lab3余涛201308030311

Cultural and Religious Studies, May 2023, Vol. 11, No. 5, 241-245doi: 10.17265/2328-2177/2023.05.005 The Dissemination of Intangible Cultural Heritage AlongBeijing-Hangzhou Canal Based on Encoding/Decoding Theory *TAN Hao, XIANYU JingBeijing Union University, Beijing, ChinaThe Beijing-Hangzhou Grand Canal carries a wealth of Chinese cultural symbols, showing the lifestyle and wisdomof working people through ages. The preservation and inheritance of its intangible cultural heritage can help to evokecultural memories and cultural identification of the Canal and build cultural confidence. This paper applies StuartHall’s encoding/decoding theory to analyze the dissemination of intangible heritage tourism culture. On the basis ofa practical study of the villages along the Beijing-Hangzhou Grand Canal, this paper analyses the problems in thetransmission of its intangible cultural heritage and proposes specific methods to solve them in four processes,encoding, decoding, communication, and secondary encoding, in order to propose references for the transmission ofintangible heritage culture at home and abroad.Keywords: dissemination, encoding, decoding, intangible cultural heritageIntroductionThe Beijing-Hangzhou Grand Canal was built during the Spring and Autumn Period, and it has a history of more than 2,500 years. With a total length of about 1,797 kilometers, it is a historical treasure that is closely related to the lifestyle of working people and traditional Chinese culture, including traditional music, traditional dance, traditional painting, traditional skills, etc. For many reasons, the Canal’s intangible cultural heritage (ICH) has not yet been effectively inherited and disseminated, and it is also in danger of being lost. Stuart Ha ll’s encoding/decoding theory model is able to break away from the shackles of subject-object linear transmission of culture communication, and view the process of ICH transmission from the perspective of encoding-communication-decoding. The study of the ICH tourism culture circulation through encoding and decoding theory has both practical and historical significance.Method for StudyStuart Hall argues that discourse is like a commodity that goes through the four stages of production, circulation, consumption, and reproduction described by Marxism (Chen & Lin, 2014), and suggests that individuals may resist or negotiate on the dissemination of an ideology (Evan, 2015). China is rich in ICH, but if it is not disseminated, the preservation of heritage would become completely impotent. As Foucault put it, “criticism” is one of the circulation mechanisms for knowledge to release its power (Claudia & Donna, 2021). * This paper is supported by the National Social Science Fund Project (No. 20BH151).TAN Hao, post-graduate student, College of Applied Science and Technology of Beijing Union University, Beijing, China. XIANYU Jing (corresponding author), Ph.D., Associate Professor, Tourism College of Beijing Union University, Beijing, China.DA VID PUBLISHINGDTHE DISSEMINATION OF INTANGIBLE CULTURAL HERITAGE242Wu (2007) points out that cultural communication is both a social phenomenon and a fundamental part of tourism destination marketing, and the transmission of information is also an important form of tourism service.The transmission of ICH tourism culture goes through three stages: encoding, communication, and decoding. The encoding process refers to the production of ICH tourism products, which emphasizes modern artistic processing while preserving the authenticity of ICH and presenting in a way that is pleasing to the audience. The Grand Canal ICH is not only an indispensable part of canal cultural heritage, but also a potential tourism resource for tourist destination development (Zhang, 2020). The communication process of ICH is to disseminate the encoded ICH information to the audience via various forms. In this process, the discourse of ICH is not a closed system, but consists of topics, treatments, issues, and events (Zou, 2014). The decoding process of ICH means that after the audience receives the ICH discourse, they decode the ICH elements in it according to their own cognition. In view of the decoders’different attitudes when they are decoding the symbolic meanings, Hall applies three scenarios to describe the three positions of the audience in the decoding process, namely, the dominant position, the negotiated position, and the confrontational position. The decoding process of ICH requires mutual feedback between encoding and decoding processes, in order to achieve good communication effects, and the secondary encoding is needed when necessary.FindingsLack of EncoderAt present, most of villages of the Grand Canal have not paid much attention to the cultivation of the ICH inheritors, and some masters of art have passed away, the problem of their aging being serious, and some kinds of ICH are facing the dilemma of no one to encode it, such as Work Song of Boatmen, Woodcut New Year Pictures. Fewer ICH tourism products are encoded for international tourists, resulting in the weakness of international dissemination. In encoding stage, important issues that need to be solved are how to keep the authenticity of traditional ICH while keeping up with the times, and how to extract potential ICH in each section of the Beijing-Hangzhou Grand Canal that can show the geographical characteristics and highlight the uniqueness of the Grand Canal ICH.Being Poor in Communication EffectThe current dissemination of the Canal ICH is facing the problems of monotonous communication channel and weak interaction with the audience. According to the investigation, three reasons lead to these problems: Firstly, there is a lack of derivative products from the reprocessing and re-creation of ICH elements in tourism products or tourist attractions, resulting in tourists’ unclear concept of intangible cultural heritage (Haleh, Mohammad, & Neda, 2019) and lack of proper ways to deeply understand ICH elements. Secondly, most of the ICH products are not targeted for different groups or through various channels when they are sold or exhibited, resulting in the weakness of dissemination. Third, there are few channels for communication and interaction between the encoders and decoders, and the weak interaction between decoders and encoders may lead to the insufficient understanding of ICH elements by decoders. The communication channel of ICH for the international public still remains in the traditional way of TV media, so it is difficult for the international public to receive the symbols containing Chinese ICH.Decoders’ Hardness to Stand in Dominant PositionFrom the perspective of decoding effect, the decoding of ICH in tourism products or tourism performancesTHE DISSEMINATION OF INTANGIBLE CULTURAL HERITAGE243in China generally suffers from the problem that the audience decoding the ICH is difficult to be in a dominant position (Guo & Wang, 2019). The main reason is that most kinds of ICH have its unique regional characteristics, but the audience lacks a certain understanding of ICH with local characteristics due to the limitations of geographic space and decoders’ background knowledge. This will lead to deviations in their understanding of the connotations and values expressed by ICH elements in tourism products or performances. Secondly, the encoder will artistically create the ICH elements in tourism products or performances, while the decoder has a subjective understanding of the ICH elements in tourism products or performances due to their prior knowledge level and acceptability, which would lead to unsatisfactory communication effect. Thirdly, the audience’s understanding of ICH is not fed back to the encoder through effective channels, or the encoder does not pay enough attention to the feedback and lacks targeted secondary encoding, which makes it difficult for the audience to be in a dominant position in the decoding process.SolutionsEncoding: Inherit and Innovate Encoding Models, Educating EncoderIn this process, we should enhance the innovation of the encoding mode for ICH tourism products.The first is to innovate the expression of the theme symbol of tourism products. Although ICH itself is intangible, it can be transmitted by means of physical ICH cultural products, which requires the encoder to have an objective and accurate understanding of the ICH involved in the product and avoid the subjective elements being blindly planted into it by the encoder.Second, we should use symbols carrying meaning to transmit these codes innovatively. In the encoding process of ICH tourism products, the encoder should first clarify the thematic direction of the products, combine various carriers for transmitting symbols such as visual transmission or audio transmission, incorporate emerging technologies and equipment into the encoding process, and encode ICH suitable for different types of people, so as to achieve the best effect when transmitting symbols. Focusing on the excavation of potential ICH, the production process of ICH products can help to awaken the non-physical cultural memory of tourists and evoke their