Relevant bibliographies by topics / Engineering of the products

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Engineering of the products'

Author: Grafiati
Published: 4 June 2021
Last updated: 16 February 2022

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Journal articles on the topic "Engineering of the products"

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Hameed, Isma. "Title: Security in Requirement Engineering for Qualitative Products." International Journal of Engineering and Technology 4, no. 6 (2012): 747–49. http://dx.doi.org/10.7763/ijet.2012.v4.476.

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Bradley, David. "Concurrent engineering for bespoke products." Assembly Automation 15, no. 1 (1995): 35–37. http://dx.doi.org/10.1108/eum0000000004225.

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Atlee, J., and R. Wieringa. "RE 05: Engineering Successful Products." IEEE Software 23, no. 3 (2006): 16–18. http://dx.doi.org/10.1109/ms.2006.79.

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Shavrin, O. I., L. N. Maslov, and L. L. Lukin. "Nanoscale technology for engineering products." Nanotechnologies in Russia 11, no. 3-4 (2016): 183–91. http://dx.doi.org/10.1134/s199507801602018x.

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Kharisova, A. R., and A. S. Puryaev. "Competitiveness assessment of engineering products." IOP Conference Series: Materials Science and Engineering 69 (December 11, 2014): 012020. http://dx.doi.org/10.1088/1757-899x/69/1/012020.

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Davies, Julian. "Genetic engineering: Processes and products." Trends in Ecology & Evolution 3, no. 4 (1988): S7—S11. http://dx.doi.org/10.1016/0169-5347(88)90129-2.

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Davies, Julian. "Genetic engineering: Processes and products." Trends in Biotechnology 6, no. 4 (1988): S7—S11. http://dx.doi.org/10.1016/0167-7799(88)90005-4.

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Федонин, Олег, and Oleg Fedonin. "Corrosion resistance support in engineering products." Science intensive technologies in mechanical engineering 2018, no. 10 (2018): 33–38. http://dx.doi.org/10.30987/article_5bb4b1fac46428.78454624.

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The results of theoretical and experimental investigations of parts surfaces corrosion resistance at different methods of their manufacturing are presented. A general theoretical dependence is shown for the definition of surface corrosion resistance depending on environment, material properties, surface quality and coating methods. The equations for the definition of values of different coefficients affecting corrosion resistance are given. Technological measures ensuring corrosion resistance increase in surfaces of machinery are shown.
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Rikukawa, H., and I. Sasaki. "Computer Aided Engineering for Ferrite Products." Le Journal de Physique IV 07, no. C1 (1997): C1–133—C1–134. http://dx.doi.org/10.1051/jp4:1997144.

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WEBBER, DAVID. "Engineering Plastics: More Products, More Competition." Chemical & Engineering News 64, no. 33 (1986): 21–293846. http://dx.doi.org/10.1021/cen-v064n033.p021.

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Dissertations / Theses on the topic "Engineering of the products"

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Morrise, Jacob S. "Collaborative Products: A Design Methodology with Application to Engineering-Based Poverty Alleviation." BYU ScholarsArchive, 2011. https://scholarsarchive.byu.edu/etd/2831.

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Collaborative products are created when physical components from two or more products are temporarily recombined to form another product capable of performing entirely new tasks. The method for designing collaborative products is useful in developing products with reduced cost, weight, and size. These reductions are valued in the developing world because collaborative products have a favorable task-per-cost ratio. In this paper, a method for designing collaborative products is introduced. The method identifies a set of products capable of being recombined into a collaborative product. These products are then designed to allow for this recombination. Three examples are provided to illustrate the method. These examples show that a collaborative block plane, apple peeler, and brick press, each created from a set of products, can increase the task-per-cost ratio of these products by 42%, 20%, and 30%, respectively. The author concludes that the method introduced herein provides a new and useful tool to design collaborative products and to engineer products that are valued in the developing world.
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Schütte, Simon. "Designing Feelings into Products : Integrating Kansei Engineering Methodology in Product Development." Licentiate thesis, Linköping University, Linköping University, Machine Design, 2002. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-2658.

