Engineering Safety for Mining and Construction Machinery
Justification Through System-Level, Safety-Case-Driven Engineering
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Beschreibung
This book presents a practical, system-level framework for justifying safety—transforming standards-mandated analyses, requirements, architectural decisions, and verification activities into a coherent, defensible safety argument. Rather than introducing new regulatory obligations, it shows how to organize existing safety work into explicit claims, supporting arguments, and credible evidence that can be reviewed, challenged, and defended. Written for engineers, safety practitioners, reviewers, and decision-makers, the book guides readers through the full safety lifecycle, including intended use and operational scope, hazard identification and risk framing, safety goals, requirements derivation, architecture, verification and validation, human interaction, lifecycle change, and regulatory defense. Throughout, it emphasizes system-level reasoning, traceability, and evidence quality—ensuring that safety intent is preserved from concept through operation. The book is not a checklist, a template collection, nor a reinterpretation of standards. It is a structured approach to engineering and justifying safety in modern mining and construction machinery—one that strengthens compliance, improves reviewability, and enables organizations to innovate responsibly without compromising defensibility. For those responsible for explaining, approving, or defending machinery safety, this book provides the missing structure that turns safety activities into safety justification.
Demonstrates lifecycle safety from concept through operation, including change and updates; Provides structured reasoning so safety decisions can be reviewed, challenged, and defended; Transforms standards compliance into explicit, system-level safety justification of acceptable risk.
This book presents a practical, system-level framework for justifying safety—transforming standards-mandated analyses, requirements, architectural decisions, and verification activities into a coherent, defensible safety argument. Rather than introducing new regulatory obligations, it shows how to organize existing safety work into explicit claims, supporting arguments, and credible evidence that can be reviewed, challenged, and defended. Written for engineers, safety practitioners, reviewers, and decision-makers, the book guides readers through the full safety lifecycle, including intended use and operational scope, hazard identification and risk framing, safety goals, requirements derivation, architecture, verification and validation, human interaction, lifecycle change, and regulatory defense. Throughout, it emphasizes system-level reasoning, traceability, and evidence quality—ensuring that safety intent is preserved from concept through operation. The book is not a checklist, a template collection, nor a reinterpretation of standards. It is a structured approach to engineering and justifying safety in modern mining and construction machinery—one that strengthens compliance, improves reviewability, and enables organizations to innovate responsibly without compromising defensibility. For those responsible for explaining, approving, or defending machinery safety, this book provides the missing structure that turns safety activities into safety justification.
Demonstrates lifecycle safety from concept through operation, including change and updates; Provides structured reasoning so safety decisions can be reviewed, challenged, and defended; Transforms standards compliance into explicit, system-level safety justification of acceptable risk.
Demonstrates lifecycle safety from concept through operation, including change and updates Provides structured reasoning so safety decisions can be reviewed, challenged, and defended Transforms standards compliance into explicit, system-level safety justification of acceptable risk
Autor*in
Mohammed Abdulla Al Yousuf
Themen in »Engineering Safety for Mining and Construction Machinery«
mining equipment safety case construction machinery functional safety ISO 12100 risk assessment machinery SO 13849 SRP/CS PL calculation IEC 62061 machinery safety integrity level I ISO 19014 earth-moving machinery safety ISO 17757 autonomous / semi-autonomous mining systems safety hazard analysis HAZOP FMEA machinery safety goals and technical safety requirements (TSRs) degraded mode / fail-safe / fail-operational machinery human-in-the-loop / human-on-the-loop remote operation safety mode confusion HMI alerts lifecycle safety change impact analysis OTA updates regulatory defense due diligence machinery safety