IEEE Organizations related to System Prognostics And Health Management (phm)

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No conferences are currently tagged "System Prognostics And Health Management (phm)"


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Reliability, IEEE Transactions on

Principles and practices of reliability, maintainability, and product liability pertaining to electrical and electronic equipment.



Most published Xplore authors for System Prognostics And Health Management (phm)

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Xplore Articles related to System Prognostics And Health Management (phm)

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Prognostics and Health Management (PHM) System requirements and validation

2010 Prognostics and System Health Management Conference, 2010

This paper based on four key abilities of the Prognostics and Health Management (PHM) System including the abilities of fault detection, fault isolation, fault prognosis and prognosis of the remaining life, analyzes and constructs a framework of the PHM quantitative requirements, and defines the quantitative assessment emphasis of the PHM abilities. Targeting these quantitative requirements and proceeding from the viewpoint ...


Application of PHM Technology in the Design of Tank Fire Control System

2018 Prognostics and System Health Management Conference (PHM-Chongqing), 2018

Combining with the process of Prognostics Health Management (PHM), the technology and application of armored vehicle fire control system PHM were discussed. The architecture of the health management system for tank fire control system was researched. According to the information characteristics of tank fire control system, the dual redundant bus transmission technology of FLEXRAY and CAN was applied, and the ...


Research of prognostics and health management for Aircraft Propulsion System

Proceedings of the IEEE 2012 Prognostics and System Health Management Conference (PHM-2012 Beijing), 2012

Aircraft Propulsion System is a complex system which needs to be detected to make sure the safety of flying and maintain in time. The prognostics and health management (PHM) of aircraft propulsion system is the core of the PHM of whole aircraft. Because of it is considered that the ground surveillance technology is more important than the online PHM, this ...


The design of the prognostics and health management system for special vehicle

2016 Prognostics and System Health Management Conference (PHM-Chengdu), 2016

With the rapid development of sensor technology on vehicles, more and more vehicles are checked from artificial detection to auto monitoring. A great number of real-time data acquired from sensors provides important foundation for PHM application on vehicles. Aiming at the special mining vehicle, it proposes the solution for real-time monitoring, fault diagnosis and health management based on the PHM ...


The system testability design technology for missile weapon system prognostics and health management

2017 Prognostics and System Health Management Conference (PHM-Harbin), 2017

Along with the increase of the level of complexity, integration and intelligence of missile weapon system, prognostics and health management technology (PHM) has gotten more and more attention and application. The technology has become the key technology of increasing the reliability, testability, maintainability and supportability of missile weapon system. Doubtless, the higher requirements are put forward to the system testability ...


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Educational Resources on System Prognostics And Health Management (phm)

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IEEE-USA E-Books

  • Prognostics and Health Management (PHM) System requirements and validation

    This paper based on four key abilities of the Prognostics and Health Management (PHM) System including the abilities of fault detection, fault isolation, fault prognosis and prognosis of the remaining life, analyzes and constructs a framework of the PHM quantitative requirements, and defines the quantitative assessment emphasis of the PHM abilities. Targeting these quantitative requirements and proceeding from the viewpoint of life cycle assessment, this paper presents three methods of the PHM System validation, which are the validation method based on analysis and assessment, the validation method based on simulation (including entire simulation validation and half-entity simulation validation) and the validation method based on experimentation. This paper defines the emphasis on the PHM System analysis and assessment, ascertains the implementary elements and the simulated environmental framework of the PHM System simulated validation and elaborates two central elements of the PHM System experimental validation - the experiment scheme and the experiment technique. This paper provides thoughts and methods to the quantitative validation assessment of the rapidly developing and applying PHM System.

  • Application of PHM Technology in the Design of Tank Fire Control System

    Combining with the process of Prognostics Health Management (PHM), the technology and application of armored vehicle fire control system PHM were discussed. The architecture of the health management system for tank fire control system was researched. According to the information characteristics of tank fire control system, the dual redundant bus transmission technology of FLEXRAY and CAN was applied, and the corresponding software and hardware systems were designed. Through the vehicle test, it is proved that the health management system will be effective for locating the fault, comparing the aim and assisting the soldier training. The data and video collected by this system are convenient for both maintenance and further study as the basic data.

  • Research of prognostics and health management for Aircraft Propulsion System

    Aircraft Propulsion System is a complex system which needs to be detected to make sure the safety of flying and maintain in time. The prognostics and health management (PHM) of aircraft propulsion system is the core of the PHM of whole aircraft. Because of it is considered that the ground surveillance technology is more important than the online PHM, this paper introduces the connotation, functionalities and architecture of prognostics and health management. The function requirement and allocation of the prognostics and health management of aircraft propulsion system is considered to design PHM, in the terms of architecture and functionalities. The integrated prognostics is described and designed. An inference engine is proposed. The designing and the function of integrated diagnosis of Prognostics and Health Management for Aircraft Propulsion System are achieved. And it has great value for engineering applications.

