Reconfigurability of the electrical network in a shipboard power system (SPS) after its failure is central to the restoration of power supply and improves survivability of an SPS. The navigational process creates a ...Reconfigurability of the electrical network in a shipboard power system (SPS) after its failure is central to the restoration of power supply and improves survivability of an SPS. The navigational process creates a sequence of different operating conditions. The priority of some loads differs in changing operating conditions. After analyzing characteristics of typical SPS, a model was developed used a grade III switchboard and an environmental prioritizing agent (EPA) algorithm. This algorithm was chosen as it is logically and physically decentralized as well as multi-agent oriented. The EPA algorithm was used to decide on the dynamic load priority, then it selected the means to best meet the maximum power supply load. The simulation results showed that higher priority loads were the first to be restored. The system satisfied all necessary constraints, demonstrating the effectiveness and validity of the proposed method.展开更多
In this paper, the author reflects the evaluation and appraisal systems for the construction of the characteristic specialty. Guided by the selection of the contents and the path of the construction of the characteris...In this paper, the author reflects the evaluation and appraisal systems for the construction of the characteristic specialty. Guided by the selection of the contents and the path of the construction of the characteristic specialty, from the dimension of reviewing the problems existing in the construction, with the defects of the deliberative evaluation index as the power of the correction, on the foundation of distinguishing the necessity of the construction of the evaluation, the author treats the construction and the innovation as the connotation of the evaluating indexes, refers to the data for the professional evaluation as the reference model, and reconstructs the evaluation systems of the construction of the characteristic specialty.展开更多
In this paper, the author reflects the evaluation and appraisal systems for the construction of the characteristic specialty. Guided by the selection of the contents and the path of the construction of the characteris...In this paper, the author reflects the evaluation and appraisal systems for the construction of the characteristic specialty. Guided by the selection of the contents and the path of the construction of the characteristic specialty, from the dimension of reviewing the problems existing in the construction, with the defects of the deliberative evaluation index as the power of the correction, on the foundation of distinguishing the necessity of the construction of the evaluation, the author u'eats the construction and the innovation as the connotation of the evaluating indexes, refers to the data for the professional evaluation as the reference model, and reconstructs the evaluation systems of the construction of the characteristic specialty.展开更多
Applications can only reach 8 %~15 % of utilization on modern computer systems. There are many obstacles to improving system efficiency. The key root is the conflict between the fixed general computer architecture and...Applications can only reach 8 %~15 % of utilization on modern computer systems. There are many obstacles to improving system efficiency. The key root is the conflict between the fixed general computer architecture and the variable requirements of applications. Proactive reconfigurable computing architecture(PRCA) is proposed to improve computing efficiency. PRCA dynamically constructs an efficient computing architecture for a specific application via reconfigurable technology by perceiving requirements,workload and utilization of computing resources. Proactive decision support system(PDSS),hybrid reconfigurable computing array(HRCA) and reconfigurable interconnect(RIC) are intensively researched as the key technologies. The principles of PRCA have been verified with four applications on a test bed. It is shown that PRCA is feasible and highly efficient.展开更多
SRAM(static random access memory)-based FPGA(field programmable gate array), owing to its large capacity, high performance, and dynamical reconfiguration, has become an attractive platform for So PC(system on programm...SRAM(static random access memory)-based FPGA(field programmable gate array), owing to its large capacity, high performance, and dynamical reconfiguration, has become an attractive platform for So PC(system on programmable chip) development. However, as the configuration memory and logic memory of the SRAM-based FPGA are highly susceptible to SEUs(single-event upsets) in deep space, it is a challenge to design and implement a highly reliable FPGA-based system for spacecraft, and no practical architecture has been proposed. In this paper, a new architecture for a reliable and reconfigurable FPGAbased computer in a highly critical GNC(guidance navigation and control) system is proposed. To mitigate the effect of an SEU on the system, multi-layer reconfiguration and multi-layer TMR(triple module redundancy) techniques are proposed, with a reliable reconfigurable real-time operating system(Space OS) managing the system level fault tolerance of the computer in the architecture. The proposed architecture for the reconfigurable FPGA-based computer has been implemented with COTS(commercial off the shelf) FPGA and has firstly been applied to the GNC system of a circumlunar return and reentry flight vehicle. The in-orbit results show that the proposed architecture is capable of meeting the requirements of high reliability and high availability, and can provide the expressive varying functionality and runtime flexibility for an FPGA-based GNC computer in deep space.展开更多
基金Supported by the National Natural Science Foundation of China under Grant No.60704004the Fundamental Research Funds for the Central University under Grant No.HEUCFT1005
文摘Reconfigurability of the electrical network in a shipboard power system (SPS) after its failure is central to the restoration of power supply and improves survivability of an SPS. The navigational process creates a sequence of different operating conditions. The priority of some loads differs in changing operating conditions. After analyzing characteristics of typical SPS, a model was developed used a grade III switchboard and an environmental prioritizing agent (EPA) algorithm. This algorithm was chosen as it is logically and physically decentralized as well as multi-agent oriented. The EPA algorithm was used to decide on the dynamic load priority, then it selected the means to best meet the maximum power supply load. The simulation results showed that higher priority loads were the first to be restored. The system satisfied all necessary constraints, demonstrating the effectiveness and validity of the proposed method.