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<p>Tendencies in product development of today make it likely that many future products will be functional equivalent and therefore hard to distinguish between for the customer. Customers will decide by highly subjective criteria which product to purchase. One task for product development in this context is to be able to capture the customer’s considerations and feelings of products and translate these emotional aspects into concrete product design.</p><p>Today a number of different methods, such as Quality Function Deployment (QFD), Semantical Environment Description (SMB), Conjoint Analysis and Kansei Engineering exist and are used in practical applications.</p><p>The purpose of this thesis is to understand and apply Kansei Engineering methodology and explore ways to integrate the methodology into an industrial product development process.</p><p>This was done by conducting a study on forklift trucks in different European countries and business areas and by exploring ways of integrating Kansei Engineering in product development processes.</p><p>The number of Kansei words collected was reduced based on the result of a pilot study using a combination of different tools. A computerized data collection method was used in combination with a modified VAS-scale in order to reduce the time for filling out the evaluation forms The results of the study in the visited Northern and Middle European companies make it evident that Kansei Engineering has to be adapted in several aspects to the circumstances in each situation. The data showed that there are differences in attitude towards reach trucks in the different European countries. These results were used in order to adapt the product requirements for each specific country. Starting at Cooper’s stage gate model Kansei Engineering was applied on a macro level, a micro level and for verifying purpose. Using QFD, Kansei Engineering helps to identify customer needs their importance and the technical responses as well as to conduct benchmarking and to connect the customer needs mathematically to the technical responses.</p><p>This study of Kansei Engineering revealed that there was no general model on the methodology available in English literature. Outgoing from a previous flowchart, a conceptual framework of Kansei Engineering was developed integrating the existing Kansei Engineering Types and future tools.</p><br>ISRN/Report code: LiU-Tek-Lic 2002:19
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Wasley, Nicholas Scott. "A Multiobjective Optimization Method for Collaborative Products with Application to Engineering-Based Poverty Alleviation." BYU ScholarsArchive, 2013. https://scholarsarchive.byu.edu/etd/3790.

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Collaborative products are created by combining components from two or more products to result in a new product that performs previously unattainable tasks. The resulting reduction in cost, weight, and size of a set of products needed to perform a set of functions makes collaborative products useful in the developing world. In this thesis, multiobjective optimization is used to design a set of products for optimal individual and collaborative performance. This is introduced through a nine step method which simultaneously optimizes multiple products both individually and collaboratively. The method searches through multiple complex design spaces while dealing with various trade-offs between products in order to optimize their collaborative performance. An example is provided to illustrate this method and demonstrate its usefulness in designing collaborative products for both the developed and developing world. We conclude that the presented method is a novel, useful approach for designing collaborative products while balancing the inherent trade-offs between the performance of collaborative products and the product sets used to create them.
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Castro, João Nuno Lopes. "Individuals in product development : interactions with teams and products." Thesis, Massachusetts Institute of Technology, 2010. http://hdl.handle.net/1721.1/62758.

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Thesis (Ph. D.)--Massachusetts Institute of Technology, Engineering Systems Division, 2010.<br>Cataloged from PDF version of thesis.<br>Includes bibliographical references (p. 107-116).<br>This dissertation focuses on how individuals involved in complex product development operate and interact with other people in the project and how they perceive and modify the product. Complex product development requires the collaboration of multiple individuals who are specialists in different disciplines. One of the challenges with the execution of design and development projects is coordinating the contributions of each individual to guarantee an aligned, seamless fit. I review a selection of the literature on team frameworks, coordination methods and empirical product development studies which address teams, individuals and product architectures and structures. I then conduct two studies. One focuses on individual to individual communication requirement stability and the other on individual interaction with product structure over the development period. In the first, I examine how the most important communication channels between individuals in multifunctional teams compare across thirteen different projects. In this study I found a direct correlation between functionally similar projects and their network of important communication links between individuals. This indicates that when faced with a problem of similar nature the profile of connections between individuals - which ones are more or less important - will also be similar. In the second, I study how individuals interact with the structure of a product in four software development projects. I found that most individual work is localized and consists of internal improvement work. When work is done that requires simultaneous modifications of several components, I found that the associations made between components does not follow the existing structural dependencies as indicated by the function calls between components. This behavior is consistent throughout the development of the projects and is not dependent on the design state of the product. The associations made between components are also not a good indicator of future structural dependencies. These observations do not follow the indications from previous work on team interactions and product structure, revealing that individuals make associations beyond those suggested by just the structural connections. It was also observed that individuals are able to identify and work on the most important components in a product and that work is conducted on components irrespective of their age in the system. Finally, a real-time observation of project execution method is proposed based on the several analysis steps developed within this thesis. The use of this method can be advantageous for practitioners to verify the progress of project and control deviations from plan. This thesis contributes directly to the stream of research of coordination in product development and contributes to the practice with new methods to help those involved in large-scale complex product development filter the extensive work done by many individuals and find areas of possible intervention.<br>by João Nuno Lopes Castro.<br>Ph.D.
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Loureiro, Geilson. "A systems engineering and concurrent engineering framework for the integrated development of complex products." Thesis, Loughborough University, 1999. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.250969.

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Koenig, Christian. "Structured Gambling Products and Behavioral Financial Engineering." St. Gallen, 2007. http://www.biblio.unisg.ch/org/biblio/edoc.nsf/wwwDisplayIdentifier/00160986001/$FILE/00160986001.pdf.

