A virtual laboratory approach for risk assessment of aerospace electronics trust techniques
Title | A virtual laboratory approach for risk assessment of aerospace electronics trust techniques |
Publication Type | Conference Paper |
Year of Publication | 2017 |
Authors | Palmer, D., Fazzari, S., Wartenberg, S. |
Conference Name | 2017 IEEE Aerospace Conference |
ISBN Number | 978-1-5090-1613-6 |
Keywords | actionable decision data, aerospace electronic component risk assessment methodology, aerospace electronics trust techniques, aerospace testing, component criticality risk tolerance, component testing, Consumer electronics, counterfeit mitigation calculations, counterfeit risk, faulty component risk, Logistics, Metrics, microelectronics trust assurance, mitigation strategies, nontrusted procurement options, optimal test, part reliability, Procurement, procurement path, pubcrawl, reliability, resilience, Resiliency, risk management, Scalability, semiconductor technologies, space vehicle electronics, supply chain management, supply chain risk, supply chain risk assessment, Supply chains, Testing, trusted procurement options, US Department of Defense, virtual instrumentation, virtual laboratory approach |
Abstract | This paper describes a novel aerospace electronic component risk assessment methodology and supporting virtual laboratory structure designed to augment existing supply chain management practices and aid in Microelectronics Trust Assurance. This toolkit and methodology applies structure to the unclear and evolving risk assessment problem, allowing quantification of key risks affecting both advanced and obsolete systems that rely on semiconductor technologies. The impacts of logistics & supply chain risk, technology & counterfeit risk, and faulty component risk on trusted and non-trusted procurement options are quantified. The benefits of component testing on part reliability are assessed and incorporated into counterfeit mitigation calculations. This toolkit and methodology seek to assist acquisition staff by providing actionable decision data regarding the increasing threat of counterfeit components by assessing the risks faced by systems, identifying mitigation strategies to reduce this risk, and resolving these risks through the optimal test and procurement path based on the component criticality risk tolerance of the program. |
URL | https://ieeexplore.ieee.org/document/7943764 |
DOI | 10.1109/AERO.2017.7943764 |
Citation Key | palmer_virtual_2017 |
- supply chain management
- pubcrawl
- Reliability
- resilience
- Resiliency
- risk management
- Scalability
- semiconductor technologies
- space vehicle electronics
- procurement path
- supply chain risk
- supply chain risk assessment
- supply chains
- testing
- trusted procurement options
- US Department of Defense
- virtual instrumentation
- virtual laboratory approach
- faulty component risk
- aerospace electronic component risk assessment methodology
- aerospace electronics trust techniques
- aerospace testing
- component criticality risk tolerance
- component testing
- Consumer electronics
- counterfeit mitigation calculations
- counterfeit risk
- actionable decision data
- Logistics
- Metrics
- microelectronics trust assurance
- mitigation strategies
- nontrusted procurement options
- optimal test
- part reliability
- Procurement