Citations: Agent-oriented integration of distributed mathematical services - Franke, Hess, Jung, Kohlhase, Sorge (ResearchIndex)

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A. Franke, S. Hess, Ch. Jung, M. Kohlhase, and V. Sorge. Agent-Oriented Integration of Distributed Mathematical Services. J. of Universal Computer Science, 5(3):156--187, 1999. Special issue on Integration of Deduction System.

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PROSPER: An Investigation into Software Architecture for Embedded .. - Melham (Correct)

....on linking BDDs into HOL98 [30] Some other projects which also provide a generic framework for the integration of tools are listed below. MATHWEB is a framework for distributed mathematical services provided by reasoning systems such as resolution theorem provers and computer algebra systems [25]. A special service for storing knowledge, MBASE [26] allows theory information to be shared between other services. W ANTS combines interactive and automated theorem provers using an agent based approach [13] Its blackboard architecture and other agent oriented features provide flexible ....

A. Franke, S. M. Hess, C. G. Jung, M. Kohlhase, and V. Sorge, `Agent-Oriented Integration of Distributed Mathematical Services', Journal of Universal Computer Science, vol. 5 (1999), pp. 156--187.

Automated Theorem Discovery: A Future Direction for Theorem Provers - Colton (Correct)

....which to apply HR. There are many future directions for automated theorem discovery research. In particular, we intend to link HR with many theorem provers, either through 2 Subject to bugs in the theorem prover s implementation and the way in which HR passes them to the prover. 9 the MATHWEB [15] or SystemOnTPTP [25] systems (or indeed both) The advantage to HR having a selection of provers to employ is that appropriate ones can be selected for a particular theorem. SystemOnTPTP has such a selection mechanism, and we hope to take full advantage of this. We also intend to extend HR s ....

A Franke, S Hess, C Jung, M Kohlhase, and V Sorge. Agent-oriented integration of distributed mathematical services. Journal of Universal Computer Science, 5(3):156-187, 1999. Special Issue on Integration of Deduction Systems.

An Agent-based Approach to Reasoning - Benzmüller (2001) (Correct)

.... advantage of our approach to hard wired integrations or even re implementations of specialised reasoners is that it makes the reuse of existing systems possible (even without the need for a local installation of these systems) Accessing external systems is orchestrated by packages like Mathweb [ Franke et al. 1999 ] or the logic broker architecture [ Armando and Zini, 2000 ] From the perspective of these infrastructure packages our work can be seen as an attempt to make strong use of their system distribution features. Related agent based theorem proving systems [ Denzinger and Fuchs, 1999; Fisher and ....

A. Franke, S. Hess, Ch. Jung, M. Kohlhase, and V. Sorge. Agent-Oriented Integration of Distributed Mathematical Services. Journal of Universal Computer Science, 5(3):156-187, 1999.

The PROSPER Toolkit - Dennis, Collins, Norrish, Boulton.. (2000) (10 citations) (Correct)

....a generic framework for the integration of tools. mega [2] is a system developed to act as a mathematical assistant. Like Prosper, mega makes use of other reasoning systems (e.g. resolution theorem provers and computer algebra systems) These are all incorporated into a distributed MathWeb [9] and there is work in progress to produce a standard interface for integrating components. ETI [24] the Electronic Tool Integration platform, is an ambitious project aimed at allowing both the easy and rapid comparison of tools purporting to do similar jobs, and also the rapid prototyping of ....

A. Franke, S. M. Hess, C. G. Jung, M. Kohlhase, and V. Sorge, Agent-Oriented Integration of Distributed Mathematical Services. Journal of Universal Computer Science, 5(3), pp. 156-187, 1999.

Non-trivial Symbolic Computations in Proof - Planning Volker Sorge (2000) Self-citation (Sorge) (Correct)

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A. Franke, S. Hess, Ch. Jung, M. Kohlhase, and V. Sorge. Agent-Oriented Integration of Distributed Mathematical Services. J. of Universal Computer Science, 5(3):156--187, 1999. Special issue on Integration of Deduction System.

