企业经济
企業經濟
기업경제
Enterprise Economy
2013年
6期
21~25
,共null页
低碳 物流产业集群 创新能力 结构方程模型
低碳 物流產業集群 創新能力 結構方程模型
저탄 물유산업집군 창신능력 결구방정모형
low-carbon; logistics industrial cluster; innovative ability; structural equation model
低碳背景下,物流产业集群服务的创新是其可持续发展的重要基础。在低碳视角下,从低碳技术创新、低碳知识水平创新、低碳创新支撑机制与低碳创新政策四个维度构建物流产业集群服务创新能力影响因素结构方程模型,在此基础上运用AMOS17.0,对影响物流产业集群创新能力的关键影响因素以及各因素之间的关系和强度进行检验。研究表明,低碳技术创新、低碳创新政策、低碳知识水平创新、低碳创新支撑机制与物流产业集群服务低碳创新能力之间存在显著正相关关系,低碳技术创新对低碳创新能力的影响最大,其次是低碳创新支撑机制、低碳知识水平创新、低碳创新政策,而且低碳创新政策、低碳知识水平创新、低碳创新支撑机制对低碳技术创新具有不同程度的影响。最后,提出物流产业集群服务低碳创新能力的提升对策。
低碳揹景下,物流產業集群服務的創新是其可持續髮展的重要基礎。在低碳視角下,從低碳技術創新、低碳知識水平創新、低碳創新支撐機製與低碳創新政策四箇維度構建物流產業集群服務創新能力影響因素結構方程模型,在此基礎上運用AMOS17.0,對影響物流產業集群創新能力的關鍵影響因素以及各因素之間的關繫和彊度進行檢驗。研究錶明,低碳技術創新、低碳創新政策、低碳知識水平創新、低碳創新支撐機製與物流產業集群服務低碳創新能力之間存在顯著正相關關繫,低碳技術創新對低碳創新能力的影響最大,其次是低碳創新支撐機製、低碳知識水平創新、低碳創新政策,而且低碳創新政策、低碳知識水平創新、低碳創新支撐機製對低碳技術創新具有不同程度的影響。最後,提齣物流產業集群服務低碳創新能力的提升對策。
저탄배경하,물유산업집군복무적창신시기가지속발전적중요기출。재저탄시각하,종저탄기술창신、저탄지식수평창신、저탄창신지탱궤제여저탄창신정책사개유도구건물유산업집군복무창신능력영향인소결구방정모형,재차기출상운용AMOS17.0,대영향물유산업집군창신능력적관건영향인소이급각인소지간적관계화강도진행검험。연구표명,저탄기술창신、저탄창신정책、저탄지식수평창신、저탄창신지탱궤제여물유산업집군복무저탄창신능력지간존재현저정상관관계,저탄기술창신대저탄창신능력적영향최대,기차시저탄창신지탱궤제、저탄지식수평창신、저탄창신정책,이차저탄창신정책、저탄지식수평창신、저탄창신지탱궤제대저탄기술창신구유불동정도적영향。최후,제출물유산업집군복무저탄창신능력적제승대책。
Under the background of low-carbon, the innovation is an important basis for the sustainable d evelopment of logistics industry cluster services. From the low-carbon vision, the structural equation model of influencing factors for innovative ability of lo- gistics industrial cluster is set up from low-carbon technical innovation, low-carbon knowledge innovation, supporting mech-anism of low-carbon innovation and low-carbon innovation policy. Then the key factors of influencing the innovative ability of logistics industrial cluster and relations as well as strengths among these factors are found out by applying AMOS 17.0. The research shows that low-carbon technical innovation, low-carbon knowledge innovation, supporting mechanism of low-carbon innovation and low-carbon innovation policy are positively correlated with low-carbon innovative ability. Low-carbon technical innovation has the greatest impact on low-carbon innovative ability, followed by supporting mechanism of low-carbon innova-tion, low-carbon knowledge innovation and low-carbon innovation policy with different levels of impacts. Finally, the coun- termeasures for improving logistics industry cluster services are put forward.
