Challenges and opportunities of connected k-covered wireless sensor networks : (Record no. 1202587)

MARC details
000 -LEADER
fixed length control field	13730cam a2200421 i 4500
005 - DATE AND TIME OF LATEST TRANSACTION
control field	20221101223009.0
008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION
fixed length control field	091019s2009 gw a b 001 0 eng d
011 ## - LINKING LIBRARY OF CONGRESS CONTROL NUMBER [OBSOLETE]
Local cataloguing issues note	BIB MATCHES WORLDCAT
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
International Standard Book Number	3642018769
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
International Standard Book Number	9783642018763
035 ## - SYSTEM CONTROL NUMBER
System control number	(ATU)b11597574
035 ## - SYSTEM CONTROL NUMBER
System control number	(OCoLC)401159860
040 ## - CATALOGING SOURCE
Original cataloging agency	BTCTA
Language of cataloging	eng
Description conventions	rda
Transcribing agency	BTCTA
Modifying agency	YDXCP
--	BWX
--	LDL
--	ATU
050 #4 - LIBRARY OF CONGRESS CALL NUMBER
Classification number	TK7872.D48
Item number	A43 2009
082 04 - DEWEY DECIMAL CLASSIFICATION NUMBER
Classification number	621.381
Edition number	22
100 1# - MAIN ENTRY--PERSONAL NAME
Personal name	Ammari, Habib,
Relator term	author.
9 (RLIN)	1067019
245 10 - TITLE STATEMENT
Title	Challenges and opportunities of connected k-covered wireless sensor networks :
Remainder of title	from sensor deployment to data gathering /
Statement of responsibility, etc.	Habib M. Ammari.
264 #1 - PRODUCTION, PUBLICATION, DISTRIBUTION, MANUFACTURE, AND COPYRIGHT NOTICE
Place of production, publication, distribution, manufacture	[Berlin] :
Name of producer, publisher, distributor, manufacturer	Springer Verlag,
Date of production, publication, distribution, manufacture, or copyright notice	[2009]
264 #4 - PRODUCTION, PUBLICATION, DISTRIBUTION, MANUFACTURE, AND COPYRIGHT NOTICE
Date of production, publication, distribution, manufacture, or copyright notice	©2009
300 ## - PHYSICAL DESCRIPTION
Extent	xxvi, 342 pages :
Other physical details	illustrations ;
Dimensions	24 cm.
336 ## - CONTENT TYPE
Content type term	text
Content type code	txt
Source	rdacontent
337 ## - MEDIA TYPE
Media type term	unmediated
Media type code	n
Source	rdamedia
338 ## - CARRIER TYPE
Carrier type term	volume
Carrier type code	nc
Source	rdacarrier
490 1# - SERIES STATEMENT
Series statement	Studies in computational intelligence
Volume/sequential designation	v. 2
504 ## - BIBLIOGRAPHY, ETC. NOTE
Bibliography, etc. note	Includes bibliographical references (pages 321-334) and index.
505 00 - FORMATTED CONTENTS NOTE
Miscellaneous information	Part 1.
Title	Introduction and Background Concepts --
Miscellaneous information	1.
Title	Overview of Wireless Sensor Networks --
Miscellaneous information	1.1.
Title	Introduction --
Miscellaneous information	1.2.
Title	Major Challenges --
Miscellaneous information	1.2.1.
Title	Limited Resources and Capabilities --
Miscellaneous information	1.2.2.
Title	Location Management --
Miscellaneous information	1.2.3.
Title	Sensor Deployment --
Miscellaneous information	1.2.4.
Title	Time-Varying Network Characteristics --
Miscellaneous information	1.2.5.
Title	Network Scalability, Heterogeneity, and Mobility --
Miscellaneous information	1.2.6.
Title	Sensing Application Requirements --
Miscellaneous information	1.3.
Title	Sample Sensing Applications --
Miscellaneous information	1.4.
Title	Motivations of This Book --
Miscellaneous information	1.5.
Title	Design Requirements --
Miscellaneous information	1.6.
Title	Contributions of This Book --
Miscellaneous information	1.7.
Title	Summary --
Miscellaneous information	2.
Title	Background and Fundamentals --
Miscellaneous information	2.1.
Title	Introduction --
Miscellaneous information	2.2.
Title	Terminology --
Miscellaneous information	2.3.
