3D Scanning Offshore Solutions
Our marine 3D laser scanning services extend beyond vessels to full offshore installations and assets, delivering high-precision digital engineering data for complex marine and energy environments.
We provide accurate as-built drawings, as-built documentation, and digital twin models for ships, boats, yachts, offshore rigs, FPSOs, platforms, subsea modules, and topside facilities. Using advanced laser scanning technology, we capture complete spatial geometry of engine rooms, hull structures, piping networks, machinery spaces, structural steelwork, and offshore process areas.
Our offshore digitalization solutions support:
Dry docking Survey
Creating 3D records of ship hull prior to/after repair and maintenance.
As-built documentation
Capturing real data and accurate dimensions of ship structures, ballast tanks, piping, and engine rooms for future reference.
Retrofit and conversion
Retrofitting solutions and conversions of ballast water treatment systems, ECGS scrubbers, LNG conversions, or accommodation upgrades.
Design and Engineering
Creating accurate Scan-to-CAD or Scan-to-BIM models related to ship models, design, and hull design.
Design and Engineering
Virtual replica model for monitoring and simulation prototypes.
Hull Damage Assessment
3D Mapping of Damaged Areas (Dents, Structural Deformation) etc.
Hull Repair and thickness assessments
3D measurements Identifies deformation or warping for hull repair planning.
Upgrading engine and machinery
Specifies new machinery fit out with clash detection.
Interior refits (yachts and ships)
3D designers remodel the area. Hull form development is an initial sketch using naval architecture software like Maxsurf, Rhino Marine, and Auto Ship.
Pipe replacement and re-routing
Identify the exact pipes and their available spaces.
Hull Lines Plan Preparations
Our naval architecture develops lines plans of tugboats by 3D scan to increase hull efficiency, hull stability, retrofit, hull extension, or damage repair. Line plans are digitized by digital modeling by 3D modeling and CFD analysis. Steps for preparing a line plan include data collection, hull form development, drawing three views of the sheer/profile plan, half breadth plan, and body plan, fairing of lines, and final output hull plan. Digital Marine System develops hull lines plans for hydrostatics, stability booklets, and construction drawings.
Marine 3D
Laser scanning
Digital
twin
Hull Damage
assessment
Hull Lines plan
Preparation
Scan-
to-CAD
Retrofit
solutions
Frequently Asked Questions?
Why are Life Saving Appliance (LSA) and fire fighting equipment inspections mandatory on ships?
LSA and firefighting inspections are required by international law under SOLAS Chapter II-2 (Fire Protection, Detection and Extinction) and SOLAS Chapter III (Life-Saving Appliances and Arrangements). These regulations impose a legal duty on shipowners, operators, and masters to ensure all safety equipment is maintained in a state of full operational readiness at all times while the vessel is at sea or in port.
In any maritime emergency — fire, flooding, collision, or grounding — life saving and fire fighting equipment represents the final defense for every person onboard. Equipment that has not been properly serviced, tested, and certified is highly likely to fail at the critical moment it is most needed. Non-compliance can result in vessel detention by Port State Control, invalidation of P&I or H&M insurance, and criminal liability for the Master or responsible officer in the event of an incident.
How often must LSA and fire fighting equipment be inspected?
Inspection intervals are defined by SOLAS and supplemented by flag state and classification society requirements. The main intervals are:
Weekly (Crew-Performed):
- Visual check of all fire extinguishers — condition, pressure gauge, accessibility
- Test of fire detection and alarm systems
- Lifeboat/rescue boat engine test run (minimum 3 minutes in gear)
- Check of lifeboat general condition, gripes, and release gear
Monthly (Officer-Led):
- Full inventory check of all LSA — lifejackets, immersion suits, EPIRBs, SARTs
- Inspection of survival craft, rescue boats, and launching equipment
- Test of all fixed fire suppression system controls
- Check of all fire detection detectors and alarm panels
Annual (Approved Service Provider + Class):
- Full inspection and certification of all fire extinguishers
- CO2 system annual inspection with pressure checks
- Inspection and certification of lifejackets, immersion suits, SCBA, EEBD
- Calibration of gas detectors, pressure gauges and UTI meters
Five-Yearly (Maker-Approved + Class Witnessed):
- CO2 system cylinder hydrotesting
- Foam sample laboratory analysis
- Sprinkler and water mist system five-year survey
- Lifeboat falls wire renewal or end-for-end turning
What are the most common Port State Control (PSC) deficiencies related to fire and LSA equipment?
