Selected Structural Diagnostics and Prognostics Sensors

机译：选定的结构诊断和预测传感器

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With the introduction of the Joint Strike Fighter (JSF) program and its stringent capability requirements comes the increased interest in advanced structural health monitoring concepts, such as Diagnostics, Prognostics and Health Management (DPHM). In this sense, DPHM represents a fully integrated health monitoring approach that encompasses all systems within the aircraft. It is expected that the introduction of DPHM capability into new acquisition programs and legacy platforms will reduce the Life Cycle Cost (LCC) of these systems as well as increase aircraft availability and enhance operational logistics. Current advances in microsystems technology such as advanced sensors and sensor networks, electronics, microfabrication, packaging and integration, are contributing to the accelerated interest in this emerging field. In this paper we briefly introduce the DPHM concept and its definition from a structural perspective and discuss progress made toward the development of two selected sensors, while highlighting the impact of microsystems technology on such development.

机译：随着“联合打击战斗机”（JSF）计划的引入及其严格的能力要求，人们对高级结构健康监测概念（例如诊断，预测和健康管理（DPHM））的兴趣日益浓厚。从这个意义上讲，DPHM代表了一种完全集成的健康监控方法，涵盖了飞机内的所有系统。预计将DPHM功能引入新的采购计划和旧平台将降低这些系统的生命周期成本（LCC），并提高飞机的可用性并增强运营后勤能力。微系统技术的最新进展，例如先进的传感器和传感器网络，电子产品，微细加工，封装和集成，正在促使人们对这一新兴领域产生越来越大的兴趣。在本文中，我们从结构的角度简要介绍了DPHM概念及其定义，并讨论了在开发两个选定传感器方面取得的进展，同时重点介绍了微系统技术对此类开发的影响。

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来源
《18th International Conference on Adaptive Structures and Technologies(ICAST 2007)》|2007年|P.530-536|共7页
会议地点 Ottawa(CA);Ottawa(CA)
作者
N. Mrad; Z. Liu; C.-K. Jen; G. Z. Xiao;
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作者单位

Carleton University;

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会议组织
原文格式 PDF
正文语种 eng
中图分类材料结构及物理性质;
关键词
diagnostics; prognostics; health management; advanced sensors; fibre optic sensors; piezoelectric sensors; smart sensors; nondestructive evaluation; structural health monitoring; MEMS; microsystems technology;

机译：诊断;预后;健康管理;先进的传感器;光纤传感器;压电传感器;智能传感器;无损评估;结构健康监测; MEMS;微系统技术;

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1. A Potential Link from Damage Diagnostics to Health Prognostics of Composites through Built-in Sensors [J] . Fu-Kuo Chang, Johannes F. C. Markmiller, Jeong-Beom Ihn, Journal of Vibration and Acoustics . 2007,第6期

机译：通过内置传感器，从损坏诊断到复合材料健康预测的潜在联系
2. Selecting Sensor for On Load Tap Changer Contacts Degree of Wear Diagnostics [J] . A. Cichon, S. Borucki, P. Berger Acta Physica Polonica . 2013,第3期

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3. Clinicopathological, genetic, ultrastructural characterizations and prognostic factors of papillary renal cell carcinoma: New diagnostic and prognostic information [J] . YuW., ZhangW., JiangY., Acta Histochemica: Zeitschrift fur Histologische Topochemie . 2013,第5期

机译：乳头状肾细胞癌的临床病理，遗传，超微结构特征和预后因素：新的诊断和预后信息
4. Selected Structural Diagnostics and Prognostics Sensors [C] . N. Mrad, Z. Liu, C.-K. Jen, International Conference on Adaptive Structures and Technologies . 2006

机译：选定的结构诊断和预测传感器
5. Optimum sensor localization/selection in a diagnostic/prognostic architecture. [D] . Zhang, Guangfan. 2005

机译：诊断/预后架构中的最佳传感器定位/选择。
6. Sources of diagnostic inaccuracy of conventional versus new diagnostic criteria for myocardial infarction in an unselected UK population with suspected cardiac chest pain and investigation of independent prognostic variables [O] . J Trevelyan, E W A Needham, S C H Smith, 2003

机译：传统和新的诊断标准对未选出的英国可疑心脏性胸痛人群的心肌梗死诊断不准确的原因以及独立预后变量的调查
7. Sources of diagnostic inaccuracy of conventional versus new diagnostic criteria for myocardial infarction in an unselected UK population with suspected cardiac chest pain, and investigation of independent prognostic variables [O] . Trevelyan, J, Needham, E W A, Smith, S C H, 2003

机译：传统和新的诊断标准对未选出的英国可疑心脏性胸痛人群的心肌梗死诊断不准确的原因，以及独立预后变量的调查
8. Sensor Fusion, Prognostics, Diagnostics and Failure Mode Control for Complex Aerospace Systems [R] . Stewart, P. 2010

机译：复杂航空航天系统的传感器融合，预测，诊断和故障模式控制

Selected Structural Diagnostics and Prognostics Sensors

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