Data processing: software development – installation – and managem – Software program development tool – Translation of code
Reexamination Certificate
1998-09-02
2001-07-24
Chaki, Kakali (Department: 2122)
Data processing: software development, installation, and managem
Software program development tool
Translation of code
C717S152000, C714S035000, C714S045000
Reexamination Certificate
active
06266805
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to visualization in a modular software system and finds an application for instance in debugging and editing software systems which comprise a community of collaborative software agents.
2. Description of Related Art
Software agent technology has developed over the past few years in several different fields. A software agent is a computer program which acts as an agent for an entity such as a user, a piece of equipment or a business. The software agent usually holds data in relation to the entity it represents, has a set of constraints or conditions to determine its behavior and, most importantly, is provided with decision making software for making decisions on behalf of the entity within or as a result of the constraints and conditions. Agents are generally acting within a system and the decisions an agent makes can result in activity by the system. In control software systems, those decisions result in control activity, such as initiating connection set-up in a communications network controlled by the system.
An agent acting within a system will also generally hold data about the system so that it can operate in context.
In a distributed environment, many such agents may co-operate to co-ordinate and perform the control activities. Typically, such agents form an agent layer, with each agent interfacing with a number of external systems (the domain layer) which they control, monitor or manage, as shown in FIG.
1
.
An agent-based system can be very complex since the interactions between the agents, the decision-making processes of individual agents, and the interactions between agents and the external systems they control, need to be taken into account.
Different types of agent-based systems are described in many papers, such as those published in the proceedings of the First and Second International Conferences on the Practical Application of Intelligent Agents and Multi-Agent Technology. These are published by the Practical Application Company Ltd., Blackpool, Lancashire, in 1996 and 1997 respectively. A general comprehensive review of agent-based technology is given by Hyacinth S. Nwana, “Software Agents: An Overview”, published in 1996 in the
Knowledge Engineering Review
journal, Vol. 11, No. 3, at pages 205-244.
An example of a collaborative agent system, used in this case in communications network management, is described in international patent application number WO95/15635, in the name of the present applicant.
Copending European patent application number 97305600.5, also in the name of the present applicant, describes a software building environment for building a software system using collaborative agents. A software system built by using the environment can then be used for instance in the control, monitoring and/or management of a process or apparatus. The environment comprises at least one software module, means for capturing data for loading a copy of the module for use in a software system, and means for generating the software system itself. The software system, as built, comprises at least two of the loaded modules.
Each loaded software module preferably comprises a collaborative software agent. It will therefore comprise or have access to at least one collaboration or co-ordination strategy, expressed for instance as a rule or algorithm. The at least two loaded modules together can then provide a multiple agent community for controlling, monitoring and/or managing the process or apparatus.
Such a collaborative agent building environment allows a system developer to define a set of agents to work together in a system, organize them in relation to one another in whatever manner they choose, imbue them with co-ordination abilities suitable for the problems the agents are being designated to tackle, support links from the agents to the process or apparatus they need to communicate with, to control or update for instance, and generate the software code for the agents.
A particular problem arises with “collaborative” agents. Collaborative agents co-operate with one another to co-ordinate their activities in performing a particular task. Such co-operation may be necessary because know-how, resources or processing power may be distributed across the environment or across the agents in the system. It is important to co-ordinate the agents' activities in a problem- and context-dependent manner. The problem concerns debugging potentially very complex systems of this type.
SUMMARY OF THE INVENTION
According to embodiments of the present invention, there is provided a visualization arrangement for use in a software system for controlling, monitoring or managing a process or arrangement, the software system comprising a plurality of software modules provided with means to communicate with each other, wherein the visualization arrangement comprises means to store and provide for display communication instances, or data relating thereto, occurring in relation to a single, selected software module, and means to store and provide for display communication instances, or data relating thereto, occurring between at least two of the software modules.
A debugging arrangement which allows the user to choose to review communications relevant either to a single software module, or to a community of communicating software modules, or to both, can offer a very effective debugging mechanism to the user.
Preferably, the visualization arrangement is provided with means for obtaining organizational data in relation to the software modules, and with means for processing the communications instances or data prior to display, such that the communications instances, or data relating thereto, can be displayed in a manner determined by the organizational data.
It is also advantageous if the visualization arrangement is provided with means to access data or executable software code held in one or more of the software modules, to download the data or code, to provide the data or code for modification and to load modified data or code to the software module. The data or code may be modified by editing means provided within the visualization arrangement itself, or by separate editing means.
In the following description, it should be noted that, in a distributed environment, software modules in practice may not themselves comprise data or software, such as collaboration or co-ordination strategies as mentioned above. They may instead simply have access to them, for instance for loading at the relevant run-time.
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Title: StarLite, a visual simulation package for software prototyping, Cook et al, ACM, Dec. 9-11, 1986.*
Title: GIDTS: a graphical programming environment for Prolog, Kokai et a, ACM, 1999.*
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Liedekerke et al., “Debugging multi-agent systems”, 1993, pp. 103-112.
Lee Lyndon Chi-Hang
Ndumu Divine Tamajong
Nwana Hyacinth Sama
British Telecommunications PLC
Chaki Kakali
Das Chameli C.
Nixon & Vanderhye P.C
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