System Description: MBase, an Open Mathematical Knowledge Base - Franke, Kohlhase (2000) (1 citation) Self-citation (Franke Kohlhase) (Correct)

System Description: MathWeb, an Agent-Based Communication.. - Franke, Kohlhase Self-citation (Franke Kohlhase) (Correct)

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Andreas Franke, Stephan M. Hess, Christoph G. Jung, Michael Kohlhase, andVolker Sorge. Agent-oriented integration of distributed mathematical services. submitted, 1999.

MBase: Representing Knowledge and Context for the.. - Kohlhase, Franke (2000) (5 citations) Self-citation (Franke Kohlhase) (Correct)

LOmegaUI: Lovely OMEGA User Interface - Siekmann, Hess, Benzmüller.. (2001) Self-citation (Hess Kohlhase Sorge) (Correct)

Communication Protocols for Mathematical Services based.. - Armando, Kohlhase.. (2000) (2 citations) Self-citation (Kohlhase) (Correct)

....and most of the mathematical activities will be supported by mathematical software systems (we will call them mathematical services) connected by a commonly accepted distribution architecture, which we will call the mathematical software bus . We have argued for the need of such an architecture in [13], and we have in the meantime gained experiences with prototype systems (the MathWeb software bus [14] MathWeb SB) and the Logic Broker Architecture [5] systems) other groups have conducted similar experiments [15, 10] based on other implementation 1 2 Performative Layer, e.g. KQML Network ....

....Kqml and the OSI Reference Model technologies, but with the same vision of creating a world wide web of cooperating mathematical services. In order to avoid fragmentation, double inventions and to foster ease of access it is necessary to de ne interface standards for MathWeb. 1 In [13], we have already proposed a protocol based on the agent communication language Kqml [12] and the emerging Internet standard OpenMath [8, 28] as a content language (see Figure 1) This layered architecture which re nes the unspeci c application layer of the OSI protocol stack is inspired by the ....

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Andreas Franke, Stephan M. Hess, Christoph G. Jung, Michael Kohlhase, and Volker Sorge. Agent-Oriented Integration of Distributed Mathematical Services. Journal of Universal Computer Science, 5:156{ 187, 1999.

MDoc: An Open Markup Format for Mathematical Documents - Kohlhase (2000) Self-citation (Kohlhase) (Correct)

System Description: MBase, an Open Mathematical Knowledge Base - Franke, Kohlhase (2000) (1 citation) Self-citation (Franke Kohlhase) (Correct)

OMDoc: An Infrastructure for OpenMath Content Dictionary.. - Kohlhase (2000) (4 citations) Self-citation (Kohlhase) (Correct)

Specialized External Reasoners in Proof Planning - Melis, Sorge (2000) Self-citation (Sorge) (Correct)

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A. Franke, S. Hess, Ch. Jung, M. Kohlhase, and V. Sorge. Agent-Oriented Integration of Distributed Mathematical Services. Journal of Universal Computer Science, 5(3):156-187, March 1999. Special issue on Integration of Deduction System.

Non-trivial Symbolic Computations in Proof Planning - Sorge (2000) Self-citation (Sorge) (Correct)

....while the interface is a process providing a bridge for communication. Its role is to automate the broadcasting of messages by transforming output of one system into data that can be processed by the other 1 . The maintenance of processes and passing of messages is managed by the MathWeb [11] environment Omega mega is embedded into. The role of sapper in the integration has two distinct aspects: Firstly, arbitrary CAS can be easily used as black box systems for term rewriting (similar to approaches of [4, 3] and sapper works as a simple bridge between the planner and the CAS. ....

A. Franke, S. Hess, Ch. Jung, M. Kohlhase, and V. Sorge. Agent-Oriented Integration of Distributed Mathematical Services. J. of Universal Computer Science, 5(3):156--187, 1999. Special issue on Integration of Deduction System.

Towards Concurrent Resource Managed Deduction - Benzmüller, Jamnik, Kerber.. (1999) Self-citation (Sorge) (Correct)

No context found.

A. Franke, S. Hess, Ch. Jung, M. Kohlhase, and V. Sorge. Agent-Oriented Integration of Distributed Mathematical Services. Journal of Universal Computer Science, 5(3):156--187, March 1999. Special issue on Integration of Deduction System.