Title	Deterministic and Stochastic Sensing Models --
Miscellaneous information	2.4.
Title	Network Connectivity and Fault Tolerance --
Miscellaneous information	2.5.
Title	Energy Consumption Model --
Miscellaneous information	2.6.
Title	Percolation Model --
Miscellaneous information	2.6.1.
Title	Why a Continuum Percolation Model? --
Miscellaneous information	2.7.
Title	Network Model --
Miscellaneous information	2.8.
Title	Summary --
Miscellaneous information	Part 2.
Title	Almost Sure Coverage and Connectivity --
Miscellaneous information	3.
Title	Phase Transitions in Coverage and Connectivity in Two-Dimensional Deployment Fields --
Miscellaneous information	3.1.
Title	Introduction --
Miscellaneous information	3.2.
Title	Phase Transition in Sensing Coverage --
Miscellaneous information	3.2.1.
Title	Estimation of the Shape of Covered Components --
Miscellaneous information	3.2.2.
Title	Critical Density of Covered Components --
Miscellaneous information	3.2.3.
Title	Critical Radius of Covered Components --
Miscellaneous information	3.2.4.
Title	Characterization of Critical Percolation --
Miscellaneous information	3.2.5.
Title	Numerical Results --
Miscellaneous information	3.3.
Title	Phase Transition in Network Connectivity --
Miscellaneous information	3.3.1.
Title	Integrated Sensing Coverage and Network Connectivity --
Miscellaneous information	3.3.1.
Title	1 Simultaneous Phase Transitions When R >= 2r --
Miscellaneous information	3.3.1.
Title	2 Simultaneous Phase Transitions When r <= R < 2r --
Miscellaneous information	3.4.
Title	Discussion --
Miscellaneous information	3.5.
Title	Related Work --
Miscellaneous information	3.6.
Title	Summary --
Miscellaneous information	4.
Title	Phase Transitions in Coverage and Connectivity in Three-Dimensional Deployment Fields --
Miscellaneous information	4.1.
Title	Introduction --
Miscellaneous information	4.2.
Title	Three Percolation Problems --
Miscellaneous information	4.2.1.
Title	Sensing Coverage Percolation --
Miscellaneous information	4.2.2.
Title	Network Connectivity Percolation --
Miscellaneous information	4.2.3.
Title	Coverage and Connectivity Percolation --
Miscellaneous information	4.2.3.
Title	1 Two-Concentric-Sphere Model --
Miscellaneous information	4.2.3.
Title	2 Integrated Continuum Percolation --
Miscellaneous information	4.3.
Title	Further Discussion --
Miscellaneous information	4.3.1.
Title	Practicality and Generalizability Issues --
Miscellaneous information	4.3.2.
Title	Sensor Deployment in Three-Dimensional Fields --
Miscellaneous information	4.3.3.
Title	Relaxations of Assumptions --
Miscellaneous information	4.3.3.
Title	1 Relaxing the Unit Sphere Model --
Miscellaneous information	4.3.3.
Title	2 Relaxing the Homogeneous Sensor Model --
Miscellaneous information	4.4.
Title	Related Work --
Miscellaneous information	4.5.
Title	Summary --
505 00 - FORMATTED CONTENTS NOTE
Miscellaneous information	Part 3.
Title	Connected k-Coverage --
Miscellaneous information	5.
Title	Connected k-Coverage in Two-Dimensional Deployment Fields --
Miscellaneous information	5.1.
Title	Introduction --
Miscellaneous information	5.2.
Title	Achieving Connected k-Coverage --
Miscellaneous information	5.2.1.
Title	Connected k-Coverage Problem Modeling --
Miscellaneous information	5.2.2.
Title	Sufficient Condition to Ensure k-Coverage --
Miscellaneous information	5.3.
Title	Centralized k-Coverage Protocol --
Miscellaneous information	5.3.1.
Title	Deployment Field Slicing --
Miscellaneous information	5.3.2.
Title	Sensor Selection --
Miscellaneous information	5.3.3.
Title	Slicing Grid Dynamics --
Miscellaneous information	5.4.
Title	Clustered k-Coverage Protocol --
Miscellaneous information	5.4.1.
Title	Cluster-Head Selection and Attributed Roles --
Miscellaneous information	5.4.2.
Title	The T-CRACCk Protocol --
Miscellaneous information	5.4.3.