cultural memory and cultural identity. In this process, it is more important to excavate the discourse of potential ICH than simply disseminate the textual symbols.In addition, there is a need to focus on the cultivation and education of intangible heritage inheritors. Most living ICH masters are old, and if their skills are not inherited, it will cause irreparable loss of intangible cultural heritage (Qi, 2006). The cooperation with local secondary schools or universities to set up special courses on intangible heritage culture will promote the inheritance of ICH.In addition to hiring traditional talents of ICH, attention should be paid to finding modern talents who master emerging technologies and understand the frontiers of culture so as to achieve the integration of traditional culture and modern technology at the encoding process. It can systematically cultivate multi-talented ICH encoders who are dialectically unified between tradition and modernity, thus highlighting the core of ICH at the encoding stage. Communication: Broaden Communication Channels & Refine Communication Content The ways for ICH dissemination are still traditional and backward at present, and we should try to present and spread brilliant ICH of the Canal. Performing a series of arts activities and festivals in tourist destinations and uploading them to the Internet platform can surely evoke people’s cultural memories and make them identify with the ICH. In this process, attention should be paid to breaking the barrier between different regions, andTHE DISSEMINATION OF INTANGIBLE CULTURAL HERITAGE244harmonizing the relationship between regional characteristics of ICH and internationalization of its content to disseminate ICH abroad. We can also make documentary or online videos, spread coded cultural symbols on media platforms for foreigners, and concentrate on the follow-up work after the dissemination. To avoid aberrant decoding, it is important to consider what is missed or may misguide people in the description of ICH during dissemination, as mass travelers mainly rely on advertisements or brochures to learn about their tourist destinations, and they do not realize that they may subvert the stereotypes. Therefore, the description of ICH is equally crucial in this context (Ira, 1993).Decoding: Increase the Depth of Traveler Participation & Prevent Decoding Mismatches In order to achieve a better circulation effect, the audience’s decoding of the ICH should be oriented to the dominant position. In the dominant position, the decoder can accurately understand the meaning expressed by the Grand Canal ICH performance encoder and can maintain the same understanding of ICH with the encoder. The authenticity of the ICH performance connects encoder and tourists in their spirit, thus seeking deep integration and promoting the cultural identification of the tourists (Miguel, 2008). Experiential ICH tourism allows decoders to participate in ICH tourism actively, shifting decoders in negotiated position or confrontational position to the dominant position. At present, the participatory and experiential aspects of canal ICH tourism products are generally not well enough, tourists basically appreciating them passively. Therefore, we should promote the development of experiential ICH tourism products to integrate touring, entertainment, experience, and learning through engagement, connection, and creation, so as to enhance the participation, interaction, knowledge, and fun of the Grand Canal ICH tourism process and enter into a shared ritualized field (Han, 2014). Secondary Encoding: Collect Feedback & Enhance Consumer StickinessSecondary encoding seems to be a feedback process that may be neglected by the encoders at the end of the circulation, but it is actually significant. In the ICH tourism circulation, some traditional customs of the Canal like Fisherman’s Wedding Ceremony or Sacrifice to the River God are quite ritualistic but it may bring a sense of distance and strangeness to the decoder at the same time. ICH tourism should not only focus on the mode of transmission, but also on the interaction and the feedback of audience (Zhou & Zhang, 2022). Encoders need to focus on post-communication feedback when facing mismatch that occurs between the encoder and the decoder, so as to improve the quality of secondary encoding. In the late stage of circulation, establishing a reasonable feedback mechanism is an urgent issue to be solved, and only when the feedback is really received by the encoder can the secondary encoding be improved. Before the ICH performance, the encoder can design a questionnaire according to its theme, and when the audience enters, the staff distributes the questionnaire to them and collects the feedback from the audience, and then carefully sorts out the feedback. Then the encoders reflect on the results and transform the feedback into the ideas of secondary encoding. Through some new and popular ways such as social media, surveys, or prize quizzes, to keep abreast of the audience’s thoughts and preferences for ICH products. In this way, it is possible to verify the dissemination of encoder’s pre-determined meaning of the ICH symbols after the communication process. So that the understanding of the decoder will be consistent with the encoder’s original intention, and the decoder is always in the dominant position, and thus the dissemination effect can be maximized. The secondary encoding experience of other cultural products also can be used for reference in the development of derivatives and enhancement of consumers’ stickiness. On the basis of catering to decoders’preferences, combining with aspects of decoders’ daily life and online platforms, we can disseminate the encoded ICH symbols into all aspects of decoder’s life.THE DISSEMINATION OF INTANGIBLE CULTURAL HERITAGE245ConclusionThe Grand Canal culture has a long history, and various kinds of ICH with regional characteristics record the way of Chinese lifestyle for thousands of years. By analyzing the dissemination of ICH along the Beijing-Hangzhou Grand Canal with Stuart Hall’s encoding/decoding theory, we can find that the transmission of its ICH is suffering from the lack of encoder, poor communication effect, and the decoders’ hardness to stand in the dominant position. In the encoding stage, ICH circulation should focus on the inheritance, the cultivation of ICH encoders, and the encoding of tourism cultural products. In the communication stage, it should broaden the dissemination channels and refine the contents. In the decoding stage, it should increase the participation of decoders to prevent decoding mismatch and collect feedback from decoders to improve the secondary encoding quality. We should improve the universality and accuracy of ICH in terms of encoding, communication, decoding, and secondary encoding with the help of its immaterial attributes, use modern technology and diversified ways to inherit ICH with its historical connotation, so that decoders are in the dominant position to make ICH of the Canal better inherited and developed.ReferencesChen, L. D., & Lin, Y. F. (2014). Inheritance and innovation: A study of Stuart Hall’s masterpiece Encoding/Decoding. Journalism & Communication, 21(8), 99-112.Claudia, M., & Donna, D. (2021). The construction of intangible cultural heritage: A Foucauldian critique. Annals of Tourism Research, 89(1), 1-11.Evan, L. K. (2015). Using social scientific criteria to evaluate cultural theories: Encoding/decoding theory. KOME, 22(1), 10-26. Guo, X. R., & Wang, N. (2019). Research on the strategy for video transmission of intangible cultural heritage in China from the perspective of coding and decoding theory—Case study of the story of Yanxi Palace. Cultural Industry Research, 2(1), 123-134.Haleh, M., Mohammad, M., & Neda, T. F. (2019). A study on t ourists’ tendency toward intangible cultural heritage as an attraction (Case study: Isfahan, Iran). City, Culture and Society, 17(1), 54-60.Han, B. Y. (2014). The development model of Rizhao intangible cultural heritage from the perspective of tourism. China Journal of Commerce, 20(1), 184-185.Ira, S. (1993). Marketing authenticity in third world countries. Annals of Tourism Research, 20(1), 302-318.Miguel, V. G. (2008). Intangible heritage tourism and identity. Tourism Management, 39(1), 807-810.Qi, Q. F. (2006). Study on the transmission and inheritors in the protection of intangible cultural heritage. Journal of Northwestern Ethnic Studies, 3(1), 114-123.Wu, N. (2007). Information dissemination: A key link in the marketing and service of tourist destinations. Tourism Tribune, 10(1), 67-70.Zhang, B. F. (2020). Study on the interactive model of intangible cultural heritage protection and tourism development in Beijing-Hangzhou Canal. Gansu Theory Research, 1(1), 103-109.Zhou, K., & Zhang, Y. (2022). The function and path of culture communication of intangible cultural heritage tourism: A perspective from the ritual view. Journal of Shandong University (Philosophy and Social Sciences), 4(1), 40-46.Zou, W. H. (2014). A study of Stuart Hall’s theory of culture. Beijing: China Social Sciences Press.。

