Exhibition
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The registration for IWSHM 2025 workshop is now open. To reserve your space, please register your organization by filling out the Registration Form. Please follow the below link to register for the exhibition:
Register Here
IWSHM 2025 EXHIBITOR
| Company Name | Description | Logo |
|---|---|---|
| Nplus s.r.l | Nplus is a technology company specializing in the design, manufacturing, and integration of advanced structural monitoring systems. Leveraging proprietary sensor technology and integrated data platforms, Nplus delivers high-performance solutions for infrastructure diagnostics, ensuring safety, durability, and intelligent maintenance. With a track record of over 850 monitored structures in both national and international projects, Nplus combines deep engineering expertise with continuous innovation to support smart, resilient infrastructure around the world. | 
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| MDPI | A pioneer in scholarly, open access publishing, MDPI has supported academic communities since 1996. Based in Basel, Switzerland, MDPI has the mission to foster open scientific exchange in all forms, across all disciplines. | 
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| Kistler Instrument Corporation | Kistler is the market leader for test and measurement systems. | 
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| Testia, an Airbus Company | Testia is an Airbus company with over 30 years of experience, and specialized in structural integrity and non-destructive testing (NDT). Thanks to its global presence with facilities in Europe, America and Asia, Testia provides worldwide services and global solutions to the industry needs, either during manufacturing processes or maintenance operations. Testia is a reliable technology partner and a trusted end-to-end provider. This includes training and certification of NDT inspectors, inspection services, engineering support and inspection tools and systems. | 
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| Structures and Composites Laboratory, Stanford University | Integrating sensing, computing, and energy storage, the Stuctures and Composites Lab (SACL) is developing multi-functional energy storage composite materials (MESC) for future electric vehicles. SACL is part of the Aeronautics & Astronautics Department at Stanford University. SACL group specializes in the areas of multi-functional materials and intelligent structures with particular emphases on structural health monitoring, intelligent self-sensing diagnostics, and multifunctional energy storage composites for transportation vehicles as well as safety-critical assets and medical devices. | |
| Accelent Technologies | Acellent Technologies is the global leader in Structural Health Monitoring (SHM), connecting physical assets to the Industrial Internet of Things (IIoT) in order to provide automated inspection and continuous real-time monitoring of their condition. | 
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| Opterro Inc. / Redondo Optics, Inc. | Opterro Inc. is offering a comprehensive portfolio of unmatched end-to-end distributed fiber-optic sensing solutions that address the market for Industrial Sensing and Instrumentation. Opterro currently offers its advanced i*Sense® fiber Bragg grating (FBG) interrogator product portfolio comprising the UtraSense™ (1.3MHz to 80MHz), FiberSense™ (6KHz to 250KHz), FiberBlade™ (6KHz to 250KHz capable of supporting from 64 to up to over 5,000 FBG sensors per interrogator system), and LiteSense™ (6KHz to 100KHz) product families for distributed fiber-optic sensing applications. | 
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| i-MAPS, University of South Carolina | The Integrated Material Assessment and Predictive Simulation Laboratory (i MAPS) at the University of South Carolina—under the direction of Professor Sourav Banerjee—specializes in the predictive ultrasonics and acoustics for NDE, SHM, material characterization, and smart device innovation. With current thrust on automation and robotics, i-MAPS has made significant contribution to the field of robotic-NDE and AI driven automation, data analytics. i-MAPS Interdisciplinary research leverages computational modeling, data analytics, and biomimetic principles to drive forward applications in energy harvesting, metamaterials, and topological concepts of waves. | |
| Structures as Sensors Lab, Stanford University | Structures as Sensors Lab works on indirect sensing, statistical inference, and probabilistic modeling of dynamic structural systems to better understand their behavior and then improve their performance. Realizing that environment around and the users within all have direct physical interaction with the structure, our research utilizes the structure itself as a sensing medium to indirectly sense and infer these information (itself, within, and around). Specifically, our research focuses on 1) itself (structural health monitoring, HVAC operation analysis, etc.), 2) within (tracking and characterization of occupants’ activity, health status, etc.), and 3) around (indirect monitoring of traffic, surrounding infrastructures etc.). | 
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| Intelligent Structural Systems Lab (ISSL), Rensselaer Polytechnic Institute | ||
| FatigPro Sensor | FatigPRO Sensor is a deep-tech startup pioneering ultra-low-power, IoT-enabled sensors for progressive structural health monitoring (SHM). Our next-generation devices are engineered for multi-decade operation with minimal energy consumption while maintaining seamless global connectivity—including via satellite-based IoT networks. FatigPRO sensors are ideally suited for digital twin integration, explainable AI frameworks, long-term SHM, and remaining useful life (RUL) prediction—unlocking new frontiers in predictive maintenance and resilient infrastructure. | |
| Smart Management of Infrastructure Laboratory, UNM | The Smart Management of Infrastructure Laboratory (SMILab) at the University of New Mexico (UNM) aims to develop the use of next-generation smart sensing technologies and strategies towards safer, cost-effective, resilient and sustainable structures. We are interested in monitoring and assessing structures subjected to dynamic loading and hazards, unusual stress levels, and extreme loading events. Our research topics involve wireless smart sensing, structural health monitoring, cost-effective prioritization of assets, augmented reality, structural modeling and validation, existing structure field monitoring and assessment, and laboratory testing and validation of structural systems under dynamic loading. | 
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The focus of the workshop is to promote applications of SHM technologies and to encourage interaction between industry and academia. We place significant emphasis on industrial applications including aerospace, ground transportation systems, and civil infrastructures.
The package includes:
• Lunches• Networking BBQ
• Exhibitor listed on final program and website.
• Booth size: TBD, around 10’x10’
• Table size: 3’x8’
• Chairs: 2
• Internet availability
• Note: Exhibition is outdoors in shaded area.
However, please expect and prepare for slightly windy conditions.120V/5A power will be provided. If you are bringing large equipment, please contact us first.
Exhibition Map
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