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A Novel Integration of GNSS and GIS Approach to Foundation Roller Compaction in Civil Engineering ChenCheng Weng1, a, Hao Wu2, b, XiaoDong Liu3, ZhaoYu Du4, Lei Shi5, YunQiang Feng6, Jian Yang1, LingYun Yuan2 1School of Civil Engineering and Architecture, Wuhan University of Technology, Wuhan 430070, China 2School of Resources and Environmental Engineering, Wuhan University of Technology, Wuhan 430070, China 3China Trans Geometrics Co., LTD; Beijing 100101; China 4The Fifth Survey and Design Institute (Group) CO., LTD. of CRCC; Beijing 102600; China 5 China Railway Seventh Group CO., LTD; Zhengzhou 450016; China 6 China Railway Eighth Group CO., LTD; Chengdu 610081; China awengchencheng@163.com, b 9743723@qq.com Keywords: GNSS.
From the quality of foundation roller compaction perspective in large civil engineering, this paper integrated the high precision real-time position technology of GNSS and the spatial analysis function of GIS, constructed a foundation roller compaction quality monitoring system to realize the real-time monitoring of foundation roller compacted construction process, which can ensure the quality of this process .
Introduction In the process of large civil engineering, many involving foundation roller compaction, mainly including dump trucks transport, bulldozers paving, large the road roller rolling, and cooperate with small vibration compaction equipments compaction [1, 2, 3].
Therefore, it is necessary to study a real-time, continuity, automation, high precision roller compaction quality monitoring system, in order to adapt to the construction quality management requirements of large engineering rolling.
Z: Engineering of Surveying and Mapping Vol.15 (2006), p. 23

Research on Bionic Motion Sensing Applied in Safety and Surveillance of Civil Aviation Huabo Sun, Liling Yu, Minzhu Zhong, Xiaoming Ma Institute of Aviation Safety, China Academy of Civil Aviation Science and Technology, Beijing 100028, P.R.China sunhb@mail.castc.org.cn Keywords: security monitoring, bionic motion sensing, detection mode, civil aviation.
Conventional security monitoring of civil aviation usually uses fixed cameras to acquire images.
So with further research, the method and system will be suitable for safety and monitoring in civil aviation airport.
Subsequently, we believe that the overall computation time would be suitable for many civil airports and other squares.
[6] Huabo Sun, Haimeng Zhao and Peter Mooney et al, A Novel System for Moving Object Detection Using Bionic Compound Eyes, Journal of Bionic Engineering. 8(2011) 313-322.

These peer-reviewed papers reflect the valuable experience of the authors in the fields of innovation in structural systems and disaster prevention in engineering structures, architectural innovation, sustainable development of buildings, energy and the environment and innovation in, and applications of, building materials.
Hot topics and cutting-edge views related to sustainable development in civil engineering are presented.

Application of FRP in Geotechnical Engineering Xu QIN1, a Xu Lihua2,b 1School of Civil Engineering, Xi'an University of Architecture & Technology, Xi’an 710055, China, 2Xi'an University of Posts and Telecommunications, Xi’an 710061, China axuqin09@163.com bxulihua915@163.com Keywords: FRP; composite; geotechnical engineering Abstract: As FRP composite has a series of advantages such as higher strength weight ratio , higher rigidity weight ratio ,erosion resistance , no magnetism and high durability , it has being widely used in civil engineering ,its main characters and applications in geotechnical engineering are introduced in this article.
Introduction Fiber Reinforced Polymer (FRP) has been widely used in civil and architectural engineering abroad, and many new structure forms and applied methods have emerged.
Conclusion In geotechnical engineering, the application of fiber material in highway slope maintenance, bridge engineering, hydraulic engineering, tunnel and underground engineering, building deep foundation supporting has important significance.
References [1] Chris J.Burgoyne, Advanced Composites in Civil Engineering in Europe: Structural Engineering International ,Vol. 9, p 4
[2] Zhou Changdong, Huang chenkui: FRP Compound Material Used in Foreign Civil Engineering,  Architecture Technology, Vol. 33(2002)

These are the proceedings of the International Conference on Civil Engineering and Materials (ICCEM 2012), held on the 7 and 8^th July 2012 in Paris, France.

Collection of selected, peer reviewed papers from the 2014 International Conference on Machine Tool Technology and Mechatronics Engineering (ICMTTME 2014), June 22-23, 2014, Guilin, Guangxi, China.