第48卷第3期Vol.48No.3红外与激光工程Infrared and Laser Engineering2019年3月Mar.2019基片式多纵模拍频光纤激光位移传感器余涛，郭瑜，倪屹(江南大学物联网工程学院，江苏无锡214122)摘要：提出并设计了一种基片式多纵模拍频光纤激光位移传感器，利用谐振腔中不同模式之间的拍频信号实现传感，可以监测物体微小位移。

该传感器采用应变传感基片结构，有效对光纤进行保护，并能缓冲拉伸和压缩带来的形变，增加传感器灵敏度。

同时在原有多纵模拍频光纤激光器的基础上进行了改进，使系统获得更高的信噪比。

阐述了多纵模拍频传感器的测量原理，设计制作应变片并搭建实验平台。

实验选取4个不同拍频信号作为传感信号，实验数据表明：在0~30mm范围内，频率漂移基本呈线性变化，线性拟合度最高可以达到0.9994,这与理论推导结果一致。

由于拉伸平台的拉伸精度限制，该传感器的测量精度为lxl0-!mm o经过反复实验表明，该传感器具有良好的稳定性。

关键词：位移传感器；应变传感基片；多纵模；拍频信号中图分类号：TN253;TP212文献标志码：A DOI：10.3788/IRLA201948.0322(X)1Multi longitudinal mode beat frequency fiber laserdisplacement sensor based on substrateYu Tao,Guo Yu.Ni Yi(School of Internet of Things Engineering,Jiangnan University,Wuxi214122,China)Abstract:A kind of optical fiber laser displacement sensor with multi longitudinal mode beat frequency was proposed and designed.The sensor could be realized by using the beat frequency signal between different modes in the resonator to monitor the small displacement of the object.The sensor used a strain sensing substrate structure to effectively protect the optical fiber and buffer the deformation caused by stretching and compression,and increase the sensitivity of the sensor.At the same time,the original multi longitudinal mode beat fiber laser was improved,which made the system get higher signal-to-noise ratio. The measuring principle of multi longitudinal mode beat sensor was described,and strain gage was designed and built.In the experiment,four different beat frequency signals were selected as sensing signals.The experimental data show that the frequency shift is basically linear in the range of0to30mm, and the highest linear fitting degree can reach0.9994,which is in agreement with the theoretical results. Because the precision of the stretching platform is limited,the measuring accuracy of the sensor is1x10-3mm.Repeated experiments show that the sensor has good stability.Key words:displacement sensor;strain sensing substrate;multi longitudinal mode;beat frequency signal收稿日期：2018-10-10；修订日期：2018-11-25基金项目：国家自然科学基金青年科学基金(61701195)；中央高校基础科研经费(JUSRP11740)；江苏省自然科学基金青年基金(BK20160190)作者简介：余涛(1993-),男，硕士生，主要从事光纤光栅传感方面的研究与应用。

Format String Vulnerability Lab 学号：SA11011083 姓名：汪于波一、发现格式字符串漏洞实验中给出了一个程序，你需要输入一些字符存放在缓冲区，之后这些字符将被printf 函数输出。

但是这个程序存在一些漏洞。

通过所提供的源代码去分析程序的漏洞，并实现：A.让程序崩溃B.输出secret[1]的值C.修改secret[1]的值D.修改secret[1]的值为一个预设的值解：A.程序输出时采用printf(user_input)，这样由于user_input是用户自行输入的，只要在user_input包含多个%s，那么printf在输出时就很可能遇到（1）引用一个包含非法值的指针（当然包括空指针）；（2）未得到正确的权限的时候进行访问，例如往只读的内存地址写数据；（3）内存越界（数组越界，变量类型不一致等）这些问题，这样程序就会因为段错误崩溃。

如图1-1所示。

B.首先我们用gdb调试程序，查看程序在运行时的堆栈分配情况。

我们在printf函数处设置断点。

输入1给int_input，A0A0A0A0A0A0A0A0（共16个字符）给user_input。

当程序调用printf(user_input)时，因断点停下。

查看堆栈数据，printf在main函数的返回地址为0x080485d8，其后面一个为数据0xbfd5b9fc表示printf的第一个参数（即user_input的地址），如图1-2所示。

紧接着后面是临时变量的a，b，c，d的空间。

我们看到直到0xbfd5b9f4才出现int_input，值为1（输入的）；接着后面是secret，里面存放的为指针，值为0x09eba008；接着后面是16个字节的A0A0A0A0A0A0A0A0。

图1-1图1-3图1-2通过上面的调试，我们知道，printf(user_input)函数调用时，第一个参数与int_input相距16个字节。

实 验 技 术 与 管 理 第36卷 第7期 2019年7月Experimental Technology and Management Vol.36 No.7 Jul. 2019ISSN 1002-4956 CN11-2034/TDOI: 10.16791/ki.sjg.2019.07.061世界大学实验室美国哥伦比亚大学实验室安全管理模式与启示余 涛1,3，杨忠芳2,3（1. 中国地质大学（北京） 数理学院，北京 100083；2. 中国地质大学（北京） 地球科学与资源学院，北京 100083；3. 自然资源部生态地球化学重点实验室，北京 100037）摘 要：面对高校实验室事故的频发与安全问题凸显现象，如何有效加强实验室安全管理对新时期高校发展具有重要的现实意义。

通过对美国哥伦比亚大学的实验室安全管理体系的研究，从该校实验室安全管理的环境健康安全体系、人员结构、学校层面技术与管理支撑等方面做了深入的分析和介绍，为我国高校实验室安全管理工作提供一定借鉴。

关键词：安全管理；EHS 体系；高校实验室中图分类号：X 921 文献标识码：A 文章编号：1002-4956(2019)07-0248-05Laboratory safety management system of ColumbiaUniversity in USA and its enlightenmentYU Tao 1,3, YANG Zhongfang 2,3(1.School of Science, China University of Geoscience, Beijing 100083, China;2. School of Earth Science and Resources, China University of Geoscience, Beijing 100083, China.3. Key Laboratory of Eco-chemistry of Ministry of Natural Resources, Beijing 100037, China)Abstract: In face of the frequent occurrence of laboratory accidents and the prominent phenomenon of safety problems in colleges and universities, how to effectively strengthen laboratory safety management has important practical significance for the development of colleges and universities in the new era. Through the study of laboratory safety management system of Columbia University in USA, this paper makes a thorough analysis and introduction from the aspects of environmental health safety system, personnel structure, school level technology and management support of laboratory safety management in Columbia University, so as to provide some reference for laboratory safety management work in Chinese colleges and universities. Key words: safety management; EHS system; university laboratory实验室安全切实影响高校的和谐稳定与持续发展，同时与高校全体师生员工的生命健康、财产安全息息相关，对高校乃至全社会的安全和稳定都有重要意义[1-5]。

