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Special Issue on Future Digital Design and Manufacturing:Embracing Industry 4.0 and Beyond 被引量:6
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作者 QIN Shengfeng CHENG Kai 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2016年第6期1045-1045,共1页
Industry 4.0 as referred to the fourth industrial revolution has endorsed in several national manufacturing initiatives or development plans such as in Germany, the UK, USA and China. A set of important pervasive and ... Industry 4.0 as referred to the fourth industrial revolution has endorsed in several national manufacturing initiatives or development plans such as in Germany, the UK, USA and China. A set of important pervasive and secondary technologies for future manufacturing activities have been identified such as additive manufacturing, sensor technology, 展开更多
关键词 DESIGN In USA Special Issue on Future Digital Design and manufacturing
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Future Digital Design and Manufacturing Technologies for Manufacturing Innovation:Embracing Industry 4.0 and Beyond 被引量:1
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作者 Sheng-Feng Qin Kai Cheng 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2016年第2期I0001-I0001,共1页
Industry 4.0 as referred to a fourth industrial revolution has endorsed in several national manufacturing development plans such as in Germany, the UK, and China. A set of important pervasive and secondary technologie... Industry 4.0 as referred to a fourth industrial revolution has endorsed in several national manufacturing development plans such as in Germany, the UK, and China. A set of important pervasive and secondary technologies for future manufacturing activities have been identified such as additive manufacturing, sensor technology, big data analytics, Internet of things, robotics, cloud computing, and nanotechnology. 展开更多
关键词 Future Digital Design and manufacturing Technologies for manufacturing Innovation
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An Improved PAC Architecture for Shop Floor Information System in Digital Manufacturing 被引量:2
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作者 SHAHID Ikramullah Butt 《Computer Aided Drafting,Design and Manufacturing》 2005年第2期56-60,共5页
In order to overcome the weakness of the former production activity control (PAC) architecture, this paper presents an improved PAC architecture. The BIT-PAC architecture has been applied with the use of information... In order to overcome the weakness of the former production activity control (PAC) architecture, this paper presents an improved PAC architecture. The BIT-PAC architecture has been applied with the use of information technology. It facilitates the information flow from Shop Floor to other areas of the organization and makes the organizations more integrated and productive. This architecture also facilitates the expansion of the Shop Floor functions without disturbing the basic infrastructure. Effectiveness of the BIT-PAC architecture was checked by developing and running application software on a network PC which has supported the dynamic flow of information from Sub-Producers and Sub-Movers to other areas of organization. 展开更多
关键词 digital manufacturing production activity control shop floor control shop floor information system.
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Selected Papers on Future Digital Design and Manufacturing
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《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2017年第5期I0001-I0001,共1页
关键词 DESIGN Selected Papers on Future Digital Design and manufacturing DOI
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Special Issue on Future Digital Design and Manufacturing:Embracing Industry 4.0 and Beyond-Part Ⅱ
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作者 Sheng-Feng Qin Kai Cheng 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2017年第5期1045-1046,共2页
Digital design and manufacturing have been under pinned by digital modeling, simulation, and automation controls for decades. Under the new market requirement of mass customized products and services, the advancements... Digital design and manufacturing have been under pinned by digital modeling, simulation, and automation controls for decades. Under the new market requirement of mass customized products and services, the advancements in artificial intelligence (AI), smart technology, virtual reality (VR), big data, digital twin, robotics and human-centered design are becoming driving forces for the development of future digital design and manufacturing. This special issue focuses on the future digital design and manufacturing especially under the Industry 4.0 framework and beyond. This editorial introduces the papers in this special issue, which linked to the International Workshop on Digital Design and Manufacturing Technologies - Embracing Industry 4.0 and Beyond at Northumbria University in Newcastle, UK, held on 12-13 April 2016. In the Part I of the issue [1], there are 13 papers published in 2016, Vol- ume 29, No 6 of the Chinese Journal of Mechanical Engineering (this journal). 展开更多
关键词 DESIGN In Special Issue on Future Digital Design and manufacturing:Embracing Industry 4.0 and Beyond-Part
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Digital Manufacturing: What Are We Able to Print?
