Knowledge-based engineering

Knowledge-based engineering

Knowledge-based engineering (KBE) is a discipline with roots in computer-aided design (CAD) and knowledge-based systems but has several definitions and roles depending upon the context. An early role was support tool for a design engineer generally within the context of product design. Success of early KBE prototypes was remarkable (see History); eventually this led to KBE being considered as the basis for generative design with many expectations for hands-off performance where there would be limited human involvement in the design process.

Overview

KBE can be defined as engineering on the basis of electronic knowledge models. Such knowledge models are the result of knowledge modeling that uses knowledge representation techniques to create the computer interpretable models. The knowledge models can be imported in and/or stored in specific engineering applications that enable engineers to specify requirements or create designs on the basis of the knowledge in such models. There are various methods available for the development of knowledge models, most of them are system dependent. An example of a system-independent language for the development machine-readable ontology databases, including support for basic engineering knowledge, is called Gellish English. An example of a CAD-specific system that can store knowledge and use it for design is the CATIA program through its KnowledgeWare module. An example of a CAD-independent, [http://www.genworks.com/downloads/gdl-doc-skel/usage.txt language-based KBE] system with full compiler and support for runtime application deployment is General-purpose Declarative Language (GDL) from [http://www.genworks.com Genworks International] .

KBE can have a wide scope that covers the full range of activities related to Product Lifecycle Management and Multidisciplinary design optimization. KBE's scope would include design, analysis (computer-aided engineering – CAE), manufacturing, and support. In this inclusive role, KBE has to cover a large multi-disciplinary role related to many computer aided technologies (CAx).

KBE also has more general overtones. One of its roles is to bridge knowledge management and design [http://www.coe.org/coldfusion/newsnet/Jun05/knowledge.cfm#1 automation] . Knowledge processing is a recent advance in computing. It has played a successful role in engineering and is now undergoing modifications (to be explained). An example of KBE’s role is [http://www.coe.org/coldfusion/newsnet/Apr05/ generative mechanical design] . There are others. KBE can be thought of as an advanced form of computer applications (in some forms with an extreme end-user computing flavor) that support PLM and CAx.

There are similar techniques, such as electronic design automation. AAAI provides a long list of [http://www.aaai.org/AITopics/html/engin.html engineering applications] some of which are within the KBE umbrella. At some point, the concept of KBE might split into several sub-categories as MCAD and ECAD are just two of many possible types of design automation.

History

KBE essentially was a [http://www.coe.org/Newsnet/Oct05/index.cfm complementary development] to CAx and can be dated from the 1980s (See Also, ICAD). CAx has been developing along with the [http://www.memagazine.org/contents/current/features/cassist/cassist.html computer] after making large strides in the 1970s.

As with any bit of progress, KBE flashed on the horizon, lit the sky for a while, and then experienced a downslide (see AI Winter). KBE had sufficient success stories that sustained it long enough into the 1990s to get attention. Some prime contributors to the hiatus of KBE were unmanageable expectations, increasing tedium associated with forming completion of results, and some notion that the architecture for KBE was not sufficiently based upon the newer technology.

KBE continued to exist in pockets. With the prevalence of object-oriented methods, systems advanced enough to allow re-implementation. This reconstruction has been on-going for several years and has been frustratingly slow. Now, with the basis for this discipline becoming more robust, it starts to get interesting again.

KBE, as implemented with ICAD can be thought of as an advanced form of computer applications (in some forms with an extreme end-user computing flavor) that support PLM and CAx.

KBE and product lifecycle management

The scope of PLM involves all the steps that exist within any industry that produces goods. KBE at this level will deal with product issues of a more generic nature than it will with CAx. Some might call this level 'assembly' in orientation. However, it's much more than that as PLM covers both the technical and the business side of a product.

KBE then needs to support the decision processes involved with configuration, trades, control, management, and a number of other areas, such as optimization.

Recently the Object Management Group released a [http://www.omg.org/cgi-bin/doc?dtc/05-09-11 RFP Document] titled "KBE services for PLM" and requested feedback.

KBE and CAX

CAx crosses many disciplinary bounds and provides a sound basis for PLM. In a sense, CAx is a form of applied science that uses most of the disciplines of engineering and their associated fields. Materials science comes to mind.

KBE's support of CAx may have some similarities with its support of PLM but, in a sense, the differences are going to be larger.

The KBE flavor at the CAx level may assume a strong behavioral flavor. Given the underlying object oriented focus, there is a natural use of entities possessing complicated attributes and fulfilling non-trivial roles. One vendor's approach provides a means via workbenches to embed attributes and methods within sub-parts (object) or within a joining of sub-parts into a part.

