In Brief

The primary objective of efficient performance in Asset Management is to enhance business processes, streamline production, optimize functionalities and maintenance procedures, and align enterprise operations, maintenance, reliability, and engineering with organizational goals. However, organizations face numerous challenges as they attempt to manage the vast amount of asset-related data generated within their systems.

To address this, we offer specialized studies and analyses designed to help your business achieve high performance in asset, system, component, and function management. Our expertise, combined with a comprehensive platform, provides seamless solutions for engineering analysis.

Our services facilitate a wide range of analytical techniques, including life data analysis, system reliability and maintainability analysis, probabilistic event and risk analysis, reliability growth models, accelerated life testing, and reliability predictions based on industry standards. These methodologies comply with Military Handbooks, National and International Standards, CENELEC Standards, Common Safety Methods (CSM), and comprehensive databases.

Analysis and Assessments Provided

Systems Engineering Support

We provide expertise in the following key areas:

• Interface Management
• Requirements Management
• Configuration Management
• Verification & Validation Management

Systems Assurance Support

As part of System Assurance, we oversee the entire RAM Management life cycle, applying international standards, analyses, and methodologies such as:

• Failure Mode, Effects and Criticality Analysis (FMECA)
• Spare Parts Analysis
• Reliability Block Diagram (RBD)
• Reliability-Centered Maintenance (RCM)
• Condition-Base Maintenance (CBM)
• Life-Cycle Cost (LCC)

To ensure System Safety Management, we conduct detailed analyses in compliance with international standards, safety methods, and European directives, including:

• Risk-Based Inspection (RBI)
• Fault Tree Analysis (FTA)
• Preliminary Hazard Analysis (PHA)
• System Hazard Analysis (SHA)
• Interface Hazard Analysis (IHA)
• Allocation and Assessment of Safety Integrity Levels (SIL)
• Hazard Log Assessments
• Operational & System Hazard Analysis (OSHA)
• Safety Assessments Reports
• Safety Cases

Verification, Validation, and Integration Testing

Throughout the project life cycle, we support:

• Verification of contractual, technical, functional, and safety requirements.
• Collection of evidence to ensure requirements validation.
• Development and review of test plans, procedures, registers, and reports, including FAT, SAT, and SIT stages.

Main Goals

By integrating these studies, analyses, and assessments into the overall business strategy, we help achieve an optimal balance between implementation costs and the total cost of ownership. This approach minimizes expenses related to product warranties, repairs, and replacements, ultimately improving the supplier’s long-term market position.

Our Expertise Helps To:

• Simulate estimated performance metrics to facilitate decision-making in areas such as maintenance scheduling, spare parts planning, production bottleneck identification, and life-cycle cost estimation.
• Develop scheduled maintenance plans using Reliability-Centered Maintenance (RCM) techniques to ensure functionality with an acceptable level of risk, in a cost-effective manner.
• Rank assets using a qualitative risk discovery system, followed by a quantitative analysis based on industry standards to assess critical assets.
• Predict the reliability and availability of complex systems using methods such as Reliability Block Diagrams (RBD) and Fault Tree Analysis (FTA).
• Address data management deficiencies, ensuring timely and accurate reliability, quality, and safety insights.
• Implement a closed-loop system for managing corrective actions.
• Calculate optimal overhaul times and other maintenance strategies for fielded repairable systems.
• Demonstrate compliance with specified reliability, availability, and safety requirements.
• Significantly reduce testing time required for reliability validation, accelerating time-to-market, reducing development costs, and improving designs.
• Proactively identify and prioritize potential failures, enabling early-stage improvements at the lowest cost.
• Predict system performance throughout its operational life cycle.
• Generate financial benefits through improved product design, warranty control, and enhanced customer support.
• Define realistic warranty periods based on reliability assessments.