DRAGONFLY®

DRAGONFLY®

Innovations

Information

Dragonfly® is more than just a vibration sensor—it is a major technological breakthrough serving Industry 4.0. The result of over 30 years of materials science research and protected by 40 patents, this ultrathin (10 µm) piezoceramic sensor redefines vibration monitoring standards. With sensitivity 1000 times greater than traditional strain gauges, Dragonfly® reveals the invisible, transforming inaccessible data into actionable insights for manufacturers, operators, and integrators. With 70% of machine failures linked to vibrations, Dragonfly® provides real-time critical intelligence to anticipate and prevent issues. Its globally unique technology enables seamless and rapid integration in varied and complex environments. Already adopted in strategic sectors, Dragonfly® has become a reference for Airbus D&S in satellite vibration testing. In collaboration with the École de l'Air et de l'Espace, it pushes the boundaries of flight testing and structural monitoring. Its deployment with EDF optimizes maintenance and ensures the safety of critical infrastructures. Certified ISO 9001 and 14001, Dragonfly® embodies excellence and sustainability. Lead-free, with no power consumption during use, and manufactured through eco-friendly processes, it redefines how industries listen, analyze, and act to face the challenges of tomorrow.
WORMSENSING2M98At Wormsensing, we transform vibrations into critical information, enabling industries to listen, act, and thrive. Our revolutionary Dragonfly® technology redefines vibration monitoring standards, providing unparalleled control and anticipation solutions. Combining Grenoble’s ecosystem expertise, our sensors integrate across asset lifecycles: innovation, design, testing, operation, and life extension. At Wormsensing, we transform vibrations into critical insights, empowering industries to listen, act, and excel. Our groundbreaking Dragonfly® technology sets new standards in vibration monitoring, offering unmatched solutions for control and anticipation. Drawing from Grenoble's expertise, our sensors integrate seamlessly across asset lifecycles—innovation, design, testing, operation, and life extension. We uncover the invisible by delivering reliable data on structural integrity and machine performance, supporting manufacturers, integrators, operators, and insurers in optimizing operations. With unique mastery of flexible electronics and high-quality crystals, Wormsensing is pioneering a new class of smart materials, shaping the future of exceptional devices. Our mission is to democratize access to critical intelligence for Industry 4.0 and beyond. This vision is powered by 38 patents protecting our disruptive technology and an industrial production capacity of up to 2 million sensors per year. Dragonfly® embodies the synergy of performance and environmental responsibility. Designed to tackle challenges of a transforming industry, it accelerates design cycles, minimizes unexpected downtime, and extends the life of critical infrastructure. Offering sensitivity 1,000 times greater than traditional strain gauges and unmatched integration simplicity, Dragonfly® serves as a competitiveness catalyst for industrial partners. Its versatility unlocks limitless applications, from advanced instrumentation to predictive maintenance and human-machine interfaces. Adaptable to diverse environments and materials, Dragonfly® is a universal, essential solution for companies striving to enhance resilience and efficiency amid global industrial transformation. Beyond technological innovation, Wormsensing is distinguished by a collaborative and human-centered approach. Our international team, representing eight nationalities, shares a passion for science and innovation. Together, we pursue an ambitious vision: leveraging science as a transformative force to address 21st-century environmental and industrial challenges. We firmly believe these advancements should not only solve complex problems but also contribute to a more sustainable and responsible future.

Log in