Engineers as business leaders:A need to investigate formative collegiate experiences of highly succe

来源 :工程管理前沿(英文版) | 被引量 : 0次 | 上传用户:weicun_weicun
下载到本地 , 更方便阅读
声明 : 本文档内容版权归属内容提供方 , 如果您对本文有版权争议 , 可与客服联系进行内容授权或下架
论文部分内容阅读
1 IntroductionrnThe engineering and construction (E&C) industry is human resource-intensive.Most E&C tasks are performed,handled,or supervised by humans.Besides,the size and complexity of today\'s E&C projects require the involve-ment of many professionals,often from different organiza-tions,working together (Ballesteros-Pérez et al.,2019).Further,the E&C industry is not only human resource-intensive but also leader-driven.The most vital resource of an E&C firm is its executive leadership (Perrenoud and Sullivan,2017).Of course,leadership is multifaceted and must be defined and bounded within the context of the topic of interest (Schell et al.,2018)-highly successful executive-level engineers leading project-based E&C organizations.
其他文献
在中国共产党建党百年、纺织之光科技教育基金会(以下简称“纺织之光基金会”)成立25周年之际,安莉芳集团创始人郑敏泰先生向纺织之光基金会捐赠900万元,这是他继2010年和2014年 2 次向纺织之光基金会捐赠人民币共计1100万元并设立“郑敏泰中国针织(内衣)基金”后第 3 次向纺织之光基金会捐资,累计捐赠2000万元,并将专项基金更名为“纺织之光科技教育基金会郑敏泰专项基金”,成为行业佳话.
期刊
The purpose of this paper is to delineate the research challenges of human-machine collaboration in risky decision-making.Technological advances in machine intelligence have enabled a growing number of applications in human-machine collaborative decision-
E-commerce,new retail,and other changes have highlighted the requirement of high efficiency and accuracy in the logistics service.As an important section in logistics and supply chain management,warehouses need to respond positively to the increasing requ
文章探讨了莱赛尔/腈纶70/30紧密赛络纺混纺纱的纺纱工艺.根据莱赛尔纤维和腈纶的特点,优化各工序纺纱工艺,解决了纤维在加工过程中静电高、损伤大、抱合力小、可纺性差等难题,最终成功纺制了莱赛尔/腈纶70/30紧密赛络纺混纺纱.测试结果表明:选用合理的工艺配置和专件器材将莱赛尔纤维与腈纶进行混纺,纱线指标良好,可满足市场对差异化再生纤维素纤维纱线的需求.
Synchronous collaboration sessions within the context of4D BIM position construction professionals into a complex socio-technical system.This system includes hardware,software,people,and broader community aspects.This article strictly focuses on the ontol
文章通过对衬衫面料的演进路径、现状和发展方向进行解析,指出衬衫用面料性能优化和表征多元化是未来很长时间内衬衫面料发展的基本方向,包括了纤维原料的多元化、衬衫面料的功能化、衬衫面料多重功能的复合化、衬衫面料特殊风格化、衬衫面料趋于生态化、衬衫面料趋于休闲化等.
This study presents a systematic review of the literature on service-oriented manufacturing (SOM).Specifically,we focus on the impact of SOM on firm operating decisions,which distinguishes this work from previous reviews.This study proposes a classificati
The rapid development of economics requires highly efficient and environment-friendly urban transpor-tation systems.Such requirement presents challenges in sustainable urban transportation.The analysis and under-standing of transportation-related behavior
为有效提升生物基纤维素非织造材料的抗菌性能以拓展其应用范围,以橄榄醇与反式-薄荷基-2,8-二烯-1-醇为原料通过一步法合成大麻二酚并作为抗菌剂,进而完成纤维素非织造布的抗菌改性,并对抗菌剂及非织造产品的结构和性能进行表征分析.FTIR和1H-NMR及XPS测试结果表明,基于傅克烷基化反应成功合成大麻二酚,并通过氢键等作用引入至纤维素非织造布表面.SEM、TG-DTG及拉伸测试结果表明,改性过程不破坏纤维素非织造布的固有结构,且大麻二酚的引入可同时促进热稳定性和力学性能的提升.通过菌落计数法测定抗菌性能,
Grand infrastructure projects,such as dam,power plant,petroleum,and gas industry projects,have several contractors working on them in several indepen-dent sub-projects.The concern of reducing the duration of these projects is one of the important issues a