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◆ Command Center Setup

Your platform.
Live. Monitored.
Understood.

Integrity managers at aging North Sea jackets and FPSO operators in West Africa use Rig to make structural decisions from shore — without flying to the platform.

40%Efficiency gain (pilot)
< 5minAlert to decision
99.97%Uptime SLA
Standby
RIG LIVE
NORTH SEA ZONE02:17:43 UTC
0RISK INDEX
0ACTIVE ALERTS
0SENSORS
0%INTEGRITY
0HIGH
RISK SCORE
JACKET
Wave Load Stress (kPa)LIVE
00:0004:0008:0012:0016:0020:00
Live Sensor Feed-- AWAITING --
P-NODE-04Pressure Differential
--NOMINAL
M-LINE-07Mooring Tension
--WARN
C-SENSOR-12Corrosion Index
--ALERT
FATIGUE ACCUM.
WAVE HEIGHT
CORROSION RATE

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UNPLANNED SHUTDOWNS14.2 / yr avg
INSPECTION COST OVERRUN+340% vs budget
MOORING FAILURE RATE1 per 4.7 yrs (semi-sub)
INTEGRITY MARKET 2030$25.74B CAGR 7.9%
FAILED LINES UNDETECTEDDuration unknown
FATIGUE MONITORING GAIN40% efficiency pilot
MOORING DESIGN LIFE25-year chain lifecycle
FPSO MOORING FAILURE1 per 8.8 yrs avg
NORTH SEA JACKETS30+ yr asset age common
UNPLANNED SHUTDOWNS14.2 / yr avg
INSPECTION COST OVERRUN+340% vs budget
MOORING FAILURE RATE1 per 4.7 yrs (semi-sub)
INTEGRITY MARKET 2030$25.74B CAGR 7.9%
FAILED LINES UNDETECTEDDuration unknown
FATIGUE MONITORING GAIN40% efficiency pilot
MOORING DESIGN LIFE25-year chain lifecycle
FPSO MOORING FAILURE1 per 8.8 yrs avg
NORTH SEA JACKETS30+ yr asset age common
The Cost of Not Knowing
Problem → Solution Arc
01 — OPERATIONAL INEFFICIENCY

Your engineers are flying to platforms to read numbers that should be on a screen.

14.2unplanned shutdowns per year (industry avg)

Every unplanned shutdown on an aging North Sea jacket costs £180K–£2.4M in lost production. Engineers spend 30–40% of field time on data collection that should be automated.

Avg mobilisation cost per inspection£47,000
Manual data lag to shore decision4 – 18 hrs
Inspection budget overrun (typical)+340%
Platforms without live monitoring67%
SOLUTION — LIVE SENSOR INGESTION

Every pressure node, every wave-load sensor, streaming to your screen in real time.

Rig ingests live feeds from pressure differential sensors, wave-load gauges, and corrosion indices — and renders them into dashboards that let engineers decide at 2 a.m. without flying out.

Sub-5-minute alert-to-decision latency
Automated anomaly flagging with root-cause context
24/7 shore-based monitoring dashboard
Direct integration with existing sensor networks
Sensor CoverageACTIVE
Pressure nodes
85%
Mooring tension
72%
Corrosion index
91%
Wave loading
68%
Fatigue accum.
88%
40%Efficiency gain — verified pilot program
02 — STRUCTURAL SAFETY RISK

A mooring failure you don't know about is a risk you can't manage.

4.7years between mooring failures (semi-sub, North Sea)

HSE data shows drilling semi-submersibles in the North Sea experience a mooring failure every 4.7 operating years. In multiple documented cases, failed lines were only discovered during inspection — with no record of when the failure occurred.

FPSO mooring failure rateevery 8.8 yrs
Mooring chain design life25 years
Lines failed, date unknownMultiple cases
Typical mooring system length~10 km chain
SOLUTION — MOORING FATIGUE MONITORING

Digital twin of every mooring line. Fatigue accumulation tracked against actual conditions.

Rig's mooring module combines vessel position data, environmental measurements, and operational records into a continuous fatigue utilisation model — so you know the state of every line without waiting for the next inspection.

