基于TRIZ推动农业科技创新的影响因素及作用路径研究
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摘要
现阶段,当中国以一个发展中国家的有限实力迈向“创新型国家”的行列时,对创新方法的研究和掌握具有基础性、根本性和先导性意义。作为一套能激发创新思维、科学系统解决问题的理论体系,TRIZ正好满足我国对创新方法急迫的需求,正确合理地运用TRIZ能有效地缩短创新的时间,提高创新效率,能够在我国农业科技创新过程中发挥重要作用。
为进一步明确基于TRIZ推动农业科技创新的关键影响因素及其作用机理,充分发挥TRIZ在我国农业科技创新中引导、启发、协同和促进作用,在分析研究背景和意义后,提出了本文的研究目标,即辨识当前基于TRIZ推动农业科技创新关键影响因素,明确其内在作用机理和作用路径,并构建应用TRIZ的农业科技创新绩效评价体系,以及明确了本文的主要研究内容,包括:(1)TRIZ与农业科技创新的适应性分析;(2)基于TRIZ推动农业科技创新的影响因素识别;(3)基于TRIZ推动农业科技创新的内在作用机理研究:(4)基于TRIZ推动农业科技创新作用路径实证研究;(5)应用TRIZ农业科技创新绩效评价体系研究。
本文针对所提出的研究目标和内容,运用实地调研、深入访谈、文献研究和案例分析相结合的定性研究方法,按照实证分析的研究设计、变量设计、信度效度检验、研究方法设计等规范,在问卷调研的基础上,采用数理统计和结构方程建模相结合的定量分析方法,开展了相关研究。具体研究内容和成果主要包括以下五个方面:
1.通过挖掘相关创新理论研究基础,系统把握TRIZ逻辑架构和核心要素构成,并全面分析农业科技创新系统,从‘'TRIZ对农业科技创新的作用分析”以及“农业科技创新对TRIZ的需求分析”两个方面,定性阐释了TRIZ与农业科技创新的相互适应性。
2.通过文献总结、实地调研、专家问卷调研和访谈等形式,全面系统的从创新环境和领导战略、TRIZ培训和导入、资源和投入、组织机制等维度总结了基于TRIZ推动农业科技创新的一般影响因素。在此基础上,本研究通过因子分析和逐步回归分析,识别出具有回归显著性的关键因子,它们构成了基于TRIZ推动农业科技创新的关键影响因素集。
3.通过对应用TRIZ三个试点创新案例的研究,从开展情况、过程介绍和案例分析三个方面系统把握了TRIZ作用于农业科技创新的过程,将科学问题识别能力、创新构思能力以及最优化解决问题能力作为诠释基于TRIZ推动农业科技创新内涵(内在机理)的主要指标,并通过系统把握TRIZ的应用特点,对三个指标做了进一步的定义和诠释。
4.在基于TRIZ推动农业科技创新关键影响因素识别及其内在作用机理研究的基础上,提出了基于TRIZ推动农业科技创新机理概念模型及相应的理论假设,继而利用结构方程建模(SEM)对基于TRIZ推动农业科技创新的作用路径进行了实证研究,并得出儿点在试点应用阶段基于TRIZ推动农业科技创新的管理启示。
5.在对基于TRIZ推动农业科技创新的关键影响因素进行识别研究基础上,结合TRIZ和农业科技项目的特点,本文构建了应用TRIZ农业科技创新绩效评价体系,并提出了应用TRIZ农业科技创新绩效评价体系实施策略。
At this stage when China as a developing country, is making efforts to join the ranks of innovative countries, it is of great significance to study and acquire innovation methods. TRIZ theory which can inspire innovative thinking and solve problems in a scientific and systematical way just meet our urgent demand of innovation methods. Reasonable and efficient application of TRIZ can shorten innovation time and improve innovation efficiency, which will play an important role in the process of China's agricultural science and technology innovation.
In order to give full play to TRIZ theory in agricultural science and technology innovation, this paper aims to further figure out the critical factors in promoting agricultural science and technology innovation and their function route and establish the agricultural science and technology innovation performance evaluation system of applying TRIZ theory. The main contents in this paper includes:(1) the adaptability analysis of TRIZ theory and agricultural science and technology innovation;(2) Figuring out the critical factors influencing agricultural science and technology innovation based on TRIZ theory;(3) the specific mechanism of TRIZ promoting agricultural science and technology innovation;(4) the empirical study on the way of TRIZ promoting agricultural science and technology innovation;(5) applying the agricultural science and technology innovation performance evaluation system of applying TRIZ theory.
This paper combined qualitative research methods (including field investigation, deep interview, literature study and case analysis), empirical study methods(including study design, variable design, reliability and validity tests and study method design) and quantitative analysis methods(combining mathematical statistics and structural equation modeling). The main contents and results include the following five aspects:
1. Mutual adaptability between TRIZ theory and agricultural science and technology innovation was qualitatively defined from the two aspects of TRIZ's function analysis and demand analysis to agricultural science and technology innovation through studying TRIZ theory and analyzing agricultural science and technology innovation system.
2. The general factors influencing agricultural science and technology innovation based on TRIZ theory were summarized from the dimensions of innovation environment, leadership strategy, TRIZ theory training and import, resource and investment and organization mechanism in the forms of literature summary, field research, expert questionnaire inquiry and interview. Furthermore, this paper identified the critical new factors influencing agricultural science and technology innovation based on TRIZ theory through regression analysis.
3. TRIZ's acting mechanism on agricultural science and technology innovation was figured out from the three aspects of application situation, process introduction and case analysis through analyzing three pilot innovation cases. Three main indicators of TRIZ promoting agricultural science and technology innovation was proposed, including scientific problem recognition capability, innovation ability and problem-solving ability. Further, the three indicators were defined and elucidated based in the understanding of TRIZ theory application characteristics.
4. Furthermore, the conceptual model and theoretical hypothesis of agric ltural science and technology innovation mechanism and function route based on TRIZ theory ere proposed and empirical study on them was conducted. Some enlightenment about agricultural sci ice and technology management in the stage of pilot application was summarized.
5. This paper also established agricultural science and technology inno ation performance evaluation system combining the characteristics of TRIZ theory and agricultural sci (?)ce and technology innovation, and also proposed its implementation strategies.