As an aggregate, the individual actions, that are event driven, can be fairly involved. This fact identifies one major problem, namely control of what is essentially a non-deterministic mixture. This characteristic of the decision problem will get more attention as the KBE systems subsume more levels and encompasses a broader scope of PLM.

KBE and knowledge management

KBE is related to knowledge management which has many levels itself. Some approaches to knowledge are reductionistic, as well they ought to be given the pragmatic focus of knowledge modeling. However, due to KBE dealing with aggregates that can be quite complicated both in structure and in behavior, some holistic notions (note link to complexity theory) might be apropos.

Also, given all the layers of KBE and given the fact that one part of an associated space is heavily mathematical (namely, manifold in nature), KBE is extremely interesting from the knowledge viewpoint (or one would hope).

All one has to do is note that the KBE process's goal is to produce results in the 'real world' via artifacts and to do so using techniques that are highly computational. That, in essence, is the epitome of applied science/engineering, and it could never be non-interesting.

KBE methodology

The development of KBE applications concerns the requirements to identify, capture, structure, formalize and finally implement knowledge. Many different so-called KBE platforms support only the implementation step which is not always the main bottleneck in the KBE development process. In order to limit the risk associated with the development and maintenance of KBE application there is a need to rely on an appropriate methodology for managing the knowledge and maintaining it up to date.As example of such KBE methodology the EU project MOKA "Methodology and tools Oriented to Knowledge based Applications" propose solutions which focus on the structuration and formalization steps as well as links to the implementation see [http://www.kbe.coventry.ac.uk/moka/ MOKA project]

Languages for KBE

Some questions can be asked in regard to KBE implementation: can we represent knowledge in a vendor-neutral format? can the knowledge in our designs be retained for decades, long after a vendor system (such as, CATIA) has disappeared?

These questions are addressed in a 2005 Aerospace COE presentation [http://www.vought.com/ntcoe/data/presentation_wilson_20060217.pdf A Proposal for CATIA V6] by Walter Wilson of Lockheed Martin.

Mr. Wilson advocates using a type of programming language to define design data -- operations, parameters, formulas, etc. -- instead of a proprietary file format (such as Dassault's CATIA). One's data would no longer be tied to a specific CAD system. Unlike STEP, which inevitably lags commercial CAD systems in the features it supports, programmability would allow the definition of new design features.

A [http://www.axiomaticlanguage.org logic programming language] is proposed as the basis for the engineering design language because of its simplicity and extensibility. The geometric engine for the language features would be open source to give engineers control over approximation algorithms and to better guarantee long-term accessibility of the data.

Meanwhile, the commercially available General-purpose Declarative Language (GDL) from [http://www.genworks.com Genworks International] addresses the issue of application longevity by providing a high-level declarative language kernel which is a superset of [http://en.wikipedia.org/wiki/Common_Lisp ANSI Common Lisp] .

The GDL kernel follows a concise, pragmatic [http://www.genworks.com/downloads/gdl-doc-skel/usage.txt language specification] representing something akin to a de-facto neutral format for representing KBE-style knowledge. It consists of the same Smalltalk-inspired declarative object-oriented message-passing format which been a common thread among classical KBE systems for more than two decades.

Because GDL applications are written as a strict superset of [http://en.wikipedia.org/wiki/Common_Lisp ANSI CL] , only the high-level declarative surface syntax is GDL-specific. The bulk of application code is pure compliant ANSI CL. And because of ANSI CL's inherent support for code transformation macros, even this surface syntax is subject to straightforward automated conversion among other variations of the de-facto standard. It is reasonable to expect that implementations following this approach will eventually converge on a true vendor-neutral Standard KBE language specification.

KBE in Academia

*See Webliography for [http://web.cs.wpi.edu/Research/aidg/AIinD-hotlist.html AI in Design] hosted by Worcester Polytechnic Institute and the NSF Report " [http://asudesign.eas.asu.edu/events/NSF/report.html Research Opportunities in Engineering Design] ."
* [http://www.lr.tudelft.nl/dar Design of Aircraft and Rotorcraft] , Faculty of Aerospace Engineering, Delft University of Technology, The Netherlands, has adopted GDL from [http://www.genworks.com Genworks International] as a basis for KBE and their Multi-model Generator (MMG).

