Book Description
Includes bibliographical references and index.
Author : Casandra Rendell
Publisher : Nova Science Publishers
Page : 0 pages
File Size : 20,73 MB
Release : 2013
Category : Biological systems
ISBN : 9781626181809
Includes bibliographical references and index.
Author : Doug Lowe
Publisher : John Wiley & Sons
Page : 916 pages
File Size : 20,76 MB
Release : 2008-03-31
Category : Computers
ISBN : 047033388X
10 books in 1 - your key to networking success! Your one-stop guide to the latest updates on networking Packed with new and updated material on Windows Server 2008, the latest Red Hat(r) Fedora(r), Vista, and Office 2007, and the most up-to-date wireless standards, this solitary reference contains everything you need to manage both large and small networks. With these ten minibooks, you'll discover how to make your network share information in the most efficient way possible. Discover how to: Manage Macs in a Windows environment Handle mobile devices on a network Configure Windows(r) XP and Vista clients Back up and protect your data Set up a wireless network
Author : Engr Wilson Kurt
Publisher :
Page : 60 pages
File Size : 36,40 MB
Release : 2019-12-07
Category :
ISBN : 9781672463591
Network Topology is a structural network layout that is either physical or logical and arranged by a pattern of connected computers, devices, nodes, and other links of a network. It has different structures of a network topology that shows how a network is created and connected a link (in different methods) to a device. Such network topology structures are bus, ring, mesh, fully connected (or complete), star, and hierarchical (tree). Computers MUST connect to a network of any topology because of information sharing and communication. Without a network, users are unable to share files, send emails, print files, creating and sharing database, etc. An example of this is a Local Area Network (LAN). Any node in the LAN has one or more links to other devices within the network, mapping these links can result in a geometric shape.Network Topology refers to the layout of a network and how different nodes in a network are connected to each other and how they communicate. Topologies are either physical (the physical layout of devices on a network) or logical (the way that the signals act on the network media, or the way that the data passes through the network from one device to the next). This Webopedia Study Guide describes five of the most common network topologies. A network topology is the arrangement of nodes -- usually switches, routers, or software switch/router features -- and connections in a network, often represented as a graph. The topology of the network, and the relative locations of the source and destination of traffic flows on the network, determine the optimum path for each flow and the extent to which redundant options for routing exist in the event of a failure. There are two ways of defining network geometry: the physical topology and the logical (or signal) topology.
Author : Ramin Hekmat
Publisher : Springer Science & Business Media
Page : 154 pages
File Size : 36,16 MB
Release : 2006-09-01
Category : Computers
ISBN : 1402051662
This book provides an original graph theoretical approach to the fundamental properties of wireless mobile ad-hoc networks. This approach is combined with a realistic radio model for physical links between nodes to produce new insight into network characteristics like connectivity, degree distribution, hopcount, interference and capacity. The book establishes directives for designing ad-hoc networks and sensor networks. It will interest the academic community, and engineers who roll out ad-hoc and sensor networks.
Author : Ramin Hekmat
Publisher : Springer Science & Business Media
Page : 178 pages
File Size : 50,91 MB
Release : 2006-09-26
Category : Computers
ISBN :
This book provides an original graph theoretical approach to the fundamental properties of wireless mobile ad-hoc networks. This approach is combined with a realistic radio model for physical links between nodes to produce new insight into network characteristics like connectivity, degree distribution, hopcount, interference and capacity. The book establishes directives for designing ad-hoc networks and sensor networks. It will interest the academic community, and engineers who roll out ad-hoc and sensor networks.
Author : Grant, T. J.
Publisher : IGI Global
Page : 350 pages
File Size : 35,49 MB
Release : 2014-05-31
Category : Computers
ISBN : 1466660597
Over the past decade, the Command and Control (C2) field has been making a transformation from top-down, directive command to Network Centric Operations (NCO), peer-to-peer negation, self-synchronization, and agility. As the terms NCO and NEC suggest, C2 systems are regarded as networks, rather than a hierarchy. Accordingly, it is appropriate to view the C2 process and C2 systems through the lens of network theory. Network Topology in Command and Control: Organization, Operation, and Evolution aims to connect the fields of C2 and network science. Featuring timely research on topics pertaining to the C2 network evolution, security, and modeling, this publication is ideal for reference use by students, academicians, and security professionals in the fields of C2 and network science.