1 引言深度学习广泛应用于图像识别、语音识别、自然语言处理等领域。

一些机器学习的任务需要复杂的数据预处理过程,人工提取特征,深度学习自动提取特征的能力大大简化了数据 预处理的过程,尤其是对于图像处理,提取的特征具有明显的含义。

卷积神经网络是一种深度学习的架构,网络的参数可以通过无监督学习训练。

本文描述的方法并不直接训练卷积神经网络,而是通过稀疏自编码器无监督学习得到的权值矩阵作为稀疏自编码器的卷积滤波器,从而间接确定卷积神经网络的参数。

2 稀疏自编码器自动编码器是一种无监督学习的神经网络结构。

网络结构如图1所示,分为输入层、隐 层、输出层。

隐层也称为特征提取层,自编码器的正向传导过程分为编码和解码。

编码过程即输入数据x 经过线性加和以及偏置得到z 2=W 1x+b 1,经过S型函数f(x)(比如sigmoid函数)得到隐层激活值a 2=f(z 2)。

解码过程即隐层激活值经过线性加和以及非线性变换得到输出层激活值h W;b =(W 2a 2+b 2)。

自编码器的训练目标是让输出层和输入层之间的误差尽量小,即试图学习一个恒等函数h W ;b (x)=x,。

若训练结果较为理想,x 经正向传导后,输出值和x 相似,即可认为隐层是对输入x 的一个理想的编码,通过对隐层节点解码能够较好地恢复x 。

对隐层节点施加某些约束,比如让隐层节点个数较少,那么为了解码能够较好地恢复输入数据,隐层节点就必须捕捉输入数据的主要特性,从而达到提取特征的目的。

稀疏自编码器通过在代价函数中加入稀疏性惩罚项来约束隐层节点对所有训练样本的平均激活值,某个隐层节点只有在特定的输入下才能获得较大的激活值,而对于其他输入则激活值很低,那么该隐层节点就对特定的输入具有代表性,特定的输入就是该隐层节点提取的特征。

3 手写体数字图像识别本文使用的数据是M N I S T 数据库,训练集数据包含了60000个20×20的手写体数字图片和对应的标签,测试集数据包含了10000个20×20的手写体数字图片和对应的标签。

GPS技术在金寨1:5万重力测量项目中的实际应用余 涛（安徽省地球物理地球化学勘查技术院，安徽　合肥　２３００２２）摘 要：目前随着我国科学技术的不断发展，ＧＰＳ测量技术在地质勘测中的应用也越来越广泛。

本文主要阐述的是ＧＰＳ测量技术在金寨重力测量中的应用。

关键词：ＧＰＳ；控制测量；水准测量；ＲＴＫ中图分类号：Ｐ２２８．４ 文献标识码：Ａ 文章编号：１００２－５０６５（２０１８）１５－０２７６－２Practical application of GPS technology in Jinzhai 1:5 million gravity survey projectYU Tao（Ａｎｈｕｉ　Ｉｎｓｔｉｔｕｔｅ　ｏｆ　ｇｅｏｐｈｙｓｉｃａｌ　ａｎｄ　ｇｅｏｃｈｅｍｉｃａｌ　ｅｘｐｌｏｒａｔｉｏｎ　ｔｅｃｈｎｏｌｏｇｙ，　Ｈｅｆｅｉ　２３００２２，Ｃｈｉｎａ）Abstract: Ａｔ　ｐｒｅｓｅｎｔ，　ｗｉｔｈ　ｔｈｅ　ｃｏｎｔｉｎｕｏｕｓ　ｄｅｖｅｌｏｐｍｅｎｔ　ｏｆ　ｓｃｉｅｎｃｅ　ａｎｄ　ｔｅｃｈｎｏｌｏｇｙ　ｉｎ　ｏｕｒ　ｃｏｕｎｔｒｙ，　ｔｈｅ　ａｐｐｌｉｃａｔｉｏｎ　ｏｆ　ＧＰＳ　ｓｕｒｖｅｙ　ｔｅｃｈｎｏｌｏｇｙ　ｉｎ　ｇｅｏｌｏｇｉｃａｌ　ｓｕｒｖｅｙ　ｉｓ　ｍｏｒｅ　ａｎｄ　ｍｏｒｅ　ｅｘｔｅｎｓｉｖｅ．　Ｔｈｉｓ　ｐａｐｅｒ　ｍａｉｎｌｙ　ｄｅｓｃｒｉｂｅｓ　ｔｈｅ　ａｐｐｌｉｃａｔｉｏｎ　ｏｆ　ＧＰＳ　ｍｅａｓｕｒｅｍｅｎｔ　ｔｅｃｈｎｏｌｏｇｙ　ｉｎ　Ｊｉｎｚｈａｉ　ｇｒａｖｉｔｙ　ｓｕｒｖｅｙ．Keywords: ＧＰＳ；　ｃｏｎｔｒｏｌ　ｓｕｒｖｅｙ；　ｌｅｖｅｌｉｎｇ；　ＲＴＫ随着国家的不断发展与进步，GPS测量技术也越来越多的出现在许多不同的行业中，经过多年的发展与实践，这种技术在地勘找矿项目中也越来越普及，本文就该技术在金寨1:5万重力项目里的具体应用及成果进行一些归纳与分析。