为进一步明确基于TRIZ推动农业科技创新的关键影响因素及其作用机理,充分发挥TRIZ在我国农业科技创新中引导、启发、协同和促进作用,在分析研究背景和意义后,提出了本文的研究目标,即辨识当前基于TRIZ推动农业科技创新关键影响因素,明确其内在作用机理和作用路径,并构建应用TRIZ的农业科技创新绩效评价体系,以及明确了本文的主要研究内容,包括:(1)TRIZ与农业科技创新的适应性分析;(2)基于TRIZ推动农业科技创新的影响因素识别;(3)基于TRIZ推动农业科技创新的内在作用机理研究:(4)基于TRIZ推动农业科技创新作用路径实证研究;(5)应用TRIZ农业科技创新绩效评价体系研究。
本文针对所提出的研究目标和内容,运用实地调研、深入访谈、文献研究和案例分析相结合的定性研究方法,按照实证分析的研究设计、变量设计、信度效度检验、研究方法设计等规范,在问卷调研的基础上,采用数理统计和结构方程建模相结合的定量分析方法,开展了相关研究。具体研究内容和成果主要包括以下五个方面:
1.通过挖掘相关创新理论研究基础,系统把握TRIZ逻辑架构和核心要素构成,并全面分析农业科技创新系统,从‘'TRIZ对农业科技创新的作用分析”以及“农业科技创新对TRIZ的需求分析”两个方面,定性阐释了TRIZ与农业科技创新的相互适应性。
2.通过文献总结、实地调研、专家问卷调研和访谈等形式,全面系统的从创新环境和领导战略、TRIZ培训和导入、资源和投入、组织机制等维度总结了基于TRIZ推动农业科技创新的一般影响因素。在此基础上,本研究通过因子分析和逐步回归分析,识别出具有回归显著性的关键因子,它们构成了基于TRIZ推动农业科技创新的关键影响因素集。
3.通过对应用TRIZ三个试点创新案例的研究,从开展情况、过程介绍和案例分析三个方面系统把握了TRIZ作用于农业科技创新的过程,将科学问题识别能力、创新构思能力以及最优化解决问题能力作为诠释基于TRIZ推动农业科技创新内涵(内在机理)的主要指标,并通过系统把握TRIZ的应用特点,对三个指标做了进一步的定义和诠释。
4.在基于TRIZ推动农业科技创新关键影响因素识别及其内在作用机理研究的基础上,提出了基于TRIZ推动农业科技创新机理概念模型及相应的理论假设,继而利用结构方程建模(SEM)对基于TRIZ推动农业科技创新的作用路径进行了实证研究,并得出儿点在试点应用阶段基于TRIZ推动农业科技创新的管理启示。
5.在对基于TRIZ推动农业科技创新的关键影响因素进行识别研究基础上,结合TRIZ和农业科技项目的特点,本文构建了应用TRIZ农业科技创新绩效评价体系,并提出了应用TRIZ农业科技创新绩效评价体系实施策略。
At this stage when China as a developing country, is making efforts to join the ranks of innovative countries, it is of great significance to study and acquire innovation methods. TRIZ theory which can inspire innovative thinking and solve problems in a scientific and systematical way just meet our urgent demand of innovation methods. Reasonable and efficient application of TRIZ can shorten innovation time and improve innovation efficiency, which will play an important role in the process of China's agricultural science and technology innovation.
In order to give full play to TRIZ theory in agricultural science and technology innovation, this paper aims to further figure out the critical factors in promoting agricultural science and technology innovation and their function route and establish the agricultural science and technology innovation performance evaluation system of applying TRIZ theory. The main contents in this paper includes:(1) the adaptability analysis of TRIZ theory and agricultural science and technology innovation;(2) Figuring out the critical factors influencing agricultural science and technology innovation based on TRIZ theory;(3) the specific mechanism of TRIZ promoting agricultural science and technology innovation;(4) the empirical study on the way of TRIZ promoting agricultural science and technology innovation;(5) applying the agricultural science and technology innovation performance evaluation system of applying TRIZ theory.
This paper combined qualitative research methods (including field investigation, deep interview, literature study and case analysis), empirical study methods(including study design, variable design, reliability and validity tests and study method design) and quantitative analysis methods(combining mathematical statistics and structural equation modeling). The main contents and results include the following five aspects:
1. Mutual adaptability between TRIZ theory and agricultural science and technology innovation was qualitatively defined from the two aspects of TRIZ's function analysis and demand analysis to agricultural science and technology innovation through studying TRIZ theory and analyzing agricultural science and technology innovation system.
2. The general factors influencing agricultural science and technology innovation based on TRIZ theory were summarized from the dimensions of innovation environment, leadership strategy, TRIZ theory training and import, resource and investment and organization mechanism in the forms of literature summary, field research, expert questionnaire inquiry and interview. Furthermore, this paper identified the critical new factors influencing agricultural science and technology innovation based on TRIZ theory through regression analysis.
3. TRIZ's acting mechanism on agricultural science and technology innovation was figured out from the three aspects of application situation, process introduction and case analysis through analyzing three pilot innovation cases. Three main indicators of TRIZ promoting agricultural science and technology innovation was proposed, including scientific problem recognition capability, innovation ability and problem-solving ability. Further, the three indicators were defined and elucidated based in the understanding of TRIZ theory application characteristics.
4. Furthermore, the conceptual model and theoretical hypothesis of agric ltural science and technology innovation mechanism and function route based on TRIZ theory ere proposed and empirical study on them was conducted. Some enlightenment about agricultural sci ice and technology management in the stage of pilot application was summarized.
5. This paper also established agricultural science and technology inno ation performance evaluation system combining the characteristics of TRIZ theory and agricultural sci (?)ce and technology innovation, and also proposed its implementation strategies.
引文
[1]许朗,杨向阳.结构调整与农业发展[J].农村经济,2005(8):31-35.
[2]李力.农业科技进步贡献率从48%到63%[N].经济日报,2006(5).
[3]新中国农业发展50年—中国农业信息网www.agn.gov.cn
[4]檀润华.创新设计—发明问题解决理论[M].北京:机械工业出版社,2002.
[5]赵新军.技术创新(TRIZ),及应用[M].北京:化学工业出版社,2004.
[6]郭斌TRIZ的生成与演进[D].哈尔滨:哈尔滨理工大学,2011.
[7]郭大成.利用TRIZ提升国防科技工业创新效率[J].中国科技论坛,2005,(6):37-41.
[8]刘燕华,王伟中.技术创新方法国际比较与案例研究[M].北京:科学出版社,2011.
[9]威拉德·科克伦.农业价格,神话与现实[M].明尼苏达:明尼苏达大学出版社,1958.
[10]速水佑次郎,佛农·拉坦.农业发展:国际前景[M].北京:商务印书馆,1993.
[11]Staver, Charles. Analysing organisational learning Capacity As a Window on the National Agricultural Innovation System:a Participatory Approach in Nicaragua[J]. Agricultural Resources, Governance and Ecology,2007,6 (28):194-221.
[12]http://www.naip.icar.org.in/pipchpl.htm
[13]http://aeol.cn/cms/sites/MainSite/
[14]Irwin Feller, Patrick Madden, Lynne Kaltreider. The New Agricultural Research and Technology Transfer Policy Agenda Institute for Policy Research and Evaluation[D], Pennsylvania State University, University Park, USA.
[15](荷兰)L.道欧,J.鲍亚朴主编.厉为民,檀学文,王永春,李刚译.荷兰农业的勃兴—农业发展的背景和前景[M].北京:中国农业科学技术出版社,2003:65-66.
[16]Ruttan, Vernon W.. Induced Technical and Institutional Change in Tropical Agriculture[J]. International Journal of Agricultural Resources, Governance and Ecology,2007,6(18):222-239.
[17]Vogl, Christian R..Are Standards and Regulations of Organic Fanning Moving Away From Small Farmers'Knowledge[J]. Agriculture,2005,26(22):5-26.
[18]檀润华.创新设计—TRIZ发明问题解决理论[M].北京:机械工业出版社,2002.
[19]赵新军.技术创新(TRIZ)及应用[M].北京:化学工业出版社,2004.