Title	The D-CRACCk Protocol --
Miscellaneous information	5.4.3.
Title	1 Deployment Field Clustering --
Miscellaneous information	5.4.3.
Title	2 Cluster-Heads Coordination and Sensor Selection --
Miscellaneous information	5.5.
Title	Distributed k-Coverage Protocol --
Miscellaneous information	5.5.1.
Title	k-Coverage Checking Algorithm and Sensor Selection --
Miscellaneous information	5.5.2.
Title	State Transition Diagram of Trig-DIRACCk --
Miscellaneous information	5.5.3.
Title	Ensuring Network Connectivity --
Miscellaneous information	5.6.
Title	Self-scheduling Based k-Coverage --
Miscellaneous information	5.6.1.
Title	k-Coverage Candidacy Algorithm --
Miscellaneous information	5.6.2.
Title	State Transition Diagram of Self-DIRACCk --
Miscellaneous information	5.6.3.
Title	Tri-DIRACCk Versus Self-DIRACCk --
Miscellaneous information	5.7.
Title	Relaxation of Assumptions --
Miscellaneous information	5.7.1.
Title	Relaxing the Unit Disk Model --
Miscellaneous information	5.7.2.
Title	Relaxing the Sensor Homogeneity Model --
Miscellaneous information	5.8.
Title	Performance Evaluation --
Miscellaneous information	5.8.1.
Title	Simulation Settings --
Miscellaneous information	5.8.2.
Title	Simulation Results --
Miscellaneous information	5.8.3.
Title	Comparison of Self-DIRACCk with CCP --
Miscellaneous information	5.9.
Title	Related Work --
Miscellaneous information	5.10.
Title	Summary --
Miscellaneous information	6.
Title	Heterogeneous and Mobile Connected k-Coverage in Two-Dimensional Deployment Fields --
Miscellaneous information	6.1.
Title	Introduction --
Miscellaneous information	6.2.
Title	Heterogeneous Connected k-Coverage --
Miscellaneous information	6.2.1.
Title	Random Deployment Approach --
Miscellaneous information	6.2.1.
Title	1 Centralized Connected k-Coverage Protocol --
Miscellaneous information	6.2.1.
Title	2 Distributed Connected k-Coverage Protocol (R-Het-DCCk) --
Miscellaneous information	6.2.2.
Title	Pseudo-random Deployment Approach --
Miscellaneous information	6.2.2.
Title	1 Centralized Connected k-Coverage Protocol (PR-Het-CCCk) --
Miscellaneous information	6.2.2.
Title	2 Distributed Connected k-Coverage Protocol (PR-Het-DCCk) --
Miscellaneous information	6.2.3.
Title	Performance Evaluation --
Miscellaneous information	6.3.
Title	Mobile Connected k-Coverage --
Miscellaneous information	6.3.1.
Title	Pseudo-random Sensor Placement --
Miscellaneous information	6.3.2.
Title	Sensor Mobility for k-Coverage of a Region of Interest --
Miscellaneous information	6.3.2.
Title	1 Centralized Approach for Mobile Sensor Selection (CAMSEL) --
Miscellaneous information	6.3.2.
Title	2 Distributed Approach for Mobile Sensor Selection (DAMSEL) --
Miscellaneous information	6.3.2.
Title	3 How to Ensure Network Connectivity? --
Miscellaneous information	6.3.3.
Title	Performance Evaluation --
Miscellaneous information	6.4.
Title	Related Work --
Miscellaneous information	6.4.1.
Title	Sensor Heterogeneity --
Miscellaneous information	6.4.2.
Title	Sensor Mobility --
Miscellaneous information	6.5.
Title	Summary --
Miscellaneous information	7.
Title	Two-Dimensional Stochastic Connected k - Coverage and Three-Dimensional Connected k - Coverage --
Miscellaneous information	7.1.
Title	Introduction --
Miscellaneous information	7.2.
Title	Two-Dimensional Stochastic Connected k-Coverage --
Miscellaneous information	7.2.1.
Title	Stochastic k-Coverage Characterization --
Miscellaneous information	7.2.2.
Title	Stochastic k-Coverage-Preserving Scheduling --
Miscellaneous information	7.2.2.
Title	1 k-Coverage Candidacy Algorithm --
Miscellaneous information	7.2.2.
Title	2 State Transition of SCPk --
Miscellaneous information	7.2.3.
