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关于管理生物工程系统的思考 被引量:3
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作者 李宝山 钱明辉 《财经问题研究》 CSSCI 北大核心 2003年第7期79-83,共5页
本文从技术与管理对于社会生产力发展的关系出发,提出管理生物工程系统的构思,定义了管理基因的概念,指出了其对企业管理的决定性影响,概括出了管理基因突变的种类与特点,提出了管理基因组计划及实施中所要注意的"五个全",并... 本文从技术与管理对于社会生产力发展的关系出发,提出管理生物工程系统的构思,定义了管理基因的概念,指出了其对企业管理的决定性影响,概括出了管理基因突变的种类与特点,提出了管理基因组计划及实施中所要注意的"五个全",并分析了企业开展管理基因竞争的四个步骤,在此基础上,进一步提出利用管理基因实施企业成长阻碍成分的"程序性死亡"来促进企业成长与进化。 展开更多
关键词 管理基因 管理生物工程系统
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技术经济发展的新动向——管理生物工程系统
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作者 李宝山 钱明辉 《科技和产业》 2004年第1期21-26,共6页
本文将对技术经济发展的新动向——管理生物工程系统进行了初步探索,研究管理基因对企业管理的决定性影响,并从管理基因突变的种类与特点和管理基因组计划两个方面对管理基因进一步分析,提出了实施管理基因组计划中所要的注意的“五个全... 本文将对技术经济发展的新动向——管理生物工程系统进行了初步探索,研究管理基因对企业管理的决定性影响,并从管理基因突变的种类与特点和管理基因组计划两个方面对管理基因进一步分析,提出了实施管理基因组计划中所要的注意的“五个全”:全员参与、全面分享、全程积累、全力投入和全速运作。 展开更多
关键词 技术经济学 发展方向 管理生物工程系统 管理基因 基因突变 企业管理 资源共享
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系统生物科学与工程的高科技产业化 被引量:1
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作者 曾邦哲 《生物技术通报》 CAS CSCD 2006年第6期1-4,共4页
系统生物科学最早开创于贝塔郎菲的理论生物学和一般系统论。系统生物科学或生物系统科学研究分子、细胞、器官和群体各层次的生物系统,尤其是心智和遗传的信息系统。系统生物工程(曾邦哲1994年)采用实验分析和系统逻辑的双重方法论,探... 系统生物科学最早开创于贝塔郎菲的理论生物学和一般系统论。系统生物科学或生物系统科学研究分子、细胞、器官和群体各层次的生物系统,尤其是心智和遗传的信息系统。系统生物工程(曾邦哲1994年)采用实验分析和系统逻辑的双重方法论,探索改造和仿造生物系统的工程技术,包括:1)生化工程、生态工程,2)生物反应器、遗传工程,3)高分子传感器、仿生工程,4)生物遗传计算、智能工程等领域,将促进系统医学、转基因生物反应器、生物计算机、智能机器人和中医药现代化的发展。现代城市生态、工业网络的系统藕合、循环、再生的无污染、无烟化工业生态工程将带来自然、工业、人文之间的和谐。 展开更多
关键词 系统生物 系统生物工程 系统医学 图式遗传学
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浅谈闽东地区生物防火林带建设
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作者 张建平 姚剑民 兰大和 《森林防火》 2000年第3期35-36,
闽东位于福建省东部,辖区内9个县市120个乡镇2146个行政村,在1995年全面完成“三五七”工程造林,荒山基本绿化,全区有林地面积从原来512 022.9万hm2增加到848 194.8万hm2;森林覆盖率65.2%... 闽东位于福建省东部,辖区内9个县市120个乡镇2146个行政村,在1995年全面完成“三五七”工程造林,荒山基本绿化,全区有林地面积从原来512 022.9万hm2增加到848 194.8万hm2;森林覆盖率65.2%,绿化率 86.7%;森林火险Ⅱ级县(市)6个,Ⅲ级县(市)3个。 纵观闽东森林防火局势,在各级党政领导的高度重视下,始终坚持“预防为主,积极消灭”的森林防火方针,通过有关部门密切配合和全体护林人员的艰苦工作,“九五”期间每年发生的森林火灾与“八五”期间相比,平均下降了17%,受害面积下降了20%,但年发生率、受害率仍居全省较高位。综合诸多森林火灾因素。 展开更多
关键词 生物防火林带 闽东地区 森林防火 森林火灾损失 林火阻隔网络 福建省 生物工程控制系统 林业主管部门 建设资金 阻隔系统
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Scoping biology-inspired chemical engineering 被引量:2
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作者 Xiao Dong Chen 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2016年第1期1-8,共8页
Biology is a rich source of great ideas that can inspire us to find successful ways to solve the challenging problems in engineering practices including those in the chemical industry. Bio-inspired chemical engineerin... Biology is a rich source of great ideas that can inspire us to find successful ways to solve the challenging problems in engineering practices including those in the chemical industry. Bio-inspired chemical engineering(Bio Ch E)may be recognized as a significant branch of chemical engineering. It may consist of, but not limited to, the following three aspects: 1) Chemical engineering principles and unit operations in biological systems; 2) Process engineering principles for producing existing or developing new chemical products through living ‘devices';and 3) Chemical engineering processes and equipment that are designed and constructed through mimicking(does not have to reproduce one hundred percent) the biological systems including their physical–chemical and mechanical structures to deliver uniquely beneficial performances. This may also include the bio-inspired sensors for process monitoring. In this paper, the above aspects are defined and discussed which establishes the scope of BioChE. 展开更多