Author : Patrick Ciccarelli
Publisher : John Wiley & Sons
Page : 576 pages
File Size : 37,65 MB
Release : 2012-02-21
Category : Computers
ISBN : 1118077806
Finally there's a resource for the networking novice! Networking Basics provides an accessible introduction to network concepts from the underlying standards, through local and wide-area network configurations, up to configurations found in massive enterprise networks. Readers will learn how to design and construct both wired and wireless networks, gaining insight into both hardware and software requirements. They'll also find out how to match network capabilities to organizational needs
Author : Dimitris Sakavalas
Publisher : Springer Nature
Page : 129 pages
File Size : 22,97 MB
Release : 2022-05-31
Category : Computers
ISBN : 3031020146
As the structure of contemporary communication networks grows more complex, practical networked distributed systems become prone to component failures. Fault-tolerant consensus in message-passing systems allows participants in the system to agree on a common value despite the malfunction or misbehavior of some components. It is a task of fundamental importance for distributed computing, due to its numerous applications. We summarize studies on the topological conditions that determine the feasibility of consensus, mainly focusing on directed networks and the case of restricted topology knowledge at each participant. Recently, significant efforts have been devoted to fully characterize the underlying communication networks in which variations of fault-tolerant consensus can be achieved. Although the deduction of analogous topological conditions for undirected networks of known topology had shortly followed the introduction of the problem, their extension to the directed network case has been proven a highly non-trivial task. Moreover, global knowledge restrictions, inherent in modern large-scale networks, require more elaborate arguments concerning the locality of distributed computations. In this work, we present the techniques and ideas used to resolve these issues. Recent studies indicate a number of parameters that affect the topological conditions under which consensus can be achieved, namely, the fault model, the degree of system synchrony (synchronous vs. asynchronous), the type of agreement (exact vs. approximate), the level of topology knowledge, and the algorithm class used (general vs. iterative). We outline the feasibility and impossibility results for various combinations of the above parameters, extensively illustrating the relation between network topology and consensus.
Author : John Allen
Publisher : Routledge
Page : 189 pages
File Size : 32,74 MB
Release : 2016-01-13
Category : Political Science
ISBN : 1136237666
Topologies of Power amounts to a radical departure in the way that power and space have been understood. It calls into question the very idea that power is simply extended across a given territory or network, and argues that power today has a new found ‘reach’. Topological shifts have subtly altered the reach of power, enabling governments, corporations and NGOs alike to register their presence through quieter, less brash forms of power than domination or overt control. In a world in which proximity and distance increasingly play across one another, topology offers an insight into how power remains continuous under transformation: the same but different in its ability to shape peoples’ lives. Drawing upon a range of political, economic and cultural illustrations, the book sets out a clear and accessible account of the topological workings of power in the contemporary moment. It will be invaluable for both students and academics in human geography, politics, sociology, and cultural studies.
Author : Steven T. Karris
Publisher : Orchard Publications
Page : 523 pages
File Size : 41,8 MB
Release : 2009
Category : Computer network architectures
ISBN : 1934404152
No previous knowledge of data communications and related fields is required for understanding this text. It begins with the basic components of telephone and computer networks and their interaction, centralized and distributive processing networks, Local Area Networks (LANs), Metropolitan Area Networks (MANs), Wide Area Networks (WANs), the International Standards Organization (OSI) Management Model, network devices that operate at different layers of the OSI model, and the IEEE 802 Standards. This text also introduces several protocols including X.25, TCP/IP, IPX/SPX, NetBEUI, AppleTalk, and DNA. The physical topologies, bus, star, ring, and mesh are discussed, and the ARCNet, Ethernet, Token Ring, and Fiber Distributed Data Interface (FDDI) are described in detail. Wiring types and network adapters are well covered, and a detailed discussion on wired and wireless transmissions including Bluetooth and Wi-Fi is included. An entire chapter is devoted to the various types of networks that one can select and use for his needs, the hardware and software required, and tasks such as security and safeguarding data from internal and external disasters that the network administrator must perform to maintain the network(s) he is responsible for. Two chapters serve as introductions to the Simple Network Management Protocol (SNMP) and Remote Monitoring (RMON). This text includes also five appendices with very useful information on how computers use numbers to condition and distribute data from source to destination, and a design example to find the optimum path for connecting distant facilities. Each chapter includes True-False, Multiple-Choice, and problems to test the reader's understanding. Answers are also provided.