Real-time tension monitoring per mooring line
Digital twin fatigue accumulation model
Automated alert when approaching critical threshold
Life-extension assessment data export
Sensor CoverageACTIVE
Pressure nodes
85%
Mooring tension
72%
Corrosion index
91%
Wave loading
68%
Fatigue accum.
88%
100%Mooring line coverage — no blind spots
03 — REGULATORY EXPOSURE

Life extension without verified data is a compliance liability, not an engineering decision.

$25.74Bintegrity management market by 2030 — driven by regulation

Operators seeking life extension on aging FPSOs and jackets must demonstrate fitness for service with documented load history and degradation data. Without continuous monitoring, that demonstration is built on estimates — and regulators are tightening.

Regulatory penalty exposure (typical)$1.2M–$8M
Assets seeking life extensionGrowing 12% yr
Inspection prioritisation gapHigh for jackets
EU offshore safety directive scopeExpanding 2026
SOLUTION — AUDIT-READY INTEGRITY RECORDS

Every sensor reading time-stamped, traceable, and exportable for regulatory submission.

Rig generates the continuous load history regulators require for life extension approval. Every alert, every threshold breach, every corrective action — documented automatically, with chain-of-custody integrity from sensor to report.

Time-stamped immutable sensor log archive
One-click regulatory report generation
Degradation trend modelling for life extension
Audit trail from raw data to decision record
Sensor CoverageACTIVE
Pressure nodes
85%
Mooring tension
72%
Corrosion index
91%
Wave loading
68%
Fatigue accum.
88%
< 5 clicksFrom live data to compliance-ready report
◆ Platform Coverage Matrix

Every platform type.
Every critical parameter.

Nominal
Monitoring
Alert
Fixed Jackets

North Sea Jacket Integrity

Pile movement, jacket vibration, and foundation scour tracked continuously. Corrosion indices updated from cathodic protection sensors.

160+Monitored parameters
FPSO

Mooring Fatigue

14-line mooring systems with per-chain tension and fatigue accumulation.

8.8yrAvg failure interval
All Platforms

Corrosion Index Tracking

Event-driven monitoring for corrosion threats. Act before damage occurs — not after discovery.

0.18mm/yr threshold
Semi-Sub

Hull Stress Monitoring

Wave-induced stress on welded joints tracked in real time.

4.7yrMooring failure rate
Riser Systems

Riser Relative Offset & Fatigue

Real-time motion vs. allowable offset bands. Know whether to pull the riser or keep drilling — from shore.

< 5minAlert to decision
◆ Resolution — Everything Monitored

Everything green. Everything monitored.
Everything under control.

One screen. Every platform. Every sensor. Shore-side decisions at 2 a.m. — no flights required.

RIG COMMAND CENTER — ALL PLATFORMS
02:17:43 UTC — LIVE
NS-JAC-04WA-FPSO-11NS-SEMI-07GM-TLP-02
4PLATFORMS
847SENSORS LIVE
0ACTIVE ALERTS
94%AVG INTEGRITY
12.2MDATA POINTS/DAY
99.97%UPTIME
Sensor Coverage — All Platforms
Pressure Differential
97%
Mooring Tension
94%
Wave Load Stress
91%
Corrosion Index
88%
Fatigue Accumulation
85%
Foundation Scour
79%
Platform Status Overview
Brent Alpha Jacket
NS-JAC-04 · Fixed Jacket
ALL NOMINAL96%
Azurite FPSO
WA-FPSO-11 · FPSO
ALL NOMINAL91%
Thistle Semi-Sub
NS-SEMI-07 · Semi-Submersible
ALL NOMINAL94%
Ursa TLP
GM-TLP-02 · Tension Leg Platform
ALL NOMINAL97%
All systems nominal — 847 sensors reporting — 0 active alerts
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Free Report

Offshore Integrity Monitoring Benchmark Report 2026

Industry data on mooring failure rates, inspection cost overruns, and the ROI of continuous monitoring across 140 offshore assets.

Mooring failure rate by platform type
Inspection cost benchmarks (North Sea / W. Africa)
Integrity monitoring ROI case studies
Regulatory requirements by region 2026
Trusted by operators in
North SeaWest AfricaGulf of MexicoArabian GulfAsia Pacific