文摘In this paper, the author reflects the evaluation and appraisal systems for the construction of the characteristic specialty. Guided by the selection of the contents and the path of the construction of the characteristic specialty, from the dimension of reviewing the problems existing in the construction, with the defects of the deliberative evaluation index as the power of the correction, on the foundation of distinguishing the necessity of the construction of the evaluation, the author treats the construction and the innovation as the connotation of the evaluating indexes, refers to the data for the professional evaluation as the reference model, and reconstructs the evaluation systems of the construction of the characteristic specialty.
文摘In this paper, the author reflects the evaluation and appraisal systems for the construction of the characteristic specialty. Guided by the selection of the contents and the path of the construction of the characteristic specialty, from the dimension of reviewing the problems existing in the construction, with the defects of the deliberative evaluation index as the power of the correction, on the foundation of distinguishing the necessity of the construction of the evaluation, the author u'eats the construction and the innovation as the connotation of the evaluating indexes, refers to the data for the professional evaluation as the reference model, and reconstructs the evaluation systems of the construction of the characteristic specialty.
文摘Applications can only reach 8 %~15 % of utilization on modern computer systems. There are many obstacles to improving system efficiency. The key root is the conflict between the fixed general computer architecture and the variable requirements of applications. Proactive reconfigurable computing architecture(PRCA) is proposed to improve computing efficiency. PRCA dynamically constructs an efficient computing architecture for a specific application via reconfigurable technology by perceiving requirements,workload and utilization of computing resources. Proactive decision support system(PDSS),hybrid reconfigurable computing array(HRCA) and reconfigurable interconnect(RIC) are intensively researched as the key technologies. The principles of PRCA have been verified with four applications on a test bed. It is shown that PRCA is feasible and highly efficient.
基金supported by the Major Special Projects on National Medium and Long-term Science and Technology Development Planning
文摘SRAM(static random access memory)-based FPGA(field programmable gate array), owing to its large capacity, high performance, and dynamical reconfiguration, has become an attractive platform for So PC(system on programmable chip) development. However, as the configuration memory and logic memory of the SRAM-based FPGA are highly susceptible to SEUs(single-event upsets) in deep space, it is a challenge to design and implement a highly reliable FPGA-based system for spacecraft, and no practical architecture has been proposed. In this paper, a new architecture for a reliable and reconfigurable FPGAbased computer in a highly critical GNC(guidance navigation and control) system is proposed. To mitigate the effect of an SEU on the system, multi-layer reconfiguration and multi-layer TMR(triple module redundancy) techniques are proposed, with a reliable reconfigurable real-time operating system(Space OS) managing the system level fault tolerance of the computer in the architecture. The proposed architecture for the reconfigurable FPGA-based computer has been implemented with COTS(commercial off the shelf) FPGA and has firstly been applied to the GNC system of a circumlunar return and reentry flight vehicle. The in-orbit results show that the proposed architecture is capable of meeting the requirements of high reliability and high availability, and can provide the expressive varying functionality and runtime flexibility for an FPGA-based GNC computer in deep space.
