Content Networking: Architecture, Protocols, and PracticeElsevier, 2005. gada 24. marts - 352 lappuses As the Internet has grown, so have the challenges associated with delivering static, streaming, and dynamic content to end-users. This book is unique in that it addresses the topic of content networking exclusively and comprehensively, tracing the evolution from traditional web caching to today's open and vastly more flexible architecture. With this evolutionary approach, the authors emphasize the field's most persistent concepts, principles, and mechanisms--the core information that will help you understand why and how content delivery works today, and apply that knowledge in the future.
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No grāmatas satura
1.–5. rezultāts no 96.
7. lappuse
... application initiating the request to the Web server is known as the Web client. Figure 1.1 illustrates the client-server–based model of the Web. Accessing information on the Web usually starts with typing in the address of a homepage ...
... application initiating the request to the Web server is known as the Web client. Figure 1.1 illustrates the client-server–based model of the Web. Accessing information on the Web usually starts with typing in the address of a homepage ...
10. lappuse
... request-response protocol, which means that a client sends a request message and the server replies with a response message. The message headers are text-based, which makes them readable by humans and simplifies debugging and extensions ...
... request-response protocol, which means that a client sends a request message and the server replies with a response message. The message headers are text-based, which makes them readable by humans and simplifies debugging and extensions ...
17. lappuse
... requests for the same Web site. The servers are typically installed in the ... client, stores requested Web objects in an intermediate location between the ... request for the same object, it will 1.3 The Evolution of Content Networking 17.
... requests for the same Web site. The servers are typically installed in the ... client, stores requested Web objects in an intermediate location between the ... request for the same object, it will 1.3 The Evolution of Content Networking 17.
32. lappuse
... client sending a request to a server. The protocol specifies a set of methods that are chosen by the client to indicate which operation has to be executed. Example operations include the creation, modification, or transmission of a Web ...
... client sending a request to a server. The protocol specifies a set of methods that are chosen by the client to indicate which operation has to be executed. Example operations include the creation, modification, or transmission of a Web ...
33. lappuse
... requesting client, a server does not maintain any information about the transaction. Subsequent request/ response pairs are completely independent and are not related to past client requests. Each HTTP response is generated ...
... requesting client, a server does not maintain any information about the transaction. Subsequent request/ response pairs are completely independent and are not related to past client requests. Each HTTP response is generated ...
Saturs
1 | |
25 | |
53 | |
Chapter 4 Caching Techniques for Streaming Media | 81 |
Chapter 5 Navigating Content Networks | 109 |
Chapter 6 PeertoPeer Content Networks | 147 |
Chapter 7 Interactive Content Delivery Instant Messaging | 179 |
Chapter 8 Beyond Web Surfing Content Services | 217 |
Chapter 10 Standards Efforts | 279 |
Chapter 11 Summary and Outlook | 299 |
AppendixXML Basics | 311 |
Glossary | 313 |
RFC References | 325 |
References | 331 |
Index | 345 |
Chapter 9 Building Content Networks | 263 |
Citi izdevumi - Skatīt visu
Content Networking: Architecture, Protocols, and Practice Markus Hofmann,Leland R. Beaumont Ierobežota priekšskatīšana - 2005 |
Content Networking: Architecture, Protocols, and Practice Markus Hofmann (Computer scientist),Leland R. Beaumont Priekšskatījums nav pieejams - 2005 |
Bieži izmantoti vārdi un frāzes
allows application message architecture audio bandwidth browser cache callout protocol callout server Chapter client request communication connection content consumer content delivery content delivery network content networking content providers content services cookie defined described device distributed document Domain Name Domain Name System endpoints Ethernet example Figure format Global Gnutella header host ICAP ICAP client ICAP server identified IETF implement instant messaging interactive interception proxies Internet IP address Layer load MSRP multicast multimedia name server Napster network provider object operation OPES processor origin server packet peer-to-peer peer-to-peer networks peers port presence information Profile resource response retrieve reverse proxy Router RTSP scalability sends servent service activation point service node session specification standards streaming media switch tion traffic transaction transport protocol typically UDDI VoiceXML Web cache Web server wireless WSDL XMPP