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作者 A. Muguruza Blanco J. Minguella-Canela 《Journal of Mechanics Engineering and Automation》 2017年第7期365-374,共10页
In a rational exercise, in the present paper it is extrapolated how the development of ICTs (information and communication technologies) and the incipient technological development of additive manufacturing has the ... In a rational exercise, in the present paper it is extrapolated how the development of ICTs (information and communication technologies) and the incipient technological development of additive manufacturing has the potential to change our society. In the following, it is analyzing the evolution of man over physical matter and how this has shaped our society. The main milestones or key stages in history that have marked a transcendental change in the human-machine-environment relationship have been identified and consequently have led us to ask ourselves: What is next, how far are we, and what are we capable of printing? In an attempt to identify the current state of the art, highlighting the possibilities those additive technologies can offer. 展开更多
关键词 HISTORY ECONOMICS PHILOSOPHY digital manufacturing additive manufacturing printing electronics.
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APPLICATION OF IMPROVED PRODUCTION ACTIVITY CONTROL ARCHITECTURE FOR SHOP FLOOR INFORMATION SYSTEM IN DIGITAL MANUFACTURING
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作者 SHAHID Ikramullah Butt 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2006年第4期483-486,共4页
Shop floor control (SFC) is responsible for the coordination and control of the manufacturing physical and information flow within the shop floor in the manufacturing system. Weaknesses of the production activity co... Shop floor control (SFC) is responsible for the coordination and control of the manufacturing physical and information flow within the shop floor in the manufacturing system. Weaknesses of the production activity control (PAC) architecture of the shop floor are addressed by the Maglica's new system architecture. This architecture gives rise to unlimited number of movers and producers thus evolving more complex but decentralized architecture. Beijing Institute of Technology - production activity control (BIT-PAC) architecture introduces an idea of sub-producars and sub-movers thus reducing the complexity of the architecture. All the equipments including sub-producars and sub-movers are considered to be passive in the proposed shop floor information system. The dissemination of information from sub-producers and sub-movers is done manually through a PC. Proposed BIT-PAC SFC architecture facilitates the information flow from shop floor to the other area of the organization. Effective use of interact information services (IIS) and SQL2000 is done along with the ASP.NET technology to implement the application logic. Applicability of the software based on BIT-PAC architecture is checked by running application software on a network PC that supports the dynamic flow of information from sub-producers and sub-movers to the other parts of the organization. Use of software is also shown at the end for BIT training workshop thus supporting the use of SFC architecture for similar kind of environments. 展开更多
关键词 Shop floor information system (SFIS) Production activity control(PAC)Shop floor control(SFC) Digital manufacturing
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Direct Digital Manufacturing Industry Ascendant
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作者 XIA Bo-xiong DU Jun JIAO Hong-wei 《International Journal of Plant Engineering and Management》 2013年第3期182-185,共4页
The paper introduces the origin of the word of Direct Digital Manufacturing and other forms of address, and the working principles of Direct Digital Manufacturing technology and major types of the technology, hard- wa... The paper introduces the origin of the word of Direct Digital Manufacturing and other forms of address, and the working principles of Direct Digital Manufacturing technology and major types of the technology, hard- ware and software development, use of materials, applications, market growth and its development prospects. Focused presentations of Direct Digital Manufacturing (additive manufacturing) compared to traditional mechani- cal manufacturing industry in the use of prices, processing speed, reliability and cost advantages and characteris- tics. Particularly the significant challenges and competitiveness of Direct Digital Manufacturing technology in the processing of any complexity created directly the number of objects, internal structure and channel function, as well as the shape of the chassis components and structure of the matching and optimization. 展开更多
关键词 direct digital manufacturing rapid prototyping additive manufacturing 3D printing additive free-form fabrication
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Digitalization and intelligentization of manufacturing industry 被引量:20
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作者 Ji Zhou 《Advances in Manufacturing》 SCIE CAS 2013年第1期1-7,共7页
1 Relying on innovation to realize the historical leapChina has entered a new historical period in her development. In order to achieve scientific development and to accelerate transformation of economic development p... 1 Relying on innovation to realize the historical leapChina has entered a new historical period in her development. In order to achieve scientific development and to accelerate transformation of economic development pattern, the most fundamental issue is to rely on the power of science and technology, and the most crucial element is to improve the capability of independent innovation. The key for promoting China's economic and social development is to embark on the innovation-driven track as soon as possible. 展开更多
关键词 digitalization and intelligentization of manufacturing industry
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BIG DATA:UNLEASHING INFORMATION 被引量:35
