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Technologies for Fingermark Age Estimations: A Step Forward / edited by Josep De Alcaraz-Fossoul

Publisher	(Cham : Springer International Publishing : Imprint: Springer)
Year	2021
Edition	1st ed. 2021.
Authors	De Alcaraz-Fossoul, Josep editor SpringerLink (Online service)

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Links to the text	Location	Volume	Call No.	Barcode No.	Status	Comments	ISBN	Printed	Restriction	Reserve
Links to the text	Library Off-campus access			OB00170610		Springer Law and Criminology eBooks (電子ブック)	9783030693374

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Material Type	E-Book
Media type	機械可読データファイル
Size	XVI, 377 p. 111 illus., 58 illus. in color : online resource
Notes	Preface: Innovations in Fingerprint Research -- Chapter 1: Past, Present, And Future of the Forensic Use of Fingermarks -- Chapter 2: Latent Fingermarks as Complex Physical, Chemical, and Biological Structures -- Chapter 3: Estimating the Age of Fingermarks: Relevance, Potential Approaches and Perspectives -- Chapter 4: Non-Contact Technologies and Digital Approaches to (Latent) Fingermark Aging Studies -- Chapter 5: Latent Fingermark Aging in 2D: Qualitative and Quantitative Analytical Approaches -- Chapter 6: Latent Fingermark Aging in 3D: Uncovering Hidden Degradation Patterns -- Chapter 7: Latent Fingermark Aging: Chemical Degradation Over Time Amanda -- Chapter 8: New Chemical Imaging Approaches to Fingermark Dating by Mass Spectrometry -- Chapter 9: Latent Fingermarks and Electrochemistry: Possibilities for Development and Aging Studies -- Chapter 10: Latent Fingermarks and DNA Recovery -- Chapter 11: Latent Fingermarks and Microbiome: Time and Community Succession -- Chapter 12: Age Estimation of Bloodstained Fingermarks -- Chapter 13: The Application of Statistics in Fingermark Aging Research This book discusses new applications of technologies that have been or could be successfully employed to estimate the age of fingermarks. Determining the specific time a fingermark is deposited could become a powerful new development in forensic science and a useful application to law enforcement. This book aims to shed some light on this important and still controversial area of scientific research. The expert chapters review recent discoveries and current developments with a practical bent, focusing on prospective uses in real-world crime scenes. They take a multidisciplinary approach, featuring contributors with diverse specialties including Chemistry, Imaging Technologies, Forensic Science, Biology and Microbiology. The balanced presentation incorporates critiques on fingermark aging studies, explores the reliability of fingermarks as evidence, and discusses how the estimation of “age” can improve robustness of crime evidence. Each chapter describes a unique aspect of fingermark aging observed from a different analytical perspective: 2D imaging; 3D imaging; chemical analysis; chemical imaging; microbiome analysis; electrochemical analysis; and DNA analysis, as well as the role and application of statistics. Illustrations and graphs aid the reader in understanding the concepts being explained. Not just a compilation of techniques and methods, this book’s emphasis on practical applications and its easy-to-read style will appeal to a broad audience of scientists and criminal justice professionals alike. It will be of great interest to law enforcement, academia, and the criminal justice community; including forensic scientists, investigators, lawyers, students, and researchers. It aims to help facilitate debates in the broader community about the feasibility, convenience, and relevance of estimating the age of evidence HTTP:URL=https://doi.org/10.1007/978-3-030-69337-4
Subjects	LCSH:Forensic sciences LCSH:Analytical chemistry LCSH:Biometric identification LCSH:Microbiology LCSH:Criminal law LCSH:Security systems FREE:Forensic Science FREE:Analytical Chemistry FREE:Biometrics FREE:Microbiology FREE:Criminal Law and Criminal Procedure Law FREE:Security Science and Technology
Classification	LCC:RA1001-1171 DC23:363.25
ID	8000076393
ISBN	9783030693374