Title	Simulation Results --
Miscellaneous information	7.3.
Title	Three-Dimensional Connected k-Coverage --
Miscellaneous information	7.3.1.
Title	Problem Analysis: The Curse of Dimensionality --
Miscellaneous information	7.3.2.
Title	Our Distributed k-Coverage Protocol --
Miscellaneous information	7.3.3.
Title	Performance Evaluation --
Miscellaneous information	7.4.
Title	Related Work --
Miscellaneous information	7.5.
Title	Summary --
Miscellaneous information	8.
Title	Network Connectivity and Fault-Tolerance Measures in Two-Dimensional Deployment Fields --
Miscellaneous information	8.1.
Title	Introduction --
Miscellaneous information	8.2.
Title	Unconditional Fault-Tolerance Measures --
Miscellaneous information	8.2.1.
Title	Homogeneous Sensors --
Miscellaneous information	8.2.2.
Title	Heterogeneous Sensors --
Miscellaneous information	8.2.3.
Title	Conditional Fault-Tolerance Measures --
Miscellaneous information	8.2.4.
Title	Homogeneous Sensors --
Miscellaneous information	8.2.5.
Title	Heterogeneous Sensors --
Miscellaneous information	8.3.
Title	Related Work --
Miscellaneous information	8.4.
Title	Summary --
505 00 - FORMATTED CONTENTS NOTE
Miscellaneous information	Part 4.
Title	Data Forwarding and Gathering --
Miscellaneous information	9.
Title	Geographic Forwarding on Always-On Sensors --
Miscellaneous information	9.1.
Title	Introduction --
Miscellaneous information	9.2.
Title	The WLDT Protocol --
Miscellaneous information	9.2.1.
Title	Long-Range Versus Short-Range Forwarding --
Miscellaneous information	9.2.2.
Title	A Two-Step Data Forwarding Protocol --
Miscellaneous information	9.2.2.
Title	1 Checkpoint Selection --
Miscellaneous information	9.2.2.
Title	2 Checkpoint-Based Short-Range Forwarding --
Miscellaneous information	9.2.3.
Title	Illustrative Example --
Miscellaneous information	9.3.
Title	Analysis of WLDT --
Miscellaneous information	9.4.
Title	Short-Range Versus Long-Range --
Miscellaneous information	9.4.1.
Title	Energy Gain --
Miscellaneous information	9.4.2.
Title	Controlled Short-Range Data Forwarding --
Miscellaneous information	9.5.
Title	Discussion --
Miscellaneous information	9.6.
Title	Related Work --
Miscellaneous information	9.7.
Title	Summary --
Miscellaneous information	10.
Title	Trade-Off between Energy and Delay in Geographic Forwarding on Always-On Sensors --
Miscellaneous information	10.1.
Title	Introduction --
Miscellaneous information	10.2.
Title	A Slicing Approach --
Miscellaneous information	10.2.1.
Title	Slicing of Communication Range --
Miscellaneous information	10.2.2.
Title	Selection of Candidate Proxy Forwarders --
Miscellaneous information	10.2.3.
Title	Uniform Energy Depletion Characterization --
Miscellaneous information	10.3.
Title	Trading-Off Energy with Delay --
Miscellaneous information	10.3.1.
Title	Simple Analytical Bounds --
Miscellaneous information	10.3.1.
Title	1 Data Forwarding along Shortest Paths --
Miscellaneous information	10.3.1.
Title	2 Data Forwarding along Non-direct Paths --
Miscellaneous information	10.3.1.
Title	3 Numerical Results --
Miscellaneous information	10.3.2.
Title	Multi-objective Optimization Approach --
Miscellaneous information	10.3.2.
Title	1 Overview of the WES Approach --
Miscellaneous information	10.3.2.
Title	2 Solving the Trade-Off Problem Using WES --
Miscellaneous information	10.3.2.
Title	3 Numerical Results --
Miscellaneous information	10.3.3.
Title	TED Detailed Description --
Miscellaneous information	10.3.3.
Title	1 Communication Range Slicing --
Miscellaneous information	10.3.3.
Title	2 Concentric Circular Band Selection --
Miscellaneous information	10.3.3.
Title	3 Proxy Forwarder Selection --
Miscellaneous information	10.3.3.
Title	4 Is k Fixed for All Proxy Forwarders or Not? --
Miscellaneous information	10.4.