关键词 Bioinspired chemical engineering Biology Chemical engineering Material science Multidisciplinary Multiscale Biomimic Bionic
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A Miniaturized System for Neural Signal Acquiring and Processing 被引量:1
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作者 WANG Min GAO Guang-hong +4 位作者 XIANG Dong-sheng CAO Mao-yong JIA Ai-bin DING Lei KONG Hui-min 《Chinese Journal of Biomedical Engineering(English Edition)》 2008年第3期114-119,共6页
To collect neural activity data from awake, behaving freely animals, we develop miniaturized implantable recording system by the modem chip:Programmable System on Chip (PSoC) and through chronic electrodes in the c... To collect neural activity data from awake, behaving freely animals, we develop miniaturized implantable recording system by the modem chip:Programmable System on Chip (PSoC) and through chronic electrodes in the cortex. With PSoC family member CY8C29466,the system completed operational and instrument amplifiers, filters, timers, AD convertors, and serial communication, etc. The signal processing was dealt with virtual instrument technology. All of these factors can significantly affect the price and development cycle of the project. The result showed that the system was able to record and analyze neural extrocellular discharge generated by neurons continuously for a week or more. This is very useful for the interdisciplinary research of neuroscience and information engineering technique. The circuits and architecture of the devices can be adapted for neurobiology and research with other small animals. 展开更多
关键词 Programmable System on Chip implanting electrodes neural signal virtual instrument wavelet transform
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The Use of Life Cycle Management Principles in Biosystems Engineering: A Pragmatic Approach to Solving Agri-industrial Sustainability Problems 被引量:1
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作者 Israel S Dunmade 《Journal of Agricultural Science and Technology(A)》 2012年第3期357-362,共6页
LCM (life cycle management) is a systematic approach, mindset and culture that considers economic, social, and environmental factors among other factors in the decision making process throughout various business or ... LCM (life cycle management) is a systematic approach, mindset and culture that considers economic, social, and environmental factors among other factors in the decision making process throughout various business or organizational decisions that affect both inputs and outputs of a product or service life cycle. It is a product, process, or activity management system aimed at minimizing environmental and socio-economic burdens associated with an organization's product or process during its entire life cycle and value chain. LCM's application is gaining wider acceptance both in the corporate and governmental organizations as an approach to reduce ecological footprints and to improve the sustainability of human activities. But where and how can it be used in agricultural engineering applications? This study highlights the potential areas of LCM application in agricultural and allied sectors and how it can be utilized. The study revealed that LCM tools such as design for environment and life cycle analysis can be used to evaluate the environmental impacts of-and to improve the products, equipment, and structures produced by biosystems engineers as well as the processes used to generate them. 展开更多
关键词 Life cycle management biosystems engineering life cycle assessment design for environment social life cycleassessment life cycle costing enabling supply and infrastructure assessment.
