Kovalick A. — Video Systems in an IT Environment: The Essentials of Professional Networked Media :: Электронная библиотека попечительского совета мехмата МГУ

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Kovalick A. — Video Systems in an IT Environment: The Essentials of Professional Networked Media

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Название: Video Systems in an IT Environment: The Essentials of Professional Networked Media

Автор: Kovalick A.

Аннотация:

Audio/Video (AV) systems and Information Technology (IT) are colliding. Broadcasters and other AV professionals are impacted by the transition to IT components and techniques. This is the first book to focus on the intersection of AV and IT concepts. It includes technology reviews and the tools to understand and evaluate key aspects of hybrid AV systems. Twelve chapters encompass a broad range of information including: IT integration, AV networking, storage systems, file and metadata formats, software platforms, reliability, element management, security, workflow improvement, AV technology, transition issues, and real-world case studies. Each chapter weaves together IT and AV techniques providing the reader with actionable information on the issues, processes and principles of seamless AV/IT systems integration.

* Explains Tapeless Workflows
* Packed with 225 illustrations
* Supported with 11 Appendixes covering interesting and diverse topics

Язык:

Рубрика: Технология/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 2005

Количество страниц: 600

Добавлена в каталог: 30.12.2007

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

DNX      503f
Domain name server      281
DP      see “Compressed domain processing”
Drop frame time code      510—511
DV      503f
DVB      46 47
EBU      see “European Broadcast Union”
ECC      see “Electronic correction code”
Eclipse      219
Edge clients      261
Edge servers      81
Electronic correction code      66—68
Encryption      389—392
Enterprise Java Beans      216
Enterprise servers      18
Entropy coding      500
Erdos, Paul      6
Error correction, forward      64—65 454
Error correction, methods for      66—68
Essence formats      86—87
Ethernet frames, description of      274—276 275f
Ethernet frames, tagging      308
Ethernet switching      40—42
Ethernet, bandwidth changes      7
Ethernet, description of      272
Ethernet, evolution of      275f
Ethernet, history of      273—274 275f
Ethernet, IEEE-defined Gigabit links      274
Ethernet, LANs      44
Ethernet, specifications      274
ETSI      see “European Telecommunications Standards Institute”
European Broadcast Union      46 47
European Telecommunications Standards Institute      46
Extensible Markup Language      see “XML”
External storage      542
Fabric application interface standard      104
Fabric switches      161—162
failover      230—231
Failure, internal points of      234 234f
Failure, mechanisms of      232—236
FAIS      see “Fabric application interface standard”
FAQ, The IT-base video system      463
Fault Management      403t
Fault-tolerant system      228—229
Faults, automatic detection of      230
Faults, detection of      230—232
Faults, repair of      230—232
Faults, self-healing of      230—231
FCAPS model      403—405
FCIP      164—165
Fibre Channel, arbitrated loop      160
Fibre Channel, arrays      100
Fibre Channel, bandwidth of      160—161
Fibre Channel, configuration of      160
Fibre Channel, definition of      158