[20]檀润华.发明问题解决理论TRIZ—TRIZ过程工具及发展趋势[J].机械设计,2001,18(7):7-11.
[21]Mann D. L.. Better Technology Forecasting Using Systematic Innovation Methods[J]. Technological Forecasting and Social Change,2003,70(8):779-795.
[22]James Kowalick. Advanced TRIZ Developments at the Leonardo da Vinci Institute[J]. TRIZ journal,1998.
[23]James Kowalick. Triads:Their Relationship to TRIZ[J]. TRIZ journal,1998.
[24]Mann,D. L., Dewulf S.. Updating TRIZ—1985-2002 Patent Research findings[C]. TRIZCON'03, Philadelphia,2003.
[25]Linde H., Herr G., Rehklau A.. Hidden Pattern of Innovation of Knowledge Enterprises by WOIS[M]. Boston Spring Boston,2006:1037-1041.
[26]Mann D. L., Dewulf S., Zlotin B.. Matrix 2003:Updating the TRIZ Contradiction Matrix[R]. CREAX Press,2003.
[27]Mann D. L.. Assessing the Accuracy of the Contradiction Matrix for Recent Mechanical Inventions[J]. TRIZ journal Article Archive,2002.
[28]Hua Zhongsheng, Coulibaly Solomani, Wang Wei. TOC and TRIZ Based Product Design Method and Its Application[J]. Computer Integrated Manufacturing Systems, CIMS,2006, (6):817-822.
[29]Stratton R., Mann D.. Systematic Innovation and the Underlying Principles Behind TRIZ and TOC[J]. Journal of Materials Processing Technology,2003(139):120-126.
[30]Atsuko Ishida. Using TRIZ to Create Innovative Business Models and Products[C]. TRIZ Future, 2003:12-14.
[31]Horn Mark, Rocketdyne Pratt, Rocketdyne Whitney. Implementing TRIZ at pratt & whitney rocket dyne[J]. KM Review,2007,9(6):16-19.
[32]Darrell Mann. Application of TRIZ Tools in a Non-Technical Problem Context[J]. The TRIZ Journal Article Archive,2000.
[33]Brunno Ruchti, Pavel Livotov. TRIZ-based Innovation Principles and a Process for Problem Solving in Business and Management[J]. The TRIZ Journal Article Archive,2001, (12):221-226.
[34]Jonh Teninko.40 Inventive Principles with Social Examples[J]. The TRIZ Journal Article Archive, 2001, (6):218-226.
[35]傅家骥等.技术创新学[M].北京:清华大学出版社,2000.
[36]中共中央国务院.中共中央国务院关于加强技术创新发展高科技实现产业化的决定[N].人民日报,1998.
[37]冯之浚等.国家创新系统的理论与政策[M].北京:经济科学出版社,1999:13.
[38]冯之浚等.企业是自主创新的主体[J].科学学与科学技术管理,2006,(4):5-6.
[39]刘惠琴,白水毅,林功实.创新与创造的若干概念辨析[J].清华大学教育研究,2000,3.
[40]毛蕴诗,汪建成.基于产品升级的自主创新路径研究[J].管理世界,2006,(5):114-120.
[41]魏杰,谭伟.企业自主创新的儿个关键问题[J].科学学与科学技术管理,2006,(4):7-11.
[42]肖高,刘景江.先进制造企业自主创新能力提升:关键途径与案例分析[J].科研管理,2007,28(3):13-18.
[43]李淳.人力资本—企业创新的动力[J].中国物质再生,1999(12):35-36.
[44]胡咏春,鄢玉枝.危机文化—企业创新的动力[J].企业经济,2005(5):86-87.
[45]陈云云.企业技术创新的新动力:文化创新[J].商场现代化,2008(4):221-222.
[46]项保华.我国企业技术创新动力机制研究[J].科研管理,1994(1):4449.
[47]万君康,王开明.论技术创新的动力机制与期望理论[J].科研管理.1997(2):31-35.
[48]许小东.技术创新内驱动力机制模式研究[J].数量经济技术经济研究,2002(3):76-78.
[49]孔平生.企业创新的动力机制[J].中国电力企业管理,2001(10):54
[50]张耀奇.如何激发企业创新动力[J].经营与管理,2001(7):9-11.
[51]简新华,殷保胜.中国自主创新的动力和实现机制[J].江海学刊,2008(1):64-69.
[52]张钢.企业技术创新的动力源与信息源[J].科研管理,1998(4):27-31.
[53]王海山.技术创新动力机制的理论模式[J].科学技术与辩证法,1992(6):22-27.
[54]张永谦,郭强.技术创新的理论与政策[J].中山大学出版社,1999:107-108.
[55]蔡艺武.创新与自主创新的内涵及测度研究[D].厦门:厦门大学,2008:16-17.
[56]林毅夫.制度、技术与中国农业发展[M].上海:上海三联书店,1994.
[57]傅家骥等.技术创新—中国企业发展之路[M].企业管理出版社,1992:115.
[58]常修泽.现代企业常新论[M].天津人民出版社,1994.
[59]芮明杰.现代企业管理创新[M].太原:山西经济出版社,1998.
[60]常修泽.现代企业创新论—中国企业制度创新研究[M].天津:天津人民出版社,1994,3.
[61]赵登华.勇于推进企业制度创新[J].经济日报,2001.
[62]杨国华.论企业管理创新[J].内蒙古科技与经济,2005,16.
[63]戴小枫.关于建立新型农业科技创新体系设想[J].中国科技论坛,2000.
[64]许越先,许世卫.建立农业科技创新体系,提高农业科技创新能力[J].中国农业科技导报,2000.
[65]黄季煜,胡瑞发,Scott Rozallc等.中国农业科研投资:挑战与展望[M].北京:中国财政经济出版社,2003.
[66]宋维杰.新形势下我国农业科技创新问题探讨[J].农业经济,2003.
[67]曾福生,王光宇.促进农民增收的技术经济问题研究[M].北京:中国农业科技出版社,2005:101-107.
[68]张浩.现阶段农业科技创新面临的问题和对策[J].现代农业科技,2005.
[69]陈水乡.农业科技创新体系建设的实践与探索[M].北京:中国农业出版社,2007,3-4.
[70]赵慧田.发明创造学教程[M].沈阳:东北工学院出版社,1987:377-452.
[71]郑称德TRIZ的产生及其理论体系[J].科技进步与对策,2002:112-114.
[72]郑称德.现代TRIZ研究的发展[J].科技进步与对策,2002:88-90.
[73]林岳.基于CAI的机械产品创新设计关键技术及使能工具研究[D].天津大学博士论文,2002,6:6-10.
[74]林岳,段海波.基于TRIZ和领域本体的计算机辅助创新设计平台框架[J].机械设计与研究,2005,21(2):15-18.
[75]檀润华,马建红,张换高.基于QFD和TRIZ的概念设计过程研究[J].机械设计,2002,9:14.
[76]马怀宇,盂明辰.基于TRIZ/QFD/FA的产品概念设计过程模型[J].清华大学学报(自然科学版),2001,41(11):56-59.
[77]曹少中,涂序彦,杨国为.基于TRIZ/FUZZY的产品创新设计优化方法[J].机械设计,2005,22(7):47-50.