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Biosystems Engineering Curricula in Europe
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作者 Pierluigi Febo Antonio Comparetti 《Journal of Agricultural Science and Technology(A)》 2013年第1期1-9,共9页
This paper describes the history of the harmonisation of agricultural/biosystems engineering degree study programs in Europe from 1989, when the need for this process was widely felt, until now, when this need was par... This paper describes the history of the harmonisation of agricultural/biosystems engineering degree study programs in Europe from 1989, when the need for this process was widely felt, until now, when this need was partly satisfied through the implementation of the projects of two EU funded thematic networks, i.e., USAEE-TN and ERABEE-TN. The objective of this paper is to contribute to promote, in each EU country and elsewhere, the process of harmonisation of agricultural/biosystems engineering degree study programs, and student and graduate mobility within the EU, as well as between the EU and the USA. At present, in Europe, this harmonisation process is aided by the key results of the projects of USAEE-TN, ERABEE-TN and POMSEBES. USAEE developed some core curricula, to be used as benchmarks for European agricultural/biosystems engineering degree study programs, and a web-based database of these study programs. ERABEE promoted the transition from agricultural engineering to biosystems engineering and established the recognition procedures of new European study programs in biosystems engineering. The EU-US POMSEBES consortium built up a platform for exchange of experiences and ideas between the USA and the EU, aimed at: enhancing the quality and linkage of research and education; establishing appropriate policy oriented measures; promoting compatible degree study programs in biosystems engineering, within the EU as well as between the EU and the USA. 展开更多
关键词 HARMONISATION degree study programs agricultural/biosystems engineering student and graduate mobility.
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管理技术发展的“基因”阶段 被引量:1
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作者 李宝山 钱明辉 《中外科技信息》 北大核心 2003年第4期31-34,共4页
关键词 管理技术 管理现代化 发展趋势 生物工程系统 管理基因组计划 管理基因竞争
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New Trend of Management Science - Managerial Bioengineering System
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作者 Baoshan Li Yong Lian 《Journal of Systems Science and Information》 2006年第1期39-43,共5页
This article seeks to depict the management science's new trend - managerial bioengineering system which is making decisive influence to enterprise management, generalizes the characteristics and categories of manage... This article seeks to depict the management science's new trend - managerial bioengineering system which is making decisive influence to enterprise management, generalizes the characteristics and categories of managerial gene variation, and brings forward a managerial genome plan with 5-"All": participation of all members, enjoyment of all aspects, accumulation of all time, devotion of all strength and operation of all speed. 展开更多
关键词 managerial gene managerial gene variation managerial genome plan
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Preface
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作者 Lü JinHu 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2016年第1期1-1,共1页
Complex networks are ubiquitous in our lives. Representative examples are the Internet, social networks, biological networks, E-commerce networks, electrical power grids, and larger-scale engineering systems. It is we... Complex networks are ubiquitous in our lives. Representative examples are the Internet, social networks, biological networks, E-commerce networks, electrical power grids, and larger-scale engineering systems. It is well known that the Internet has been a powerful engine for our societal evolution and technological innovation. Nowadays, network science and engineering faces fundamental challenges, such as understanding the complexity of various large-scale networks, developing new architectures and exploiting new substrates, and enabling new applications and new economics. To a better future, the complex networks in our lives will need to be better: more accessible, more reliable, more predictable, and more secure. 展开更多
关键词 commerce lives ubiquitous technological powerful Preface editorial contributions enabling economics
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