportation safety and efficiency.

Data acquisition using distributed sensing of temperature, vibration, and acoustic emission for real-time condition monitoring, diagnostics, and intelligent preventive maintenance.

Opterro has a track record of monitoring high-value assets in space, flight, and maritime environments, ranging from structural health monitoring (SHM) to attitude control. Our systems can be used to improve the magnetic field sensor and electric field sensor to provide accurate information in defense and aerospace applications, such as threat detection, navigation and guidance, and explosive detection.

Opterro’s fiber-optic sensing solutions provide high-precision, real-time data for medical and sports wearables, enhancing the accuracy and effectiveness of health monitoring. Integrated into wearable devices, these sensors support advanced diagnostics and continuous monitoring of key health metrics like heart rate, respiratory function, and blood pressure. With a compact, non-invasive design, Opterro’s technology enables next-generation wearables that deliver personalized, real-time health insights—improving patient outcomes, extending device longevity, and driving innovation in the healthcare and wellness markets.

Opterro systems are recognized globally in leading R&D centers, including national labs and premier research institutes, as essential tools for pioneering research. Their applications span a range of fields, from medical devices and wearables to defense and other industries with far-reaching impacts.

Our distributed sensing solutions support precision agriculture, optimizing yield, efficiency, and resource use. By monitoring subsurface phenomena, we ensure reliable, long-term carbon sequestration, enhance seismic measurements, and monitor pipelines. These technologies help improve crop yields, reduce water usage, lower costs, and protect natural resources and the environment.