Phthalates are mult functional compo unds that are used in various commercial and in dustrial products, such as food packagings, toys, cosmetics, building materials, and personal care products, Di(2-ethylhexyl) phthal...Phthalates are mult functional compo unds that are used in various commercial and in dustrial products, such as food packagings, toys, cosmetics, building materials, and personal care products, Di(2-ethylhexyl) phthalate (DEHP), one of the most comm only used phthalates, is ubiquitously prese nt in humans.Studies have shown that DEHP has some potentially adverse effects on health, including abnormal timing of parturition, reproductive dysfunction, and low birth weight[5-7].展开更多
Due to rapid changes of markets and pressures of competitions, the manufacturing companies are forced to adapt their production ways to support diversity of customer's needs and increase of new product developments. ...Due to rapid changes of markets and pressures of competitions, the manufacturing companies are forced to adapt their production ways to support diversity of customer's needs and increase of new product developments. As biological organisms are quite capable of adapting to environmental changes and stimulus, bio-inspired concepts have been recognized much suitable for adaptive manufacturing system control. This paper, therefore, proposes a novel concept of NeuroEndocrine-Inspired Manufacturing System (NEIMS). The proposed NEIMS control architecture is based on analogies with neuro-control and hormone-regulation principles. It has the capability to explicitly specify production control schemes including control points, material, information flow paths and logical operations, and to agilely deal with the frequent occurrence of unexpected disturbances at the shop floor level. From the cybernetics point of view, the control model of NEIMS indicates adaptive behavior to the changes in products demands due to external environment and malfunction of manufacturing cells as an intemal environment. Finally, a prototype system has been set up to enable the NEIMS simulation.展开更多
基金supported by the basic research programs of Shenzhen Science and Technology Committee to XU Xin Yun [JCYJ201703 06160553495,JCYJ20170413101713324]
文摘Phthalates are mult functional compo unds that are used in various commercial and in dustrial products, such as food packagings, toys, cosmetics, building materials, and personal care products, Di(2-ethylhexyl) phthalate (DEHP), one of the most comm only used phthalates, is ubiquitously prese nt in humans.Studies have shown that DEHP has some potentially adverse effects on health, including abnormal timing of parturition, reproductive dysfunction, and low birth weight[5-7].
基金supported by the Research Fund for Doctoral Program of Higher Education,China (No.20093218110020)Funding for Outstanding Doctoral Dissertation in NUAA(BCXJ10-09)the New Century Excellent Talents in University,China(NCET-08)
文摘Due to rapid changes of markets and pressures of competitions, the manufacturing companies are forced to adapt their production ways to support diversity of customer's needs and increase of new product developments. As biological organisms are quite capable of adapting to environmental changes and stimulus, bio-inspired concepts have been recognized much suitable for adaptive manufacturing system control. This paper, therefore, proposes a novel concept of NeuroEndocrine-Inspired Manufacturing System (NEIMS). The proposed NEIMS control architecture is based on analogies with neuro-control and hormone-regulation principles. It has the capability to explicitly specify production control schemes including control points, material, information flow paths and logical operations, and to agilely deal with the frequent occurrence of unexpected disturbances at the shop floor level. From the cybernetics point of view, the control model of NEIMS indicates adaptive behavior to the changes in products demands due to external environment and malfunction of manufacturing cells as an intemal environment. Finally, a prototype system has been set up to enable the NEIMS simulation.