[78]丁明芳TRI2—解决创造性问题的理论[D].复旦大学硕士论文,2004.
[79]何川.基于TRIZ的方案设计智能决策支持系统理论与方法研究[D].西南石油学院,2004.
[80]约瑟夫·熊彼特.经济发展理论[M].北京:商务印书馆,1997,73-74.
[81]彼得·德鲁克.创新与企业家精神[M].彭志华译.海口:海南出版社,2000:3.
[82]Mansfied E. Industrial Research and Technology Innovation[M]. New York:Norton w w,1968.
[83]G. Mensch. Stalemate in Technology[M]. Cambridge:Ballinger Press,1979,1.
[84]Kamien M. and Schwartz N. Market Structure and Innovation[M]. Cambridge University Press, 1982:919-920.
[85]黄景贵.论创新理论的产生及其发展[J].中国海洋大学学报,2000,2.
[86]Mansfied E.. How Rapidly Does New Technology Leak Out[J]. Journal of Industrial Economics, 1985, (34):217-224.
[87]林晓言,王红梅.技术经济学教程[M].北京:经济管理出版社,2002,2:95-96.
[88]William J., Baumol. Entrepreneurial Enterprises, Large Established Firms and Other Comonents of the Free-market Growth Machine[J]. Small Business Economics,2004, (23):9-21.
[89]Geroski P. A.. Models of Technology Diffusion[J]. Research Policy,2000, (29):603-625.
[90]董景荣.技术创新过程管理—理论、方法及实践[M].重庆:重庆出版社,2000:32.
[91]Freeman C. The Economics of Industrial Innovation. Harmondsworth:Penguin,1974:27-29.
[92]J. M. Utterback, Abernatky W. J.. A Dynamic Model of Product and Process Innovation[J]. IEEE Transactions on Engineering Management,1988,35(2):63-70.
[93]孙冰.企业技术创新动力研究[D].哈尔滨:哈尔滨工程大学,2003:4-10.
[94]Edwin, Mansfield. Industrial Innovation in Japan and the United States[J]. Science,1988:49-61.
[95]侯仁勇,胡桂林.企业激励机制理论研究[J].武汉汽车工业大学校报,2000,22(4):19-26.
[96]Miller D., Friesen P.. Innovation in Conservative and Entrepreneurial Finns:Two Models of Strategic Momentum[J]. StrategicManagement Journal,1982 (3):20-25.
[97]Lumpkin G. T., Dess G. Clarifying the Entrepreneurial Orientation Construct and Linking It to Performance [J]. Academy of Management Review,1996,21 (1):150-165.
[98]Agust Segarra-Blasco, Josep Maria Arauzo Carod. Sources of Innovation and Industry University Interaction:Evidence from Spanish Firms [J]. Research Policy,2008,37 (8):1283.
[99]Smits, Boon. The Role of Users in Innovation in the Pharmaceutical Industry [J]. Drug Discovery Today,2008,13 (7):353-359.
[100]谢光亚.技术创新[M].湖南科学技术出版社,2000:4-53.
[101]Nooteboom B. Innovation, Learning and Cluster Dynamics[M]. Erasmus Research Institute of Management(ERM),2004.
[102]雷明,董菁,于东江.技术创新与制度创新的互动原理[J].科技进步与对策,2001(7):67-68.
[103]李晓伟.技术创新与制度创新的互动规律及其对我国建设创新型国家的启示[J].科技进步与对策,2009,26(17).
[104](美)道格拉斯·C·诺斯.经济史中的结构与变迁[M],上海:上海三联书店,1994.
[105](美)道格拉斯·C·诺斯.西方世界的兴起[M].北京:学苑出版社,1988.
[106](美)道格拉斯·c·诺斯著,刘守英译.制度、制度变迁与经济绩效[M].上海:上海三联书店,1994.
[107]科斯.论生产的制度结构[M].上海:上海三联书店,1994:3-7.
[108](美)彼特·德鲁克.创新与企业家精神[M].海口:海南出版社,2000:3.
[109]Stata, Ray. Organizational Learning:The Key to Management Innovation[J]. SIoan Management Review,1989:23-26.
[110]Benghozi, Pierre. Managing Innovation:From ad hoc to Routine in French Telecom, Organization Studies,1990,11(4):24.
[111]Tony Proctor.管理创新精要[M].北京:中信出版社,2003:1-9.
[112]Gary Hamel管理创新:理由、内容与方法[J].管理与财富,2006(4):44.
[113]C. Freeman. Technology Policy and Economics Performance:Lessons from Japan[M]. London: Frances Printer,1987.
[114]王春法.技术创新政策:理论基础与工具选择—美国和日本的比较研究[M].北京:经济科学出版杜,1998:94-95.
[115]Pentti Soderlin. TRIZ the simple way[J]. TRIZ journal,2002.
[116]James Kowalick. Altshuller'S greatest discover—and beyond[J]. TRIZ journal,1997.
[117]Seymon Savransky. Engineering of creativity[M], New York:CRC Press,2000.
[118]檀润华,马力辉,邓韧等.计算机辅助产品创新设计软件的推广应用.石家庄市科技计划(No.05313050A),2005-2006.
[119]陈光,王伯鲁,赵立力.创新思维与方法——TRIZ的理论与应用[M].北京:科学出版社,2012.
[120]赵敏,史晓凌,段海波TRIZ入门及实践[M].北京:科学出版社,2009.
[121]徐克庄TRIZ的研究应用概况[J].杭州化f:,2008,38(2):1-14.
[122]刘庆山.农业科技创新及其主要对策[J].天津农学院学报,1998,5.
[123]黄国勤,刘宜柏.论我国农业科技创新[J].江西农业大学学报,1999,21.
[124]袁春新,顾国华,金丽华等.论农业科技创新[J].南京农专学报,2001,17.
[125]郭鹏,余小方,傅朝荣.我国农业科技创新及其发展对策[J].技术与创新管理,2006.
[126]宋桥生,娄光新,姚传武,李宝喜.对农业科技创新本质特征的分析与认识[J].农村经济与科技,2011.
[127]李丽莎.农业科技创新体系综述[J].安徽农业科学,2012,40(9):5722-5724.
[128]Bruce D., DeRuntz. The Importance of Training Content for Six Sigma Professionals: Perceptions of Black Belt Trainers. PhD Dissertation. Southern Illinois University,2005.
[129]Mark Goldstein. Six Sigma Program Success Factors. Six Sigma Forum Magazine.2001 (9): 36-45.
[130]Y. H. Kwak, F. T. Anbari, Benefits. Obstacles, and Future of Six Sigma Approach. Technovation. 2006 (26):708-715.
[131]Jung—Lang Cheng. DMAIC Integration Necessary for Success. Six Sigma Forum Magazine. 2006 (8):22-25.
[132]Lee K. Critical Success Factors of Six Sigma Implementation and the Impact on Operations Performance. PhD Dissertation, Cleveland State University,2002.
[133]James E. Brady, Theodore T. Allen. Six Sigma Literature:A Review and Agenda for Future Research. Quality and Reliability Engineering International.2006,22(3):335-367.
