Multiplex communications – Communication techniques for information carried in plural... – Adaptive
Reexamination Certificate
1998-07-22
2002-10-08
Ton, Dang (Department: 2661)
Multiplex communications
Communication techniques for information carried in plural...
Adaptive
C370S475000, C709S203000
Reexamination Certificate
active
06463078
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to network computing and computer connectivity and more specifically to improving performance of multi-user applications for networks.
BACKGROUND OF THE INVENTION
With the advances in network computing technologies, there is an increasing emphasis in the software industry on software applications that take advantage of the power of network computing to enable users to interact and share information over computer networks. In particular, the prominence of the Internet and applications that take advantage of the Internet have grown dramatically. With this increased emphasis on network computing and the Internet, multi-user applications have become more popular. A multi-user application refers to an application in which two or more users interact over a network. Some examples of multi-user applications include multi-player games, video conferencing and groupware.
While the improvements in network computing have increased the performance of multi-user applications, today's networking technology, especially in the context of the Internet, still has performance limitations. One well-documented limitation of networks, and especially massive wide-area networks like the Internist, is the latency incurred in passing messages among participants of a multi-user application. In interactive applications, such as multi-player games, it is particularly important to minimize the delay in passing messages back and forth between the users' computers.
Another limitation of network computing, especially in the context of highly interactive applications, is the inefficient use of transmission bandwidth of popular network communication protocols. Standard network communication protocols like TCP/IP send data over a network by forming packets to carry portions of the data. Each packet includes layers of address information. In networking applications where transmission bandwidth is limited, the address information further limits the bandwidth available for transferring data between computers.
To illustrate these issues, it his helpful to consider an example of a multi-user application on large, wide area network, such as the Internet. To join into a multi-user application, each participating user establishes a connection between the user's computer and a network interconnecting the users' computers. Each computer can connect to the network through a modem via a telephone line or a network adapter via a local area network (LAN).
FIG. 1
illustrates an example of a network connection formed via the Internet where the user typically establishes a dial up modem connection with an Internet Service Provider.
In a multi-user application session, each user may be required to launch a copy of the application on the user's computer. Alternatively, the multi-user application may run on a central computer on the network with which each user of the multi-user application is in communication.
The computers participating in the multi-user application communicate according to a network communication protocol. Standard communication protocols, such as TCP/IP, transfer data in packets. In TCP/IP, the packet is marked with a sequence number, the address of the recipient, and the address of the sender. This addressing information is common in standard protocols so that the protocol can be used for a variety of applications and can be used to address a large number of users.
The transmission delays and inefficiencies of the transmission protocols used on the Internet degrade performance of multi-user applications, and in particular, multi-player games. To address this problem, multi-player games are implemented on dedicated game servers that remote users can connect to via a direct modem-to-modem connection rather than via the Internet. While these game servers provide enhanced performance, they make it more difficult to coordinate multi-player game sessions because each player must know when to connect to the server and what protocol to use.
The Internet can serve as an excellent forum to bring users together. To coordinate a multi-user application session, participants in the session can meet in a virtual lobby hosted on the Internet (or some other wide area network) to establish the time and place for the session. A virtual lobby, typically hosted on a server called a lobby server on the Internet, is a form of a chat room. Users typically navigate to the virtual lobby with a network browser. Once at the virtual lobby, a user interacts with other users by entering text or cursor device input via the graphical user interface (GUY) of the browser. For example, players of a multi-player game might “meet” in an Internet game lobby to plan an immediate multi-player game session on a local server outside of the Internet. Lobbies, with the accessibility advantages of wide area networks like the Internet, can bring thousands of users together to plan multi-user application sessions on smaller networks. Switching to these smaller networks. users of multi-user applications enjoy more efficient communication.
FIG. 1
shows a diagram of the Internet to illustrate the difference between game servers on the Internet and dedicated game servers independent from the Internet. Users
20
,
22
,
24
of multi-user applications can connect to the Internet through Internet service providers
30
,
32
,
34
, meet in an Internet lobby
36
, plan a multi-user application session, and then transfer to the application server
38
hosting the application session without disconnecting from the Internet. However, the performance of this type of multi-user application session is not optimal because a large portion of a packet for a wide area network protocol is devoted to addressing. Further, message packets are routed through multiple Internet routers
40
,
41
,
42
,
43
,
44
,
45
as well as an Internet Service Provider before being reassembled for each user. The resulting communication is slow and unpredictable, especially for real-time multi-user applications requiring quick responses, such as multi-player games. Such multi-user application sessions may be required to slow down to accommodate the inefficient communication.
A smoother, faster multi-user application session can be achieved by conducting the session on a dedicated multi-user application hub server
50
. Note that the direct connection to the server
50
bypasses the Internet. In a game session on the server, messages are routed to the hub, and then to another user
20
,
22
,
24
. Message packets used to communicate through the smaller network need less space per packet for addressing. The resulting communication is more efficient than Internet communication.
The efficiency advantages of current systems using both lobbies and dedicated application servers are balanced by the disadvantages of having to switch manually between multiple communication protocols and links.
FIG. 2
shows the steps taken by a user following current methods of switching between a lobby and a multi-user application session. Under existing systems using both a lobby and a dedicated application server, a user must first choose a protocol (
60
) and establish a connection (
61
) to a wide area network hosting a lobby, or directly dial a computer hosting a lobby. The user must then find the lobby on the lobby server or network (
62
).
After planning a multi-user application session with other users in the lobby (
64
), each user must then disconnect the communication link with the lobby (
66
), noting the information required to connect to the dedicated application server. This information may include protocol information, a network address, and/or a telephone number.
Next, each user must connect to the dedicated application server using the information from the lobby. The protocol followed when establishing this new connection may differ from the protocol used to connect to the lobby. If so, the user must select the proper protocol to use (
68
) and then make the connection (
70
). Each user must also manually launch a copy of the m
Eisler Craig G.
Engstrom G. Eric
Klarquist & Sparkman, LLP
Nguyen Brian
Ton Dang
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