doi :10.3969/j.issn.1001-893x.2021.01.005引用格式:余涛.航天地面测控系统的健康管理应用[J].电讯技术,2021,61(1):30-35.[YU Tao.Health management application in space TT&Cground system[J].Telecommunication Engineering,2021,61(1):30-35.]航天地面测控系统的健康管理应用∗余㊀涛∗∗(中国西南电子技术研究所,成都610036)摘㊀要:健康管理技术为管理对象提供健康状态管理和维护功能,已成为航空航天装备系统的重要组成部分㊂针对航天地面测控系统的健康管理需求,提出了基于多层级健康状态采集信息的健康管理体系架构,为地面测控设备提供状态监视㊁故障诊断和健康状态评估服务,并对相关健康管理功能的业务模型进行了分析,对全系统的健康管理体系工作流程进行了设计㊂该健康管理系统目前已实际应用于某地面测控站的建设中,提高了地面站设备的故障检测维修效率㊂关键词:地面测控系统;健康管理;故障诊断;健康状态评估开放科学(资源服务)标识码(OSID):微信扫描二维码听独家语音释文与作者在线交流享本刊专属服务中图分类号:V556.1;TP277㊀㊀文献标志码:A㊀㊀文章编号:1001-893X (2021)01-0030-06Health Management Application in Space TT&C Ground SystemYU Tao(Southwest China Institute of Electronic Technology,Chengdu 610036,China)Abstract :Health management technology provides function of health condition management and maintenance for the managed objects,and it has become an important part of aerospace equipment system.According to the requirement of health management for space telemetry,tracking and command(TT&C)ground system,a health management architecture based on sampling the health condition information of the multi -hierarchy system is proposed.The proposed health management system provides condition monitoring,fault diagnosis and health assessment service for space TT&C ground equipment.The corresponding function models are ana-lyzed.The workflow of health management architecture within the TT&C system is designed.The proposed health management system has been actually applied in the construction of a TT&C ground station,and the efficiency of fault detection and maintenance for the ground station equipment is improved.Key words :TT&C ground system;health management;fault diagnosis;health condition assessment0㊀引㊀言航天地面测控系统是航天器在轨运行的地面监测和控制节点,为航天器执行在轨任务提供支持保障㊂随着航天事业的快速发展,在轨航天器数目激增,同时也对地面测控系统的运行可靠性和稳定性提出了更高的要求㊂健康管理技术基于设备状态监测数据,利用各类故障诊断和状态评估模型,对设备运行工况进行综合评估分析,旨在通过全面掌握设备健康状态发展态势,及时排查设备故障和隐患,降低故障影响,提高设备运行可靠性㊂因此,在航天地面测控系统中引入健康管理技术也自然成为了发展的必然趋势㊂㊃03㊃第61卷第1期2021年1月电讯技术Telecommunication EngineeringVol.61,No.1January,2021∗∗∗收稿日期:2020-08-24;修回日期:2020-09-03通信作者:yutao012@健康管理技术在英美等国得到了深度研究和推广应用,已建成多个具有代表性的健康管理系统,包括F-35飞机故障预测与健康管理(PrognosticsHealth Management,PHM)系统[1]㊁NASA飞行器综合健康管理(Integrated Vehicle Health Management, IVHM)系统[2]㊁直升机健康与使用监控系统(Health and Usage Monitoring System,HUMS)[3]等㊂国内的健康管理技术起步较晚,相关研究主要集中于理论算法,尚未形成较为成熟的健康管理系统,但随着技术的发展和装备型号的技术攻关,在航空航天装备领域已取得了一定成果[4]㊂文献[5]对航空电子系统故障预测与健康管理体系结构进行了分析,从结构㊁功能分层和树形运行蓝图上进行了分析和设计㊂文献[6]针对航天测控设备提出了基于范例推理(Case Based Reasoning,CBR)和规则推理(Rule Based Reasoning,RBR)结合的故障诊断系统设计方案,给出了基于故障树模型的知识表示方法和诊断推理方法㊂文献[7]提出了基于案例推理的航天测控设备故障诊断方法,对故障案例的搜索及诊断效率较高㊂文献[8]针对遥感卫星接收系统给出了故障诊断专家系统设计方法㊂文献[9]对测控设备专家系统知识获取方法进行了研究分析㊂文献[10]对复杂系统健康状态评估技术的现状发展进行了研究综述㊂文献[11]针对无人机系统的健康状态评估方法进行了研究,通过三角模糊数和层次分析法结合,实现了对无人机健康状态的量化评估㊂文献[12]采用层次分析法实现对地基测控网的健康状态评估㊂随着航天测控设备和健康管理技术的发展,健康管理系统已成为航天地面测控系统的重要组成部分㊂本文对航天地面测控系统健康管理体系㊁工作流程㊁业务模型进行了研究,并结合某型号装备的研制给出了应用实例㊂1　健康管理体系航天地面测控系统包括天伺馈分系统㊁发射分系统㊁接收分系统㊁基带分系统㊁时频分系统㊁标校分系统等多个分系统,各分系统又包含大量不同的设备与部件,对这样的复杂系统进行健康状态管理需要完成部件㊁设备㊁分系统㊁系统多层级的健康信息采集,并利用采集信息实现全系统的状态监视㊁故障诊断㊁健康状态评估㊁维修辅助决策等健康管理应用㊂航天地面测控系统健康管理体系如图1所示,主要包括健康信息采集㊁健康管理知识库和健康管理应用服务㊂基于航天地面测控系统多层级的健康信息采集和健康业务知识对故障诊断㊁健康状态评估等健康管理业务提供数据和知识支撑,为航天地面测控系统设备提供运维保障服务㊂图1㊀系统健康管理体系健康信息采集实现对部件㊁设备㊁分系统㊁系统的多层级健康状态数据获取,以部件工作状态参数为基础,通过部署传感器采集部件工作电压㊁电流㊁温度㊁振动等各类工作状态参数,结合内置测试(Built in Test,BIT)㊁设备监控软件组件获取设备状态,并根据状态监视结果,按需进行链路测试和参数标校,获取业务分系统的功能㊁性能指标㊂汇集上述系统各级健康状态数据,作为健康管理应用服务的数据分析基础㊂健康管理知识库保存了各级设备㊁部件的健康业务处理规则㊁模型和案例,以及各类历史健康数据,如故障监测知识㊁故障树诊断模型等,支撑相关健康管理应用服务的功能实现㊂健康管理应用服务主要包括设备状态监视㊁故障诊断㊁健康状态评估和维修辅助决策,各业务功能通过上层应用调度,实现健康管理全业务服务的自动化闭环运行㊂首先针对实时采集的健康状态数据按需进行预处理,生成健康状态表征信息;然后利用监测点知识对各级设备㊁部件健康状态特征进行监视判别,发现异常状态时,自动调取对应设备的故障诊断和健康状态评估模型,对异常设备进行故障识㊃13㊃第61卷余涛:航天地面测控系统的健康管理应用第1期别和定位,对系统健康状态进行评估,并根据评估结果生成维修建议,供运维人员参考执行,达到快速消除故障和预防潜在故障的目的㊂对于完成诊断的故障案例和健康评估结果自动保存至知识库,支持对后续异常事件的诊断处理㊂2㊀健康业务模型航天地面测控系统健康业务模型主要包括数据预处理与状态监视模型㊁故障诊断模型和健康状态评估模型,支撑对各级设备的健康管理应用服务㊂2.1㊀数据预处理与状态监视航天地面测控系统设备类型众多,各类型设备的状态采集数据存在着同类参数名称不一㊁量纲不一,以及直接采样参数难以表征采样部件健康特性的问题,因此需要对状态采集数据进行预处理,以满足状态监视和后续诊断㊁评估的处理需要㊂数据预处理包括分类处理和信息综合处理㊂分类处理主要针对设备状态监测数据㊁天线跟踪数据等特定类型数据进行处理㊂设备状态监测数据处理按设备进行分类处理,针对不同设备的状态监测数据,进行平滑滤波㊁门限判决㊁信息关联㊁虚警剔除等处理㊂天线跟踪数据主要包括轨道数据㊁角跟踪数据㊁自动增益控制(Automatic Gain