[134]George Byrne, Bob Norris. Drive Baldrige level Performance. Six Sigma Forum Magazine.2003 (5):13-21.
[135]惠荣奎,罗赫荣,戴健华TRIZ创新思维在农业科技创新中推行的思考[J].农业科技管理,2013,32(1):54-56.
[136]孙庆,颜晓慧.区域推广应用TRIZ效果评价指标体系研究[J].哈尔滨理工大学学报,2010,15(5):99-103.
[137]吴永志,夏冰,张间一.在高新技术企业中推广技术创新方法(TRIZ)模式初步研究与启示[J].黑河学院学报,2011,2(1):13-15.
[138]王珊珊,王宏起.黑龙江省推广应用TRIZ创新方法的战略研究[J].技术经济,2010,29(8):17-23.
[139]林艳,陈伟.黑龙江省TRIZ推广模式及实施策略研究[J].中国科技论坛,2010,(7):94-100.
[140]王伯鲁.萃思学(TRIZ)及其推广应用问题探析[J].科技进步与对策,2009,26(18):132-135.
[141]Larson, A. Partner networks leveraging external ties to improve entrepreneurial performance[J]. Journal of Business Venturing,1991(6):173-188.
[142]Cooper, R G & Kleinschmidt. J. New product performance:keys to success, profitability & cycle time reduction [J]. Journal of Marketing Management,1995,24:315-337.
[143]Calantone, R J, Schmidt, J B, Song X M. Controllable Factors of New Product Success:A Cross-Nation Comparison[J]. Marketing Science,1996,15(4):341-359.
[144]Lynn, G S, Reilly R. R., Akgun A. E.. Knowledge Management in New Product Teams:Practices and Outcomes[J]. IEEE Transactions on Engineering Management,2000,47(2):221-231.
[145]Guido C, Luca I, Giuseppe Z. The Evaluation of Innovation Capabilities in Small Software Finns: A Methodological Approach[J]. Small Business Economics,2003, (21):343-354.
[146]Mcgregor. Are Patents the Measure of Innovation?[J]. Business Week Online,2007, (5):28.
[147]Lovett. Failure to Measure Innovation Damages Value, says ESRC[J]. Design Week,2007,22(24): 7.
[148]楼洪兴,冯水英等.基于课题组的农业科研绩效评价体系的构建与实证分析[J].科研管理,2007,28:95-102.
[149]郭春丽.农业技术创新的绩效评价及应用研究[J].西安电子科技大学学报(社会科学版),2009,19(6):74-78.
[150]王重鸣.心理学研究方法[M].北京:人民教育出版社,1990.
[151]李怀祖.管理研究方法论[M].西安:西安交通大学出版社,2004,255.
[152]Straub, D. W. Validating instruments in MIS research[J]. MIS Quarterly,1989,13(2):147-176.
[153]Yin, R. K. Case Study Research, Design and Methods[C]. California:Sage Publications, Newbury Park,1994.
[154]孙海法,刘运国,方琳.案例研究的方法论[J].科研管理,2004(2):107-112.
[155]李建明.案例分析方法在管理学研究中的应用[J].上海经济研究,2004(2):76-79.
[156]Eisenhardt K. M., Martin J. A. Dynamic Capacities:What are they[J]. Strategic Management Journal,2000,21:1105-1121.
[157]陆小成,罗新星.基于技术创新过程的产业集群知识发酵模型研究[J].科学管理研究,2007,25(2):61-64.
[158](德)迈克尔A.奥尔洛夫著,陈劲,朱凌,郑尧丽译.用TRIZ进行创造性思考实用指南[M].北京:科学出版社,2010,59-60.
[159]陈光,王伯鲁,赵立力.创新思维与方法—-TRIZ的理论与应用[M].北京:科学出版社,2012.
[160]王惠文.偏最小二乘回归的线性与非线性方法[M].北京:国防工业出版社,2006.
[161]侯杰泰,温忠麟,成子娟.结构方程模型及其应用[M].北京:教育科学出版社,2004:15.
[162]李怀祖.管理研究方法论M].西安:西安交通大学出版社,2004:72-76.
[163]Koufteros, X. A. Testing a model of pull production:A paradigm for manufacturing research using structural equation modeling[J]. Journal of Operation Management.1999(17):467-488.
[164]Cooper, R. G. & Kleinschmidt E. J.. New product performance:keys to success, profitability & cycle time reduction[J]. Journal of Marketing Management,1995,24:315-337.
[165]Larson, A.. Partner networks leveraging external ties to improve entrepreneurial performance[J]. Journal of Business Venturing,1991(6):173-188.
[166]Calantone, R. J., Schmidt, J. B., Song X.M.. Controllable Factors of New Product Success:A Cross-Nation Comparison[J]. Marketing Science,1996,15(4):341-359.
[167]Balachandra R.and Friar J. H.. Factors for Success in R&D projects and New Product Innovation: A Context Framework[J]. IEEE Transaction On Engineering Management,1997,44(3):276-287.
[168]Lynn, G. S., Reilly R. R., Akgun A. E.. Knowledge Management in New Product Teams:Practices and Outcomes[J]. IEEE Transactions on Engineering Management,2000,47(2):221-231.
[169]郭春丽.农业技术创新的绩效评价及应用研究[J].西安电子科技大学学报(社会科学版),2009,19(6):74-78.
[170]林艳,王宏起.企业应用TRIZ创新效果评价指标体系研究[J].现代管理科学,2009,5.
[171]孙庆,颜晓慧.区域推广应用TRIZ效果评价指标体系研究[J].哈尔滨理工大学学报,2010,15(5):99-103.
[172]Belderbos R, Carree M, & Lokshin B. Cooperative R&D and firm performance[J]. Research Policy,2004(33):1477-1492.
[173]Bourne M, Mills J, Wilcox M, et al. Designing, implementing and updating performance measurement systems[J]. International Journal of Operations and Production Management,2000,20(7): 754-771.
[174]Ammar S, Wright R. Applying fuzzy-set theory to performance evaluation[J]. Socio-Economic Planning Sciences,2000,34(12):285-302.
[2]李力.农业科技进步贡献率从48%到63%[N].经济日报,2006(5).
[3]新中国农业发展50年—中国农业信息网www.agn.gov.cn
[4]檀润华.创新设计—发明问题解决理论[M].北京:机械工业出版社,2002.
[5]赵新军.技术创新(TRIZ),及应用[M].北京:化学工业出版社,2004.
[6]郭斌TRIZ的生成与演进[D].哈尔滨:哈尔滨理工大学,2011.
[7]郭大成.利用TRIZ提升国防科技工业创新效率[J].中国科技论坛,2005,(6):37-41.
[8]刘燕华,王伟中.技术创新方法国际比较与案例研究[M].北京:科学出版社,2011.
[9]威拉德·科克伦.农业价格,神话与现实[M].明尼苏达:明尼苏达大学出版社,1958.
[10]速水佑次郎,佛农·拉坦.农业发展:国际前景[M].北京:商务印书馆,1993.
[11]Staver, Charles. Analysing organisational learning Capacity As a Window on the National Agricultural Innovation System:a Participatory Approach in Nicaragua[J]. Agricultural Resources, Governance and Ecology,2007,6 (28):194-221.
