共查询到20条相似文献,搜索用时 125 毫秒
1.
2.
3.
本文在总结企业创新文化相关研究基础上,纳入研发强度作为控制变量,分析企业协同创新文化四要素(知识共享、组织创新氛围、协同决策、组织变革)对创新绩效的影响,并探讨团队凝聚力在协同创新文化与创新绩效两者关系中的调节作用。基于110家制造业企业的问卷调查数据,通过层次回归法进行实证研究,研究结果表明:(1)协同创新文化的知识共享、组织创新氛围、协同决策、组织变革四要素对创新绩效有显著的正向影响;(2)团队凝聚力对协同创新文化与创新绩效两者关系起到调节效应。研究结论弥补了已有相关研究的不足,对我国制造业企业创新绩效的提升具有指导和借鉴意义。 相似文献
4.
《中国制造2025》明确了制造强国路线图。经济发展新常态下,我国制造业共性技术研发在知识经济背景下需要新的理论指导实践。产业技术创新战略联盟、产业技术研究院、产业公共技术服务平台是新常态下促进我国制造业产业共性技术产学研用协同研发的有效组织模式,从宏观层面上分析了产业技术创新战略联盟、产业技术研究院、产业公共技术服务平台等制造业共性技术研发组织模式的功能架构及其运行的知识管理流程,构建了理论框架模型,以期对新常态下我国制造业的共性技术研发及产业转型升级提供借鉴。 相似文献
5.
6.
以我国航空装备制造企业为研究对象,建立了企业外部知识获取、企业内部知识共享能力、企业技术能力和企业转包绩效之间关系的理论模型,提出了11种研究假设。采用问卷调查和实地调研的方式对我国20家实施航空产品转包生产的航空制造类企业进行调查访问。运用SPSS17.0和AMOS7.0统计软件对回收的232份问卷中的各项指标变量进行因子分析和拟合度检验。结果表明,面对面交流和编码信息共享的知识获取方式对组织内部知识共享方式和企业技术能力存在显著正向影响;虚拟对话交流的知识获取方式对组织内部知识共享方式存在显著正向影响;组织内部知识共享方式与企业技术能力和企业转包绩效之间存在显性正向影响;企业技术能力与企业转包绩效之间存在显性正向影响。 相似文献
7.
航空装备制造企业作为知识密集型企业,多年来主要依赖于自主创新驱动发展。以2010-2019年的航空装备制造上市企业为样本,深入剖析数字化投入对企业创新绩效的直接和间接影响机制。研究结果表明:航空装备制造企业数字化投入与其创新绩效之间显著正相关;知识能力和风险承担水平在企业数字化投入促进企业创新绩效的作用机制中起着中介作用;政府资助正向调节数字化投入对知识吸收能力的影响,并在数字化投入对企业创新绩效的影响中起正向调节作用。研究结果对于研究调控数字化投入提高企业创新绩效的路径选择具有一定的理论和实践参考价值。 相似文献
8.
当前,我国高技术产业面临整体竞争力偏低、关键技术缺失的困境.继续扩大技术投入,提高创新绩效是实现高技术企业向创新驱动型发展的必要途径.采用1995-2016年高技术产业17个细分行业数据,考察自主研发、技术改造2种不同技术投入模式对创新绩效的影响.研究发现:自主研发投入规模增长十分迅速,对创新绩效起到显著的促进作用.技术改造增长相对缓慢,对创新绩效的提升效果不显著;同时投入自主研发与技术改造对提升企业创新绩效的作用明显大于单纯依靠自主研发投入;在各行业中,自主研发对航空航天器及设备制造业创新绩效提升作用最大,对电子及通信设备制造业作用最小;电子及通信设备制造业技术改造投入效果显著,其他行业技术改造投放效果不显著. 相似文献
9.
利用1995—2016年数据,采用层次回归模型,探讨中国中成药制造业的技术转移、内部研发能力影响其知识创新绩效、产品创新绩效的作用机制。研究发现,中国中成药制造业国外技术引进与产业的知识创新绩效存在负向相关性,与产业的产品创新绩效存在正"U"型相关关系;中国中成药制造业国内技术购买与产业的知识创新绩效存在正相关关系,与产品创新绩效存在倒"U"型相关关系;中国中成药制造业内部研发能力对国内技术购买与技术创新绩效间的相关关系具有正向调节效应,对国外技术引进与技术创新绩效间关系不具有调节作用。 相似文献
10.
