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CU-Track: A Multi-Camera Framework for Real-Time Multi-Object Tracking Pongsakon Bamrungthaia and Viboon Sangveraphunsirib Department of Mechanical Engineering, Faculty of Engineering, Chulalongkorn University 254 Phayathai Road, Pathumwan, Bangkok 10330, Thailand Tel. +66 2218 6585, Fax. +66 2218 6583 aPongsakon.Bam@gmail.com, bViboon.S@eng.chula.ac.th Keywords: PC-cluster, Multi-camera framework, Real-time multi-object tracking Abstract.
It can also be applied for various applications such as people tracking in automated surveillance systems, animal behavior studies, biomechanical engineering, and motion capture in entertainment industries.
The passive targets are spherical objects wrapped by retro-reflective material that reflects light back to its source with a minimum of scattering.
But if the direction of the message is outgoing, the message will be sent to the other computer by using programmed interrupt as a key of transfer.
Sangveraphunsiri: A PC-Cluster based Multi-Camera System for Real-Time Multiple Objects Tracking, Asian International Journal of Science and Technology in Production and Manufacturing Engineering, 3(4), (2010), pp. 57-64

The Investigation and Development Capacity of Xi'an Qujiang New District based on Environmental Carrying Capacity Wang Shuaizhong1, a,Liu Qingqing2,band Cao Chang3,c 1Department of Architecture, Faculty of Human Settlement and Civil Engineering, Xi’an Jiao-tong University, Xi’an, Shaanxi, 710049, China 2Department of Architecture, Faculty of Human Settlement and Civil Engineering, Xi’an Jiao-tong University, Xi’an, Shaanxi, 710049, China 3Department of Architecture, Faculty of Human Settlement and Civil Engineering, Xi’an Jiao-tong University, Xi’an, Shaanxi, 710049, China awww.wangshuaizh@163.com, b970658154@qq.com, C517600481@qq.com Keywords:Qujiang New District, Environmental Carrying Capacity and Survey and Planning Abstract.
Qujiang New District, located in the tourism, vacation, business-oriented economy city district, facing both north and south of the main city roads, as well as Xi'an - Ankang highway runs through, so traffic noise is the main noise source Qujiang New District,.Therefore the traffic noise was chosen as a carrying capacity indicators of environmental, water and energy supply is a key factor restricting the city's economic and social development, as the economy city planning requirements, population density, green coverage and per capita green area determines the ecological city characteristics.
Table 6.Qujiang New Resources and Environment Carrying Capacity of Grading Quantitative Evaluation Table Classification I II III The numerical of EBR 0-0.8 0.81-1.0 ＞1.0 Exploitability The development is insufficient , which is suitable for a large number of development It developswith the balance, which must be paied attention to control It has been the development of excessive, which is inappropriate in the development Analysis of the Environmental Bear Capacity in Qujiang According to the material of 2003 qujiang on-site investigation result, national and provincial standard, the basic data of resource in qujiang new district and its EBC is listed in the table 4.6 (the EBC of the comprehensive development zone is given by the primary standard GB3095-1906, the result is biased toward conservation).
References [1] Hanying MAO, Danlin YU A Study on the Quantitative Research of Regional Carrying Capacity, Advance in Earth Sciences Vol. 16 No.4 (Ang. 2001) [2] Zaide PENG, Kai YANG and Yun WANG The Primary Exploring of the Research Method of EASC, China Environmental Science Vol. 16 No.1 (Feb. 1996) [3] Hongcheng ZHANG, Rui QUAN Study on Xi’an Qujiang Mode From the Perspective of Social Engineering, Journal of Northwest A＆F University(Social Science Edition) Vol.13 No.2 (Mar, 2013) [4] Yu HUANG Environmental Status and Capacity Analysis of Xi’an Qujiang New District, management Vision·InternetFortune(Jul, 2009) [5] Zhonggen WANG, Jun XIA Quantitative Analysis on Bearing Capacity of Ecological Environmental, Journal of Changjiang Vocational University Vol.16 No.4 (Dec, 1999)

Introduction Cross-laminated timber (X-Lam) is a ‘new’ engineered timber product consisting of at least three orthogonally bonded layers, comprising laminations made of boards, strength graded according to EN 14081-1 [3] or wood-based panels.
Mechanical ventilations and control systems are key-elements in this type of construction and long periods of their stoppage should be carefully evaluated and monitored, especially in the swimming-pool hall.
New Technologies for Construction of Medium-Rise Buildings in Seismic Regions: The Xlam Case, Structural Engineering International, 2/2008, IABSE, (2008) p. 156-165
[8] CSTB, Avis Technique 3/06-477, Panneaux bois à usage structural – Panneaux KLH. 2011 [9] CSTB, Document Technique d’Application (Avis Technique 3/11-704), Panneaux bois à usage structural – BBS. 2012 [10] CSTB, Document Technique d’Application (Avis Technique 3/12-724), Panneaux bois à usage structural – Panneaux LENO. 2013 [11] FPL, Wood Handbook – Wood as an Engineering Material.
Urban Timber Houses in Vienna, Structural Engineering International, 2/2008, IABSE, (2008) p. 114-117

