情报杂志
情報雜誌
정보잡지
JOURNAL OF INFORMATION
2013年
8期
125-131
,共7页
创新型城市%区域科研合作%网络%空间分布%地理信息系统
創新型城市%區域科研閤作%網絡%空間分佈%地理信息繫統
창신형성시%구역과연합작%망락%공간분포%지리신식계통
innovative city%regional science collaboration%network%spatial distribution%GIS
以湖北省论文合著数据为例,运用地理信息系统技术,从合作强度、网络密度、距离偏好、极化效应等方面研究了以创新型城市(武汉)为主导的湖北省区域科研合作网络。结果表明:湖北省内部存在大型的科研合作网络,网络空间分布差异明显。各地区合作强度受地理位置和科技资源丰富程度的影响。网络整体呈现左偏的“V”字型,武汉处于网络的极点位置,与宜昌、荆州、襄阳等地构成一极多核的网络格局。各地区合作对象的缓冲距离不等,武汉及周边地区是缓冲区叠置最多的区域。网络极化效应显著,武汉是保证网络整体稳定性的根基。最后根据研究结果从四个方面提出了完善区域科研合作网络的建议。
以湖北省論文閤著數據為例,運用地理信息繫統技術,從閤作彊度、網絡密度、距離偏好、極化效應等方麵研究瞭以創新型城市(武漢)為主導的湖北省區域科研閤作網絡。結果錶明:湖北省內部存在大型的科研閤作網絡,網絡空間分佈差異明顯。各地區閤作彊度受地理位置和科技資源豐富程度的影響。網絡整體呈現左偏的“V”字型,武漢處于網絡的極點位置,與宜昌、荊州、襄暘等地構成一極多覈的網絡格跼。各地區閤作對象的緩遲距離不等,武漢及週邊地區是緩遲區疊置最多的區域。網絡極化效應顯著,武漢是保證網絡整體穩定性的根基。最後根據研究結果從四箇方麵提齣瞭完善區域科研閤作網絡的建議。
이호북성논문합저수거위례,운용지리신식계통기술,종합작강도、망락밀도、거리편호、겁화효응등방면연구료이창신형성시(무한)위주도적호북성구역과연합작망락。결과표명:호북성내부존재대형적과연합작망락,망락공간분포차이명현。각지구합작강도수지리위치화과기자원봉부정도적영향。망락정체정현좌편적“V”자형,무한처우망락적겁점위치,여의창、형주、양양등지구성일겁다핵적망락격국。각지구합작대상적완충거리불등,무한급주변지구시완충구첩치최다적구역。망락겁화효응현저,무한시보증망락정체은정성적근기。최후근거연구결과종사개방면제출료완선구역과연합작망락적건의。
Taking the data of co-authored papers from Hubei province for example, the paper studies the regional science collaboration network dominated by innovative city ( such as Wuhan) from cooperation strength, network density, distance preferences, and polarization effect in Hubei province using geographic information system ( GIS) technology. Results show that:a large science collaboration network exists in Hubei province, and the network spatial distribution difference is significant. The cooperation strength between regions is impact-ed by geographical location and richness of technological resources. The network is like a left side“V” shape as a whole, in which Wuhan is the pole, and it constitutes a “one pole and multi-cores” structure with the regions of Yichang, Jingzhou and Xiangyang act as those multi-cores. The buffer distance of cooperation partners differs from region to region, Wuhan and the surrounding areas are superimposed most by buffers. The network polarization effect is very obvious, and Wuhan is the foundation to guarantee network stability. Based on the research results, corresponding recommendations are proposed to improve regional science collaboration network from four aspects.
