CONVERTING LIGHT INTO INSIGHT
We implement advanced fibre optic sensing technology and AI processing to improve linear asset up-time and reduce operating cost
We’re a Perth-based fibre optic specialist with extensive experience across complex, multi-stakeholder projects in sectors including superyachts, oil and gas, and infrastructure.
Through a combination of sensing expertise, considered technology selection, and AI-driven analysis, we deliver efficient solutions that reduce operating costs and create immediate value.
OUR SOLUTIONS
CIQ
Conveyor Monitoring
Smarter inspection and maintenance through continuous monitoring
- 24/7 component-level visibility
- Detect potential failures before they disrupt operations
- Reduce downtime and maintenance
FlowProtect
Pipeline Leak Detection
Detect leaks early and reduce operational risk
- Detect leaks instantly with precise location
- Reduce field inspections and response time
- Improve safety across remote assets
APPLICATIONS
From pipelines to transport infrastructure, Orealis solutions adapt to a wide range of environments.
Pipelines
Detect leaks, monitor integrity, and reduce inspection costs across long-distance assets.
Rail & Haul Roads
Monitor track conditions and detect anomalies before they impact operations.
Tunnels
Identify temperature anomalies early to support fire detection and safety systems.
Conveyors
Monitor belt and idler component health to prevent failures and reduce downtime.
OUR TECHNOLOGY
Turn fibre optic sensing data into real-time, actionable insight.
Step 1
Installation
Fibre as a continuous sensor
Fibre optic cable is installed on or near the linear asset, enabling continuous monitoring along its entire length
Step 2
Light Transmission
Light travels through the fibre
An interrogator sends light pulses through the fibre optic cable.
Step 3
Backscatter Detection
Light scattered back from fibre optic core.
Light reflections (backscatter) travel back to the interrogator and are continuously measured.
Step 4
Environmental Response
Changes in the environment
Changes in temperature, vibration, or strain along the fibre cause measurable variations in the backscatter signal.
Step 5
Data Processing
Analyzing the data
Backscatter data is processed into actionable insights using:
- Distributed Temperature Sensing (DTS)
- Distributed Acoustic Sensing (DAS)
- Distributed Strain Sensing (DSS)
Step 1
Installation
Fibre as a continuous sensor
Fibre optic cable is installed on or near the linear asset, enabling continuous monitoring along its entire length
Step 2
Light Transmission
Light travels through the fibre
An interrogator sends light pulses through the fibre optic cable.
Step 3
Backscatter Detection
Light scattered back from fibre optic core.
Light reflections (backscatter) travel back to the interrogator and are continuously measured.
Step 4
Environmental Response
Changes in the environment
Changes in temperature, vibration, or strain along the fibre cause measurable variations in the backscatter signal.
Step 5
Data Processing
Analyzing the data
Backscatter data is processed into actionable insights using:
- Distributed Temperature Sensing (DTS)
- Distributed Acoustic Sensing (DAS)
- Distributed Strain Sensing (DSS)
Low-intensity light makes the system safe for use in hazardous environments.
WHY OREALIS
Practical Problem Solvers
Combining fibre optic sensing expertise with AI to deliver practical, real-world solutions that improve asset performance.
Deep Industry Experience
Extensive experience across oil and gas, structural monitoring, and global fibre optic networks.
AI-Driven Capability
AI-focused approach to ensure productivity across sectors including defence, infrastructure, and construction.
Solutions Built for You
Design and implementing systems tailored to your specific operations.
TURN FIBRE OPTIC DATAINTO ACTIONABLE INSIGHT
Let's discuss how Orealis can support your infrastructure
rob.crawford@orealis.com.au