Infraestrutura / Structural Health Monitoring

O que nós fazemos

Campbell Scientific data acquisition (DAQ) systems’ versatile capabilities make them ideal for structural health monitoring in a wide range of applications, including simple beam-fatigue, structural mechanics research, and continuous monitoring of large, complex structures. Campbell Scientific’s family of data loggers and DAQ systems are currently being used for remote, unattended, portable monitoring for highway overpasses, roads, buildings, retaining walls, bridges, and amusement park rides. Since 1974, Campbell Scientific has been known worldwide for rugged, accurate, and reliable measurement systems.

Watch the GRANITE™ Extreme Sensitivity video, the GRANITE™ Dynamic Range video, and the GRANITE™ Series Data Acquisition video.

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Veja alguns exemplos impressionantes que nosso equipamento pode fazer nesta área

Sistemas


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A maioria dos sistemas que nós vendemos são personalizados. Nos diga o que você precisa e nós o ajudaremos a configurar um sistema que atenda suas necessidades.

Componentes do Sistema

We offer a variety of products that can be used to create systems for Structural Health Monitoring. Many of the major components used to create these systems are listed below. Please let us know if we can help you configure a system.

Mais Detalhes sobre os Nossos Structural Health Monitoring Sistemas

Data Acquisition (DAQ) Systems for Structural Monitoring and Control

The versatility of our modular DAQ systems allows them to be customized for each application.

Modular Design

The modular architecture of our GRANITE™ system allows each measurement module to independently connect to a PC or DAQ. As an independent module, the real-time measurements can be displayed directly on the PC. One or more measurement modules can be connected to the GRANITE™ DAQ to create the perfect networked configuration for each application. When connected, they form a time-synchronized, distributed DAQ system.

Distributed Networks and Synchronization

Multiple GRANITE™ measurement modules can be distributed throughout the structure. Each module is connected to a central GRANITE™ DAQ. This networking capability decreases the quantity and lengths of the sensor cables between the sensors and the GRANITE™ DAQ. Fewer sensor cables reduces cost, improves system simplification, and lessens the risk of signal corruption from noise.

Synchronization is key to the success of a distributed network. There are three significant levels to the GRANITE™ DAQ synchronization:

    1. The GRANITE™ DAQ has a built-in GPS and precision master clock.
      1. The pulse-per-second signal from the GPS is accurate to 1 µs. If enabled, the GRANITE™ DAQ will phase lock its operating clock to within 200 ns of the GPS clock. So, multiple independent DAQ systems spread over potentially vast geo-spatial regions can be synchronized with a maximum timing error between DAQ systems of 1.2 µs.
      2. Independent of the GPS, a temperature-compensated, high-precision, on-board, real-time clock will keep its own time with an accuracy of ±3 min/year.
    2. Within a single DAQ system, comprised of a GRANITE™ DAQ and GRANITE™ measurement modules, the measurements are all synchronized to the master clock of the GRANITE™ DAQ (sourced by either the GPS or precision on-board clock) via the CAN Peripheral Interface (CPI) or Ethernet Peripheral Interface (EPI) measurement buses.
      1. CPI synchronization between measurement modules in the same DAQ is ±5 µs. The overall physical range of the bus varies up to 2,000 ft depending on the data rate.
      2. EPI synchronization between measurement modules in the same DAQ is ±50 ns. The physical range of the bus is 300 ft per network connection. Daisy-chained connections can span thousands of feet.
    3. For extremely time-based-sensitive applications, the GRANITE™ SPECTRUM measurement modules are used with EPI synchronization. Within each module, the analog electrical signal delay is calibrated and compensated to reduce the timing delay mismatch to ±10 ns channel-to-channel.

Sensors Used in Structural Monitoring

Because Campbell Scientific data loggers and GRANITE™ DAQs are compatible with nearly every commercially available sensor, you can use the sensor that best meets your application. Typical sensors used for structural and seismic monitoring by our systems include:

  1. Carlson strain meters
  2. Vibrating-wire strain gages
  3. Foil strain gages (set up in quarter-, half-, or full-bridge strain configurations)
  4. Inclinometers
  5. Crack and joint sensors
  6. Tilt sensors
  7. Piezoresistive accelerometers
  8. Piezoelectric accelerometers
  9. Capacitive accelerometers
  10. Borehole accelerometers
  11. Servo force balance accelerometers

Data Retrieval

Communication interfaces for retrieving, storing, and displaying data include direct connection to a PC or laptop, microSD cards, Ethernet, and several options for wireless communication (including built-in Wi-Fi).

Software

Our PC-based software options support connecting the GRANITE™ measurement modules directly to a PC or scheduling remote, automated data collection from the GRANITE™ DAQ. Real-time monitoring and control simplify the entire data-acquisition process, while robust error-checking ensures data integrity. We can even help you post your data to the Internet.

Example Application: Monitoring an Overpass

Campbell Scientific’s GRANITE™ monitoring systems are used for a variety of structural and seismic applications. Monitoring possibilities on an overpass could include:

monitoring possibilities for an overpass

Estudos de Caso

Hong Kong: Long-Term Monitoring for the World’s Longest Sea Crossing
The Hong Kong-Zhuhai-Macao Bridge (HZMB)—comprising viaduct bridges, cable-stayed bridges, a submerged tunnel, and artificial islands—is......Leia mais
Canada: Structural Health Monitoring of an Overpass
GKM Consultants was contracted by a nationally leading engineering firm to develop, commission, and install......Leia mais
Delaware River: Bridge Health
Intelligent Infrastructure Systems, a Pennoni company, was contracted to design and install an efficient structural-health......Leia mais
Utah: Monitoring Strain on Precast Bridge Deck
The Utah Department of Transportation is investigating the effect on the life span of bridges......Leia mais
Kentucky: Dam Repair
The Wolf Creek Dam near Jamestown, Kentucky, was constructed partially as a regular concrete hydroelectric......Leia mais
Nova Scotia: Monitoring Bridge Performance for Future Projects
The Confederation Bridge is one of the world's longest continuous pre-stressed-concrete, box-girder, bridges built over......Leia mais
England: Monitoring Bridge Deck Movement
Ten Campbell Scientific CR10X dataloggers were used to monitor movement during the repair of the......Leia mais
Florida: Crack Monitoring at a Historic Site
The Castillo de San Marcos National Monument, St. Augustine, Florida, is a 17th Century historic,......Leia mais

Documentos Relacionados

Perguntas Frequentes Relacionadas

Number of FAQs related to Structural Health Monitoring: 1

  1. Most Campbell Scientific systems are built from individual components. This provides maximum flexibility for our customers, but it does not lend itself to pricing a "typical" system. Contact Campbell Scientific for assistance in pricing a system to meet the unique needs of the application.

Integradores Relacionados

The following is a list of companies that have developed expertise in our products and provide consulting, installation, and other services for structural health monitoring applications.