Electrical computers and digital processing systems: multicomput – Network computer configuring
Reexamination Certificate
1998-05-05
2001-03-20
Maung, Zarni (Department: 2757)
Electrical computers and digital processing systems: multicomput
Network computer configuring
C709S208000, C709S221000, C709S225000
Reexamination Certificate
active
06205476
ABSTRACT:
TECHNICAL FIELD
The invention relates generally to the fields of personal computing and networking. Specifically, it relates to the new and evolving field of network computing, in which desktop computer users use a personal computer, possibly diskless, connected to a network such as a corporate intranet, the Internet, or to an network or Internet Service Provider (ISP) to gain access to applications which are then executed on the desktop computer. More specifically, the invention relates to server-based storage of software preferences (configuration data) for software retrieved from a server and executing at the desktop computer.
BACKGROUND OF THE INVENTION
The field of network computers is presently in its infancy. However, it is expected to evolve rapidly, especially in the corporate environment, for a number of reasons. The expectation is that as companies and possibly individual users reach hardware and software upgrade points, it will be more efficient and less expensive to move to this new field, rather than upgrade in the traditional way with disk equipped computers and locally stored and administered software applications. For example, in the corporate environment, a user can be connected to a corporate intranet, using, for example, the TCP/IP and HTTP protocols of the Internet, and download software applications as they are needed directly from a network server to the desktop computer. An application is executed on the desktop in the traditional manner by the user to perform useful work. An advantage of this configuration is that network computers are substantially less expensive than traditional disk equipped computers. It might also cost less to purchase the required number of software licenses for users, rather than purchase individual copies of software for each user. Certainly, the software administration problems that attend large numbers of corporate users will be substantially reduced. At the present time, each user of a disk equipped computer or workstation often is effectively his or her own system administrator, a role that often consumes excessive resources due to lack of expertise. It is expected to be a great advantage to eliminate this problem by effectively offloading the problem to a small number of server administration experts, rather than having many users struggle with the problems of software installation, upgrades and computer administration.
As mentioned above, this vision of the future of personal computing is presently in its infancy. As a result, there are presently many problems and deficiencies with existing systems.
Typically, in network computer systems, an administrator creates user profiles that are stored on a network server. The profiles may contain different types of information, such as user desktop preferences and user permissions for access to different software applications that might reside on the server. When a user logs onto the system, the user identifies him or herself to the server, the server locates the profile for the user and transmits it to the user computer where it is used to configure the computer and generate a desktop. The desktop might include a number of icons representing applications to which the user presumably has access. The profile likely also contains other attributes of the computer and desktop, such as for example, the background color of the desktop, or character fonts and point sizes used on the desktop, or data file search paths, etc. that are unique to the user. The profiles may be user modifiable or non-modifiable.
In an environment in which users can modify their own profiles, a modified profile is uploaded back to the server at log-off time, where it is stored for retrieval the next time the user logs-on. In some prior art systems, to the best of our knowledge, the users can generate on their desktops any configuration of application icons they wish, whether or not they exist on the server, and whether or not a user actually has access permission to an application on the server. The Lotus Workplace Desktop (previously called Kona Desktop) system is an example of this type of operation. In other systems, the server presents a list to the user of all applications that the server has, from which the user can pick. In this case, there is no guarantee that the user actually has access permission to an application that is selected from the list for inclusion on the desktop. The Sun Hot Java Views system is an example of this type of system. In other words, the prior art systems do not correlate between what the user can configure for the set of desktop application icons and applications to which the user actually has permission access. In such a case, when the user clicks on a icon to execute an application, an error message may occur (such as an unauthorized access message) if access permission is not present, or in a worse case, the user's computer may crash.
Another limitation with existing art is that a flat data structure is used to model users, user groups, terminals and groups of terminals. Modeled after a common scheme for managing user access to computer resources, known network computer implementations (e.g., Lotus Administration Facility for Desktops, Microsoft Windows NT Profiles and Policies, and Sun Hot Java Views) implement a flat “groups” structure on the server for managing software preferences (or attributes) in various contexts. A “context”, as used here, refers to an individual user, user group, terminal, or terminal group. Any grouping structure for managing software preferences on the server allows an administrator to define preference attributes for different groups of users as well as for individual users. However, flat systems are inflexible in many environments, especially in environments having large numbers of users. It is desirable to provide an administrative tool supporting the organization of preference information into a hierarchical structure.
Another limitation with existing systems is that they are limited in the ways that administrators and users have to perform user configuration of workstation desktops. For example, administrators are presently required to configure user preferences using configuration programs that are separate from, but associated with, a user application. It is desirable to allow vendors to provide only a single application. To require only an end user application from a vendor necessitates that the central management facility be able to execute the end user application in a context of a user or user group. The prior art does not allow this administrative flexibility of operation. In other words, in the prior art, to the best of our knowledge, an administrator does not have the ability to run a user application in the context of a user to set preferences for that user and application. Further, in the art, an administrator cannot run a user application to set preferences in the context of a group of users.
Still another limitation in the prior art known to the inventors is the manner in which the prior art partitions server permanent storage space to guarantee that a unique space is reserved for storing user preferences related to the different applications on the server. To the knowledge of the inventors, the problem of preventing collisions in the storage of preference information for different applications in object-oriented systems, in which an object can be queried for its fully qualified class name which uniquely identifies and differentiates it from other classes, is solved by having a first central authority assign a unique designation that applies to a vendor and by then having a second authority at the vendor assign a second designation relative to the first designation for each vendor application. For example, vendor A might be assigned the designation vendor by the first authority and that designation is guaranteed to be unique within the architecture for which the first authority is acting. The second authority at vendor A then assigns the second designation for each of its applications within that architecture. For example,
Edelman Bradley
Herndon Jerry W.
International Business Machines - Corporation
Maung Zarni
LandOfFree
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