[12]http://www.naip.icar.org.in/pipchpl.htm
[13]http://aeol.cn/cms/sites/MainSite/
[14]Irwin Feller, Patrick Madden, Lynne Kaltreider. The New Agricultural Research and Technology Transfer Policy Agenda Institute for Policy Research and Evaluation[D], Pennsylvania State University, University Park, USA.
[15](荷兰)L.道欧,J.鲍亚朴主编.厉为民,檀学文,王永春,李刚译.荷兰农业的勃兴—农业发展的背景和前景[M].北京:中国农业科学技术出版社,2003:65-66.
[16]Ruttan, Vernon W.. Induced Technical and Institutional Change in Tropical Agriculture[J]. International Journal of Agricultural Resources, Governance and Ecology,2007,6(18):222-239.
[17]Vogl, Christian R..Are Standards and Regulations of Organic Fanning Moving Away From Small Farmers'Knowledge[J]. Agriculture,2005,26(22):5-26.
[18]檀润华.创新设计—TRIZ发明问题解决理论[M].北京:机械工业出版社,2002.
[19]赵新军.技术创新(TRIZ)及应用[M].北京:化学工业出版社,2004.
[20]檀润华.发明问题解决理论TRIZ—TRIZ过程工具及发展趋势[J].机械设计,2001,18(7):7-11.
[21]Mann D. L.. Better Technology Forecasting Using Systematic Innovation Methods[J]. Technological Forecasting and Social Change,2003,70(8):779-795.
[22]James Kowalick. Advanced TRIZ Developments at the Leonardo da Vinci Institute[J]. TRIZ journal,1998.
[23]James Kowalick. Triads:Their Relationship to TRIZ[J]. TRIZ journal,1998.
[24]Mann,D. L., Dewulf S.. Updating TRIZ—1985-2002 Patent Research findings[C]. TRIZCON'03, Philadelphia,2003.
[25]Linde H., Herr G., Rehklau A.. Hidden Pattern of Innovation of Knowledge Enterprises by WOIS[M]. Boston Spring Boston,2006:1037-1041.
[26]Mann D. L., Dewulf S., Zlotin B.. Matrix 2003:Updating the TRIZ Contradiction Matrix[R]. CREAX Press,2003.
[27]Mann D. L.. Assessing the Accuracy of the Contradiction Matrix for Recent Mechanical Inventions[J]. TRIZ journal Article Archive,2002.
[28]Hua Zhongsheng, Coulibaly Solomani, Wang Wei. TOC and TRIZ Based Product Design Method and Its Application[J]. Computer Integrated Manufacturing Systems, CIMS,2006, (6):817-822.
[29]Stratton R., Mann D.. Systematic Innovation and the Underlying Principles Behind TRIZ and TOC[J]. Journal of Materials Processing Technology,2003(139):120-126.
[30]Atsuko Ishida. Using TRIZ to Create Innovative Business Models and Products[C]. TRIZ Future, 2003:12-14.
[31]Horn Mark, Rocketdyne Pratt, Rocketdyne Whitney. Implementing TRIZ at pratt & whitney rocket dyne[J]. KM Review,2007,9(6):16-19.
[32]Darrell Mann. Application of TRIZ Tools in a Non-Technical Problem Context[J]. The TRIZ Journal Article Archive,2000.
[33]Brunno Ruchti, Pavel Livotov. TRIZ-based Innovation Principles and a Process for Problem Solving in Business and Management[J]. The TRIZ Journal Article Archive,2001, (12):221-226.
[34]Jonh Teninko.40 Inventive Principles with Social Examples[J]. The TRIZ Journal Article Archive, 2001, (6):218-226.
[35]傅家骥等.技术创新学[M].北京:清华大学出版社,2000.
[36]中共中央国务院.中共中央国务院关于加强技术创新发展高科技实现产业化的决定[N].人民日报,1998.
[37]冯之浚等.国家创新系统的理论与政策[M].北京:经济科学出版社,1999:13.
[38]冯之浚等.企业是自主创新的主体[J].科学学与科学技术管理,2006,(4):5-6.
[39]刘惠琴,白水毅,林功实.创新与创造的若干概念辨析[J].清华大学教育研究,2000,3.
[40]毛蕴诗,汪建成.基于产品升级的自主创新路径研究[J].管理世界,2006,(5):114-120.
[41]魏杰,谭伟.企业自主创新的儿个关键问题[J].科学学与科学技术管理,2006,(4):7-11.
[42]肖高,刘景江.先进制造企业自主创新能力提升:关键途径与案例分析[J].科研管理,2007,28(3):13-18.
[43]李淳.人力资本—企业创新的动力[J].中国物质再生,1999(12):35-36.
[44]胡咏春,鄢玉枝.危机文化—企业创新的动力[J].企业经济,2005(5):86-87.
[45]陈云云.企业技术创新的新动力:文化创新[J].商场现代化,2008(4):221-222.
[46]项保华.我国企业技术创新动力机制研究[J].科研管理,1994(1):4449.
[47]万君康,王开明.论技术创新的动力机制与期望理论[J].科研管理.1997(2):31-35.
[48]许小东.技术创新内驱动力机制模式研究[J].数量经济技术经济研究,2002(3):76-78.
[49]孔平生.企业创新的动力机制[J].中国电力企业管理,2001(10):54
[50]张耀奇.如何激发企业创新动力[J].经营与管理,2001(7):9-11.
[51]简新华,殷保胜.中国自主创新的动力和实现机制[J].江海学刊,2008(1):64-69.
[52]张钢.企业技术创新的动力源与信息源[J].科研管理,1998(4):27-31.
[53]王海山.技术创新动力机制的理论模式[J].科学技术与辩证法,1992(6):22-27.
[54]张永谦,郭强.技术创新的理论与政策[J].中山大学出版社,1999:107-108.
[55]蔡艺武.创新与自主创新的内涵及测度研究[D].厦门:厦门大学,2008:16-17.
[56]林毅夫.制度、技术与中国农业发展[M].上海:上海三联书店,1994.
[57]傅家骥等.技术创新—中国企业发展之路[M].企业管理出版社,1992:115.
[58]常修泽.现代企业常新论[M].天津人民出版社,1994.
[59]芮明杰.现代企业管理创新[M].太原:山西经济出版社,1998.
[60]常修泽.现代企业创新论—中国企业制度创新研究[M].天津:天津人民出版社,1994,3.
[61]赵登华.勇于推进企业制度创新[J].经济日报,2001.
[62]杨国华.论企业管理创新[J].内蒙古科技与经济,2005,16.
[63]戴小枫.关于建立新型农业科技创新体系设想[J].中国科技论坛,2000.
[64]许越先,许世卫.建立农业科技创新体系,提高农业科技创新能力[J].中国农业科技导报,2000.
[65]黄季煜,胡瑞发,Scott Rozallc等.中国农业科研投资:挑战与展望[M].北京:中国财政经济出版社,2003.
[66]宋维杰.新形势下我国农业科技创新问题探讨[J].农业经济,2003.
[67]曾福生,王光宇.促进农民增收的技术经济问题研究[M].北京:中国农业科技出版社,2005:101-107.
