山口大学工学部研究報告第62巻第2号目次


  1. バナー広告のトランジションがクリック率へ及ぼす影響 
    −オーバーラップとワイプの効果について−
    岡田美樹、木下武志
    要旨】【本文(PDF)

  2. 雨水地中貯蓄による水力発電増強の提案
    羽田野袈裟義、永野博之、川崎秀明、細川土佐男、中島俊之
    要旨】【本文(PDF)


要旨一覧

バナー広告のトランジションがクリック率へ及ぼす影響 
−オーバーラップとワイプの効果について−

岡田美樹、木下武志
要旨
Banner advertisement on Web site is general advertisement contents. As a study about the banner advertisement,it has been considered about area or motion of contents. However, it is not reported the transition which is the change of the image which is used a lot for these contents. Transition has being used often for these contents. Therefore, we conducted a psychological experiment on the effects of variation and speed about wipe and over-lap that has being used often as transition to the click late. As a result, when the time of overlap became short, or when the move width of a picture was large, the tendency for a click rate in case contents move to the right from the left to become high was shown.
本文(PDF)
雨水地中貯蓄による水力発電増強の提案
羽田野袈裟義、永野博之、川崎秀明、細川土佐男、中島俊之
要旨
In this paper, a technique to enhance the hydropower potential by increasing the base flow of the rivers along which hydro power station(s) is/are constructed is proposed. First, the real situation at present time of the energy gain by hydropower stations is examined using the data of annual report and the possibility or actuality of enhancement of hydropower is discussed. It has been shown that the total capacity of the existing hydro power facilities in Japan is about 47 million kW while the actually generated is only about 10 million kW in average, which implies the necessity to increase the base flow of the river. Then, the technique to increase the base flow utilizing the seepage of rain water into the soil before flowing into the rivers is discussed. The key point of this technique is the upward seepage in unsaturated soil without losing the permeability. The preferable sites are discussed from the viewpoint of the stability of the ground. Finally, a rough estimate is given for the increase of the base river flow.
本文(PDF)


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libe@donald.lib-e.yamaguchi-u.ac.jp