Fibre Channel, description of      52 85
Fibre Channel, director      162
Fibre Channel, features of      159
Fibre Channel, layers of      159
Fibre Channel, protocol stack      159 160f
Fibre Channel, storage area network, characteristics of      155—156 158—162
Fibre Channel, storage area network, IP storage area network vs.      163t
Fibre Channel, switching fabric      99 161—162
Field failure domain      239
File conversion gateway      337—338
File flow      358
File formats, native      335
File formats, translation of      86
File fragmentation      118
File gateway      43
File inspector      420
File Management and Networking Technology Committee      49
File mover block      57—58
File server      43 169—177
file sharing      105
File striping, array performance and      124—125
File striping, definition of      108
File System      105—106
File transfer input/output      25
File transfer, audiovisual data moved via      24
File transfer, characteristics of      58 59t
File transfer, concepts      57—71
File transfer, data wheel      64—65
File transfer, delivery chain      65
File transfer, description of      55
File transfer, general-purpose      59
File transfer, information technology changes      7—8
File transfer, interoperability domains      85
File transfer, just in time      58—60
File transfer, management information base      419
File transfer, methods of      61t
File transfer, progress monitoring of      418—419
File transfer, reliable      60—69
File transfer, shared storage vs.      80
File transfer, streaming vs.      71t
File transfer, UDP without FEC for      67—68
File transfer, unidirectional links for      65
File wrapper      see “Wrappers”
File wrapper, description of      86
File wrapper, format      327f
Financial domain      239—240
Firewalls, description of      42—43 271 379
Firewalls, mechanism of action      379—380
Firewalls, worm threats prevented by      376
Flash      see “RAM/Flash”
Forward error correction      64—65 454
Fragmentation file      118
Fragmentation free space      118
Frame accuracy      28 30 515—516
Frame forwarding, deterministic      280
Frame synchronizer      515—516
Frame(s), Ethernet      274—276 275f
Frame(s), jumbo      274—275
Frame(s), video      472—474
Free space fragmentation      118
FTP      60—61
FTP/TCP method      62—64
Fusion AV router      33
Gamma correction      481—482
Gamma-corrected signal      481
Gateway, definition of      336
Gateway, file conversion      337—338
Gen Lock input signal      494—495
General parallel file system (GPFS)      110 177
General-purpose file transfer      59
GIF      501
Glitching      29 31t
Glossary      549
GOP      506—509
graphical user interfaces      21
Graphics Processing Unit      187 221
Grid computing, description of      98 517—518
Grid computing, environments for      518f
Grid computing, Riemann zeta function and      519—520
GridFTP      62
Group of linked files concept      332—334
H.264      500—504
H/V timing      90—91
HA      see “High availability”
hackers      372
HANC      492
Hard disk drives, access density      121
Hard disk drives, arrays      241
Hard disk drives, ATA      see “ATA hard disk drive”
Hard disk drives, capacity of      122—123
Hard disk drives, data access rate      122—123
Hard disk drives, description of      13
Hard disk drives, I/O connectivity      148—149 149t
Hard disk drives, I/O delivery rate      122
hard disk drives, internal      15

