Staff publications (SAS)
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Browsing Staff publications (SAS) by Author "Abdalla, Hassan S."
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Item Open Access A cost-effective knowledge-based reasoning system for design for automation(Professional Engineering Publishing, 2006) Shehab, Essam; Abdalla, Hassan S.Design for assembly automation (DFAA) is an important part of the concurrent engineering strategy for reduction of product manufacturing costs and lead times. An intelligent knowledge-based system (KBS) for design for automation and early cost modelling within a concurrent engineering environment has been developed. This paper focuses upon the development of the design for an assembly automation system. The system framework encompasses an extensive knowledge-based reasoning system, a CAD system, a design analysis for automation module, a design improvement suggestion module, and a user interface. The development process of the system involved three main stages: creating the KBS, developing the design improvement module, and integrating the KBS with the CAD system. The developed system has the capability to: (a) select the most economic assembly technique for the product at an early design stage; (b) estimate the assembly time and cost for manual, automatic, and robotic assembly methods; and (c) analyse the product design for automation and provide the designers with design improvement suggestions of a product to simplify assembly operations without any compromise of the product functionality. The above capabilities of the system have been demonstrated and validated through a real case study.Item Open Access A design to cost system for innovative product development.(Professional Engineering Publishing, 2002) Shehab, Essam; Abdalla, Hassan S.This research paper presents a prototype object-oriented and rule-based system for product cost modelling and design for automation at an early design stage. The developed system comprises a computer aided design (CAD) solid modelling system, a material selection module, a knowledge-based system (KBS), a process optimization module, a design for assembly module, a cost estimation module and a user interface. The system development process has passed through four major steps: constructing the knowledge-based and process optimization system; developing a design for assembly module; integrating the KBS with both a material selection database and the CAD system; developing and implementing a fuzzy logic approach to generate reliable estimation of cost and to handle the uncertainty in the cost estimation model that cannot be addressed by traditional analytical methods. Two manufacturing processes, namely machining and injection moulding processes, were considered in the developed system. The main function of the system, besides estimating the product cost, is to generate initial process planning, including the generation and selection of machining processes, their sequence and their machining parameters, and to recommend the most economical assembly technique for a product and provide design improvement suggestions based on a design feasibility technique. In addition, a feature-by-feature cost estimation report is generated using the proposed system to highlight the features of high manufacturing cost. Two case studies were used to validate the developed system.Item Open Access Enhancement of the Product Information Collaboration and Access in the Aerospace Industry(Taylor & Francis, 2013-12-31T00:00:00Z) Shehab, Essam; Fowler, C.; Rodriguez, Gil A; Abdalla, Hassan S.; Darwish, M.; Abdulhafed, H.; Ahmed, A.; Ahouie, H.; Alechnovic, A.; Paumes, C.; Tacchini, E.; Urbane, I.This paper presents the development of four scenarios to design a pull mode industrial solution that enables tier-one suppliers to securely and efficiently retrieve data for manufacturing purposes from Original Equipment Manufacturers (OEMs). The research aim is to facilitate and enhance product information sharing between OEMs and their Tier-one suppliers. The proposed Scenarios were developed using PDMLink, which is a Product Lifecycle management system (PLM) and Microsoft SharePoint collaboration platform. The research methodology comprises seven phases including definition of scope, understanding the AS-IS processes, gap analysis, development of the scenarios, and finally validation and cost analysis. This methodology was implemented to select the most suitable scenario for utilising the tools available in the PLM system to accomplish the pull mode data collaboration solution. Data were collected through various ways including semi-structured interviews, workshops with experts, and review of technical documentation on current process. The major benefits of the developed solution are cost reduction due to diminution of resources required for the new process, lead time to access data by suppliers and improved data management. These will reduce the product development cycle, and ensure improved quality of manufactured components.Item Open Access An innovative cost modelling system to support lean product and process development(Springer Science Business Media, 2013-03-31T00:00:00Z) Wasim, Ahmad; Shehab, Essam; Abdalla, Hassan S.; Al-Ashaab, Ahmed; Sulowski, Robert; Alam, RahmanThis paper presents a cost modelling system for lean product and process development to support proactive decision making and mistake elimination at the design stage. The foundations of the system are based upon three lean product and process development enablers, namely: Set-based concurrent engineering, knowledge-based engineering, and mistake proofing (Poka-yoke). The development commenced with an industrial field study of eleven leading European industries from the aerospace, automotive, telecommunication, medical and domestic appliance sectors. Based on the requirements of industrial collaborators, the developed system comprises six modules: value identification, manufacturing process/machines selection, material selection, geometric features specification, geometric features and manufacturability assessment, and manufacturing time and cost estimation. The work involved the development of a feature-based cost estimation method for the resistance spot welding process. The developed system was finally validated using an industrial case study. The developed system has the capability to provide estimates related to product cost and associated values concurrently, facilitate decision making, eliminate mistakes during the design stage, and incorporate ‘customer voice’ during a critical decision making stage.