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[일반논문] 상사에 대한 신뢰에 영향을 미치는 상사의 행동에 관한 탐색적 연구 : 정성적 접근
문형구(Moon Hyoung Koo),장용선(Jang Yong-Sun) 고려대학교 아세아문제연구소 2005 亞細亞硏究 Vol.48 No.3
One of the important issues in trust studies is that trust, a type of social capital, is effected greatly by the cultural situation in each country. Most studies on trust conducted in Korea, however, have been based on Western theories that are culturally very different. Therefore, there have been results from such studies that have been unsuitable to be applied or used to evaluate situations in Korea, and there is also the possibility that issues important to the Korean organization have been omitted. This study proceeds with awareness of such problems and, through qualitative and naturalistic inquiry, aims to find a way to approach and solve them. Among previously published trust studies, there is a relative lack of studies on how leaders can win the trust of their subordinates in the Korean organization. This study focuses on describing and understanding the actions of a leader that affect the formation of trust between a superior and a subordinate, as perceived by the subordinate. We have strived to identify and classify the various dimensions of superior behavior that bring about trust from the subordinates. We have found several dimensions of behaviors which are related with trust in superiors: Integrity, responsibility, ability to perform, provision of autonomy, ability to communicate, concerns for subordinates, consistencies in dealing with people, respect for subordinates, and intimacy. Directions for future research are suggested.
허승오,한경화,전상호,장용선,강신우,정선옥,김학진,이경환,Hur, Seung-Oh,Han, Kyeong-Hwa,Jeon, Sang-Ho,Jang, Yong-Sun,Kang, Sin-Woo,Chung, Sun-Ok,Kim, Hak-Jin,Lee, Kyeong-Hwan Institute of Agricultural Science 2011 Korean Journal of Agricultural Science Vol.38 No.4
Protected crop production has been popular in Korea as well as in other countries. Intensive and continuous monitoring and control of the environment, which is labor- and time-consuming, is critical for stable crop productivity and profitability, otherwise damage could be happened due to unfavorable ambient and soil conditions. In the study, potential utilization of smartphone and remote access application in protected crop production environment was investigated. Tested available remote access applications provided functions of mouse click (left and right buttons), zooming in and out, and screen size and color resolution control. Wi-Fi data communication speeds were affected by signal intensity and user place. Data speeds at high (> -55 dBm), medium (-70~-56 dBm), and low (< -71 dBm) signal intensity levels were statistically different (${\alpha}=0.05$). Means of data communication speed were 6.642, 4.923, and 2.906 Mbps at hot spot, home, and office, respectively, and the differences were significant at a 0.05 level. Smart phone and remote access application were applied successfully to remote monitoring (inside temperature and humidity, and outside precipitation, temperature, and humidity) and control (window and light on/off) of green house environment. Response times for monitoring and control were less than 1 s at all places for high signal intensity (> -55 dBm), but they were increased to 1 ~ 10 s at home and office and to 10 ~ 30 s at hot spot for low signal intensity (< -71 dBm) for Wi-Fi. Results of the study would provide useful information for farmers to apply these techniques for their crop production.
허승오(Seung-Oh Hur),한경화(Kyeong-Hwa Han),전상호(Sang-Ho Jeon),장용선(Yong-Sun Jang),강신우(Sin-Woo Kang),정선옥(Sun-Ok Chung),김학진(Hak-Jin Kim),이경환(Kyeong-Hwan Lee) 충남대학교 농업과학연구소 2011 농업과학연구 Vol.38 No.4
Protected crop production has been popular in Korea as well as in other countries. Intensive and continuous monitoring and control of the environment, which is labor- and time-consuming, is critical for stable crop productivity and profitability, otherwise damage could be happened due to unfavorable ambient and soil conditions. In the study, potential utilization of smartphone and remote access application in protected crop production environment was investigated. Tested available remote access applications provided functions of mouse click (left and right buttons), zooming in and out, and screen size and color resolution control. Wi-Fi data communication speeds were affected by signal intensity and user place. Data speeds at high (> -55 dBm), medium (-70~-56 dBm), and low (< -71 dBm) signal intensity levels were statistically different (α=0.05). Means of data communication speed were 6.642, 4.923, and 2.906 Mbps at hot spot, home, and office, respectively, and the differences were significant at a 0.05 level. Smart phone and remote access application were applied successfully to remote monitoring (inside temperature and humidity, and outside precipitation, temperature, and humidity) and control (window and light on/off) of green house environment. Response times for monitoring and control were less than 1 s at all places for high signal intensity (> -55 dBm), but they were increased to 1 ~ 10 s at home and office and to 10 ~ 30 s at hot spot for low signal intensity (< -71 dBm) for Wi-Fi. Results of the study would provide useful information for farmers to apply these techniques for their crop production.