Implementations

The following KBE development packages are commercially available:

For CAD

*DriveWorks A SolidWorks Certified Gold Partner [http://www.solidworks.com] ]
* [http://genworks.com/products.html GDL] from [http://www.genworks.com/ Genworks International]
*Kadviser from [http://www.nimtoth.com/kadviser.html NIMTOTH] previously Kade-Tech
*KBEWorks by [http://www.visionkbe.com/ VisionKBE]
* [http://www.plm.automation.siemens.com/en_us/products/nx/prog_custom/kbp.shtml Knowledge Fusion] from UGS Corp.
* [http://www.3ds.com/es/products-solutions/plm-solutions/catia/all-products/domain/Product_Synthesis Knowledgeware] from Dassault Systemes
* [http://www.navitech.us/Products/Magix/Overview.aspx Magix] by [http://www.navitech.us/ Navitech]
*Pro/ENGINEER Expert Framework from Parametric Technology Corporation
*SmartAssembly for Pro/ENGINEER from Sigmaxim Inc.
*YVE - Your Variant Engineer from [http://www.tecneos.de/ tecneos software-engineering]
*ICAD from Dassault Systemes (no longer available)

For General-purpose development of Web-deployed applications

* [http://genworks.com/products.html GDL] from [http://www.genworks.com/ Genworks International]

For analysis, design and engineering processes

* [http://www.quaestor.org Quaestor] by [http://www.qnowledge.nl/index.php?page=Home&lang=en Qnowledge Modeling Technologies]

KBE futures, KBE theory

KBE, as a particular example of KS, is a multi-disciplinary framework that has more than practical considerations. Not only will KBE require successful handling of issues of the computational ( [http://www-ksl.stanford.edu/knowledge-sharing/papers/engmath.html Ontology] , Artificial Intelligence, Entscheidungsproblem, Interactive computation, Category Theory, ...) and logic (non-monotonic issues related to the qualification, frame, and ramification problems)), it will touch upon all sciences that deal with matter, its manipulations, and the related decisions. In a sense, PLM allows us to have the world as a large laboratory for experimental co-evolution of our knowledge and our artificial co-horts. What better framework is there to explore the "increasingly complicated mappings between the human world and the computational"?

In terms of methodology and their associated means, KBE offers support via several paradigms. These range from the home-grown all the way to strategically defined and integrated tools that cover both breadth and depth. A continuing theme will be resolving the contextual definitions for KBE into a coherent discipline (or at least attempting this) and keeping a handle on managing the necessary quantitative comparisons. One issue of importance considers what limits there may be to the computational; this study requires a multi-disciplinary focus and an understanding of the quasi-empirical. Given the knowledge focus of KBE, another issue involves what limits there might be to a computational basis for knowledge and whether these are overcome with the more advanced types of human-machine interface.

ee also

* Knowledge-based systems
* Functional programming
* Multidisciplinary design optimization
* Model
* Model (abstract)
* Design
* Entscheidungsproblem
* Decision problem - KBE is mainly a collection of decision points. Several aspects of KBE approach what might be called a 'decidable' bounds though it's hard to get this fact discussed (hence the node here to foster the discussion).
* Differential geometry

External links

* [http://www.coe.org/ COE links]
** [http://www.coe.org/coldfusion/Newsnet/Oct05/index.cfm Knowledge-Based Engineering: Update]
** [http://www.coe.org/coldfusion/newsnet/Jun05/knowledge.cfm#1 What Distinguishes KBE from Automation]
** [http://www.coe.org/coldfusion/newsnet/July05/knowledge.cfm#1 CATE, Lessons for KBE]
** [http://www.coe.org/Collaboration/DiscussionForum/ActiveDiscussions/tabid/210/forumid/19/postid/102692/view/topic/Default.aspx KBE Best Practices]
** [http://www.coe.org/coldfusion/newsnet/july03/ COE Feature: CATIA V4 and V5 - What Does the Difference Mean?]
* [http://www.plm.automation.siemens.com/en_us/products/nx/prog_custom/kbp.shtml Knowledge Fusion] from UGS Corp.
* [http://www.omg.org/cgi-bin/doc?dtc/05-09-11 KBE Services for PLM RFP]
* [http://www.omg.org/cgi-bin/doc?mantis/2005-10-01 KBE services for PLM" RFP: feedback questionnaire]
* [http://www.alcyon.co.in/whatiskbe.pdf Alcyon Engineering: Introduction to Knowledge Based Engineering]
* [http://www.kbe.coventry.ac.uk/moka/links.htm MOKA Links]
* [http://www.memagazine.org/contents/current/features/cassist/cassist.html ASME celebrates 125th Anniversary]
* [http://ajswtlk.com/TruthEngineering.aspx Truth Engineering]
* [http://www.gid.uji.es/docs/articles/bermellP_02_01.pdf A KBE System for the Design of Wind Tunnel Models Using Reusable Knowledge Components]
* [http://www.lr.tudelft.nl/live/pagina.jsp?id=b5411c30-06d3-424a-849b-085b774687c5&lang=en Knowledge Based Engineering] department at the [http://www.lr.tudelft.nl Faculty of Aerospace Engineering] of the [http://www.tudelft.nl Delft University of Technology]
* [http://ntnu-kbe.org/default.aspx Knowledge-based engineering] at the Norwegian University of Science and Technology (NTNU)


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