蚊虫卵巢发育是繁殖后代、维持其种群密度的基础。卵巢滞育是广泛存在于成蚊的一种滞育现象,是蚊虫在长期与环境条件斗争中获得的一种特殊生存本领。卵巢发育与滞育都是多变的生态因素与蚊体内复杂的生理生化过程相互作用的结果,在此过...蚊虫卵巢发育是繁殖后代、维持其种群密度的基础。卵巢滞育是广泛存在于成蚊的一种滞育现象,是蚊虫在长期与环境条件斗争中获得的一种特殊生存本领。卵巢发育与滞育都是多变的生态因素与蚊体内复杂的生理生化过程相互作用的结果,在此过程中,蚊虫的内分泌系统发挥了重要的调节作用。蚊虫卵巢发育的内分泌控制非自育蚊(anautogenous females of mosquito),即必须摄取血食才能产卵的蚊种。展开更多
Future manufacturing systems need to cope with frequent changes and disturbances, therefore their control architectures require constant adaptability, agility, stability, self-organization, intelligence, and robustnes...Future manufacturing systems need to cope with frequent changes and disturbances, therefore their control architectures require constant adaptability, agility, stability, self-organization, intelligence, and robustness. Bio-inspired manufacturing system can well satisfy these requirements. For this purpose, by referencing the biological organization structure and the mechanism, a bio-inspired manufacturing cell is presented from a novel view, and then a bio-inspired self-adaptive manufacturing model is established based on the ultra-short feedback mechanism of the neuro-endocrine system. A hio-inspired self-adaptive manufacturing system coordinated model is also established based on the neuro-endocrine-immunity system (NEIS). Finally, an example based on pheromone communication mechanism indicates that the robustness of the whole manufacturing system is improved by bio-inspired technologies.展开更多
文摘蚊虫卵巢发育是繁殖后代、维持其种群密度的基础。卵巢滞育是广泛存在于成蚊的一种滞育现象,是蚊虫在长期与环境条件斗争中获得的一种特殊生存本领。卵巢发育与滞育都是多变的生态因素与蚊体内复杂的生理生化过程相互作用的结果,在此过程中,蚊虫的内分泌系统发挥了重要的调节作用。蚊虫卵巢发育的内分泌控制非自育蚊(anautogenous females of mosquito),即必须摄取血食才能产卵的蚊种。
基金Supported by the National Natural Science Foundation of China (50505017)Fok Ying Tung Edu-cation Foundation (111056)+1 种基金the Innovative and Excellent Foundation for Doctoral Dissertation of Nanjing University of Aeronautics and Astronautics (BCXJ08-07)the New Century Excellent Talents in University,China (NCET-08)~~
文摘Future manufacturing systems need to cope with frequent changes and disturbances, therefore their control architectures require constant adaptability, agility, stability, self-organization, intelligence, and robustness. Bio-inspired manufacturing system can well satisfy these requirements. For this purpose, by referencing the biological organization structure and the mechanism, a bio-inspired manufacturing cell is presented from a novel view, and then a bio-inspired self-adaptive manufacturing model is established based on the ultra-short feedback mechanism of the neuro-endocrine system. A hio-inspired self-adaptive manufacturing system coordinated model is also established based on the neuro-endocrine-immunity system (NEIS). Finally, an example based on pheromone communication mechanism indicates that the robustness of the whole manufacturing system is improved by bio-inspired technologies.