The 1440 papers are grouped as follows:
Chapter 1: Applied Mechanics, 
Chapter 2: Measurement and Instrumentation, Monitoring, Testing and Detection Technologies,
Chapter 3: Numerical Methods, Computation Methods and Algorithms for Modeling, Simulation and Optimization, Data Mining and Data Processing,
Chapter 4: Information Technologies, WEB and Networks Engineering, Information Security, Software Application and Development,
Chapter 5: Electronics and Microelectronics, Embedded and Integrated Systems, Power and Energy, Electric and Magnetic Systems,
Chapter 6: Communication, Signal and Image Processing, Data Acquisition, Identification and Recognation Technologies,
Chapter 7: Materials Processing and Manufacturing Technology, Industry Applications,
Chapter 8: Civil and Structure Engineering, Architecture Science,
Chapter 9: Bio- and Medical Applications, Chemistry Engineering, Resources and Environmental Engineering,
Chapter
10: Advanced Information and Innovative Technologies for Management, Logistics, Economics, Marketing, Education, Assessment Keyword: Applied Mechanics; Communication, Signal and Image Processing; Mechatronics; Monitoring, Testing and Detection Technologies; Optimization, Data Mining and Data Processing; Information Technologies; Electronics and Microelectronics; Civil and Structure Engineering; Bio- and Medical Applications, Chemistry Engineering; Advanced Information

School of Civil Engineering and Communication of North China University of Water Resources and Electric Power, Zhengzhou 450011, China; 2.
Sanmenxia Bureau of Housing and Urban-Rural Development,Sanmenxia,472000,China Email: duanjm@126.com Keywords: Civil Engineering; Engineering Structure; Aseismic Strengthening; Degree of Monolithic Secure; Self-organize Theory; Whole Pre-stressing Strengthening Technology.
Firstly, in order to strengthen building and civil engineering structures, we overall consider the problem involved in various aspects.
These three aspects constitute the three-dimensional conception of Degree of Monolithic Secure of building and civil engineering structures. 2) The principle of receiving the strength rationally.
Carrying out “Degree of Monolithic Secure” strengthening to building and civil engineering structures, we should take into account the spatial function among every part of structure, consciously use and organize it.

Collection of selected, peer reviewed papers from the 3^rd International Conference on Materials Engineering and Automatic Control (ICMEAC 2014), May 17-18, 2014, Tianjin, China.

The 182 papers are grouped as follows:
Chapter 1: Advanced Materials Engineering and Materials Processing Technologies,
Chapter 2: Mechanical Engineering and Dynamics, Liquids and Gases Mechanics, Applied Mechanics in Technological Processes, Structural Design,
Chapter 3: Instrumentation, Measurement and Testing Technologies, Analysis and Calculations Methodology,
Chapter 4: Technologies of Power Systems, Energy and Thermal Engineering, Its Applications,
Chapter 5: Mechatronics and Robotics,
Chapter 6: Control Technologies, Automation and Simulation of Manufacturing,
Chapter 7: Data Mining, Detection, Monitoring and Fault Diagnosis Technologies,
Chapter 8: Networks and Information Technologies, Systems Design,
Chapter 9: Product Design, Planning, Projects Management and Industrial Engineering Keyword: Advanced Materials Engineering, Power System and Energy Engineering, Instrumentation, Measurement Technologies, Automation, Manufacturing
and Industrial Engineering, Civil and Structure Engineering

Matrix Method Application on the Civil Engineering Project Management Hong Chang Jilin Jianzhu University, 5088 Xincheng Street, Changchun, Jilin, China, 130118 changhong0431@163.com Keywords: risk matrix; project management; risk management; Borda sequence value Abstract.
Introduction In modern management activities, risk management research in various fields has aroused people's attention, and got a wide range of research and development, civil engineering projects are no exceptions.
The Risk Matrix of Civil Engineering Project Risk Management Establishment of Multidimensional Risk Management Matrix.
The application of Multidimensional space risk management in civil engineering projects.
Acknowledgements This work was financially supported by Jilin Institute of Civil Engineering and Architecture Dr.

Inventory control plays a crucial role for civil aircraft in reducing production cost to improve the competitiveness.
Some researchers have done some work on the inventory model of civil aircraft spare parts [15].
The Civil aircraft is manufactured in single-piece, so some materials are used only in one aircraft.
Computer and Industrial Engineering, Vol. 41 (2002):389–404
[15] Lei Sun, Hongfu Zuo: Multi-echelon inventory optimal model of civil aircraft spare parts.