Key words: Creep, Thin films, Dislocations, Mesoscopic simulations, Multi-scale modeling 1 Introduction The understanding of deformation mechanisms in small scale structures is one of the fundamental problems in materials science to be solved.
Zbib (Eds.), MRS Symposium Proceedings 779, Materials Research Society, Pittsburgh, USA, 2003, p.
Herman (Ed.), Advances in Materials Research, Vol. 3, Interscience Publishers, New York, 1968, Ch. 1
Canova, Implementing image stresses in a 3D dislocation simulation, Modelling and Simulation in Matererials Science & Engineering 4(6) (1996) 581-596
Gumbsch, Image stresses in a free-standing thin film, Modelling and Simulation in Matererials Science & Engineering 7 (1999) 781-793

The Research on Pan-genes of an Object Boundary Junying Tian1, a, Jianhai Han2,b and Honglin Chen3,c 1,2Department of Mechatronics Engineering, School of Mechatronics Engineering, Henan University of Science and Technology, Luoyang 471000, China 3Foreign Language School, Henan University of Science and Technology, Luoyang 471000, China atjunying@tom.com, bjianhaihan@mail.haust.edu.cn, c101go@163.com Key words: chain code, binary image, boundary, pan-gene Abstract.
Introduction Genes (genetic factor) [1] are genetic material base, the specific nucleotide sequences of DNA molecules with genetic information, and DNA molecular segments with genetic effects.
References [1] Long minnan: Genetic Engineering (Science Publisher, Beijing 2010)
[3] Zhang Kunhua,Wang Jingru, and Zhang Qiheng: submitted to Journal of Image and Graphics (2002) [4] Wangzhan, Huang Pukan, Wang Jianwei, and Wang Hongqiang: submitted to Journal of National University of Defense Technology (1999) [5] Zhang Xianquan, Wang Jijun, Jiang Lianyuan: submitted to Journal of Computer Engineering (2007) [6] Wu Yaxiong, Chen Haiyan, Li Zongbo: submitted to Journal of icrocomputer Applications (2009)

Fatigue Crack Growth and Precipitation Characteristics of a High Zn-Containing Al-Zn-Mg-Cu Alloy with Various Typical Aging States Kai Wena,*, Hongwei Liub State Key Laboratory of Non-ferrous Metals and Processes, GRINM Group Co., LTD., Beijing 100088, China GRIMAT Engineering Institute Co., LTD., Beijing 101407, China General Research Institute for Nonferrous Metals, Beijing 100088, China awenkai@grinm.com, blhw@grinm.com Keywords: Al-Zn-Mg-Cu alloy; fatigue crack growth; Zinc content; Aging precipitation Abstract.
Acknowledgements This study was financially supported by National Key R&D Program of China (No. 2020YFF0218201), Youth Fund Project of GRINM and Demonstration Platform of Production and Application for High-speed Railway Equipment Materials (No.

Due to its functional key characteristic, the joining design process is multi-disciplinary [2].
Materials and Methods Model of clinching points.
The three-dimensional mesh was created by reverse engineering of the micrograph from [23].
Carlson, Joining of dissimilar materials, CIRP Ann.
Lecture Notes in Production Engineering.

The SiC additions also aid in processing of the materials by reducing the maximum temperature required to densify the materials, and by reducing the growth of the ZrB2 grains [10].
Raw Materials and Processing.
Ellerby: Key Eng.
Peters: Airforce Materials Laboratory Technical Report AFML-TR-68-190, Wright-Patterson Airforce Materials Laboratory, Dayton, OH, USA (1968)
Takagi, in: Handbook of Ceramic Hard Materials, edited by R.

Advanced Materials, 21 (2009) 4565-4583
Materials Science and Engineering: B, 213 (2016) 12-40
High-purity semiconducting single-walled carbon nanotubes: a key enabling material in emerging electronics.
Computational materials science, 82 (2014) 159-164
Materials Today: Proceedings, 3 (2016) 1820-1827

Electrically conductive (EC) materials in yarn shape dominate the first group.
In preliminary studies, various polymeric materials are tested as coating for EC yarns.
Methods and Materials Silver-plated yarns.
In Table 1 the yarn materials are shortly presented due to their characteristics given by producer.
Oks, Application of Additional Coating for Conductive Yarns Protection against Washing, Key Engineering Materials 762 (2018) 396–401. https://doi.org/10.4028/www.scientific.net/kem.762.396