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Sina, Ata. "Origami engineering : advanced converting for novel paper products." Thesis, University of British Columbia, 2015. http://hdl.handle.net/2429/52607.

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The recent work has focused to develop a fully automated prototype in order to make products in large quantities. A unique and novel methodology has been developed to create self-folding paper products. This platform technology enables us to create sophisticated complex 3D paper structure from ordinary 2D paper sheet. The self-folding material is composed of pre-cut and creased paper and heat shrinking thermoplastic polymer. A computational drawing tool is first used to design folds for particular 3D shape then a computer numerical controller cutter with knife at variable pressure is employed to cut paper and the thermoplastic polymer. The cut paper and thermoplastic polymer can be attached together by a large number of polymeric materials and several means of attaching polymer-paper have been explored. The effect of various polymer-paper attachments including chemical adhesion, stitching and welding was studied. Heat welding procedure was quite successful and it showed to be promising technique to make a strong polymer-paper bond. An experimental device was made and a series of experiments were conducted to reveal the significant factors, their effective range, and their impact on the paper-polymer bond strength. The effect of pressure, temperature, welding attachment area and, thickness of paper on the paper-polymer bond strength were determined and a database of strength attachments with an effective factors variation was collected. First, our in-house developed servo-robot for cutting was assisted with automatic welding system and then a large flatbed cutter has been used and functionally changed to perform cutting, creasing and adhering paper and plastic in one step. The effect of significant factors such as attachment distance to fold line, heating temperature and paper thickness on the folding angle has been studied and discussed in chapter 4. Several examples of folded decorative and industrial products have been developed using this technique and introduced in chapter 5.<br>Applied Science, Faculty of<br>Mechanical Engineering, Department of<br>Graduate
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Kokkonen, T. (Tatu). "Business case sales planning concept for new products and product portfolio." Master's thesis, University of Oulu, 2017. http://urn.fi/URN:NBN:fi:oulu-201710112974.

