Aerospace Safety

Aerospace Safety
Aerospace Safety	Full system level safety that covers Hardware, Software, and Firmware. Design to meet industry standards, guidelines, and customer specifications. This course includes: ·         Need Statement for Safety ·         Safety Standards (Specific Industry) ·         Safety Engineering Management Plan ·         Functional Safety Requirements ·         Safety Critical Requirements ·         Level of Rigor ·         Functional Threads ·         Requirements Traceability ·         Functional Hazard Analysis ·         Hazard Worksheets or Excel Spreadsheet ·         Safety Assessment Report (SAR) ·         Human Factors ·         FMECA and Reliability Data	$1,997

Oil and Gas Safety

Hardware Safety

Firmware Safety (FPGAs, PCLDs, ASICS)

Software Safety

Need Statement for Safety (System, Plant, or Product)

Safety Standards (Specific Industry – Identify and collect specific standards that govern safety for system, product, or industry–absolutely necessary)

System Safety Engineering Management Plan – (You need this for every project, plant, or system. Articulate you safety approach and how you intend to accomplish safety for the system, product, or plant.)

Functional Safety Requirements – (Absolutely necessary–Database or Excel)

Safety Critical Requirements (The requirements that are absolutely necessary to keep the system or plant running without failure.)

Level of Rigor (LOR)

Functional Threads

Requirements Traceability – (Absolutely necessary for any oil, gas, aerospace, and rail.)

Functional Hazard Analysis – (Include all necessary requirements, attributes to capture critical system components, fault protection components, and mechanisms.)

Hazard Worksheets or Excel Spreadsheet – (Detail assessments)

Safety Assessment Reports (SAR) – (This is an assessment after Safety has been performed.)

Human Factors – (Absolutely necessary to identity what parts of the system or plant that

FMECA – (Fault detection of all safety critical components or subsystems)

Reliability – (This relates to the FMECA and data the is needed for system, product or plant reliability)

Safety, Health, and Environmental (SHE)

Environmental, health, and safety (EHS) management include laboratory personnel; customers, clients, and suppliers; the community; shareholders; contractors; insurers; and regulatory agencies. Place high standards for EHS management, same as other key aspects of safety activities. High standards demand a structured approach to the identification of hazards and the evaluation and control of work-related risks.