Integración de principios inventivos de TRIZ en sistema de diseño conceptual asistido por ordenador (CAD)

Ponencia presentada en el IX Congreso Internacional de Ingeniería de Proyectos celebrado en Málaga en el año 2005The work presented proposes the integration of TRIZ inventive principles as criteria for searching design alternatives in functional reasoning CACD systems. This approach enhances the exploration of different kinds of solutions and stimulates designers’ creativity by means of a synthesis process oriented by inventive principles, thus implementing aspects concerning CAI systems in an initial divergent scheme in order to guide the designer to search for more innovative alternatives.Este trabajo propone la integración de los principios inventivos de TRIZ como criterio de búsqueda de alternativas en sistemas CACD basados en razonamiento funcional con el fin de ampliar las posibilidades de explorar distintas soluciones y de estimular la creatividad del diseñador. La aproximación presentada permite explorar distintas alternativas mediante un proceso de síntesis orientado por los principios inventivos, implementado así parte de la filosofía de los sistemas de invención asistida por ordenador (CAI) en un esquema inicial divergente, para guiar al diseñador a la búsqueda de alternativas que acerquen a la innovación

Expert system prototype for hydraulic system design focusing on concurent engineering aspects /

Tese (Doutorado)- Universidade Federal de Santa Catarina, Centro Tecnológico

Contact and channel modelling to support the early design of technical systems

The early design of mechanical systems is critical because it constrains options later in the design process. In this early stage of the design process, designers must consider customer requirements, how they are related to system functionality and how these requirements and functions are implemented in the physical interactions between components and sub-systems. This paper proposes an approach by which the Contact and Channel Model (C&CM) can be applied to support this stage of embodiment design. The proposed approach is implemented in a computer support tool and illustrated through a simple example. A number of opportunities for further work to extend and evaluate the approach are identified. We argue that our approach offers a unique way to consider the functionality of a design alongside the parts, surfaces and physical effects which embody that functionality, and provides an intuitive representation which could help designers iteratively develop and express this relationship

Knowledge representation and re-use in FMEA

The research described in this paper addresses the ability rapidly and easily to create product variants through the capture and re-use of design and manufacturing knowledge. New methodologies are envisaged that enable companies to anticipate problems before they occur, thus transferring them from ‘reactive’ to ‘predictive’. The implementation of predictive design represents the crucial move from standard parts to standard knowledge constructs. Standard parts can be used in any application that requires a defined function where the shape and properties do not need to be altered. However, standard knowledge constructs can provide parts that can be used wherever the function is required. Examples of the technique are presented from recently completed research concerning FMEA applied to electronic products

Evaluation of a method and a computer tool for generating concept designs

The authors have developed a method/computer tool to assist (student) engineering designers in generating concept designs. The method is based on the chaining of physical laws and complementary basic schemata (BS). The tool generates chains which serve as an aid in the development of concept designs. In this paper, the authors compare concept designs generated by a control group (which used functional structure and morphological matrix) with those from an experimental group that used computer-generated chains. The experimental group was found to have generated a greater number of different solutions than the control group; the generation of different solutions indicates a high level of variety and a better chance to find potentially innovative solutions. The established difference in the number of different solutions is statistically significant and the results indicate that the BS facilitate greater variety of concept designs

Function-Based Computer Aided Conceptual Design Support Tool

Conceptual design is considered as the most critical and important phase of design process. It is the stage where product’s fundamental features are determined, large proportion of the lifecycle cost of the product is committed, and other major decisions are made, which have significant impact on the downstream design and related manufacturing processes. It is a knowledge intensive process where diverse knowledge and several years of experience are put together to design quality and cost effective products. Unfortunately, computer support systems for this phase are lagging behind compared to the currently available commercial computer aided design (CAD) tools for the later stage of design to reduce the designers workload and product development time. The overall goal of this research is to provide designers with computational tool that support conceptual design process. To achieve this goal a methodology that integrates systematic design approach with knowledge-based system is proposed in this thesis. Accordingly, a framework of computer based computational tool known as conceptual design support tool (CDST) is developed using the proposed methodology. The tool assists designers in performing functional modeling by providing standard vocabularies of functions in the form of function library, generate concepts stored in the database from previous designs, display the generated concepts on the morphology chart, combine the concepts and evaluate the concepts variants. Concepts from subsea processing equipment design have been collected and saved in the database. The tool also accepts new concepts from the designer through its knowledge acquisition system to be saved in the database for future use. In doing so, it is possible to integrate human creativity with data handling capabilities of computers to perform conceptual design more efficiently than solely manual design. The tool can also be used as a knowledge management system to preserve expert’s knowledge and train novice designers. The applicability of the proposed methodology and developed tool is illustrated and validated by using a case study and validation test conducted by independent evaluators

Functional design of mechanical products based on behavior-driven function-environment-structure modeling framework

The relative significance of upstream design activity to downstream design activity is widely recognized, due to its critical role in determining the final product’s functionality. Although there are now some general methodologies dealing with functions or reasoning about functions, virtually no commercial CAD system can support functional design. In functional modeling, a design problem is represented in a hierarchy of functions and the behaviors that realize the functions. This paper presents a functional design methodology based on a behavior-driven function-environment-structure (B-FES) modeling framework to guide functional design through functional reasoning steps including causal behavioral reasoning (CBR) and functional decomposition. The proposed functional design starts from a set of design specifications including functional requirements and design constraints, and results in diverse behavioral schema corresponding to a set of design alternatives. A design example for functional design of a terminal cut-off unit in an automatic assembly system is used to provide a demonstration of the proposed functional design methodology.Singapore-MIT Alliance (SMA

B-Cube, Behavioural modelling of technical artefacts

A new model, B-Cube, is described for managing knowledge at the behaviour level of the function–behaviour–structure framework. The model proposes a three-dimensional approach to the behavioural modelling of technical artefacts using definitions based mainly on the meta-ontology DOLCE as concepts of behaviour. The present work aims to show how these terms and those from the NIST functional basis can complement each other in functional design. It is assumed that this model achieves similar objectives with behaviours to those obtained by the NIST functional basis with functions, i.e. the representation of behaviours in CAD and KBS, a scheme for the modelling of behaviours and a universal set of behaviours. The modelling language IDEF was adapted to be able to produce a graphic example of the modelling of technical artefacts in the FBS framework using B-Cube terminology at the behaviour level

IMPLEMENTATION AND UNIFORM MANAGEMENT OF MODELLING ENTITIES IN A MASSIVELY FEATURE-OBJECT ORIENTED ADVANCED CAD ENVIRONMENT

Today we are spectators of the transition process in computer aided design from traditional geometry based on design systems to advanced computer-based engineering systems. The key is the feature technology that allows both integrating and managing modelling entities in a coherent way. Feature technology is developing rapidly. New research topics and contexts are emerging from time to time. This paper introduces concept, design and technological feature-objects to support operational, structural and morphological modelling of mechanical products. First, the feature-centred approaches to conceptual design are summarized and evaluated. Then an implementation of concept feature-objects and the methodology for using them is presented. The strength of concept feature-objects is in their morphology inclusive nature. They appear as parametrized three-dimensional skeletons providing geometrical representations for the modelled engineering conceptions. A concept feature-object models the physical ports, contact surfaces related to ports, bones between ports, DOF of ports, relevant physical parameters, scientific and empirical descriptions of intentional transformations and environmental effects. Concept feature-objects are related to design feature-objects that, in turn, are constructed of a relevant set of technological feature-entities. Concept feature-objects refer to the configurable and parametrized design feature-objects through an indexing mechanism. The conceptions have been tested during the programming and further development of the authors' PRODES system