Control,AGC)电压㊁角误差电压等,可进行跟踪精度计算㊁角误差电压变化范围分析等㊂信息综合处理针对多类型数据进行关联性分析㊁统计值计算㊁特征提取等,从海量采样数据中提取具备健康表征特性的关键参数信息,消除冗余数据,提高后续状态监视的处理的效率㊂状态监视功能基于预处理后的健康状态数据及监测点知识进行实时故障监测㊂以频综单元为例,监测点知识为预处理后数据设定了多级监测门限,根据实时状态监测数据对部件状态进行判别㊂基于判别状态,支持对异常告警策略㊁维修处置建议等进行设定,以消除虚警及对不同部件的亚健康状态㊁故障状态进行灵活处置㊂此外,支持通过组合逻辑条件对关联参数进行筛选判断,提高故障监测能力㊂2.2㊀故障诊断航天地面测控系统包括多个分系统以及大量不同类型设备,面向不同类型的分系统和设备应采用对应的故障诊断模型对异常状态设备进行故障检测和诊断㊂以天伺馈分系统为例,天伺馈分系统主要由天线㊁馈源㊁天线座㊁天线控制单元(Antenna Control U-nit,ACU)㊁天线驱动单元(Antenna Drive Unit,ADU)等设备组成,包括机械设备和电气设备,因此分系统可能发生的故障也包括机械故障和电气故障㊂机械故障如天线座方位舱㊁俯仰舱等装置轴承部分因疲劳㊁腐蚀㊁磨损产生的性能下降,传动装置中齿轮箱出现齿轮损伤㊁折断或渗漏油,天线反射体背架老化造成的倾斜等㊂电气故障如天线伺服电机电源损坏㊁电路板烧损致输出拉低,ACU单元板线缆接触不良引起供电电压异常,驱动信号电路出现故障使得天线失去作用等㊂针对上述故障机理较为明确的故障类型可采用故障树建模的方法进行设备故障模式构建,并应用于后续诊断过程中㊂设备故障树以设备功能故障作为顶事件,以故障监测点及各类测试结果作为底事件,并将导致顶事件发生的因素或因素组合按照逻辑关系进行逐级构造,最终形成顶事件故障的故障树模型㊂以图2所示天线俯仰驱动故障树为例进行说明㊂顶事件为天线俯仰驱动故障,导致该顶事件发生的可能因素包括电源故障㊁天线故障㊁急停和缺相㊂4个节点通过或门进行连接,表示任一因素可导致顶事件发生,其中电源故障㊁急停和缺相为基本事件,可直接进行检测判断,不再往下细分㊂天线故障的导致因素可逐级向下分解为锁定电机故障㊁俯仰限位故障等,直至到监测点底事件,即通过监测点知识可直接判断的事件㊂故障树模型保存于健康管理知识库,由设备状态监测功能驱动,对发现的异常状态进行识别和模型检索㊁匹配,并使用对应的故障树模型进行自动化检测诊断㊂此外,对于无法直接采集的性能参数指标可通过基于故障树对应节点人工发起标校测试,获取相关参数指标,辅助进行故障检测和隔离㊂针对故障机理不明确的故障类型无法通过知识库现有知识进行故障识别诊断,主要通过两类方法实现对未知故障诊断能力的扩展㊂第一类是专家系统㊂设备运维人员基于设备异常状态监视数据㊁标校测试结果和自身经验对设备故障类型㊁故障现象㊁故障单元㊁故障原因㊁推理方式㊁判决依据和维修处置建议进行归纳,形成专家知识,录入专家系统,逐步扩展对未知故障的识别诊断能力㊂第二类是数据驱动方法㊂在设备长期运行的过程中积累设备健康㊁异常㊁故障等状态下的工作状态数据,利用大量各健康状态下的样本数据,采用机器学习方法对设备故障特征进行提取,构建设备故障分类㊁识别模型,并应用于后续对同类故障的识别诊断㊂㊃23㊃电讯技术㊀㊀㊀㊀2021年图2㊀天线俯仰驱动故障树2.3㊀健康状态评估航天地面测控系统健康状态评估完成对系统㊁分系统㊁设备㊁部件多个层级的健康状态量化评估,主要采用层次分析法进行评估计算㊂层次分析法将复杂系统表示为有序的阶梯层次结构,通过确定同一层级各评估项的权重,将复杂系统的定性评估转化为定量计算的方法,适用于对航天地面测控系统多层级健康状态的量化评估㊂基于航天地面测控系统的结构组成和设备关联关系建立层次分析结构树,部分结构树如图3所示,其中顶层为系统健康度,逐级向下为分系统健康度㊁设备健康度㊁部件健康度,以及底层的状态监测数据㊂基于上述健康评估层次分析结构树,首先对部件健康度进行量化评估,通过监测点实时采样数据与历史健康数据统计结果计算偏离度作为部件当前量化健康度;然后根据部件重要度配置加权权重,逐级向上层计算各级设备量化健康度值,计算公式如下:Q=ðni=1w i x i㊂(1)式中:Q为上级设备健康度量化值,w i为第i个设备的健康度权重值,x i为第i个设备的健康度量化值㊂最终得到系统各层级设备的健康度量化值㊂图3㊀健康评估层次分析结构树根据量化健康评估值可配置取值区间与设备健康状态定性评价的映射关系,将量化评估结果映射为健康㊁亚健康㊁故障三级定性评价,便于运维人员直观掌握当前各设备的健康状态,有针对地制定设备维修保障计划㊂此外,健康状态评估可周期性地进行,积累设备健康状态评估数据㊂由此可通过历史健康数据拟合设备健康度发展趋势,进而实现对设备未来健康状态发展的预测,并通过采取预防性维修措施,防范实际故障的发生,保障全系统的可靠运行㊂㊃33㊃第61卷余涛:航天地面测控系统的健康管理应用第1期3㊀健康管理业务流程如图4所示,健康管理业务流程主要包括状态监测㊁故障诊断㊁健康状态评估㊁维修辅助决策等业务功能流程,并将相关处理结果在前端应用进行可视化㊂图4㊀健康管理业务流程㊀㊀状态监测业务功能利用状态采集数据对设备健康状态进行实时监测,首先对状态采集数据进行清洗㊁对齐㊁降噪㊁插值等预处理;然后基于处理后数据提取健康特征,并利用监测点知识对设备健康状态进行判别,发现异常状态时进行提示告警并触发故障诊断和健康状态评估流程㊂故障诊断业务功能由异常状态告警触发,基于异常状态数据进行故障检测,判别是否存在故障,以消除虚警;然后根据告警单元和异常状态信息进行故障诊断知识检索和匹配,利用对应诊断模型进行故障诊断㊂健康状态评估业务功能在发现异常状态时自动触发,也可由周期健康评估策略触发对航天地面测控设备进行健康体检,通过读取当前设备工作状态数据,基于多层级健康评估模型和量化指标评价体系对系统㊁分系统㊁设备㊁部件进行多层级健康状态评估㊂维修辅助决策业务功能基于故障诊断结果和健康评估结果对故障或亚健康设备生成维修处置建议,供运维人员参考实施,并支持依据预防性维修策略对未出现故障征兆的设备进行预防性维修处置,如定期巡检㊁设备保养㊁备件更换等㊂健康管理前端应用提供统一的集成显示和交互平台,对故障告警信息㊁故障诊断结果㊁维修处置报告㊁健康评估报告等健康业务信息进行可视化展示,并提供健康模型编辑㊁标校测试发起等人工交互操作接口㊂4㊀应用实例结合某航天地面测控站健康管理系统建设需求,针对该站测控设备研发了健康管理应用软件,为该站设备提供综合健康状态管理和运维保障服务㊂软件界面如图5所示,展示了天伺馈分系统监测点知识的编辑管理页面㊂㊃43㊃ 电讯技术㊀㊀㊀㊀2021年图5㊀健康管理系统应用示例㊀㊀图5所示健康管理系统应用软件为测控设备提供运行状态监视㊁故障检测与诊断㊁健康状态评估和维修辅助决策等健康管理业务功能,并具备设备入退库管理㊁备品备件管理㊁维修保养㊁升级改造等运行维护功能,为测控设备提供全生命周期的运维保障服务㊂目前该健康管理系统已正式上线运行超过1年,通过自动化诊断和评估功能多次准确处理设备故障,保障了后续任务的正常执行;对于复杂故障给出故障单元定位㊁原因分析和维修处置建议,大大减少了运维人员的维修处置耗时,提高了设备的整体运行效率㊂5　结束语本文针对航天地面测控系统健康管理业务及应用进行了研究分析,提出了应用于航天地面测控设备的健康管理体系,重点阐述了设备状态监视㊁故障诊断和健康状态评估的业务模型和工作流程,并给出了应用实例㊂本文提出的基于物理模型和专家知识的健康管理方法能有效解决已知类型故障的检测㊁诊断和评估,但对于未知类型故障的处理则缺乏有效手段㊂基于数据驱动和机器学习的方法能够由设备健康状态数据提取设备故障特征,并运用于对未知类型故障的检测识别,这是值得探索并极具实际应用价值的下一步研究方向㊂参考文献:[1]㊀MALLEY M E.A methodology for simulating the jointstrike fighter s(JSF)prognostics and health manage-ment system[D].Dayton:Air Force Institute of Technol-ogy,2001.[2]㊀BELCASTRO C M.Aviation safety program:integratedvehicle health management technical plan summary[R].Washington D C:NASA,2006:1-53.[3]㊀LAND J E.HUMS-the benefits-past present and future[C]//Proceedings of2001IEEE Aerospace Confer-ence.Big Sky:IEEE,2001:3083-3094.[4]㊀吕琛,马剑,王自力.PHM技术国内外发展情况综述[J].计算机测量与控制,2016,24(9):1-4. [5]㊀朱文博,陈绍炜,赵帅.航电系统故障预测与健康管理体系结构分析[J].电光与控制,2018,25(12):59-62. [6]㊀杨奕飞,周江,周承斌.航天测控设备智能故障诊断系统设计[J].电讯技术,2009,49(8):54-58. [7]㊀刘涌,李海潮,弓喜忠,等.基于案例推理的航天测控设备故障诊断[J].电讯技术,2017,57(2):236-242.[8]㊀王万玉,陶孙杰,冯旭祥,等.遥感卫星接收系统故障诊断专家系统设计[J].电讯技术,2015,55(5):491-496. [9]㊀邹磊,王小强,李俊瑶,等.测控设备故障诊断专家系统知识获取方法研究[J].微处理机,2016,37(5):92-96. [10]㊀王亮,吕卫民,李伟,等.复杂系统健康状态评估技术现状及发展[J].计算机测量与控制,2013,21(4):830-833.[11]㊀李俨,陈海,张清江,等.无人机系统健康状态评估方法研究[J].系统工程与电子技术,2011,33(3):562-568. [12]㊀吴涛,高惠荔,陈军超,等.地基测控网健康状态评估方法[J].飞行器测控学报,2017,36(1):31-37.作者简介:余㊀涛㊀男,1986年生于重庆万州,2016年于北京航空航天大学获博士学位,现为工程师,主要研究方向为卫星应用㊁星地资源管控㊂㊃53㊃第61卷余涛:航天地面测控系统的健康管理应用第1期。