11.
《中国科学院院刊(英文版)》2008,22(1):2-3
CAS should stick to the principle of rendering service to, and giving impetus for, the development of China's science enterprise by making S&T innovations, said CAS President LU Yongxiang. The CAS president made the remarks in a recent talk to communicate the gist of the winter session of the Party's Leading-member Group at CAS, which was held from 7 to 11 January in Beijing. 相似文献
12.
《中国科学院院刊(英文版)》2008,22(1)
With great care, Dr. ZHOU Zhonghe takes out a package wrapped by cotton tissue from a drawer and says: "This is the gem of our collections: the fossil of a bird that lived 125 million years ago!" Then, pointing at a tiny mound, he explains: "Look, this is the claw and that is the head. It was in the egg shell and ready to hatch ... The species fell into a family of waterside inhabitants." 相似文献
13.
Prof. SUN Changpu from the CAS Institute of Theoretical Physics coworkers from University of Basel in Switzerland have worked out a way - at least in theory - to split a beam of molecules according to their chirality. The technique involves passing the molecules through three different laser beams is similar to the famous Stern-Gerlach effect whereby a beam of atoms passing through a magnetic field is split in two according to the atoms' spin states 《中国科学院院刊(英文版)》2008,22(1):23-23
Prof. SUN Changpu from the CAS Institute of Theoretical Physics and coworkers from University of Basel in Switzerland have worked out a way --at least in theory --to split a beam of molecules according to their chirality. The technique involves passing the molecules through three different laser beams and is similar to the famous Stern-Gerlach effect, whereby a beam of atoms passing through a magnetic field is split in two according to the atoms' spin states (Phys. Rev. Lett. 99 130403). 相似文献
14.
《中国科学院院刊(英文版)》2014,(3):212-213
<正>In February 2014,the 30th Chinese Antarctic inland expedition team reported that they have successfully conducted the seeing measurement at the Antarctic Taishan Station using a Differential Image Motion Monitor(DIMM)developed by the Nanjing Institute of Astronomical Optic and Technology(NIAOT),Chinese Academy of Sciences.In astronomy,seeing is a physical parameter that describes the irregular movement and blur of the star 相似文献
15.
XIN Ling 《中国科学院院刊(英文版)》2014,(4):270-271
Amassive overhaul is coming to the Chinese Academy of Sciences (CAS). To straighten its "fragmented, inefficient research", the academy has decided to restructure its 104 institutes for better teamwork. 相似文献
16.
SONG Jianlan 《中国科学院院刊(英文版)》2014,(4)
<正>DNA demethylation in mammalian zygotes,a biochemical process through which the parental genomes let go the epigenetic marks from their"past lives"to obtain totipotency,has long fascinated biologists:how does it happen?A joint team at the CAS Shanghai Institutes for Biological Sciences tells a surprising story. 相似文献
17.
China is one of the fastest growing economies worldwide. Are science and research also in the fast lane? We talked with LUO Yuan, scientist at the Institute of Coal Chemistry in Shanxi, and Axel Mosig, Professor at Ruhr University in Bochum, who has first-hand experience working and living in China. 相似文献
18.
INS 《中国科学院院刊(英文版)》2014,(4):311-311
Neonatal heart:Largely,postnatal coronary vessels might not have expanded from preexisting embryonic vasculature as formerly believed–see what CAS biologists revealed in page 311. 相似文献
19.
《中国科学院院刊(英文版)》2014,(4):312-312
<正>Recently a group of researchers at the unit of molecular virology,Institut Pasteur of Shanghai,Chinese Academy of Sciences revealed a new mechanism to regulate the survival of influenza A virus and reported their discoveries in the Journal of Virology on July 相似文献
20.
《中国科学院院刊(英文版)》2014,(4):319-320
<正>Amber-bearing deposits are among the most important Konservat-Lagersttten providing unique windows into past ecosystems.Fushun amber has been known for over a century and was traditionally regarded as an important source of medicine as well as organic gemstones.The inclusions,however,were not the subject of any comprehensive investigation 相似文献