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Advanced Software Safety (ADVSFT 23-0)
September 13 @ 8:00 am - September 16 @ 4:00 pm$2500
This course builds upon the skills learned in the Software Safety (SFT) course. It is presumed and highly recommended that the student has achieved an active and current understanding of the importance of software safety in the planning, analyses of architecture, design, and code and the testing of automated systems. The course expands upon those skills or as learned in Software Safety (SFT) and presents opportunities to apply them in class in diverse situations using a small unmanned aerial system (sUAS) that is also weaponized.
To develop practicing skills in writing a Request for Proposal (RFP) for a safety critical system and performing analyses. To develop the practical use of a Safety Assessment Report (SAR). To develop practical skills in deriving requirements and functions leading to a Functional Hazard Analysis (FHA) and Requirements Hazard Analysis for unmanned “sense and avoid” subsystem. Discussion of how to compose a safety argument using metrics results of many analyses of NASA autonomous aerial systems software that was performed using open source tools. Building confidence with your developer’s tools, looking into why and what to consider in tools, and how to review your story in your SAR. To develop these skills in a team based working environment.
Who Should Attend
Experienced system managers and engineers, system safety engineers and software engineers who have attended SFT or have a solid understanding of the basic software safety principles. Students who have advanced experience will be able to progress in the course but without experience or having just finished the SFT course may present problems with student progress. Principals for Safety (PFS) or Safety Leads who must present to Review Boards should attend to learn active management. Practicing System Safety and Software Safety Engineers who are lining up a professional trajectory into autonomous systems will be better informed by this course. Future follow-on courses will cover deeper safety and security issues, autonomous systems, and in particular artificial intelligence, machine learning (ML) and deep learning (DL) models, life cycles, and contract issues.
- Advanced Software Safety
- Basic Safety Overview
- Definitions and Concepts
- Small Unmanned Aerial Ssytems (sUAS) Overview
- ArduCopter and NASA ICAROUS and DAIDALUS software
- Concept of Operations (CONOPS) for safety
- Missions and Functions
- Payloads and Hazards
- Best Safety Practices in Request for Proposal (RFP)
- Performing a Functional Hazard Analyses
- Partitioning and pitfalls
- Declaring Software Safety Functions
- Setting Levels of Rigor (LOR)
- Work Responsibilities for others…
- Architecture Analyses, starting with Systems of Systems (SoS)
- Assessing code, COTS, GOTS, and what to do
- Code Analysis
- Software Fault Tree (SFTA)
- Tools and their use for safety
- What does all this mean?
- Final Safety Assessment Report (SAR)
- You missed your Level of Rigor (LOR) so what now?
- What about the Review Board?
- Joint Software Systems Safety Engineering Handbook, 2010 version
- MIL STD 882-E
- Joint Weapons Safety Review Guide
- FAA Software Safety and National Airspace Requirements
- FAA Unmanned Airworthiness 8130.34D
- MIL-HDBK-516C, unmanned systems chapter
- US Army small unmanned systems RFP
- Generic Software Systems Safety Program Plan
- Generic Safety Assessment Report (SAR)
- NASA Langley Research and software
- Office of Secretary of Defense Jointly with FAA, Safety guidance
- USC Software Engineering Center
Course Duration: 4.0 Days
Published on March 5th, 2021
Last updated on May 19th, 2022