Electrical computers and digital processing systems: multicomput – Computer-to-computer session/connection establishing
Reexamination Certificate
2000-10-17
2004-09-28
Cuchlinski, Jr., William A. (Department: 2144)
Electrical computers and digital processing systems: multicomput
Computer-to-computer session/connection establishing
C709S228000, C709S229000, C709S249000
Reexamination Certificate
active
06799215
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Technical Field
The present invention relates to computer networks, and more particularly to a method and system in an Internet Protocol (IP) network for centralizing Logical Unit (LU) definitions for one or a plurality of TN3270 Servers.
2. Description of the Related Art
SNA and IP Environment
Companies are increasingly interested in consolidating the multiple specialized networks that they operate or lease from service providers onto a single protocol network. These multiple specialized networks operate on diverse networking technologies such as Systems Network Architecture (SNA), Internet Protocol (IP) or Internetwork Packet Exchange (IPX). In making consolidation one of their top priorities, companies are almost exclusively selecting IP as their protocol of choice. For the overwhelming majority of these companies that are using SNA protocols and applications, however, there remains the need to maintain the ability to access the enormous quantity of existing corporate data that resides in traditional mainframes and only accessible through SNA applications.
Internet
The Internet is a global network of computers and computers networks (the “Net”). The Internet connects computers that use a variety of different operating systems or languages, including UNIX, DOS, Windows, Macintosh, and others. To facilitate and allow the communication among these various systems and languages, the Internet uses a language referred to as TCP/IP (“Transmission Control Protocol/Internet Protocol”). TCP/IP protocol supports three basic applications on the Internet:
(1) transmitting and receiving electronic mail,
(2) logging into remote computers (the “Telnet”), and
(3) transferring files and programs from one computer to another (“FTP” or “File Transfer Protocol”).
TCP/IP
The Transmission Control Protocol/Internet Protocol (TCP/IP) protocol suite is used to establish an interconnection of networks that provide universal communication services: an internetwork, or internet. Each physical network has its own technology dependent communication interface (in the form of a programming interface) that provides basic communication functions between the physical network and the user applications. The architecture of the physical networks is hidden from the user. TCP/IP also provides interconnection between different physical networks to form what appears to the user to be one large network.
TCP is a transport layer protocol providing end-to-end data transfer and is responsible for providing a reliable exchange of information between networked computer systems. Multiple applications can be supported simultaneously over one TCP connection between two computer systems.
IP is an internetwork layer protocol hiding the physical network architecture bellow it. Part of the communicating messages between computers is a routing function that ensures that messages will be correctly directed within the network to be delivered to their destination. IP provides this routing function. An IP message is called an IP datagram.
Application Level protocols are utilized in addition to TCP/IP to transfer user and application data from a computer system to a destination computer system. Examples of such Application Level protocols include File Transfer Protocol (FTP), Telnet, Gopher, Hyper Text Transfer Protocol (HTTP).
IP Router
A “router” is a computer that interconnects two networks and forwards messages from one network to the other. Routers select the best transmission path between networks utilizing the IP layer of the TCP/IP protocol stack, such that any host (or computer) or workstation running TCP/IP over more than one interface could, in theory, forward messages between networks. Because IP implements basic routing functions, the term “IP router” is often used. However, dedicated network hardware routers can provide more sophisticated routing functions than the minimum functions implemented in IP.
World Wide Web
With the increasing size and complexity of the Internet, tools that are often called navigators or navigation systems have been developed to help find information on the network. Navigation systems include standards such as Archie, Gopher and, most well-known, the World Wide Web (“WWW” or “the Web”). In addition to serving as an Internet-based navigation system, the Web is also an information distribution and management system for the Internet. The Web provides an end user with a seamlessly integrated format of information, including still images, text, audio and video. A user on the Web using a graphical user interface may transparently communicate with different host computers on the system, different system applications, and different information formats for files and documents including text, sound, and graphics.
Hypermedia
The Web uses hypertext and hypermedia. Hypertext is a subset of hypermedia and refers to computer-based “documents” in which readers move from one place to another in a document, or to another document, in a non-linear manner. To do this, the Web uses a client-server architecture. The Web servers enable the user to access hypertext and hypermedia information through the Web and the user's computer. (The user's computer is referred to as a client computer of the Web Server computers.) The clients send requests to the Web Servers, which react, search and respond. The Web allows client application software to request and receive hypermedia documents (including formatted text, audio, video and graphics) with hypertext link capabilities to other hypermedia documents, from a Web file server.
The Web, then, can be viewed as a collection of document files residing on Web host computers that are interconnected by hyperlinks using networking protocols, forming a virtual “web” that spans the Internet.
Uniform Resource Locators
A resource of the Internet is unambiguously identified by a Uniform Resource Locator (URL), which is a pointer to a particular resource at a particular location. A URL specifies the protocol used to access a server (e.g. HTTP, FTP, . . . ), the name of the server, and the location of a file on that server.
Hyper Text Transfer Protocol
Each Web page that appears on client monitors of the Web may appear as a complex document that integrates, for example, text, images, sounds and animation. Each such page may also contain hyperlinks to other Web documents so that a user at a client computer using a mouse may click on icons and may activate hyperlink jumps to a new page (which is a graphical representation of another document file) on the same or a different Web server.
A Web server is a software program on a Web host computer that answers requests from Web clients, typically over the Internet. All Web use a language or protocol to communicate with Web clients which is called Hyper Text Transfer Protocol (“HTTP”). All types of data can be exchanged among Web servers and clients using this protocol, including Hyper Text Markup Language (“HTML”), graphics, sound, and video. HTML describes the layout, contents and hyperlinks of the documents and pages. When browsing, Web clients: convert user specified commands into HTTP GET requests; connect to the appropriate Web server to get information; and wait for a response. The response from the server can be the requested document or an error message. After the document or an error message is returned, the connection between the Web client and the Web server is closed.
HTTP version 1.0 is a stateless protocol in which there is no continuous connection between each client and each server. A Web client using HTTP receives a response as HTML data or other data. The new HTTP version 1.1 breaks this barrier of stateless protocol by keeping the connection between the server and client alive under certain conditions.
Telnet 3270
In an IP environment, telnet technologies (TN3270) is widely utilized to transport SNA information across an IP network. This technique for SNA “green screen” workstation users employs a Client/Server approach. IBM's “Host On Demand” or “WebClient” by CISCO are examples of
Giroir Didier
Hericourt Olivier
Cuchlinski Jr. William A.
Dillon & Yudell LLP
International Business Machines - Corporation
McConnell Daniel E.
Phan Tam T.
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