Title	Relaxation of Several Key Assumptions --
Miscellaneous information	10.4.1.
Title	Relaxing the Sensor Homogeneity Model --
Miscellaneous information	10.4.2.
Title	Relaxing the Communication Disk Model --
Miscellaneous information	10.4.3.
Title	Relaxing the Dense Network Model --
Miscellaneous information	10.4.4.
Title	Relaxing the Energy Consumption Model --
Miscellaneous information	10.4.5.
Title	Relaxing the Always-On Sensors Model --
Miscellaneous information	10.5.
Title	Simulation Results --
Miscellaneous information	10.5.1.
Title	Simulation Settings --
Miscellaneous information	10.5.2.
Title	Impact of Selection Space Size --
Miscellaneous information	10.5.3.
Title	Using the Energy x Delay Metric --
Miscellaneous information	10.5.4.
Title	Impact of Variability of k --
Miscellaneous information	10.5.5.
Title	Impact of Sensor Heterogeneity --
Miscellaneous information	10.6.
Title	Related Work --
Miscellaneous information	10.7.
Title	Summary --
Miscellaneous information	11.
Title	Energy Sink-Hole Problem with Always-On Sensors in Two-Dimensional Deployment Fields --
Miscellaneous information	11.1.
Title	Introduction --
Miscellaneous information	11.2.
Title	Energy Sink-Hole Problem Analysis --
Miscellaneous information	11.2.1.
Title	Base Protocol Average Energy Consumption --
Miscellaneous information	11.2.2.
Title	Nominal Communication Range-Based Data Forwarding --
Miscellaneous information	11.2.3.
Title	Adjustable Communication Range-Based Data Forwarding --
Miscellaneous information	11.2.3.
Title	1 Perfect Uniform Energy Depletion --
Miscellaneous information	11.2.3.
Title	2 Partial Uniform Energy Depletion --
Miscellaneous information	11.3.
Title	Using Heterogeneous Sensors --
Miscellaneous information	11.3.1.
Title	Multi-tier Architecture --
Miscellaneous information	11.3.2.
Title	NEAR Performance Evaluation --
Miscellaneous information	11.4.
Title	Sink Mobility and Energy Aware Voronoi Diagram --
Miscellaneous information	11.4.1.
Title	Why Energy Aware Voronoi Diagram? --
Miscellaneous information	11.4.2.
Title	EVEN Detailed Description --
Miscellaneous information	11.4.2.
Title	1 Computing Relative Positions --
Miscellaneous information	11.4.2.
Title	2 Computing Energy-Aware Voronoi Diagram --
Miscellaneous information	11.4.3.
Title	EVEN Performance Evaluation --
Miscellaneous information	11.4.3.
Title	1 Impact of Sink Mobility --
Miscellaneous information	11.4.3.
Title	2 Comparing EVEN with VGF --
Miscellaneous information	11.4.3.
Title	3 Comparing EVEN with Another Protocol --
Miscellaneous information	11.5.
Title	Related Work --
Miscellaneous information	11.5.1.
Title	Balancing Energy Consumption --
Miscellaneous information	11.5.2.
Title	Minimizing Energy Consumption --
Miscellaneous information	11.5.3.
Title	Mobility-Based Forwarding Protocols --
Miscellaneous information	11.6.
Title	Summary --
Miscellaneous information	12.
Title	Geographic Forwarding on Duty-Cycled Sensors in Two-Dimensional and Three-Dimensional Deployment Fields --
Miscellaneous information	12.1.
Title	Introduction --
Miscellaneous information	12.2.
Title	Two-Dimensional Sensor Deployment --
Miscellaneous information	12.2.1.
Title	Potential Fields Based Modeling Approach --
Miscellaneous information	12.2.2.
Title	Data Forwarding without Aggregation --
Miscellaneous information	12.2.3.
Title	Data Forwarding with Aggregation --
Miscellaneous information	12.2.3.
Title	1 Locally Aggregated Data Forwarding --
Miscellaneous information	12.2.3.
Title	2 Globally Aggregated Data Forwarding --
Miscellaneous information	12.2.4.
Title	Generalizability of GEFIB --
Miscellaneous information	12.2.4.
Title	1 Convex Sensing and Communication Model --
Miscellaneous information	12.2.4.
Title	2 Sensor Heterogeneity Model --
Miscellaneous information	12.2.5.
