AUT 211-Automotive ISO 26262: Road Vehicles Functional Safety - Nov 30 - Dec 3 and Dec 7-Dec 10th 2020 - Online, Live Streaming HALF DAYS

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AUT 211-Automotive ISO 26262: Road Vehicles Functional Safety - Nov 30 - Dec 3 and Dec 7-Dec 10th 2020 - Online, Live Streaming HALF DAYS

$ 2,495.00

Course Description:

Electronic systems carry out many functions in modern automobiles, including driver assistance functions, vehicle dynamics control, and active/passive safety systems. The complexity of electronically-driven operations, especially safety functions, makes predicting safety performance extremely difficult. More action will be required, furthermore, to reduce the risks of systematic and random hardware failures as system complexity continues to increase.

ISO 26262 is a functional safety standard intended to be applied to the development of software for electrical and/or electronic (E/E) systems in automobiles. ISO 26262 is an adaptation of the broader IEC 61508 safety standard, which has been used to derive safety standards for the nuclear power, machinery, railway, and other industries. It is aimed at reducing risks associated with software for safety functions to a tolerable level by providing feasible requirements and processes.

This course features a Functional Safety Overview, Functional Safety Management, Automotive Safety Lifecycle, Item Definition and Boundary Analysis, Safety Lifecycle Tailoring and Development Safety Plan, and much more.

Course Topics

  • Functional Safety Overview
  • Functional Safety Management
  • Automotive Safety Lifecycle
  • Item Definition and Boundary Analysis
  • Safety Lifecycle Tailoring and Development Safety Plan
  • Safety Requirement Management and Engineering
  • Hardware and Software Safety Architecture
  • Hazard Analysis and Risk Assessment
  • Functional Safety Concept
  • Technical Safety Concept
  • Safety Architecture
  • Safety Analysis e.g. FMEA and FDA
  • Probabilistic Metric for Random Hardware Failure (PMHF)
  • Hardware Development
  • How to Evaluate the Metrics SPFM and LFM
  • Hardware-Software Interface
  • Software Safety Mechanism: SIL vs. ASIL
  • Software Development
  • Software Safety Specification and Requirements Allocation
  • Software Architecture
  • Software Related Methods, Measures, and Techniques
  • Software Safety Verification
  • Safety Validation
  • Confirmation Measures

 

Course will be delivered in 8- 4hour sessions 11:30am-3:30pm EST

November 30-Dec 3rd and December 7-10th 2020