Definition
A structural health monitoring system links structural questions to sensors, DAQ, communications, software, thresholds, and engineering review.
Engineering Problem Statement
Owners need evidence for movement, vibration, strain, or event response, but raw measurements must be tied to engineering interpretation.
System Architecture
- Sensor plan by measurement type
- Data acquisition and timing
- Power and telemetry
- Analytics, dashboard, and reporting
- Maintenance and calibration plan
How Products Work Together
QuakeLogic solution architectures should be specified as complete systems: sensors generate measurements, acquisition hardware synchronizes and stores data, communications move data to reviewers, software supports dashboards and reports, and documentation supports procurement, commissioning, and maintenance.
Selection Guidance
- Define the structural behavior first
- Use multi-sensor architectures for complex assets
- Require baseline data and reporting responsibilities
Recommended Product Families
- TESTBOX 2010-RACK-DC MULTICHANNEL DATALOGGER
- TESTBOX 2010-FIELD MULTICHANNEL DATALOGGER, DIGITIZER
- IPR 110/111
- ATLAS-F-Plus Advanced Seismic Data Logger and Digitizer
- SARA SA12 TRIAXIAL MEMS ACCELEROMETER
- Triton Accelerograph – High-Performance Compact Seismic Data Acquisition System
Industries Served
- Structural Engineering
- Civil Infrastructure
- Bridges
- Buildings and High-Rise Structures
- Hydroelectric Dams
Related Knowledge Articles
Standards and Documentation
Use project specifications, source datasheets, calibration records, drawings, manuals, and the standards library to confirm final requirements. This architecture page provides engineering guidance, not a compliance certificate.
Frequently Asked Questions
Which sensor should I choose?
Choose by measured quantity, range, frequency, accuracy, installation environment, calibration needs, and data use case.
What data acquisition hardware is required?
Confirm sensor signal type, channel count, sampling rate, timing, local storage, telemetry, power, and software compatibility.
Which communication method is appropriate?
Use wired links for controlled short runs, wireless or cellular for remote sites, and local storage where communications are unavailable or not required in real time.