Title	Performance Evaluation --
Miscellaneous information	12.3.
Title	Three-Dimensional Sensor Deployment --
Miscellaneous information	12.3.1.
Title	Hybrid Geographic Forwarding --
Miscellaneous information	12.3.2.
Title	Performance Evaluation --
Miscellaneous information	12.4.
Title	Related Work --
Miscellaneous information	12.5.
Title	Summary --
505 00 - FORMATTED CONTENTS NOTE
Miscellaneous information	Part 5.
Title	Summary and Further Extensions --
Miscellaneous information	13.
Title	Conclusion and Future Work --
Miscellaneous information	13.1.
Title	Contributions of This Book --
Miscellaneous information	13.2.
Title	Research Directions --
--	Appendix: Network Connectivity and Fault-Tolerance Measures in Three-Dimensional Deployment Fields --
Miscellaneous information	1.
Title	Introduction --
Miscellaneous information	2.
Title	k-Coverage Characterization --
Miscellaneous information	3.
Title	Unconditional Connectivity --
Miscellaneous information	4.
Title	Conditional Connectivity --
Miscellaneous information	5.
Title	Discussion --
Miscellaneous information	6.
Title	Relaxing the Unit Sphere Model: Convex Model --
Miscellaneous information	7.
Title	Underwater Sensor Networks --
Miscellaneous information	8.
Title	Summary.
520 ## - SUMMARY, ETC.
Summary, etc.	"Wireless sensor networks have received significant attention because of their important role and many conveniences in our lives. Indeed, the recent and fast advances in inexpensive sensor technology and wireless communications has made the design and development of large-scale wireless sensor networks cost-effective and appealing to a wide range of mission-critical situations, including civilian, natural, industrial, and military applications, such as health and environmental monitoring, seism monitoring, industrial process automation, and battlefields surveillance, respectively. A wireless sensor network consists of a large number of tiny, low-powered devices, called sensors, which are randomly or deterministically deployed in a field of interest while collaborating and coordinating for the successful accomplishment of their mission. These sensors suffer from very scarce resources and capabilities, such as bandwidth, storage, CPU, battery power (or energy), sensing, and communication, to name a few, with energy being the most critical one. The major challenge in the design process of this type of network is mainly due to the limited capabilities of the sensors, and particularly, their energy, which makes them unreliable. This book aims to develop a reader's thorough understanding of the opportunities and challenges of k-covered wireless sensor networks, where each point in a deployment field is covered (or sensed) by at least k sensors. Following Rene Descartes' most elegant methodology of dividing each difficulty into as many parts as might be possible and necessary to best solve it (Discours de la Method, 1637), this book presents a variety of theoretical studies based on percolation theory and computational geometry, as well as protocols that lead to the design of a unified framework, where connected k-coverage, sensor scheduling, and data routing and dissemination are jointly considered ."--Publisher's website.
588 ## - SOURCE OF DESCRIPTION NOTE
Source of description note	Machine converted from AACR2 source record.
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name entry element	Wireless sensor networks
9 (RLIN)	339822
830 #0 - SERIES ADDED ENTRY--UNIFORM TITLE
Uniform title	Studies in computational intelligence
Volume/sequential designation	v. 2.
9 (RLIN)	292380
907 ## - LOCAL DATA ELEMENT G, LDG (RLIN)
a	.b11597574
b	06-09-21
c	27-10-15
942 ## - ADDED ENTRY ELEMENTS (KOHA)
Koha item type	Book
945 ## - LOCAL PROCESSING INFORMATION (OCLC)
a	621.381 AMM
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998 ## - LOCAL CONTROL INFORMATION (RLIN)
--	b
--	c
Operator's initials, OID (RLIN)	06-04-16
Cataloger's initials, CIN (RLIN)	m
First date, FD (RLIN)	a
--	eng
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Withdrawn status	Lost status	Damaged status	Not for loan	Home library	Current library	Shelving location	Date acquired	Cost, normal purchase price	Inventory number	Total Checkouts	Total Renewals	Full call number	Barcode	Date last seen	Copy number	Cost, replacement price	Price effective from	Koha item type
				City Campus	City Campus	City Campus Main Collection	29/10/2015	256.45	i1294886x	1		621.381 AMM	A455534B	29/10/2015	1	256.45	31/10/2021	Book