Hard disk drives, performance metrics for      115—116
Hard disk drives, power requirements      15
Hard disk drives, price reductions for      14—15
Hard disk drives, read/write rates      15 112—114 126
Hard disk drives, rebuild efforts      244 534
Hard disk drives, reliability metrics for failure rate analysis domains      237—240
Hard disk drives, reliability metrics for field failure domain      239
Hard disk drives, reliability metrics for financial domain      239—240
Hard disk drives, reliability metrics for lab test domain      237—238
Hard disk drives, reliability metrics for overview of      236—237
Hard disk drives, SCSI      see “SCSI hard disk drive”
Hard disk drives, storage density of      14—15
HD-SDI      493 (SMPTE 292M)
HDCAM      503f
HDV      503f
Hierarchical storage      130 133
Hierarchical switching      273f
High-availability systems, architectural concepts for N + 1 sparing      253 255—257
High-availability systems, architectural concepts for no single point of failure      253f 253—255
High-availability systems, architectural concepts for overview of      252—253
High-availability systems, architectural concepts for single point of failure      253f 253—254
High-availability systems, cluster computing for      520
High-availability systems, concealment methods for      263—264
High-availability systems, design methods, overview of      240
High-availability systems, design methods, RAID arrays      240—252
High-availability systems, failure mechanisms      232—236
High-availability systems, mirroring methods for      258—260
High-availability systems, networking with      257—258
High-availability systems, overview of      227—228
High-availability systems, scaling of components in      264—266
High-availability systems, summary of      262
High-availability systems, topologies for      261—263
High-availability systems, upgrading of components in      266
High-quality, high-rate streaming      78
Holographic storage      140
Horizontal sync      475f 486
Host ID      280
Hot upgrades, swaps      255—256 266 442—443
HTTPS      386—387
HyperMAP      68
Hypertext transfer protocol(HTTP)      171 211
I/O for ATA hard disk drive      152—153
I/O for SCSI hard disk drive      152—153
I/O, array rates      123—125
I/O, description of      25
I/O, hard disk drive connectivity      148—149
IBP sequence      506—509
IDC      100
IEEE—1394      2 52
IETF      see “Internet Engineering Task Force”
IFCP      164—165
ILM      see “Information life cycle management”
InfiniBand      154—155
Information life cycle management      133—134
Information security      367—368 (see also “Security”)
Information technology and media, business-related factors for using      5
Information technology and media, motivation toward      5
Information technology and media, technology-related factors for using      5
Information technology systems, interoperability of      19—20
Information technology systems, manageability of      17 403
Information technology, architecture of      38 38f
Information technology, components of description of      87—88
Information technology, components of repair of      442—443
Information technology, components of upgrading of      442—443
Information technology, infrastructure      38 401
Information technology, life cycle of      441—442
Information technology, objections to      87–88
Information technology, six-tier architecture of      38 38f
Information technology, streaming using      85
Information technology, transition to case studies of      see “Case studies”
Information technology, transition to disruptions during      446—447
Information technology, transition to financial issues      440—441
Information technology, transition to issues in      437—438
Information technology, transition to organizational issues      439—441
Information technology, transition to technical support issues      441
Information technology, transition to user issues      446—447
Information technology, video system      463—467
Information technology/audiovisual system, hybrid      27f
Information technology/audiovisual system, infrastructure, forces that enable      5 6f
Information technology/audiovisual system, performance metrics for      28—30 30t—31t 32—35
Information technology/audiovisual system, schematic diagram of      462f 462—463
Information technology/audiovisual system, transition to      26
Information, how much      523—525
Ingest and playout system      96
Installable file system      105
Interactive streaming      77
Interframe video coding      505 508—509
Interlaced raster      471—473
International Data Encryption Algorithm      392
International Disk Drive Equipment and Materials Association      237—238
International Telecommunications Union      46
Internet Engineering Task Force      46
Internet firewall      see “Firewalls”
Internet Key Exchange (IKE)      386
Interoperability, domains of      83—87
Interoperability, MXF and      334—338
Intraframe coding      505
Intraframe video compression      506—508
intrusion detection systems      383—384
Intrusion prevention systems      43 380—383
IP Addressing      280—281 281f
IP multicast      65
IP multicasting      284—285
IP router      271
IP routing layer, IP addressing      280—281 281f
IP routing layer, IPV6      282—284
IP routing layer, layer 2 and layer 3 switching      278—280 282
IP routing layer, multicasting      284—285
IP routing layer, overview of      276—278
IP routing layer, private IP addresses      282—284
IP routing layer, subnets      282
IP storage area network      see “iSCSI”
IP switching      97
IP, description of      269
IP, techniques for control over      320—321
IPS      see “Intrusion prevention systems”
IPsec      386—387
IPv6      282—284
ISAN      347
iSCSI, description of      99 146
iSCSI, storage area network systems      163—166
iSCSI, terminology associated with      167
iSNS      166
Isochronous links      74
ITU      see “International Telecommunications Union”
J2EE, .NET interoperability with      217
J2EE, description of      214—216
J2EE, Java Centric Framework      18
Java Database Connectivity      212
JBOD      127—128
JDBC      212
Jitter      69—70 306
JPEG2K      507
Julius Caesar      389
jumbo frames      274—275
Just in time file transfer      58—60 542
JXTA      219
Kerberos      396—397
Kettering, Charles      35
Key,video      28 30 496
Key/length/value blocking      328—329
Keys,security      391—396
KQED case study      448—451
L2TP      386—387
L2TP/IPSec      387—388
Label edge routers      311
Label switched paths      308
LAMP      219
LAN, configuration of      44
LAN, description of      2

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