PSC inspections regularly identify the following deficiencies, many of which result in vessel detention:
- Expired annual service certificates for fire extinguishers or LSA
- Fire extinguishers not accessible, obscured, or missing seals/pins
- CO2 system weight loss beyond permitted tolerance (>5% of total charge)
- Lifeboat engine failure to start during test
- Worn, kinked, or expired falls wire on davit systems
- Immersion suits with cracked seals, broken zips, or expired pressure test dates
- Inflatable lifejacket cylinder not correctly fitted or expired
- SCBA units with low or expired air cylinders
- EEBD units with expired or near-expiry battery/cylinder
- Fire detection system faults showing on main panel — unresolved alarms
- Missing or expired pyrotechnics (flares) in lifeboats
- EPIRB or SART with expired battery or failed self-test
Maintaining a structured planned maintenance system (PMS) linked to your service provider’s schedule is the most effective way to avoid these deficiencies.
Who is authorized to inspect and certify LSA and firefighting equipment on a vessel?
SOLAS and IMO guidelines require that annual and five-yearly inspections of most LSA and fire fighting equipment are performed by qualified, approved service providers, not the ship’s crew alone. The specific requirements are:
- Fire extinguishers and fixed systems: Approved service companies holding the relevant manufacturer authorizations and class society endorsements
- Inflatable lifejackets and immersion suits: Class approved service stations for inflatable equipment
- SCBA and breathing apparatus: Class approved service stations for breathing apparatus inspection & service.
- CO2 fixed systems: Companies approved under classification body and technicians proficient on the make & model of the systens
- Lifeboat and davit systems: Maker & classification body approved service stations as required by MSC/Circ.1206/Rev.1
In all cases, the certifying technician must be able to demonstrate current approval status from the relevant classification society and/or equipment manufacturer. This is the certificate that PSC inspectors and Class surveyors will request.
In practice, most flag states delegate their statutory survey functions to recognized Classification Societies. For LSA and firefighting equipment, the Class surveyor may witness annual or five-yearly service inspections and sign off on service certificates as part of the vessel’s annual or renewal survey.
What types of fire extinguishers are carried on ships and offshore platforms?
The main types of portable and semi-portable fire extinguishers found onboard vessels and offshore installations are:
- Dry Powder (DP) Extinguishers: Available in 2 kg, 6 kg, 9 kg, 12 kg, 25 kg, and 50 kg sizes. Used for Class A (solid), Class B (liquid), and Class C (gas) fires. Extremely common on engine rooms, cargo decks, and machinery spaces.
- CO2 (Carbon Dioxide) Extinguishers: Available in 2 kg, 5 kg, and 10 kg sizes. Used primarily for electrical fires (Class E) and Class B fires. Found in electrical switchboard rooms, server rooms, and galleys.
- Foam Extinguishers (AFFF): Available in 9 litres, 45 litres, and 135 litres. Effective for Class A and Class B fires. Common in engine rooms, pump rooms, and cargo handling areas.
- Wet Chemical Extinguishers: Used specifically for Class F (cooking oil/fat) fires. Mandatory in commercial galley spaces on SOLAS vessels.
- Water Mist Extinguishers: Used for Class A and some electrical fires. Increasingly common as an environmentally clean alternative.
Each extinguisher type has specific inspection, testing, and refilling requirements, and must be appropriate for the fire risk in the space where it is located.