Design Know-how Research Articles

Managing Design Knowledge: Active Document System

Sharing design knowledge within a company is critical to retain market competitiveness, especially when the company develops a family of products. The goal of this study is to develop a Web-based design knowledge management system, named Active Document System, that helps designers retrieve critical design information promptly. In order to manage unstructured knowledge such as design know-how systematically, Active Document System classifies design knowledge in accordance with product functions as well as product structures. This paper explains Active Document System and a method to deploy the product function. The concept is implemented and applied to the management of design knowledge for the refrigerator design process.

Model‐based design of reverse engineering tools

SUMMARY Tools built in an ad hoc way and without proper models often display problems for both tool users and designers. Firstly, without systematic analysis and good understanding of the underlying software process model, we have little chance to design a tool that will adequately address user’s needs. Next, because one tool is often used in many different situations and by people who have different working habits, tools should be flexible and allow a user to customise tools functionalities. Ad hoc built tools usually are not flexible enough, as possible variations in tool functions had not been incorporated into the tool architecture to make future customisations possible. Finally, ad hoc design practice does not lead to accumulating the tool design know-how, makes it difficult to repeat successful solutions and slows down the process of understanding and improving tool design methods. We applied conceptual modelling in design of tools for software maintenance to alleviate some of the above problems. In this paper, we describe a model-based method to designing reverse engineering tools. The design starts by modelling low level source program design models, higher level design models to be recovered and heuristic rules a reverse engineering tool uses to recover higher level designs from lower level designs. On one hand, conceptual models lead to better understanding of tool requirements. On the other hand, model-based approach leads to the design of a generic design abstractor, a component of a reverse engineering tool that evaluates reverse engineering heuristics. A generic design abstractor adds flexibility to reverse engineering tools in two ways: (1) we can customise the generic design abstractor to meet requirements of a reverse engineering project in hand and (2) a programmer (an end-user of a reverse engineering tool) can define new reverse engineering heuristics and tune in recovered designs.

Preliminary Estimation Tool of Propulsive Performance for High Speed Craft based onArtificial Neural Networks

In preliminary designs of high speed craft, it is often that main engines, reduction gears, and propellers are specified referring to accumulated trial data of actual craft, which is usually converted to design charts. These stern components should satisfy the requirements of both propulsive performance and practicable stern arrangement. The design knowhow of compromise between these requirements builds up by collecting the trial data.This paper proposes a trial database system for high speed craft, which consists of a collection of trial data, mapping neural networks (what we call a memory model), and a descriptive neural network. The memory model, whose input is a design condition (length, displacement, target speed), and outputs are the required horse power and the standard propeller specification, is generated by learning of the trial data. The descriptive neural network, which denotes the frequency of actual craft with the similar design condition, indicates the designer how conservative the given design condition is.The proposed database system is based on the trial data of 36 craft. The constructed neural networks set standard for the stern components, quickly estimate the propulsive performance, and reduce the number of iteration of the design spiral. When additional trial data is available, it is easy to modify the constructed networks, taking advantage of learning ability of neural network.

Hypertext database for design document of ECU software ? Design document conversion from plain text to a web of design know-how in hypertext Mitsuhiro Araki, Shigeharu Teshima (Toyota Central Research & Development Laboratories. Inc.)

Hypertext database for design document of ECU software ? Design document conversion from plain text to a web of design know-how in hypertext Mitsuhiro Araki, Shigeharu Teshima (Toyota Central Research & Development Laboratories. Inc.)

ニューラルネットワークを利用した「設計ノウハウ」のシステム化に関する研究 : 構造部材断面推定を対象として

ニューラルネットワークを利用した「設計ノウハウ」のシステム化に関する研究 : 構造部材断面推定を対象として

Design intelligence: Evolutionary and cognitive aspects

The aim of this paper is to discuss some positions, trends and future possibilities of CAAD and its AI support in connection with knowledge-based systems and the emerging cognitive and evolutionary paradigms of design. Problems of recognition and generation in designing architectural artifacts are surveyed. The capability to simulate design descriptions, generations and acceptance leads us to the concept of evolutionary redesign guided by tradition. Modelling of design intelligence at the level of evaluation of generitive design decisions makes it possible to explain improvement in design evolution. Real innovative design is connected to ideological revolutions and re-evaluations difficult to model. Customary rule relaxation in this context is discussed at meta-level using the concept of hyperconstituent. Real mastering of cognitive aspects in design calls for knowledge about design know-how, human emotions, volitions, expectations and skills. This makes it possible to investigate the harmonization of expert knowledge at master level in architectural decisions. The study of interpretation of design artifacts with cultural goals and values opens the way to recognize significant and important features in architecture considered as technology, art and science.

Problems in Developing Process Machinery

The development of process machinery poses certain special problems which are additional to those normally encountered in engineering development. In industries as widely different as oil refining, textiles, or agriculture, the equipment suppliers must all link into a lengthy process chain, they must deal with the question of process material spoilt during experimental work and they have to resolve the problem of the ownership of design know-how arising from operating experience gained by the processor. These problems have a significant influence on the development strategies adopted in different industries. On technical matters it is usual to try to isolate the machine from the process chain by using specification parameters. Five levels of abstraction in defining the parameters are described. On the commercial side the relationship between the manufacturer of the machine and the company operating the process must be established in unambiguous terms at the outset. Depending on the degree to which the machine manufacturer can later accept responsibility for some processes matters, various arrangements can be agreed for the future development of the machine and process and for the running of plant trials.