[68]张浩.现阶段农业科技创新面临的问题和对策[J].现代农业科技,2005.
[69]陈水乡.农业科技创新体系建设的实践与探索[M].北京:中国农业出版社,2007,3-4.
[70]赵慧田.发明创造学教程[M].沈阳:东北工学院出版社,1987:377-452.
[71]郑称德TRIZ的产生及其理论体系[J].科技进步与对策,2002:112-114.
[72]郑称德.现代TRIZ研究的发展[J].科技进步与对策,2002:88-90.
[73]林岳.基于CAI的机械产品创新设计关键技术及使能工具研究[D].天津大学博士论文,2002,6:6-10.
[74]林岳,段海波.基于TRIZ和领域本体的计算机辅助创新设计平台框架[J].机械设计与研究,2005,21(2):15-18.
[75]檀润华,马建红,张换高.基于QFD和TRIZ的概念设计过程研究[J].机械设计,2002,9:14.
[76]马怀宇,盂明辰.基于TRIZ/QFD/FA的产品概念设计过程模型[J].清华大学学报(自然科学版),2001,41(11):56-59.
[77]曹少中,涂序彦,杨国为.基于TRIZ/FUZZY的产品创新设计优化方法[J].机械设计,2005,22(7):47-50.
[78]丁明芳TRI2—解决创造性问题的理论[D].复旦大学硕士论文,2004.
[79]何川.基于TRIZ的方案设计智能决策支持系统理论与方法研究[D].西南石油学院,2004.
[80]约瑟夫·熊彼特.经济发展理论[M].北京:商务印书馆,1997,73-74.
[81]彼得·德鲁克.创新与企业家精神[M].彭志华译.海口:海南出版社,2000:3.
[82]Mansfied E. Industrial Research and Technology Innovation[M]. New York:Norton w w,1968.
[83]G. Mensch. Stalemate in Technology[M]. Cambridge:Ballinger Press,1979,1.
[84]Kamien M. and Schwartz N. Market Structure and Innovation[M]. Cambridge University Press, 1982:919-920.
[85]黄景贵.论创新理论的产生及其发展[J].中国海洋大学学报,2000,2.
[86]Mansfied E.. How Rapidly Does New Technology Leak Out[J]. Journal of Industrial Economics, 1985, (34):217-224.
[87]林晓言,王红梅.技术经济学教程[M].北京:经济管理出版社,2002,2:95-96.
[88]William J., Baumol. Entrepreneurial Enterprises, Large Established Firms and Other Comonents of the Free-market Growth Machine[J]. Small Business Economics,2004, (23):9-21.
[89]Geroski P. A.. Models of Technology Diffusion[J]. Research Policy,2000, (29):603-625.
[90]董景荣.技术创新过程管理—理论、方法及实践[M].重庆:重庆出版社,2000:32.
[91]Freeman C. The Economics of Industrial Innovation. Harmondsworth:Penguin,1974:27-29.
[92]J. M. Utterback, Abernatky W. J.. A Dynamic Model of Product and Process Innovation[J]. IEEE Transactions on Engineering Management,1988,35(2):63-70.
[93]孙冰.企业技术创新动力研究[D].哈尔滨:哈尔滨工程大学,2003:4-10.
[94]Edwin, Mansfield. Industrial Innovation in Japan and the United States[J]. Science,1988:49-61.
[95]侯仁勇,胡桂林.企业激励机制理论研究[J].武汉汽车工业大学校报,2000,22(4):19-26.
[96]Miller D., Friesen P.. Innovation in Conservative and Entrepreneurial Finns:Two Models of Strategic Momentum[J]. StrategicManagement Journal,1982 (3):20-25.
[97]Lumpkin G. T., Dess G. Clarifying the Entrepreneurial Orientation Construct and Linking It to Performance [J]. Academy of Management Review,1996,21 (1):150-165.
[98]Agust Segarra-Blasco, Josep Maria Arauzo Carod. Sources of Innovation and Industry University Interaction:Evidence from Spanish Firms [J]. Research Policy,2008,37 (8):1283.
[99]Smits, Boon. The Role of Users in Innovation in the Pharmaceutical Industry [J]. Drug Discovery Today,2008,13 (7):353-359.
[100]谢光亚.技术创新[M].湖南科学技术出版社,2000:4-53.
[101]Nooteboom B. Innovation, Learning and Cluster Dynamics[M]. Erasmus Research Institute of Management(ERM),2004.
[102]雷明,董菁,于东江.技术创新与制度创新的互动原理[J].科技进步与对策,2001(7):67-68.
[103]李晓伟.技术创新与制度创新的互动规律及其对我国建设创新型国家的启示[J].科技进步与对策,2009,26(17).
[104](美)道格拉斯·C·诺斯.经济史中的结构与变迁[M],上海:上海三联书店,1994.
[105](美)道格拉斯·C·诺斯.西方世界的兴起[M].北京:学苑出版社,1988.
[106](美)道格拉斯·c·诺斯著,刘守英译.制度、制度变迁与经济绩效[M].上海:上海三联书店,1994.
[107]科斯.论生产的制度结构[M].上海:上海三联书店,1994:3-7.
[108](美)彼特·德鲁克.创新与企业家精神[M].海口:海南出版社,2000:3.
[109]Stata, Ray. Organizational Learning:The Key to Management Innovation[J]. SIoan Management Review,1989:23-26.
[110]Benghozi, Pierre. Managing Innovation:From ad hoc to Routine in French Telecom, Organization Studies,1990,11(4):24.
[111]Tony Proctor.管理创新精要[M].北京:中信出版社,2003:1-9.
[112]Gary Hamel管理创新:理由、内容与方法[J].管理与财富,2006(4):44.
[113]C. Freeman. Technology Policy and Economics Performance:Lessons from Japan[M]. London: Frances Printer,1987.
[114]王春法.技术创新政策:理论基础与工具选择—美国和日本的比较研究[M].北京:经济科学出版杜,1998:94-95.
[115]Pentti Soderlin. TRIZ the simple way[J]. TRIZ journal,2002.
[116]James Kowalick. Altshuller'S greatest discover—and beyond[J]. TRIZ journal,1997.
[117]Seymon Savransky. Engineering of creativity[M], New York:CRC Press,2000.
[118]檀润华,马力辉,邓韧等.计算机辅助产品创新设计软件的推广应用.石家庄市科技计划(No.05313050A),2005-2006.
[119]陈光,王伯鲁,赵立力.创新思维与方法——TRIZ的理论与应用[M].北京:科学出版社,2012.
[120]赵敏,史晓凌,段海波TRIZ入门及实践[M].北京:科学出版社,2009.
[121]徐克庄TRIZ的研究应用概况[J].杭州化f:,2008,38(2):1-14.
[122]刘庆山.农业科技创新及其主要对策[J].天津农学院学报,1998,5.
[123]黄国勤,刘宜柏.论我国农业科技创新[J].江西农业大学学报,1999,21.
[124]袁春新,顾国华,金丽华等.论农业科技创新[J].南京农专学报,2001,17.
[125]郭鹏,余小方,傅朝荣.我国农业科技创新及其发展对策[J].技术与创新管理,2006.