  • The design of the prognostics and health management system for special vehicle

    With the rapid development of sensor technology on vehicles, more and more vehicles are checked from artificial detection to auto monitoring. A great number of real-time data acquired from sensors provides important foundation for PHM application on vehicles. Aiming at the special mining vehicle, it proposes the solution for real-time monitoring, fault diagnosis and health management based on the PHM theory. First, a kind of application service architecture is designed to describe how to implement the special mining vehicle PHM system and meet the needs of fault diagnosis and health management. Second, it describes each service module of the PHM platform system in detail, including inner functions and interaction. Third, it studies and proposes the models and methods of the various service modules, which can be used to implement the goals of the monitoring, diagnosis and health management from the view of the vehicle parameters. Finally, the Special Vehicle PHM System is developed based on the proposed models and methods, which is being successfully used in SanJiang Aerospace Group. The practical application result shows the proposed the design of PHM system can provides the service of fault diagnosis and health management for the special mining vehicles, which has great value for PHM implementation and promotion in the field of vehicles.

  • The system testability design technology for missile weapon system prognostics and health management

    Along with the increase of the level of complexity, integration and intelligence of missile weapon system, prognostics and health management technology (PHM) has gotten more and more attention and application. The technology has become the key technology of increasing the reliability, testability, maintainability and supportability of missile weapon system. Doubtless, the higher requirements are put forward to the system testability design. Based on the prediction and health management needs of the new generation missile weapon system, and on foundation of the existing testability technology and the present situation of missile equipment testability design, system testability design technology for missile weapon system prognostics and health Management is introduced in the paper. The technology considers the testability design of missile weapon system from multidimensional to ensure that testability design indexes meet requirements, and to provide the foundation for PHM design.

  • Application study on prognostics and health management of armored equipment based on wireless sensor networks

    With the rapid development of prognostics and health management (PHM) technologies particularly for armored equipment, the on-line distributed collection and wireless transmission of the monitoring data has become a demanding question for the researchers. Wireless sensor networks (WSNs) provide a newly measure for data acquisition of the PHM system for armored equipment, with its features of small size, simple layout and wireless transmission. This paper discusses the key factors in the design of PHM based on WSNs, proposes the WSNs-based framework and scheme for PHM data transfer focusing on the power transmission assembly of armored equipment, specifies the design of relevant modules and makes suggestions about the future researches.

  • Using failure analysis techniques to identify key information of PHM

    Failure analysis (FA) is a basic and effective method to obtain the physical and failure information of electronic components and circuits. Most of these information can provide many useful evidences for prognostic and system health management (PHM) of electronic products. To obtain these information, many failure analysis techniques are used. This paper focuses on analyzing the relationship between FA techniques and PHM system. To test and verify the availability of the relationship between FA techniques and PHM system, a failure analysis case of an Intelligent Power Module (IPM) is used to study the relationship. This IPM contains six insulated gate bipolar transistors (IGBTs) and there are obvious burnout indications on most of them after failure. With the process of failure analysis, the key information, such as component's structure, sensitive parameters are identified. These results persuasively prove that FA techniques can provide much information to PHM system, including PoF and data-driven methods.

  • Application of large-data-driven PHM technology in satellite test and on-orbit management

    First of all, this paper briefly introduces the current management and use of telemetry data, remote control information, satellite test environment data, space environment data after orbit and so on, which most are produced by satellite test and on-orbit management. Then the software platform for application of the satellite data accessing and monitoring based on the distributed large data management technology is studied. Combined with the existing Prognostic and Health Management (PHM) technology, the Satellite Prognostic and Health Management (S-PHM) system architecture is explored, and how the data in the satellite's life cycle stored in the software platform can be efficiently integrated into the S-PHM system is analyzed too. Finally we hope this could provide support and services for the on-orbit health management of satellites and the design of new satellites.

  • Design and realization of equipment health state evaluation system

    An equipment health state evaluation system (EHSES) composes of a health monitoring system and a health evaluation software system. Design of the system is a key phase of implementing PHM, which has great impact on efficiency and effectiveness of PHM. To this end, the problem related to EHSES designing was studied in this paper, and the system configuration of EHSES was proposed. A general process of EHSES design was presented, where the methods of fault mode effect and criticality analysis (FMECA) and reliability centered maintenance (RCMA) are integrated. Models were developed for evaluating the system in terms of efficiency and benefit of the system implementation. The structure of software system is presented, which mainly consists of five functional modules, including data management, residual life forecast, health state evaluation, maintenance decision-making and system management.

  • Extending advanced failure effects analysis to support Prognostics and Health Management

    Anticipating failure modes and their system-wide symptoms enables the assessment and comparison of conceptual system designs with respect to their likely monitoring requirements. A model-based, qualitative simulation approach has been adopted in the development of a software tool (MADe) to support the Prognostics and Health Management (PHM) of the Joint Strike Fighter.



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