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Companies are demanded to introduce new products to market in order to satisfy diverse customer needs and be competent in relation to competitors. In addition to traditional, full-scale new product development (NPD), lighter development models have recently been researched. Rapid product development (RaDe) is a new agile product development model aiming to aid companies to adjust quickly to changing customer needs. Whether new products are introduced by lengthy NPD or quick and agile RaDe, it should be ensured that development activities are aligned with company strategy and that new products enhance the overall profitability of the company. Business case analysis investigates the business value of a new product initiative. Generally, market assessment inputs estimations of market potential and attractiveness into the business case analysis and thus functions as the basis for anticipated sales volumes and sales prices. Expected revenues are compared with life cycle cost predictions in order to conduct financial analysis presenting the attractiveness of the new product initiative in chosen financial metrics. However, there is a lack of business case analysis methodology on product portfolio level, and this study seeks to address this research gap. This research is an explorative and qualitative case study using constructive approach. The results of this study include a concept for calculating financial metrics for new sales item so that product portfolio level changes in sales are taken into account. The developed concept seeks to be eligible for NPD- and RaDe-contexts alike. The essence of the concept is comparison of the anticipated net cash flows for the sales items that are affected by the new item’s introduction in two scenarios. In first scenario, it is assumed that the new item is not introduced at all and the anticipated net cash flows are calculated based on that assumption over the new item’s life cycle. The second scenario calculates the net cash flows for the affected items taking into account the likely impact the new item has on the sales of those items. The differences of net cash flows between these two scenarios are taken into account as a cash outflow or inflow for corresponding time period when calculating net cash flow based financial metrics for the new sales item. In addition, this study introduces a proposition of a concept for product portfolio level sales planning and follow-up. In this concept, the sales plan consists of the planned sales volumes and the planned sales prices for individual sales items. Both target setting and follow-up of actual execution should be implemented on the level of volume and price so that the unit of planning is revenue (volume * price). Targeted and actual sales figures for individual sales items are further rolled up to upper commercial product portfolio levels. This enables analysis and comparison of targeted and actual sales performance on each product portfolio level<br>Yritykset joutuvat esittelemään uusia tuotteita markkinoille tyydyttääkseen moninaiset asiakastarpeet ja pitääkseen itsensä kilpailukykyisenä suhteessa kilpailijoihin. Perinteisen, täyden mittakaavan tuotekehityksen (New Product Development — NPD) lisäksi hiljattain on tutkittu kevyempiä ja nopeampia tuotekehitysmalleja. Nopea tuotekehitys (Rapid Product Development — RaDe) on yksi tällaisista ketteristä tuotekehitysmalleista. Se pyrkii auttamaan yrityksiä vastaamaan uusiin asiakasvaatimuksiin nopeasti. Riippumatta siitä, kehitetäänkö uusi tuote täysimittaisella tuotekehityksellä vaiko nopealla tuotekehityksellä, tärkeää on varmistaa että kehitettävä tuote on yrityksen strategian mukainen ja todennäköisesti parantaa yrityksen kokonaistuottavuutta. Business case analyysi arvioi uuden tuoteidean liiketoiminnallista arvoa. Markkina-analyysi tuottaa yleisen markkinapotentiaaliarvion business case analyysiin ja toimii näin pohjana odotetuille myyntivolyymeille ja -hinnoille. Uuden tuotteen arvioitua liikevaihto verrataan tuotteen oletettuihin elinkaarikustannuksiin, ja tämän pohjalta koostetaan taloudellinen analyysi, joka havainnollistaa uuden tuoteidean attraktiivisuutta valituin taloudellisin tunnusluvuin. Tuoteportfolio tason business case metodologiaa ei kuitenkaan ole saatavilla, ja tämä tutkimus pyrkii täydentämään tätä puutetta. Tämä diplomityö on eksploratiivinen ja kvalitatiivinen case-tutkimus, jossa on konstruktiivinen ote. Tutkimustulokset sisältävät konseptin taloudellisten tunnuslukujen laskemiselle uudelle tuotenimikkeelle siten, että portfoliotason muutokset myynnissä otetaan huomioon. Kehitetty konsepti pyrkii olemaan hyödynnettävissä niin NPD- kuin RaDe-kontekstissa. Konseptin ydin on uuden myyntinimikkeen vaikutuksenalaisena olevien nimikkeiden nettokassavirtojen vertailu kahden skenaarion välillä. Ensimmäisessä skenaariossa vaikutuksenalaisille nimikkeille lasketaan nettokassavirrat uuden nimikkeen elinkaaren yli oletuksella, ettei uutta nimikettä tuoda ollenkaan portfolioon. Toisessa skenaariossa vaikutuksenalaisille myyntinimikkeille lasketaan nettokassavirrat huomioiden uuden tuotteen todennäköinen vaikutus näiden nimikkeiden myyntiin. Nettokassavirtojen erot näiden skenaarioiden välillä vähennetään tai lisätään kassavirtana vastaavalle ajanjaksolle, kun lasketaan nettokassavirtoihin perustuvia tunnuslukuja uudelle nimikkeelle. Lisäksi tutkimus tarjoaa ehdotuksen menetelmästä tuoteportfoliotason myyntisuunnitteluun ja myynnin seurantaan. Tässä menetelmässä myyntisuunnitelma koostuu myyntivolyymeistä ja -hinnoista yksittäisille myyntinimikkeille. Sekä tavoitteenasettelu että tapahtuneen myynnin seuranta tulisi tehdä volyymin ja hinnan tasolla siten että suunnittelun yksikkö on myyntitulo (volyymi * hinta). Tavoitellut ja toteutuneet myyntiluvut vieritetään edelleen ylemmille kaupallisen tuoteportfolion tasoille. Tämä mahdollistaa tavoitellun ja toteutuneen myynnin analysoinnin ja keskinäisen vertailun kullakin tuoteportfoliotasolla
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Andersson, Henric. "Variability and Customization of Simulator Products : A Product Line Approach in Model Based Systems Engineering." Doctoral thesis, Linköpings universitet, Maskinkonstruktion, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-73572.

