Fault-tolerant strategy selection method based on markov Chain in fog environment

A strategy and environment technology, applied in hardware redundancy for data error detection, ICT adaptation, generation of response errors, etc., can solve dynamic changes in reliability, waste of storage space and bandwidth resources, storage, computing and communication Weak ability and other problems to achieve the effect of improving accuracy and reliability

Active Publication Date: 2022-08-09
广东致盛技术有限公司
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Problems solved by technology

The second modeling tool based on Petri Net modeling has the limitation that the model is easy to become very large and cannot reflect the content of time
The above two fault-tolerant strategies based on preprocessing have a certain effect on promoting service reliability. However, because the real-time tasks processed by fog nodes are often simpler than other distributed systems such as cloud nodes, and their storage, computing and communication capabilities are lower than those of cloud nodes. The nodes are weak, and important data and processes need to be saved to the cloud. Multiple backups of task data and processes will cause waste of storage space and bandwidth resources. At the same time, the fog system also has the problem of complex state changes and dynamic changes in reliability

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  • Fault-tolerant strategy selection method based on markov Chain in fog environment
  • Fault-tolerant strategy selection method based on markov Chain in fog environment
  • Fault-tolerant strategy selection method based on markov Chain in fog environment

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[0046] In order to make the objectives, technical solutions and advantages of the present invention clearer, the present invention will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are only used to explain the present invention, but not to limit the present invention.

[0047] Therefore, the present invention proposes a fault-tolerant strategy selection method based on Markov Chain in a fog environment: using dynamic distribution parameters to analyze the real-time reliability of a single fog node; Time obeys the exponential distribution. The continuous-time Markov Chain is used to model the state transition of the fog system, and the probability of the fog system's stable state is analyzed through the Chapman-Kolmogorov equation. A low-cost fault-tolerant strategy selection algorithm is designed based on the probability of the fog system's stable state. ...

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Abstract

The present invention is applicable to the technical field of fog computing, and provides a Markov Chain-based fault-tolerant strategy selection method in a fog environment. The method specifically includes the following steps: S1. For a fog system with N fog nodes, predict that there are i in the fog system. The steady-state probability π of a fog node failure i , i takes values ​​0, 1, 2,...N in turn; S2, detect π i Whether it is greater than the preset value, if the detection result is yes, the fault-tolerant strategy with the lowest comprehensive cost is output. The comprehensive cost is evaluated based on the price and time of the fault-tolerant strategy. Based on the steady-state probability of the fog system, a low-cost fault-tolerant strategy is selected, taking into account the time and cost of the fault-tolerant strategy, and improving the reliability of fog computing.

Description

technical field [0001] The invention belongs to the field of machine learning and distributed computing, and provides a Markov Chain-based fault-tolerant strategy selection method in a fog environment. Background technique [0002] In recent years, as people's tolerance for service delays has been decreasing, Cisco (Cisco) proposed fog computing technology in 2011 to reduce instant service delays. As a new computing mode, fog computing has rapidly become a research hotspot in academia and industry due to its advantages of low latency and high scalability. Among them, how to formulate fault-tolerant strategies to improve the reliability of fog computing technology has become an important research topic for many scholars. Existing fog computing technologies mainly serve new latency-sensitive network applications such as the Internet of Things, smart transportation, smart grid, virtual / augmented reality, and unmanned driving. Among them, fog nodes are mainly deployed near sen...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F11/00G06F11/20G06F9/455
CPCG06F11/008G06F11/203G06F9/45558G06F2009/4557Y02A90/10
Inventor 张佩云徐鸽陈浩亮谢荣见孙鋆哲赵启熙汪丽翠李晨曦
Owner 广东致盛技术有限公司
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