Adaptive Course Generation and Presentation - Siekmann, Benzmüller, Fiedler, .. (2000) Self-citation (Franke Kohlhase Sorge) (Correct)

.... object (shown as : in Figure 2) that encodes a logical formula similar to in Figure 1 that formalizes the content of the CMP (we have not included it for space reasons) For details on OMDoc, see [9] 3 The Open Architecture The distributed setup of the system employs the MathWeb 2 system [8, 7] for distributed automated theorem proving that connects a wide range of mathematical services by a common mathematical software bus. The MathWeb system provides the functionality to turn existing theorem proving systems and mathematical tools into services that are homogeneously integrated into a ....

A. Franke, S. M. Hess, C. G. Jung, M. Kohlhase, and V. Sorge. Agent-oriented integration of distributed mathematical services. Journal of Universal Computer Science, 5:156-187, 1999.

Towards Concurrent Resource Managed Deduction - Benzmüller, Jamnik, Kerber.. (1999) Self-citation (Sorge) (Correct)

System Description: MBase, an Open Mathematical Knowledge Base - Franke, Kohlhase (2000) (1 citation) Self-citation (Franke Kohlhase) (Correct)

LOmegaUI: Lovely OMEGA User Interface - Siekmann, Hess, Benzmüller.. (1999) Self-citation (Hess Kohlhase Sorge) (Correct)

LOmegaUI: Lovely OMEGA User Interface - Siekmann, Hess, Kohlhase.. (1999) Self-citation (Hess Kohlhase Sorge) (Correct)

Agent Based Mathematical Reasoning - Benzmüller, Jamnik, Kerber, Sorge (1999) Self-citation (Sorge) (Correct)

....solver and the integrated computer algebra systems Maple and CAS [19] and an analogy module [22] Additional features are a multi modal graphical user interface [25] a proof verbalisation tool [18] and a connected database of mathematical theories. Using the Mathweb agent architecture [17], most of these integrated systems can be distributed over the Internet. Information on successful or unsuccessful proof attempts of the integrated systems (e.g. partial proofs) can be translated back into Omega mega s central proof data structure, which is based on a higher order variant of ....

....i.e. of the agents, available for solving this problem. Depending on the evaluation process an initial resource distribution is computed, in particular, a main strategy line may be manifested. An infrastructure allowing to distribute resources is already provided by the Mathweb architecture [17]. An automatic evaluation module will then be added to the system. The goal is not to remove the human in this process; on the contrary, the agent and resource approach should strongly facilitate the communication between the human and the machine. In fact, human expertise can be incorporated ....

A. Franke, S. Hess, C. Jung, M. Kohlhase, and V. Sorge. Agent-oriented integration of distributed mathematical services. Journal of Universal Computer Science, 5(3):156--187, 1999. Special issue on Integration of Deduction System.

Plug-in Proof Support for Formal Development Environments - Hemer, Long, Strooper (Correct)

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Franke, A., Hess, S., Jung, C., Kohlhase, M. & Sorge, V. (1999), `Agent-oriented integration of distributed mathematical services', Journal of Universal Computer Science 5(3), 156--187.

Agent-Based Distributed Software Verification - Hunter, Robinson, Strooper (Correct)

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Franke, A., Hess, S. M., Jung, C. G., Kohlhase, M. & Sorge, V. (1999), `Agent-oriented integration of distributed mathematical services', Journal of Universal Computer Science 5(3), 156--187.

Formal Representation Issues in an Open Mathematical Knowledge.. - Kohlhase (2001) (Correct)

A Prototype Proof Translator from HOL to Coq - Denney (2000) (3 citations) (Correct)

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A. Franke A, S.M. Hess, G.Ch. Jung, M. Kohlhase, and V. Sorge. Agentoriented integration of distributed mathematical services. Journal of Universal Computer Science, 5, 2000.

Coordination of Mathematical Agents - Zimmer (2001) (Correct)

No context found.

Andreas Franke, Stephan M. Hess, Christoph G. Jung, Michael Kohlhase, and Volker Sorge. Agent-oriented integration of distributed mathematical services. Journal of Universal Computer Science, 5:156-187, 1999.

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