Electrical computers and digital processing systems: multicomput – Computer network managing – Computer network monitoring
Reexamination Certificate
1999-09-27
2001-09-11
Maung, Zarni (Department: 2154)
Electrical computers and digital processing systems: multicomput
Computer network managing
Computer network monitoring
C709S221000, C345S960000
Reexamination Certificate
active
06289380
ABSTRACT:
STATEMENT AS TO RIGHTS TO INVENTIONS MADE UNDER FEDERALLY SPONSORED RESEARCH AND DEVELOPMENT, IF ANY
This patent is not based upon any federally sponsored research and development.
BACKGROUND OF INVENTION
A. Field of Invention
The present invention is in the field of systems and articles of manufacture to administer complex, heterogeneous networked computer systems.
B. Related Background Art
Prior art systems were deficient generally for two reasons: first, limitations inherent in available user interfaces, and second, absence of open-architecture, integrated systems effectively to manage and administer heterogeneous platforms using diverse operating systems for many different applications, including information technology and business management administration and to isolate views of specific business and management interests.
Prior art graphical user interfaces of administrative systems attempted to administer multi-unit computer networks by causing any of the four categories of information to appear on the computer monitor being used by the system administrator.
1. Lists, two-dimensional and on scrollable screens, typically using a windows program manager with many sublists showing printers, operating systems, physical sights, etc.
2. Tree diagrams showing the hierarchical relationships of the network system such as by showing the various geographical locations, the number of buildings at a location, the number of computers at each location, and the peripheral equipment associated with each computer and the systems being operated on each computer.
3. A hierarchical structure using folders and icons with each folder being a list of icons and with each icon by its color indicating the status of each unit.
4. Diagrams, with icons, of the various systems in a hierarchy.
Each of the displayed categories of information works well but with critical limitations. For example, the use of two dimensional lists is definitely limited by the number of units: as the number increases, the lists become effectively unmanageable by the user. Further, the hierarchical systems can allow increased navigating ability but are again limited to a few thousand devices and by the fact that the only relationships that can be displayed are those within the hierarchy. This is limited typically because the tree structure is based on a single hierarchy; for example, it may be organized geographically and this will not allow display of units in multiple geographical locations that are a part of a particular business interest. The hierarchical systems also have the shortcoming that limited status-indicating information may be displayed in the available space. Even when using the folders-icon system, although multiple hierarchies can be displayed, the user tends to be confused or is provided incomplete information by the limited amount of data that can be provided. Managing the user interface itself becomes a bigger concern than managing the computer network. Although through certain enhancements, the tree diagram/map system can improve on its effectiveness, such as by showing a transmission line as green if it is functioning and red if it is not, it and the other prior art interface systems are still limited to several thousand units.
In the case of all of the aforementioned prior art systems discussed above, none can be effectively used in the modern environment in which it is not uncommon to have 10,000 computer devices to more than 100,000 such devices in a networked system. Further, the prior art systems limit the scope of the responsibility of the systems administrator. As the number of units within a network system increases, the number of physical and logical relationships between the systems responsible for the various functions increases exponentially so it becomes very difficult, if not impossible, to manage the network system. Even trained professionals cannot deal with the enormous numbers of relationships that must be monitored and managed in the complex systems. With prior art systems administration interfaces, panel design, PF keys, and screen clutter prohibit the intuitive navigation that enables effective systems and enterprise management.
The second broad category of deficiencies in the prior art relate to the absence of manageable systems for networks comprised of widely diverse hardware platforms and even more widely diverse software systems and specific application programs. For some time, as computer networks became more complex, systems administrators have needed the ability to have a view of the network that identifies and presents for viewing the units or assets that function in support of a particular application, and also to have the ability to apply systems management functions (asset utilization, alarms, software distribution, etc.) to manage the particular application. Prior to the present invention, a systems administrator would have to set up different systems for different platforms and applications: e.g., an administrator may need to set up Sun NetManager or Open-View or IBM's NetView to run LANs, then set up a different set of systems management tools for each of the other platforms in a user's enterprise—e.g., a system to track activities on AS/400s; another administration system may be needed for a UNIX host and server systems (and something different for each different UNIX OS, if there is more than one in a user's network). Further, mainframe systems tools for security, backup, scheduling, etc.; plus software distribution tools, desktop asset management tools, help desk and trouble-ticketing tools all had to be separately provided, and their compatibility constantly was problematic.
In the prior art, there has not been a system or apparatus that, on a single console, effectively and in combination:
1. Uses 3-D virtual reality to map complex systems—business or Information Technology—to an intuitive and effective interface;
2. Maps systems management tasks to business functions, not to system hardware or software;
3. Achieves end-to-end comprehensive integrated systems and network management of all elements of an IT network from a single or several points of control;
4. Allows business process management of financial, manufacturing, distribution, systems, and network applications using a real world interface; and
5. Brings functionally robust management tools to client/server systems.
The need for a system to accomplish these objectives was the result of certain historical developments that resulted in many users having widely diverse computer systems. In the early years of computing, mainframe computers were widely used. The advent of client/server systems brought a new dimension to systems management. Multiple computers, from a simple one client/one server environment, to a complex array of different computers from different manufacturers supporting large and complex client/server applications using a wide variety of software systems must be administered as if they were one interoperable system.
In large networks, with hundreds, or even thousands, of workstations and dozens of servers, administration and management of the individual workstations is a very substantial task. The administration can include workstation configuration control, system security, workstation fault correction, application monitoring for software license compliance, software application distribution, software version control, and customization of user environment. In such large networks, administration became time-consuming and tedious because the system administration was in the same physical location as the workstation. Since these workstations are typically spread over a large areas such as a large, multi-story building, multiple cities, and even multiple countries, a significant amount of time and effort was spent in traveling between workstations to perform management tasks.
In the prior art, the focus of system management was on network equipment and systems. See, Stafford, “Application Management—Client-Server's Missing Link,”
Bar Business,
Feb. 1, 1996, Volume 12, N
Battat Reuven
Her Michael
Sundaresh Chandrasekha
Vinberg Anders
Wang Sidney
Caldwell Andrew
Calfee Halter & Griswold LLP
Computer Associates Think Inc.
Lech Robert R.
Maung Zarni
LandOfFree
Network management system using virtual reality techniques... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Network management system using virtual reality techniques..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Network management system using virtual reality techniques... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-2458286