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Digital Preservation for Heritages Technologies and Applications

:	Dongming Lu, Yun-he PAN
:	Digital Preservation for Heritages Technologies and Applications
:	Springer-Verlag
:	9783642048623
:	1
:	CHF 114.00
:

:	Anwendungs-Software
:	English

:	219
:	DRM
:	PC/MAC/eReader/Tablet
:	PDF

'Digital Preservation for Heritages: Technologies and Applications' provides a comprehensive and up-to-date coverage of digital technologies in the area of cultural heritage preservation, including digitalization, research aiding, conservation aiding, digital exhibition, and digital utilization. Processes, technical frameworks, key technologies, as well as typical systems and applications are discussed in the book. It is intended for researchers and students in the fields of computer science and technology, museology, and archaeology.

Dr. Dongming Lu is a professor at College of Computer Science and Technology, Zhejiang University, China. His research area includes digital preservation for cultural heritages and digital media networks. Prof. Yunhe Pan is a member of Chinese Academy of Engineering, and also a professor at College of Computer Science and Technology, Zhejiang University, China. His research area includes digital preservation for cultural heritages, digital library, and intelligent human animation.

Prof. Lu received his M.S., and Ph.D. Degrees in Engineering from Zhejiang University, and was promoted to Prof. there in 2000. Some of his courses include Digital Culture and Media Networks, Multimedia Technology, and Compiler Principles. He is specialized in Digital Relics, and Digitization of Folk Performing Arts. His major&nbs ;ongoing projects include Demonstration Engineering for Digitizing Ancient Cultural Heritage, Digital Preservation and Copy Assisting Technology for Ancient Precious Murals, Digitization and Preservation of Folk Performing Arts, and Research on the Digitization of Relics and its Applications.

Prof. Pan is president of Zhejiang University and an academician of the Chinese Academy of Engineering. He worked as head of the Artificial Intelligence Research Institute of Zhejiang University from 1990 to 2006. From 1986 to 1988, he worked as a visiting scholar at UCLA, and Carnegie Mellon University, USA. He has also worked as head of the Automation Research Institute at Xiangfan, Hubei, vice-director of the Science Commission at Xiangfan, Hubei, director of the Computer Science Dept., Zhejiang University, and vice-president of Zhejiang University.

	Copyright Page	5
	Preface	6
	Table of Contents	9
	1 Introduction	13
	1.1 Cultural Heritage, the Crystallization of History	13
	1.2 Cultural Heritage Preservation and Its Objectives	15
	1.3 New Requirements of Digital Technologies for Heritage Preservation	17
	References	18
	2The Basis of Digital Technologies for Cultural Heritage Preservation	20
	2.1 Basis of Information Acquisition and Perception	20
	2.1.1 Digital Photography and Processing	21
	Digital Photography	21
	Digital Photo Processing	22
	2.1.2 3D Scanning and Processing	23
	3D Scanning	23
	3D Scanning Data Processing	24
	2.1.3 3S Technology	25
	GPS	25
	RS	26
	GIS	26
	Integration of GPS, RS, and GIS	27
	2.1.4 Sensing and Wireless Transmission	27
	Sensing Technology	27
	Wireless Communication	28
	2.2 Basis of Information Analysis and Recognition	29
	2.2.1 Image Processing	29
	Image Enhancement	29
	Image Segmentation	30
	Texture Recognition	32
	2.2.2 Intelligent Information Processing	33
	Principal Component Analysis	33
	Fuzzy Reasoning and Expert Systems	34
	Synthesis Reasoning	35
	2.3 Basis of Digital Exhibition and Interaction	36
	2.3.1 Animation	36
	2D Animation	36
	3D Animation	37
	2.3.2 Real-time Rendering	38
	2.3.3 Stereo Display	40
	2.3.4 Natural Interaction	42
	Tracking	42
	Gesture Interaction	43
	2.4 Summary	43
	References	43
	3 Digitalization of Cultural Heritage	46
	3.1 Information Acquisition from Archaeological Excavation Sites	47
	3.1.1 Preventing Loss of Information from Archaeological Sites	47
	3.1.2 Process and Technical Framework of Information Acquisition from Archaeological Excavation Sites	48
	Traditional Excavation Processes	48
	Technical Framework for Archaeological Excavation	50
	3.1.3 Key Technologies for Information Acquisition from Archaeological Excavation Sites	52
	Acquisition of Cultural Layer Shape Information	52
	Acquisition of Information on Relic Locations	53
	Information Relation Expression for Excavation Process Information	54
	3.1.4 Typical System for Information Acquisition from Archaeological Excavation Sites and Applications	55
	3.2 Information Acquisition of Museum Preserved Sculptures and Artifacts	55
	3.2.1 Digital Technology Makes Sculptures and Artifacts Remain“ Young Forever”	56
	3.2.2 Information Acquisition Process and Technical Framework for Museum Preserved Sculptures and Artifacts	57
	3.2.3 Key Technologies for Information Acquisition of Museum Preserved Sculptures and Artifacts	59
	High Precision 3D Structured Light Scanning Technology for Acquiring the Surface Shape of Relics	59
	High Precision Surface Texture Mapping of Relics	63
	3.2.4 Devices and Applications	66
	3.3 Information Acquisition from Large Scenes	66
	3.3.1 Process and Technical Framework of Large Scene Information Acquisition	66
	3.3.2 Key Technologies of Large Scene Information Acquisition	67
	Registration of 3D Information Acquired from Large Scenes	68
	Merging of Large Scene Polygon Models	70
	3.3.3 Typical Applications	72
	3.4 Information Acquisition of Large Paintings and Murals	74
	3.4.1 Process and Technical Framework of Acquisition of Large Paintings and Murals	74
	3.4.2 Key Technologies for Information Acquisition of Large Paintings and Murals	75
	Acquisition Planning	75
	Automatic Image Mosaic	77
	Image Fusion	77
	3.4.3 Typical Devices and Applications	78
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