The expected and actual life of steam turbine bolts and castings

A large number of thermal power stations built in the 1950s and 1960s have reached their theoretical life expectancy and the manufacturers and operators of the plants are increasingly confronted with the question as to the actual life of the major components. The residual life potential of highly stressed turbine components is fundamentally defined on the basis of the virgin conditions, such as sizing data, design know-how and manufacturing technology, and the actual but relatively unknown life history, and cannot be determined theoretically when the components have been in service for decades. Only when the actual condition or the existing property profile of the components is determined by destructive and non-destructive tests on the basis of theoretical forecasts and expertise of the materials engineer concerning the manufacturing and testing techniques employed, is it possible to assess the suitability of the components for further operation. This paper includes, by way of an example, some results of tests on bolts and castings stressed in long-term operation.

型鍛造品への３次元ＣＡＤ／ＣＡＭシステムの適用について

CAD/CAM systems are widely utilized in many manufacturing industries for rationalization of die design and data processing for NC machining.To produce design, die design and die making of die forgings which consist of many curved surfaces, we have put CAD/CAM to practical us.The special features of our system are as follows.(1) It is mainly used for die forgings which consist of many curved surfaces.(2) It has many application programs including our own design know-how.(3) NC data for die making are transformed from CAD data by using CAM programs.(4) Die makings are done without models.(5) Users (Designers) can easily develope application programs using programming language particularly arranged.In this report the outline of our CAD/CAM system is descrived.

Application of AI technique to the buckling strength design of longitudinal members of ship

It has been widely recognized that Al technique or knowledge engineering should be incorporated in engineering practice in order to improve product's quality or reduce human labors. Expert systems for supporting ship manoeuvring or subdivision design of tankers have been developed in recent years.The present paper proposes expert system prototype for supporting buckling design of longitudinal strength in bulk carriers, which experienced engineers can perform. In ship design, it is a key role to minimize a routine work composed of analysis and synthesis, so that satisfactory results can be easily obtained by keeping safety of structure. There may be two important difficulties in building a system, that is, efficient data-control supporting re-analysis, and programming of complex ramification for plastic analysis or designer's know-how. This study show the validity of Al technique to resolve these two difficulties and minimize human labor irrelevant to intellectual design practice.

New Concepts in Sucker-Rod Pump Design

New streamlined sucker-rod pumps improve production performance of viscous crude wells in Venezuela. The simple two-stage version further improves the volumetric and power efficiency and minimizes pounding, gaslock and rod fall problems. pounding, gaslock and rod fall problems. Introduction About half a million sucker-rod pumps are installed in oil wells in the U. S. alone. In Venezuela, too, the system is widely used; some 5,000, or 90 percent, of Cia. Shell de Venezuela's wells produce a total of 400,000 BOPD by this method. Most of the crude pumped is viscous, gassy and contains relatively pumped is viscous, gassy and contains relatively small amounts of free water. API gravities vary from 9 degrees to 16 degrees; dead oil viscosities vary from 10 to 10,000 cp at the pump; and GOR's range from 100 to 2,000 cu ft/bbl. Pumps are set at depths ranging from a few hundred to 6,000 ft; the average setting depth is about 2,500 ft. From the literature, it appears that although recent years have seen significant progress toward understanding the rod pumping system as a whole, relatively little attention has been paid to those key items, the sucker-rod pump and the subsurface gas separator or gas anchor. Perhaps because of proration in the U. S., pump manufacturers have proration in the U. S., pump manufacturers have seemingly concerned themselves more with the durability of their product, achieved mainly through robust design and metallurgical know-how, than with its working efficiency. In 1963, CSV commenced a major rehabilitation and expansion of its heavy oil fields along the Bolivar Coast. The advent of the more efficient gravel-packed completion and of large-scale thermal recovery (mainly steam soak) operations resulted in well potentials greater than pump capacities. Hence, an urgent need arose to improve over-all pump efficiencies and to attack those special problems related to the production of both the extremely viscous and the hot, production of both the extremely viscous and the hot, steam-laden crudes that formed an increasing proportion of the total stream. There followed a detailed investigation and testing program, carried out in close cooperation with a major pump manufacturer. This culminated in the introduction to the oil industry of a new line of sucker-rod pumps. Early Investigations and Experiments Field Tests Extensive field tests were carried out in three primary Bolivar Coast wells with an in-situ dead oil viscosity ranging from 400 to 6,000 cp. In these installations provision was made to (1) monitor bottom-hole provision was made to (1) monitor bottom-hole pressures below, in and above the pump by means of pressures below, in and above the pump by means of pressure transducers, and record casing- and pressure transducers, and record casing- and tubing-head pressures continuously; (2) measure accurately the annulus gas, as well as measure the tubing gas and liquid production from the well; (3) take special PVT samples of the well fluid; (4) measure power consumption of the prime mover; and (5) measure power consumption of the prime mover; and (5) measure the rod loads at the polished rod. A typical test installation is illustrated in Fig. 1. It was established from the pressure transducers that with viscous oils, there is considerable flow resistance across the pump and gas anchor assembly. P. 342