Definition

An infrasound monitoring system records low-frequency acoustic pressure waves using sensors, wind-noise reduction, timing, telemetry, and analysis tools.

Engineering Problem Statement

Infrasound applications require low-noise installation and careful interpretation because environmental noise can dominate useful signals.

System Architecture

  1. Microbarometers or infrasound sensors
  2. Wind-noise reduction
  3. Digitizer and timing
  4. Telemetry
  5. Analysis workflow

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

  • Assess site noise and wind exposure
  • Plan array geometry where direction finding is required
  • Separate detection from attribution unless supported by analysis

Recommended Product Families

Industries Served

  • Emergency Management and Public Safety
  • Defense and Aerospace
  • Research Facilities

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.

Internal Relationships