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AIRCRAFT DEVELOPERS, like other organizations within development and manufacturing, are experiencing increasing complexity in their products and growing competition in the global market. Products are built from increasingly advanced technologies and their mechanical, electronic, and software parts grow in number and become more interconnected. Different approaches are used to manage information and knowledge of products in various stages of their lifecycle. "Reuse" and "Model Based Development" are two prominent trends for improving industrial development efficiency. The product line approach is used to reduce the time to create product variants by reusing components. The model based approach provides means to capture knowledge about a system in the early lifecycle stages for usage throughout its entire lifetime. It also enables structured data  management as a basis for analysis, automation, and team collaboration for efficient management of large systems and families of products. This work is focused on the combination of methods and techniques within; modeling and simulation-based development, and (re)use of simulation models through the product line concept. With increasing computational performance and more efficient techniques/tools for building simulation models, the number of models increases, and their usage ranges from concept evaluation to end-user training. The activities related to model verification and validation contribute to a large part of the overall cost for development and maintenance of simulation models. The studied methodology aims to reduce the number of similar models created by different teams during design, testing, and end-user support of industrial products. Results of the work include evaluation of a configurator to customize and integrate simulation models for different types of aircraft simulators that are part of a simulator product family. Furthermore, contribution comprises results where constraints in the primary product family (aircraft) govern the configuration space of the secondary product family (simulators). Evaluation of the proposed methodology was carried out in cooperation with the simulator department for the 39 Gripen fighter aircraft at Saab Aeronautics.<br>FLYGPLANSTILLVERKARE LIKSOM andra industrier inom utveckling och tillverkning, hanterar ökande komplexitet i sina produkter och upplever en större konkurrens på den globala marknaden. Produkter byggs från allt mer avancerad teknologi. Ingående delar av mekanik, elektronik och mjukvara växer i antal och blir allt mer integrerade. Olika metoder används för att hantera information och kunskap om produkter i olika steg av dess livscykel. ”Återanvändning” och ”Modellbaserad utveckling” är två tydliga trender för att öka effektiviteten inom industriell utveckling. Produktfamiljer används för att minska ledtider när man skapar varianter av produkter genom att återanvända färdiga komponenter. Modellbaserade metoder ger möjlighet att tidigt i livscykeln samla kunskap om ett system för att användas under hela systemets livstid. De ger också strukturerad hantering av data som grund för analys, automatisering och samarbete mellan utvecklingsteam, vilket är en förutsättning för effektiv hantering av komplexa system och produkter. Detta arbete är fokuserat på en kombination av metoder och tekniker för; utveckling som baseras på modellering och simulering, och (åter)användning av simuleringsmodeller. Med ökande beräkningsprestanda och effektivare metoder/verktyg för att bygga simuleringsmodeller så ökar antalet modeller och deras användning spänner allt från konceptvärderingen till utbildning av slutanvändare. Arbetet med verifiering och validering av simuleringsmodeller utgör en stor del av deras totala utvecklings- och underhållskostnader. De studerade metoderna syftar till att minska antalet liknande modeller som hanteras av olika team för olika syften, som till exempel; utveckling, verifiering och som stöd för slutanvändare. Resultat av arbete inkluderar utvärdering av en konfigurator för att välja, integrera och anpassa simuleringsmodeller för olika typer av flygplanssimulatorer i en simulatorproduktfamilj. Dessutom bidrar arbetet med en metodik där begränsningarna i den primära produktfamiljen (flygplan) begränsar konfigurationsutrymmet för den sekundära produktfamiljen (simulatorer). Utvärdering av den föreslagna metoden har genomförts i samarbete med simulatoravdelning för flygplan 39 Gripen på Saab Aeronautics.
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Sharif, Syed Ahsan Mechanical &amp Manufacturing Engineering Faculty of Engineering UNSW. "Development of an enterprise knowledge base (EKB) framework for new product development (NPD) in customer order driven engineering (CODE) environment." Awarded by:University of New South Wales. School of Mechanical and Manufacturing Engineering, 2006. http://handle.unsw.edu.au/1959.4/24260.

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It is widely believed that with the transition from the industrial to information-based economics, organizational knowledge has emerged as the single most critical resource at both macro and micro levels, which promotes the creation, sharing, and leveraging of the organization???s knowledge in current Customer Order Driven Engineering (CODE) environment. Insufficient knowledge management, hence lack of a structured Enterprise Knowledge Base (EKB) in a CODE environment, whilst involved in New Product Development (NPD) process may result in several problems resulting in creating less successful products. This research establishes an ???Enterprise Knowledge Base (EKB) framework??? with focus on the Product, Process and Organizational issues related to the NPD process. The framework has three major stages, namely ???Knowledge Acquisition???, ???Knowledge Organizing??? and ???Knowledge Validating???. Various frameworks/methods/models are developed as steps for each of these stages. The framework may increase the effectiveness of product and process development as well as enterprise competitiveness through developing a system architecture to understand, analyse and map organisational, operational activities and business objectives; and increasing the ability of an organisation to establish an integrated partnerships to share efforts on the design, manufacture and delivery of products. In knowledge acquisition stage, a ???Knowledge Capture framework??? and the ???Relationship matrices??? are developed to analyse and link the generic knowledge items of a NPD process in concurrent engineering environment. Among the relationship matrices, Task versus Task (Design Structure Matrix - DSM) matrix is comprehensively explored and decomposed to structure and link several processes at different levels for effective representation of the overall enterprise representation. In knowledge organizing stage, the acquired knowledge (important relations identified in the Task versus Task matrices) is represented in the form of ???Questionnaires???. Best practices gathered from several manufacturing firms in NPD in CODE have also been used as knowledge resource base for the Questionnaires. For grouping and validation of these Questionnaires, an ???Assessment Model??? is developed, which consists of five performance indicators of the organization namely ???Marketing???, ???Technical???, ???Financial???, ???Resource Management???, and ???Project Management???. Industry applications are carried out in two Australian Manufacturing Companies for the validation of the acquired knowledge. Two tests are carried out; in order to assess the sensitivity of question categories followed by another test to observe whether the model can accurately display the overall performance of the company in the five categories of NPD phases. These two tests have identified possible improvement areas in the NPD process of manufacturing organizations involved in the validation phase. Up to 80% of the findings of the EKB framework and assessment model were found to reflect the actual practices of the organizations.
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Books on the topic "Engineering of the products"

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A, Barnes Julie, ed. Usability engineering: Process, products, and examples. Pearson/Prentice Hall, 2008.

