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Vibration Monitoring

Vibration monitoring uses a sensor system to measure vibration levels generated by construction, blasting, and heavy equipment operations, so project teams detect exceedances early and protect adjacent assets. A monitoring program tracks peak particle velocity (PPV) and frequency over time, because both factors influence damage risk and performance outcomes.

Sixense delivers vibration monitoring on industrial and infrastructure sites across the US and Canada as part of monitoring and testing services, with calibrated equipment, proven reliability, and clear reporting.

Why Choose Sixense for Vibration Monitoring?

Nearly Three Decades of Monitoring Expertise

Sixense brings nearly 30 years of experience in acoustics and vibration work, applied to monitoring programs that need dependable instrumentation, clear analysis, and consistent performance. This depth supports earlier detection of issues and more reliable decisions, because our team matches the monitoring approach to the equipment, site conditions, and risk profile.

Extensive Instrumentation Fleet and Proven Equipment

Our fleet of 400+ monitoring systems helps us deploy the right equipment at the right time and scale to fit project conditions. Proven equipment improves reliability of the monitoring system, reduces downtime tied to sensor availability, and supports consistency across sites where multiple machines are used.

Dedicated Local Teams Across North America

Our distributed team structure supports faster response time and smoother field execution when vibration monitoring needs to be installed, adjusted, or maintained. Local support keeps the monitoring system running without disrupting critical construction activities and helps maintain performance when conditions shift.

What Does a Turnkey Monitoring Program Include?

A turnkey program covers the full monitoring process, from planning through installation and long-term analysis. We handle sensor selection, system deployment, ongoing maintenance, real-time monitoring, and reporting that helps identify issues before they become failures, protecting critical assets under one team that owns measurement quality end to end.

Continuous Data Quality Control

Reliable results depend on consistent data quality control, especially where equipment, weather, and access constraints affect sensors. Continuous checks help detect signal anomalies, identify drift, and confirm vibration levels reflect field conditions, improving reliability and supporting equipment health decisions. For vibration issues that need deeper diagnostics, we also offer acoustics and vibration engineering support for analysis and mitigation planning.

Our Approach to Vibration Monitoring

1

How Are Vibration Sensors Selected and Installed?

Our engineers select the sensor types and installation method based on project requirements, because monitoring performance depends on matching the system to site conditions and the expected frequency range. Typical sensors (tri-axial geophones, accelerometers, and velocity transducers) are chosen from a range of components and tools to fit the monitoring process and level of analysis required. Placement targets nearby structures, sensitive receptors, and critical infrastructure, so the system can detect changes early and provide a reliable record over time. Planning also considers equipment access and long-term maintenance to reduce downtime and avoid coverage gaps.

2

Monitoring Plan and Threshold Management

A vibration monitoring plan turns measurements into decisions: what levels trigger alerts, how exceedances are verified, and how results are reported over time. Because thresholds vary by project, structure type, and dominant frequency, we align the system with project-specific requirements. This helps teams prevent damage by clarifying how levels are measured, how frequency influences risk, and how signal anomalies are handled. It also creates a consistent framework for analysis and long-term reliability.

3

Continuous Data Acquisition and Transmission

Vibration monitoring depends on consistent data capture over time, so we configure the system to collect measurements at set intervals and deliver real-time access. The process may use wired or wireless transmission, with dataloggers selected to support performance and reduce downtime. The system stays reliable when equipment moves, weather shifts, or access is limited, letting stakeholders review data in real time, detect issues early, and maintain measurement confidence.

4

Vibration Analysis and Compliance Reporting

We evaluate vibration levels, velocity, and frequency patterns against project thresholds, then translate results into clear reporting. This may include time-based summaries, exceedance tracking, and signal review to detect potential issues and confirm readings reflect site conditions. The analysis helps project teams identify what is driving exceedances and produce defensible documentation for stakeholders. For deeper expertise, we extend the monitoring effort through our buildings and infrastructure monitoring services.

Frequently Asked Questions About Vibration Monitoring

What Is Vibration Monitoring?

Vibration monitoring is a process that uses sensors to measure vibration levels over time, so teams detect exceedances, support analysis, and  mitigate risk. On construction and industrial sites, a monitoring system captures velocity and frequency data from machinery, blasting, or heavy equipment to guide decisions.

What Sensors Are Used in Vibration Monitoring?

Sensors are selected based on the vibration sources, assets to be monitored and required amplitude and frequency range. Common types include tri-axial geophones, accelerometers, and velocity transducers. The right sensor system helps teams measure levels accurately and support reliable analysis when issues need to be identified.

On complex sites where geotechnical and structural sensors are also deployed, our teams may use wireless configurations across equipment locations.

What Sensors Are Used in Vibration Monitoring?

Sensors are selected based on the vibration sources, assets to be monitored and required amplitude and frequency range. Common types include tri-axial geophones, accelerometers, and velocity transducers. The right sensor system helps teams measure levels accurately and support reliable analysis when issues need to be identified.

On complex sites where geotechnical and structural sensors are also deployed, our teams may use wireless configurations across equipment locations.

How Does Real-Time Vibration Monitoring Prevent Damage?

Real-time vibration monitoring helps teams detect issues early, because the system continuously monitors levels and triggers alerts when readings approach defined thresholds. This early warning gives teams time to adjust  construction methods or pause work before levels cause damage, delays, or unplanned downtime.

How Does Real-Time Vibration Monitoring Prevent Damage?

Real-time vibration monitoring helps teams detect issues early, because the system continuously monitors levels and triggers alerts when readings approach defined thresholds. This early warning gives teams time to adjust  construction methods or pause work before levels cause damage, delays, or unplanned downtime.

What Are Peak Particle Velocity and Dominant Frequency?

Peak particle velocity (PPV) indicates the maximum vibration level during an event, while dominant frequency describes the component that drives how vibration affects a structure. Together, these values support analysis comparing measured levels against project thresholds and assessing potential damage risk.

What Industries Require Vibration Monitoring?

Vibration monitoring is commonly used in construction, especially when happening near existing sensitive structures such as bridges, tunnels, rail corridors, utilities, hospitals, and laboratories where pile driving, demolition, and blasting create elevated risk. It is also used in industrial contexts where equipment reliability and system performance matter, including rotating machinery, where bearing condition and predictive maintenance rely on early detection of potential component failure to prevent unplanned downtime.

How Long Does a Vibration Monitoring Program Last?

The time frame depends on project scope and the monitoring process: short-term for blasting or small construction projects, months for large infrastructure programs. Long-term programs require ongoing maintenance to keep sensors reliable, calibrated, prevent downtime, and maintain measurement quality for analysis.

Contact Sixense for Vibration Monitoring Today!

When vibration monitoring is critical to protecting assets and compliance, Sixense helps teams set up a monitoring system that delivers reliable measurement, real-time visibility, and actionable analysis. Whether the need is construction, infrastructure, or industrial monitoring, the right sensors and continuous monitoring  detect issues early and reduce downtime. Contact us to discuss the vibration monitoring solutions that fit your site.