[126]宋桥生,娄光新,姚传武,李宝喜.对农业科技创新本质特征的分析与认识[J].农村经济与科技,2011.
[127]李丽莎.农业科技创新体系综述[J].安徽农业科学,2012,40(9):5722-5724.
[128]Bruce D., DeRuntz. The Importance of Training Content for Six Sigma Professionals: Perceptions of Black Belt Trainers. PhD Dissertation. Southern Illinois University,2005.
[129]Mark Goldstein. Six Sigma Program Success Factors. Six Sigma Forum Magazine.2001 (9): 36-45.
[130]Y. H. Kwak, F. T. Anbari, Benefits. Obstacles, and Future of Six Sigma Approach. Technovation. 2006 (26):708-715.
[131]Jung—Lang Cheng. DMAIC Integration Necessary for Success. Six Sigma Forum Magazine. 2006 (8):22-25.
[132]Lee K. Critical Success Factors of Six Sigma Implementation and the Impact on Operations Performance. PhD Dissertation, Cleveland State University,2002.
[133]James E. Brady, Theodore T. Allen. Six Sigma Literature:A Review and Agenda for Future Research. Quality and Reliability Engineering International.2006,22(3):335-367.
[134]George Byrne, Bob Norris. Drive Baldrige level Performance. Six Sigma Forum Magazine.2003 (5):13-21.
[135]惠荣奎,罗赫荣,戴健华TRIZ创新思维在农业科技创新中推行的思考[J].农业科技管理,2013,32(1):54-56.
[136]孙庆,颜晓慧.区域推广应用TRIZ效果评价指标体系研究[J].哈尔滨理工大学学报,2010,15(5):99-103.
[137]吴永志,夏冰,张间一.在高新技术企业中推广技术创新方法(TRIZ)模式初步研究与启示[J].黑河学院学报,2011,2(1):13-15.
[138]王珊珊,王宏起.黑龙江省推广应用TRIZ创新方法的战略研究[J].技术经济,2010,29(8):17-23.
[139]林艳,陈伟.黑龙江省TRIZ推广模式及实施策略研究[J].中国科技论坛,2010,(7):94-100.
[140]王伯鲁.萃思学(TRIZ)及其推广应用问题探析[J].科技进步与对策,2009,26(18):132-135.
[141]Larson, A. Partner networks leveraging external ties to improve entrepreneurial performance[J]. Journal of Business Venturing,1991(6):173-188.
[142]Cooper, R G & Kleinschmidt. J. New product performance:keys to success, profitability & cycle time reduction [J]. Journal of Marketing Management,1995,24:315-337.
[143]Calantone, R J, Schmidt, J B, Song X M. Controllable Factors of New Product Success:A Cross-Nation Comparison[J]. Marketing Science,1996,15(4):341-359.
[144]Lynn, G S, Reilly R. R., Akgun A. E.. Knowledge Management in New Product Teams:Practices and Outcomes[J]. IEEE Transactions on Engineering Management,2000,47(2):221-231.
[145]Guido C, Luca I, Giuseppe Z. The Evaluation of Innovation Capabilities in Small Software Finns: A Methodological Approach[J]. Small Business Economics,2003, (21):343-354.
[146]Mcgregor. Are Patents the Measure of Innovation?[J]. Business Week Online,2007, (5):28.
[147]Lovett. Failure to Measure Innovation Damages Value, says ESRC[J]. Design Week,2007,22(24): 7.
[148]楼洪兴,冯水英等.基于课题组的农业科研绩效评价体系的构建与实证分析[J].科研管理,2007,28:95-102.
[149]郭春丽.农业技术创新的绩效评价及应用研究[J].西安电子科技大学学报(社会科学版),2009,19(6):74-78.
[150]王重鸣.心理学研究方法[M].北京:人民教育出版社,1990.
[151]李怀祖.管理研究方法论[M].西安:西安交通大学出版社,2004,255.
[152]Straub, D. W. Validating instruments in MIS research[J]. MIS Quarterly,1989,13(2):147-176.
[153]Yin, R. K. Case Study Research, Design and Methods[C]. California:Sage Publications, Newbury Park,1994.
[154]孙海法,刘运国,方琳.案例研究的方法论[J].科研管理,2004(2):107-112.
[155]李建明.案例分析方法在管理学研究中的应用[J].上海经济研究,2004(2):76-79.
[156]Eisenhardt K. M., Martin J. A. Dynamic Capacities:What are they[J]. Strategic Management Journal,2000,21:1105-1121.
[157]陆小成,罗新星.基于技术创新过程的产业集群知识发酵模型研究[J].科学管理研究,2007,25(2):61-64.
[158](德)迈克尔A.奥尔洛夫著,陈劲,朱凌,郑尧丽译.用TRIZ进行创造性思考实用指南[M].北京:科学出版社,2010,59-60.
[159]陈光,王伯鲁,赵立力.创新思维与方法—-TRIZ的理论与应用[M].北京:科学出版社,2012.
[160]王惠文.偏最小二乘回归的线性与非线性方法[M].北京:国防工业出版社,2006.
[161]侯杰泰,温忠麟,成子娟.结构方程模型及其应用[M].北京:教育科学出版社,2004:15.
[162]李怀祖.管理研究方法论M].西安:西安交通大学出版社,2004:72-76.
[163]Koufteros, X. A. Testing a model of pull production:A paradigm for manufacturing research using structural equation modeling[J]. Journal of Operation Management.1999(17):467-488.
[164]Cooper, R. G. & Kleinschmidt E. J.. New product performance:keys to success, profitability & cycle time reduction[J]. Journal of Marketing Management,1995,24:315-337.
[165]Larson, A.. Partner networks leveraging external ties to improve entrepreneurial performance[J]. Journal of Business Venturing,1991(6):173-188.
[166]Calantone, R. J., Schmidt, J. B., Song X.M.. Controllable Factors of New Product Success:A Cross-Nation Comparison[J]. Marketing Science,1996,15(4):341-359.
[167]Balachandra R.and Friar J. H.. Factors for Success in R&D projects and New Product Innovation: A Context Framework[J]. IEEE Transaction On Engineering Management,1997,44(3):276-287.
[168]Lynn, G. S., Reilly R. R., Akgun A. E.. Knowledge Management in New Product Teams:Practices and Outcomes[J]. IEEE Transactions on Engineering Management,2000,47(2):221-231.
[169]郭春丽.农业技术创新的绩效评价及应用研究[J].西安电子科技大学学报(社会科学版),2009,19(6):74-78.
[170]林艳,王宏起.企业应用TRIZ创新效果评价指标体系研究[J].现代管理科学,2009,5.
[171]孙庆,颜晓慧.区域推广应用TRIZ效果评价指标体系研究[J].哈尔滨理工大学学报,2010,15(5):99-103.
[172]Belderbos R, Carree M, & Lokshin B. Cooperative R&D and firm performance[J]. Research Policy,2004(33):1477-1492.
[173]Bourne M, Mills J, Wilcox M, et al. Designing, implementing and updating performance measurement systems[J]. International Journal of Operations and Production Management,2000,20(7): 754-771.
[174]Ammar S, Wright R. Applying fuzzy-set theory to performance evaluation[J]. Socio-Economic Planning Sciences,2000,34(12):285-302.
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