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Gregory, M. Polymer engineering: Unit 6 : Rubber products. OU, 1985.

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Engineering design: Products, processes, and systems. Academic Press, 1999.

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Chen, Hongzhang. Process engineering in plant-based products. Nova Science Publishers, 2009.

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Rotini, Federico, Yuri Borgianni, and Gaetano Cascini. Re-engineering of Products and Processes. Springer London, 2012. http://dx.doi.org/10.1007/978-1-4471-4017-7.

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Process engineering in plant-based products. Nova Science Publishers, 2009.

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Jordan, Patrick W. Designing Pleasurable Products. Taylor & Francis Inc, 2004.

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Villeneuve, Francois. Geometric tolerancing of products. ISTE, 2010.

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Eerme, Martin. Structural modelling of engineering products and realisation of computer-based environment for product development. Tallinn Technical University, 2001.

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Development, Market and Business. The UK engineering products distribution market development. Market and Business Development, 2003.

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Book chapters on the topic "Engineering of the products"

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Maver, Tina, Uroš Maver, Tanja Pivec, Manja Kurečič, Zdenka Persin, and Karin Stana Kleinschek. "Tissue Engineering Products." In SpringerBriefs in Molecular Science. Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-89608-3_6.

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Pribat, Anne, Lisa Boureau, Anne Mortain-Bertrand, et al. "Metabolic Engineering of Isoprenoid Biosynthesis." In Natural Products. Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-22144-6_126.

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Braun, Konstantin. "Securitized Products." In Financial Engineering. John Wiley & Sons, Inc., 2012. http://dx.doi.org/10.1002/9781118266854.ch10.

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Day, Timothy A. "Structured Products." In Financial Engineering. John Wiley & Sons, Inc., 2012. http://dx.doi.org/10.1002/9781118266854.ch11.

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Haasis, Siegmar, and Alfred Katzenbach. "Enabler Technologies for Future Engineering Processes." In Digital Products. Vieweg+Teubner Verlag, 2000. http://dx.doi.org/10.1007/978-3-322-84821-5_5.

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Srivastava, Smita, and Ashok Kumar Srivastava. "Biotechnology and Genetic Engineering for Alkaloid Production." In Natural Products. Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-22144-6_95.

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Edwards, Tony. "Engineering Products: Internationalising Production." In Human Resource Management in Context. Macmillan Education UK, 2002. http://dx.doi.org/10.1007/978-1-349-91364-0_11.

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Fatima, Tahira, Avtar K. Handa, and Autar K. Mattoo. "Functional Foods: Genetics, Metabolome, and Engineering Phytonutrient Levels." In Natural Products. Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-22144-6_50.

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Vajna, Sándor. "Products and Product Life Cycle in IDE." In Integrated Design Engineering. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-19357-7_2.

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Rubin, Julia, and Marsha Chechik. "Combining Related Products into Product Lines." In Fundamental Approaches to Software Engineering. Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-28872-2_20.

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Conference papers on the topic "Engineering of the products"

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Campbell, Grady H. "Products as product lines." In 2013 4th International Workshop on Product LinE Approaches in Software Engineering (PLEASE). IEEE, 2013. http://dx.doi.org/10.1109/please.2013.6608662.

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"Engineering of software products." In 2016 IEEE International Conference on Industrial Technology (ICIT). IEEE, 2016. http://dx.doi.org/10.1109/icit.2016.7475014.

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Magalhaes, Ana Patricia, Aline Andrade, Leila Silva, and Herman Lepikson. "A development process for mechatronic products: Integrating software engineering and product engineering." In 2007 IEEE Conference on Emerging Technologies & Factory Automation (EFTA 2007). IEEE, 2007. http://dx.doi.org/10.1109/efta.2007.4416911.

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Berkovich, Marina, Jan Marco Leimeister, and Helmut Krcmar. "Suitability of Product Development Methods for Hybrid Products as Bundles of Classic Products, Software and Service Elements." In ASME 2009 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. ASMEDC, 2009. http://dx.doi.org/10.1115/detc2009-86939.