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作者 James M.TIEN 《Journal of Systems Science and Systems Engineering》 SCIE EI CSCD 2013年第2期127-151,共25页
At present, it is projected that about 4 zettabytes (or 10^**21 bytes) of digital data are being generated per year by everything from underground physics experiments to retail transactions to security cameras to ... At present, it is projected that about 4 zettabytes (or 10^**21 bytes) of digital data are being generated per year by everything from underground physics experiments to retail transactions to security cameras to global positioning systems. In the U. S., major research programs are being funded to deal with big data in all five sectors (i.e., services, manufacturing, construction, agriculture and mining) of the economy. Big Data is a term applied to data sets whose size is beyond the ability of available tools to undertake their acquisition, access, analytics and/or application in a reasonable amount of time. Whereas Tien (2003) forewarned about the data rich, information poor (DRIP) problems that have been pervasive since the advent of large-scale data collections or warehouses, the DRIP conundrum has been somewhat mitigated by the Big Data approach which has unleashed information in a manner that can support informed - yet, not necessarily defensible or valid - decisions or choices. Thus, by somewhat overcoming data quality issues with data quantity, data access restrictions with on-demand cloud computing, causative analysis with correlative data analytics, and model-driven with evidence-driven applications, appropriate actions can be undertaken with the obtained information. New acquisition, access, analytics and application technologies are being developed to further Big Data as it is being employed to help resolve the 14 grand challenges (identified by the National Academy of Engineering in 2008), underpin the 10 breakthrough technologies (compiled by the Massachusetts Institute of Technology in 2013) and support the Third Industrial Revolution of mass customization. 展开更多
关键词 Big data data acquisition data access data analytics data application decision informatics PRODUCTS PROCESSES adaptive services digital manufacturing mass customization third industrial revolution
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THE NEXT INDUSTRIAL REVOLUTION:INTEGRATED SERVICES AND GOODS 被引量:16
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作者 James M.TIEN 《Journal of Systems Science and Systems Engineering》 SCIE EI CSCD 2012年第3期257-296,共40页
The outputs or products of an economy can be divided into services products ana gooas products (due to manufacturing, construction, agriculture and mining). To date, the services and goods products have, for the mos... The outputs or products of an economy can be divided into services products ana gooas products (due to manufacturing, construction, agriculture and mining). To date, the services and goods products have, for the most part, been separately mass produced. However, in contrast to the first and second industrial revolutions which respectively focused on the development and the mass production of goods, the next - or third - industrial revolution is focused on the integration of services and/or goods; it is beginning in this second decade of the 21st Century. The Third Industrial Revolution (TIR) is based on the confluence of three major technological enablers (i.e., big data analytics, adaptive services and digital manufacturing); they underpin the integration or mass customization of services and/or goods. As detailed in an earlier paper, we regard mass customization as the simultaneous and real-time management of supply and demand chains, based on a taxonomy that can be defined in terms of its underpinning component and management foci. The benefits of real-time mass customization cannot be over-stated as goods and services become indistinguishable and are co-produced - as "servgoods" - in real-time, resulting in an overwhelming economic advantage to the industrialized countries where the consuming customers are at the same time the co-producing producers. 展开更多
关键词 Big data decision analytics GOODS adaptive services digital manufacturing value chain supply chain demand chain mass production mass customization industrial revolution
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INTERNET OF CONNECTED SERVGOODS:CONSIDERATIONS,CONSEQUENCES AND CONCERNS 被引量:5
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作者 James M.Tien 《Journal of Systems Science and Systems Engineering》 SCIE EI CSCD 2015年第2期130-167,共38页
In an earlier paper (Tien 2012), the author augurs that, in contrast to the first and second industrial revolutions which respectively focused on the development and the mass production of goods, the next - or third... In an earlier paper (Tien 2012), the author augurs that, in contrast to the first and second industrial revolutions which respectively focused on the development and the mass production of goods, the next - or third - industrial revolution is focused on the integration of services and/or goods; it began in this second decade of the 21st Century. The Third Industrial Revolution (TIR) is underpinned by the integration or mass customization of services and/or goods. The benefits of real-time mass customization cannot be over-stated as goods and services become indistinguishable and are co-produced as "ServGoods", resulting in an overwhelming economic advantage to the industrialized countries where the consuming customers are at the same time the co-producing producers. Adding sensors to these ServGoods and letting them connect or communicate among themselves or with other ServGoods can result in an Intemet of Things (i.e., connected ServGoods). A number of considerations, consequences and concerns relating to such an Intemet of Connected ServGoods are discussed herein. 展开更多
关键词 GOODS services ServGoods sensors Big Data decision analytics adaptive services digital manufacturing value chain supply chain demand chain mass production mass customization industrial revolution Intemet of Things
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