专利名称：一种基于MTCN算法的电池剩余寿命预测的方法专利类型：发明专利
发明人：杨宁,余涛
申请号：CN202210103427.9
申请日：20220127
公开号：CN114660495A
公开日：
20220624
专利内容由知识产权出版社提供
摘要：本发明公开了一种基于MTCN算法的电池剩余寿命预测的方法。

所述方法包括以下步骤：获取电池数据集；构建多通道时间卷积网络模型；对电池数据集中数据进行预处理；对多通道时间卷积网络模型进行训练，得到训练完成的多通道时间卷积网络模型；采用多通道时间卷积网络模型进行剩余寿命预测。

大多寿命预测方法均为点估计，本发明同样也是点估计，单一几个预测起点并不能充分说明预测性能的好坏，因此，本发明通过抽样赋予了不确定性表达的能力，从而使得预测结果更具有说服力，且更加具有参考意义。

申请人：华南理工大学
地址：510640 广东省广州市天河区五山路381号
国籍：CN
代理机构：广州粤高专利商标代理有限公司
代理人：江裕强
更多信息请下载全文后查看。

基于改进Deeplab V3+网络的水工混凝土裂缝语义分割方法黄思文;包腾飞;李扬涛;牛慧余
【期刊名称】《水利水电科技进展》
【年(卷),期】2023(43)1
【摘要】为实现水工混凝土裂缝快速而准确的检测,提出了一种基于改进Deeplab V3+网络的水工混凝土裂缝语义分割方法。

该方法采用Mobilenetv2网络替换原主干网络,将空洞卷积金字塔池化模块(ASPP)的空洞卷积替换为空洞深度可分离卷积,以提升运算速度,降低深层特征下采样倍数以减少语义信息丢失。

实例验证结果表明:本文方法帧率达到51.11帧/s,较原网络提高了23.33帧/s,推理速度大幅提升;平均交并比和平均像素精度分别达到89.45和95.19,分割精度高;针对典型混凝土裂缝的分割效果也优于比较方法,泛化能力较强。

【总页数】6页(P81-86)
【作者】黄思文;包腾飞;李扬涛;牛慧余
【作者单位】河海大学水利水电学院;河海大学水文水资源与水利工程科学国家重点实验室;三峡大学水利与环境学院
【正文语种】中文
【中图分类】TV698.1
【相关文献】
1.基于改进Deeplab V3+网络的语义分割
2.改进Deeplab v3+网络的手术器械分割方法
3.基于DeepLab V3+改进的图像语义分割模型
4.基于DeepLab V3+改进的图像语义分割模型
5.改进DeepLab v3+的道路图像语义分割网络
因版权原因，仅展示原文概要，查看原文内容请购买。

一种基于混沌序列控制的3D cat映射加密算法
叶瑞松;郗坤洪
【期刊名称】《汕头大学学报（自然科学版）》
【年(卷),期】2007(022)002
【摘要】讨论并比较了3D cat映射与二维Arnold映射的差别,在此基础上改进了3D cat 映射变换置乱方法,并利用复合混沌控制序列对像素灰度进行变换,从而实现图像像素位置和灰度值同时改变的加密效果.结果表明,这种加密方法具有较好的有效性.
【总页数】7页(P64-70)
【作者】叶瑞松;郗坤洪
【作者单位】汕头大学数学系,广东,汕头,515063;汕头大学数学系,广东,汕
头,515063
【正文语种】中文
【中图分类】TP391
【相关文献】
1.一种基于改进的logistic映射的混沌序列加密算法 [J], 张翌旸n;刘胜长;董妍
2.一种基于改进的logistic映射的混沌序列加密算法 [J], 张翌旸;刘胜长;董妍
3.基于置乱、混淆与掩蔽规则融合3D混沌映射的图像加密算法研究 [J], 尹燕;罗晖;王传云
4.一种结合Cat和Logistic映射的混沌加密算法 [J], 王亚伟;王行愚
5.基于二维Logistic混沌映射与DNA序列运算的图像加密算法 [J], 方鹏飞;黄陆光;娄苗苗;蒋昆
因版权原因，仅展示原文概要，查看原文内容请购买。