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The requirements engineering of hybrid products is an important field that still has a paucity of investigation to date. This paper analyzes the suitability of product development methods for the requirements engineering (RE) of hybrid products. The strengths and shortcomings of these methods regarding hybrid products are stated and fields of improvement are derived. To successfully differentiate from competitors, classic products are no longer sufficient. Therefore, many companies offer holistic solutions to customers’ problems. These solutions consist of bundles of classic products, software and services called hybrid products or product service systems (PSS). Hybrid products are characterized by a high number of components that are developed by different disciplines, by a high degree of technological integration and by a high degree of customer-integration. Due to their unique characteristics, hybrid products need holistic handling. Especially interesting is the specification and handling of the requirements for hybrid products called requirements engineering. This phase of the development process is very important for the later success of the product. The characteristics of hybrid products were thoroughly analyzed, and requirements of the RE for hybrid products were derived. A structured literature review was carried out to find the state-of-the-art of RE in product development including common textbooks and publications on respected conferences and journals in product engineering. In total, 15 textbooks, 79 journal articles and 137 articles of conference proceedings were analyzed. This provided the state-of-the-art of RE indicating the approaches used. An important aspect of the research was the matching of these approaches to the requirements defined earlier. This resulted in a list of 13 fields of RE presenting the strengths and shortcomings of the approaches in detail from which two major fields of improvement could be derived, those which need to be addressed in practice. The results show that RE for hybrid products has special needs, particularly in interdisciplinary cooperation and customer integration. The methods for RE in product development are well elaborated upon, but need to be adapted to hybrid products. There is a need for further analysis and integration of RE into the overall development process of hybrid products, as well as further development of hybrid products in practice.
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Farrell, Ronald S., and Timothy W. Simpson. "Improving Commonality in Custom Products Using Product Platforms." In ASME 2001 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers, 2001. http://dx.doi.org/10.1115/detc2001/dac-21125.

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Abstract Many companies find it difficult to maintain commonality and economies of scale in products with strict customer design requirements that may vary greatly from contract-to-contract or piece-to-piece. These strict and varied requirements typically result in highly customized products that are costly to manufacture, involve short production runs, and require long delivery times. In this paper we discuss how the strategic incorporation of product platforms into the design process can leverage the design effort of individually customized products. As an example, we discuss the design of yoke cross-section platforms used to mount valve actuators in the nuclear power industry. Through this example we demonstrate the process of creating a market segmentation grid, choosing a targeted segment, creating a product platform for the yoke cross-section, and defining the yoke product family. The proposed modular architecture for pattern construction reduces the number of new yoke patterns needed for manufacturing, which will generate the most significant savings. Implementation of the yoke platforms will also reduce design cycle time and costs, shorten quotation and lead times, and improve overall customer satisfaction and good will. The end result is a product platform design process that will improve response to customer requests, reduce design cost, and improve time to market for companies that make small production runs of highly customized products.
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Brown, Travis E., Scott E. Bartholomew, Glen A. Dragon, Aaron C. Smykowski, Alvaro J. Rojas Arciniegas, and Marcos Esterman. "Challenges for Managing Component Obsolescence in Long Life Products Through the Product Development Lifecycle." In ASME 2011 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. ASMEDC, 2011. http://dx.doi.org/10.1115/detc2011-48422.

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Producers of low volume, long life products must utilize the latest commercial, off the shelf (COTS) components in order to meet cutting edge technological needs. These COTS components often have a primary use in the high volume commercial markets (e.g. smart phones) which are characterized by short product lifecycles to satisfy consumer needs and remain competitive. Consequently, the two to three year lifecycles of these products tend to heavily influence the lifecycle of the components inside. Most tactical military products (as an example of low volume, long life products) have a very long design, production and support period that can often exceed ten years. Given the lifecycle mismatch between the products and components, an obsolescence management process is essential in order for a producer of low volume, long life products to effectively manage obsolescence in their product line. In this paper, the obsolescence management strategies are reviewed to identify best practices and recommendations that can improve a company’s ability to deal with obsolescence, sometimes called DMSMS (Diminishing manufacturing sources and material shortages), though the terms are not strictly interchangeable. This is achieved not only through a comprehensive literature review but also through a series of case studies from different companies. These validate findings from literature and provide a realistic perspective on the challenge to manage obsolescence, during the product development lifecycle.
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"Engineering of industrial software products." In 2013 IEEE International Conference on Industrial Technology (ICIT 2013). IEEE, 2013. http://dx.doi.org/10.1109/icit.2013.6505954.

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"ESP Engineering of Software Products." In 2020 IEEE International Conference on Industrial Technology (ICIT). IEEE, 2020. http://dx.doi.org/10.1109/icit45562.2020.9067202.

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Liao, Ting, and Erin MacDonald. "Manipulating Trust of Autonomous Products With Affective Priming." In ASME 2019 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers, 2019. http://dx.doi.org/10.1115/detc2019-98395.

