研究了应用线性网络对组合导航多传感器信息进行融合的方法,在此基础上提出了一种神经网络组合导航容错算法。
In this paper, a method of multi-sensor data fusion using neural network in integrated navigation system is given, and then a fault-tolerant algorithm is proposed.
复制状态机方法是实现容错系统的一种通用方法,它复制组件并通过consensus算法协调其交互。
The replicated state machine approach is a general method for implementing fault-tolerant systems by replicating components and coordinating their interaction via consensus algorithms.
因此可以通过复制组件并通过consensus算法协调其交互对其进行扩展,从而以一种更自然、直观的方式提供容错功能。
Therefore it can be extended to provide fault-tolerant capabilities in a very natural and intuitive fashion by replicating components and coordinating their interaction via consensus algorithms.
为了确保容错和高可用性,WebSphereeXtremeScale碎片分布算法确保主碎片和复制碎片绝不会位于同一个容器中。
To ensure fault tolerance and high availability, WebSphere eXtreme Scale shard distribution algorithms ensure that the primary and replica shards are never in the same container.
LotusSametimeV7.5.1利用了更高级的隧道算法,帮助维持更有弹性的、更容错的、更快的服务器连接。
Lotus Sametime V7.5.1 takes advantage of more advanced tunneling algorithms, helping to maintain a more resilient, fault tolerant, and faster connection with the server.
本文介绍了容错重算恢复技术中的向后滚动检查点算法。并针对减少系统开销的问题,提出了在虚拟存贮器中的一种实现方案。
This paper introduce the rollback checkpointing algorithm in the retry-recovery technique. In order to reduce the system overhead, it presents a scheme implementing in the virtual memory.
仿真结果表明,采用这种陀螺构型和故障检测算法,系统可检测较小幅度的软故障,从而获得优良的容错性能。
The simulation results show that the smaller soft faults can be detected and the excellent fault-tolerant performance can be obtained using this gyro configuration and the fault detection algorithm.
文中用作者提出的通用前馈网络和排序学习算法,提出了一种设计具有期望容错域的前向掩蔽联想记忆模型的方法。
A design method of ahead masking associative memory model with expecting fault-tolerant field is proposed by use of the general feed-forward network and sequential learning algorithm given by authors.
研究了具有大量错误结点的超立方体网络中的并行容错路由算法。
Parallel fault tolerant routing algorithms in hypercube networks with a large number of faulty nodes are studied.
在研究并行计算机系统的容错时,自适应路由算法是一个极为重要的研究课题。
In the research of fault tolerant parallel computer systems, adaptive routing algorithm is a very important subject.
基于CAN总线技术完成网络适配器(NCAP)硬件模块、容错协议和优先晋升算法的设计。
On the basis on CAN bus technology, the designs of NCAP hardware module, error-tolerant protocol and priority upgrade algorithm are developed.
基于LIP和RSC的概念,提出了一个有效的超立方体网络单播容错路由算法。
Based on the conception of LIP and RSC, this paper proposed an efficient unicast fault-tolerant routing algorithm for hypercube networks.
研究航迹数据异值识别方法,给出了一种适应于含有大量斑点型异常信息识别的滑动容错辨识算法。
This paper studies the identification of the outliers in trajectory data processing, and provides a fault–tolerant sliding algorithm, which is applied to a series of outliers identification.
研究了蛀洞网络的容错路由问题,提出了一种新的重新路由算法。
The fault - tolerant routing problem in wormhole networks is studied, and a novel rerouting algorithm is presented.
第4章提出“均衡环”和“洞”的概念来提高现有容错路由算法的性能。
The concepts of "Hole" and "Balanced ring" are proposed in Chapter 4 to improve the previous fault tolerant routing algorithms.
并着重分析了消息队列、通讯机制、消息压缩算法、消息持久化方式和容错处理等实现要点。
Furthermore, it analyzed the technical points of message queues, communication mechanism, message compression algorithm, message persistent manner and fault-tolerant processing.
该系统的实现可大大节省用于研究实时容错调度算法的时间和费用。
With the development of this system, the time and cost that spent in the study of real-time scheduling algorithms with fault-tolerance can be reduced.
这种在多处理机环境下并行处理的分布式滤波算法有效地解决了具有多子系统的容错导航系统的实时要求。
The algorithm, which can be parallelly implemented in the environment of multiprocessors, satisfies efficiently realtime requirement of the navigation system with multi-subsystems.
由于实时任务有时间限制性的要求,因此为了防止系统出错而导致的任务失败,在实时任务调度算法中还必须考虑容错问题。
Because the time constraint of the real-time tasks, the scheduling algorithm must incorporate the fault-tolerance technique, for preventing from the task failure under the condition of system faults.
以SISO过程输出环节脉冲型故障为研究对象,建立了过程轨线具有容错功能的滑动容错拟合算法。
A sliding fault tolerant (SFT) algorithm is built for fitting trajectories of a SISO process when some pulse type faults arise from output components of the process.
本文研究了能量约束时,基于非精确计算模型ICM的实时容错调度问题,提出一种使系统性能优化的调度算法。
In this paper, real-time fault tolerant scheduling based on ICM when energy is constrained is investigated, and a new scheduling method is proposed to better the system performance.
本算法在高性能计算机集群MPI环境中并行实现时,采用主从模式设计程序,合理调配各节点的计算负载,并应用容错处理手段,达到了较高的并行效率。
The method was realized in powerful cluster MPI computing environment using master-slave model. Strategies of load relocation on different nodes and fault-tolerance were adopted.
这种基于粗集理论的神经网络模型和学习算法具有学习速度快、容错能力强等特点。
This algorithm based on rough sets and neural network has character of high speed studying and power tolerance.
对基于多容错编码的数据布局的研究受到了广泛的关注,并且出现了一些三容错的布局算法,如HDD1,HDD2等。
Now there are more and more researches on the data placement scheme based on multi-erasure correcting codes such as HDD1, HDD2.
与以往容错调度算法不同的是,此算法是在被动进程复制模式下、适合于异构分布式系统的容错调度算法。
And the algorithms 'complexity is presented. Different from the previous work, the new fault-tolerant process model is based on the passive process replica model.
该算法能同时调度具有容错需求的实时任务和无容错需求的实时任务。
The static scheduling algorithm, a part of hybrid model can schedule tasks with fault tolerant requirements together with those without fault tolerant requirements.
“洞”的提出是为了弥补现有容错路由算法无法容忍凹型故障区域的不足。
To make the exiting routing algorithms tolerate concave fault regions without disabling any healthy nodes, the concept of "Hole" is proposed in this paper.
这部分内容与前面的视频容错编码算法共同构成了一个完整的高鲁棒性的无线视频传输解决方案。
This work together with previous work concerning error resilient video coding, form a complete solution for robust video transmission over wireless channels.
防死锁、增加容错性以及保证服务质量是路由算法设计中值得注意的几个关键问题。
Deadlock freedom, fault tolerance and QoS provision are three important aspects in designing the routing algorithms.
并对如何提高编程速度、缩短程时间,提高可靠性和容错能力进行了详细的论述。同时给出了智能编程算法、智能编程器的设计方案及其原理图。
Moreover the article discusses the details of how to increase the programming speed and how to decrease the programming time, raise the reliability and fault-tolerant capability.
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