Your search keyword '"Shilei Lu"' showing total 3 results

1. Analysis of the Main Factors Affecting the Current Density and Temperature of Electromagnetic Rail

Author

Shuo, Ma, Shilei, Lu, Hongting, Ma, Fan, Yang, Aobing, Nong, and Dandan, Ma

Abstract

In order to study the influence of different factors on the electromagnetic rail temperature, under the condition of control variables, the variation of current density and temperature in the rail are simulated by COMSOL simulation software under different input current, current waveform, rail geometry, and material. The calculation results show that the peak value of input current has little effect on the distribution of rail current density and temperature, but has a significant effect on the maximum current density and maximum temperature rise on the rail. Shortening the rising time of the input current can quickly increase the armature speed and the rail temperature, but the change of current waveform has little effect on the maximum current density, maximum temperature, and friction heat. Rail conductivity, height, width, armature diameter, and length are negatively correlated with rail maximum current density and maximum temperature. The research conclusion has a certain guiding significance for optimizing the structure design of electromagnetic rail gun and controlling electromagnetic launch conditions.

Published

2022

2. An Efficient Complex Event Processing Algorithm based on Multipattern Sharing for Massive Manufacturing Event Streams.

Author

Jianhua Wang, Yubin Lan, Shilei Lu, and Lianglun Cheng

Subjects

REMANUFACTURING, RIVERS, MANUFACTURING processes, SHARING, ALGORITHMS

Abstract

Quickly picking up some valuable information from massive manufacturing event stream usually faces with the problem of long detection time, high memory consumption and low detection efficiency due to its stream characteristics of large volume, high velocity, many variety and small value. Aiming to solve the problem above for the current complex event processing methods because of not sharing detection during the detecting process for massive manufacturing event streams, an efficient complex event processing method based on multipattern sharing is presented in this paper. The achievement of this paper lies that a multipattern sharing technology is successfully used to realize the quick detection of complex event for massive manufacturing event streams. Specially, in our scheme, we firstly use pattern sharing technology to merge all the same prefix, suffix, or subpattern that existed in single pattern complex event detection models into a multiple pattern complex event detection model, then we use the new detection model to realize the quick detection for complex events from massive manufacturing event streams, as a result, our scheme can effectively solve the problems above by reducing lots of redundant building, storing, searching and calculating operations with pattern sharing technology. At the end of this paper, we use some simulation experiments to prove that our proposed multiple pattern processing scheme outperforms some general processing methods in current as a whole. [ABSTRACT FROM AUTHOR]

Published

2019

3. An Efficient Complex Event Processing Algorithm based on INFA-HTS for Out-of-order RFID Event Streams.

Author

Jianhua Wang, Tao Wang, Lianglun Cheng, and Shilei Lu

Subjects

EVENT processing (Computer science), ALGORITHMS, RADIO frequency identification systems, ENERGY consumption, FINITE state machines

Abstract

With the aim of solving the problems of long processing times, high memory consumption and low event throughput in the current processing approaches in out-of-order RFID event streams, an efficient complex event processing method based on INFA-HTS (Improved Nondeterministic Finite Automaton-Hash Table Structure) is presented in this paper. The contribution of this paper lies in the fact that we use INFA and HTS to successfully realize the detection of complex events for out-of-order RFID event streams. Specifically, in our scheme, to detect the disorder of out-of-order event streams, we expand the traditional NFA model into a new INFA model to capture the related RFID primitive events from the out-of-order event stream. To high-efficiently manage the large intermediate capturing results, we use the HTS to store and process them. As a result, these problems in the existing methods can be effectively solved by our scheme. The simulation results of our experiments show that our proposed method in this paper outperforms some of the current general processing approaches used to process out-of-order RFID event streams. [ABSTRACT FROM AUTHOR]

Published

2016