基于XML的数据在数据库中的存取技术
任建华;汪赫瑜
【期刊名称】《信息技术》
【年(卷),期】2004(28)7
【摘要】近年来,基于XML的数据交换与存取技术成为数据存取和交换领域的一项重要课题.XML不仅作为一种互联网上数据表示和交换的标准,而且被应用于电子商务、搜索引擎、电子数据交换等很多方面,因此受到了广泛的关注.文章将此技术展开分析,探讨了XML数据存取机制,分析了XML在数据库中的存储模式和应用模式,并结合Oracle8i给出应用举例.
【总页数】4页(P82-85)
【作者】任建华;汪赫瑜
【作者单位】辽宁工程技术大学,阜新,123000;辽宁工程技术大学,阜新,123000【正文语种】中文
【中图分类】TP311
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1.基于XML技术的异构数据库存取 [J], 张锋;王先行
2.基于Oracle9i的XML数据库存取技术的实现 [J], 余建波;胡淑涛;姚剑
3.基于XML的数据库存取技术 [J], 贺晓萍
4.XMl数据存取技术在数据库中的应用 [J], 蔡杏辉;陈惠芳
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因版权原因，仅展示原文概要，查看原文内容请购买。

The Predicting Model of the Volatility of China＇s Stock Market and Its SPA test 作者： 魏宇[1];余怒涛[2]
作者机构： [1]西南交通大学经济管理学院,成都610031;[2]云南财经大学会计学院,昆明650221
出版物刊名： 金融研究
页码： 138-150页
主题词： 高频数据;实现波动率;随机波动模型;GARCH模型;SPA检验
摘要：本文以上证综指的高频数据样本为例，全面探讨了各类历史波动率模型以及实现波动率模型的构建方法，同时采用滚动时间窗的样本外预测法，实证计算了不同模型假定下的指数波动率预测值，并运用基于自举法的SPA检验，评估了各种波动率模型对上证综指波动的预测精度。

结果显示，基于ARFIMA的实现波动率模型以及随机波动模型（SV）具有最高的波动率预测精度，但在加入实现波动率作为附加解释变量以后，并未显著提升标准SV和GARCH模型的预测能力。

实验室人员热延伸比对试验方法指导与评价研究余伦源【期刊名称】《价值工程》【年(卷),期】2015(000)032【摘要】Laboratory personnel comparative test is one of the important measures to evaluate the test level and the quality control of test results of inspection personnel. Through specific examples, this paper discusses the laboratory personnel comparative test to evaluate whether the inspection personnel have the ability to do their work in detection, to ensure the accuracy and reliability of test results. This paper makes detailed guidance for how to develop capacity comparison test work and test process control points of the internal laboratory work.%实验室人员比对试验是评价检测人员检测水平及检测结果质量控制的重要措施之一。

本文通过具体实例来探讨通过实验室人员比对试验，从而评价检测人员是否具有胜任其所从事检测工作的能力，以保证检测结果的准确性和可靠性。

文章中对实验室内部如何开展能力比对试验工作以及试验过程控制要点作出了详尽的指导。

【总页数】3页(P215-216,217)【作者】余伦源【作者单位】广东产品质量监督检验研究院，广州510000【正文语种】中文【中图分类】C33【相关文献】1.实验室人员比对试验在检测中的应用分析 [J], 林京宁2.兽药检测实验室人员比对试验实例应用分析 [J], 刘智;代跃沣3.饲料检测实验室人员比对试验实例分析 [J], 李敬;胡莉莉4.不确定度评定在实验室人员比对试验的运用 [J], 余秀榕5.电缆绝缘热延伸试验影响因素分析及改进措施 [J], 吴浩;鄢志平;邓志祥;陈幸;姚文昊因版权原因，仅展示原文概要，查看原文内容请购买。

基于改进DeepLabV3+的石漠化地区裸岩信息提取
吴永俊;汪泓;杨晨
【期刊名称】《航天返回与遥感》
【年(卷),期】2024(45)1
【摘要】针对传统喀斯特地区裸岩提取方法成本高、精度低的问题,文章构建了一种基于改进DeepLabV3+的裸岩提取方法。

该方法首先在编码器中用CA-DC-MobileNetV3替换DeepLabV3+骨干网络Xception进行特征提取,很大程度上减少了模型的参数量;其次,将编码器提取的特征通过特征金字塔网络和坐标注意力机制进行加强特征提取,以获取更多小目标信息并减少图像细节损失;最后在空洞空间金字塔池化模块将不同空洞率的卷积层进行特征融合,提高信息的利用率。

研究结果表明:文章方法在不同场景裸岩提取任务中表现最好,模型参数量约为DeepLabV3+的1/13,交并比、F1分数分别为72.46%、84.03%,上述2个指标相比于DeepLabV3+模型分别提高了4.62和3.19个百分点,并优于其余常用语义分割模型,提高了裸岩提取精度。

【总页数】13页(P123-135)
【作者】吴永俊;汪泓;杨晨
【作者单位】黔西南州自然资源管理服务中心;贵州大学矿业学院
【正文语种】中文
【中图分类】P237
【相关文献】
1.基于RS和GIS的岩溶石漠化与大气降雨关系——以贵州省典型岩溶石漠化地区为例
2.面向对象的喀斯特地区石漠化遥感信息提取研究——以贵州省大方地区为例
3.基于RS和GIS的岩溶石漠化恶化趋势定量预测——以广西都安瑶族自治县典型岩溶石漠化地区为例
4.石漠化地区遥感影像信息提取方法综述
5.基于无人机遥感影像的裸岩识别及早期石漠化评价
因版权原因，仅展示原文概要，查看原文内容请购买。

小波神经网络改进算法在来水量预测中的应用
陶猛;徐淑琴;李洪涛
【期刊名称】《节水灌溉》
【年(卷),期】2013()10
【摘要】中小河流的径流量表现出十分复杂的变化特征,如高度非线性、多时间尺度特征、时频序列,严重影响预测的准确性。

由于常规的分析法难以建立有效的预测模型,所以为了提高预测精度,提出了一种改进小波神经网络的来水量预测模型,利用非线性小波函数取代了BP神经网络通常用的Sigmoid函数作为隐含层节点的传递函数,有效地避免神经网络结构设计的盲目性,同时也有更强的学习能力且精确更高。

取实例建模分析,并建立BP网络模型与之比较,结果表明,小波神经网络提高了径流量预测精度。

【总页数】3页(P38-40)
【关键词】中小河流径流量;Sigmoid函数;小波神经网络;BP神经网络
【作者】陶猛;徐淑琴;李洪涛
【作者单位】东北农业大学水利与建筑学院
【正文语种】中文
【中图分类】TV121
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1.基于遗传算法的小波神经网络在股票预测中的应用 [J], 魏立龙;许东方;孙浩;周明祥;
2.采用遗传算法的小波神经网络在降雨量预测中的应用 [J], 付立华;王刚;魏林宏
3.基于前馈小波神经网络的改进狼群算法在短时r交通流预测中的应用 [J], 来学伟
4.遗传算法与小波神经网络在ET0预测中的应用 [J], 樊湘鹏;许燕;周建平;李志磊
5.小波神经网络在降水量预测中的应用研究 [J], 董海彪;卢文喜;欧阳琦;侯泽宇因版权原因，仅展示原文概要，查看原文内容请购买。