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Abstract User-to-product trust has two notable aspects: (1) the user’s propensity to trust, and (2) the product’s trustworthiness as assessed by the user. Autonomous products, which perform many functions on their own with limited user input, require the user to exhibit trust at an appropriate level before use. Research in product trust thus far has focused on the product trustworthiness: manipulating the product’s design, for example, anthropomorphizing an autonomous vehicle and measuring changes in trust. This study flips the usual approach, manipulating a person’s propensity to trust and measuring response to an existing autonomous product, the Amazon Echo. We build on our past successes with priming exercises to reveal insights into the user-related factors of product trust. In this study, we used visual stimuli that evoked either positive, neutral or negative emotions as affective primes to influence users’ trust propensity before the interaction. The participants interacted with a mock-up of the Amazon Echo via ten pre-determined question-and-answer (Q&amp;A) sets. During the interaction, the participants evaluated the Echo’s competence and if it met participants’ expectations. They also reported trust towards the Echo after the Q&amp;A sets. Holistically, the affective primes show no significant effect on the trust propensity. For the subgroup of participants whose expectations of the product’s performance were met, both the perceived product competence and the affective primes have significant effects on trust propensity. These results demonstrate the complex nature of trust as a multidimensional construct and the critical role of product performance in trust formation. They also suggest that it will be difficult for a product to build trust with users who expect the product to perform in a different way than its intent — if one wants to design a product that builds trust, they should understand user expectations and design to meet them. This learning can facilitate the intentional design of the affective process in trust formation that helps build a healthy level of trust with autonomous products.
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Siddique, Zahed, and Jiju A. Ninan. "Internet Based Framework to Perform Automated FEA on User Customized Products." In ASME 2003 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. ASMEDC, 2003. http://dx.doi.org/10.1115/detc2003/dac-48719.

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Designing family of products require analysis and evaluation of performance for the entire product family. In the past, products were mainly mass-produced hence the use of CAD/CAE was restricted to developing and analyzing individual products. Since the products offered using a platform approach include a variety of products built upon a common platform, CAD/CAE tools need to be explored further to assist in customization of products according to the customer needs. In this paper we investigate the development of a Product Family FEA (PFFEA) module that can support FEA analysis of user customized product families members. Customer specifications for family members are gathered using the internet, users are allowed to scale and change configurations of products. These specifications are then used to automatically generate 3D solid models of the product and then perform FEA to determine feasibility of the customer specified product. In this paper, development of the PFFEA module is illustrated using a family of lawn trimmer and edger. The PFFEA module uses Pro/E to generate the solid model and ANSYS as the base FEA software.
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Reports on the topic "Engineering of the products"

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AIR FORCE SPACE COMMAND SPACE MISSILE SYS CTR. Space and Missile Systems Center Standard: Systems Engineering Requirements and Products. Defense Technical Information Center, 2013. http://dx.doi.org/10.21236/ada619440.

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McCarty, C. Product engineering guide. Office of Scientific and Technical Information (OSTI), 1989. http://dx.doi.org/10.2172/5037084.

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Verrill, Steve, and David Kretschmann. Material variability and repetitive member allowable property adjustments in forest products engineering. U.S. Department of Agriculture, Forest Service, Forest Products Laboratory, 2008. http://dx.doi.org/10.2737/fpl-rp-649.

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Evans, James W., Richard A. Johnson, and David W. Green. Forest Products Laboratory contributions to the use of Weibull distribution in wood engineering. U.S. Department of Agriculture, Forest Service, Forest Products Laboratory, 2019. http://dx.doi.org/10.2737/fpl-gtr-271.

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Giannuzi, John, and Suzanne M. Garcia. Relationships Between the Systems Engineering Capability Maturity Model SM and Other Products, Version 1.0. Defense Technical Information Center, 1995. http://dx.doi.org/10.21236/ada303272.

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Nau, Dana S., Guangming Zhang, Satyandra K. Gupta, and Raghu R. Karinthi. Evaluating Product Machinability for Concurrent Engineering. Defense Technical Information Center, 1992. http://dx.doi.org/10.21236/ada454945.

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Carver, Gary P., and Howard M. Bloom. Concurrent engineering through product data standards. National Institute of Standards and Technology, 1991. http://dx.doi.org/10.6028/nist.ir.4573.

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Loehr, C. A., and J. R. Weidner. Physical and chemical properties of the products of in situ vitrification engineering tests 5, 6, and 7. Office of Scientific and Technical Information (OSTI), 1991. http://dx.doi.org/10.2172/10139003.

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Loehr, C. A., and J. R. Weidner. Physical and chemical properties of the products of in situ vitrification engineering tests 5, 6, and 7. Office of Scientific and Technical Information (OSTI), 1991. http://dx.doi.org/10.2172/5496638.

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Pratt, M. J. Product models and virtual prototypes in mechanical engineering. National Institute of Standards and Technology, 1995. http://dx.doi.org/10.6028/nist.ir.5650.

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