Marketers and retailers are increasingly interested in grabbing the opportunity to reach the consumer at the right time and place with a smart phone. Depending on Location Based Advertising (LBA) and associated sensors with the IBeacon technology, marketers can determined the consumer’s favorite products through his search history and previous purchase activities furthermore his location in-store. So, marketers and retailers pay more attention to in-store mobile LBA. In this work, the modified LBA in-store framework are constructed. This model proposed that the temporal time, type of information and the variety of receiver of mobile in-store LBA affect the Purchase intention in retail stores.

In this paper, we present a temporal association rule based on item time intervals. A temporal association rule is an association rule that holds specific time intervals. If we consider itemset in the frequently purchased period, we can discover more sign

In this paper, we present a temporal association rules based on item time intervals. A temporal association rules is an association rule that holds specific time intervals. If we consider itemset in the frequently purchased period, we can discovery more significant itemset satisfying minimum support. Because the previous study did not consider the time interval between purchased item, it could find itemset that did not satisfy the minimum support in case some item was frequently purchased in a specific period and rarely or not purchased in other period. Our approach use interval support which is counted by period with support and confidence in the association rule to discovery large itemset.

돌연변이체인 or (orange body) 계통과 KNIH (Korea National Institute of Health) 계통의 바퀴(Blattella germanica (L.) (Orthoptera: Blattellidae)를 반자연적인 조건하에서 비디오와 컴퓨터 자료처리를 통하여 연속적으로 관찰하였다. 휴식처에 머무르거나, 먹고, 물 마시며, 다른 개체들과 교신하는 행동을 관찰 할 수 있는 사각형의 관찰상자 내에서 수컷 성충을 개체별로 4~5일 동안 연속적으로 관찰하였는데, 본 논문에서는 휴식처에 머무르는 시간과 방문 빈도를 분석하였다. 개체들 간의 변이가 상대적으로 컸지만 시험개체들은 휴식처에 전체 관찰시간의 47 -61%를 평균적으로 머무르는 것으로 나타났다. 판찰 개체가 휴식처에서 머무르는 시간은 모계에 따른 유의한 차이가 있었으나, 계통 사이에는 뚜렷하게 구분이 되지 않았다. 명암기의 차이는 두 계통 모두 관찰되었는데 휴식처에 머무르는 시간은 암기보다 명기에서 더 길었다. 휴식처 주변의 국소적 활동성을 나타내주는 방문빈도는 KNIH 계통보다 or 계통에서 상대적으로 높게 나타났는데, 모계와 계통간에 유의한 차이가 있었다. 방문빈도의 명암기 차이는 or 계통에서는 유의하게 나타났지만 KNIH 계통에서는 없었다. 개체들 간의 변이가 있었으나 동일한 모계 내에서 휴식처에 머무르는 시간이나 방문빈도가 유사하게 관찰되는 개체들이 있었다.

The concepts of residence time and flushing time can be used to explain the exchange and transport of water or materials in a coastal sea. The application of these transport time scales are widespread in biological, hydrological, and geochemical studies. The water quality of the system crucially depends on the residence time and flushing time of a particle in the system. In this study, the residence and flushing time in Gamak Bay were calculated using the numerical model, EFDC, which includes a particle tracking module. The average residence time was 55 days in the inner bay, and the flushing time for Gamak Bay was about 44.8 days, according to the simulation. This means that it takes about 2 months for land and aquaculture generated particles to be transported out of Gamak Bay, which can lead to substances accumulating in the bay. These results show the relationships between the transport time scale and physical the properties of the embayment. The findings of this study will improves understanding of the water and material transport processes in Gamak Bay and will be important when assessing the potential impact of coastal development on water quality conditions.

The purpose of this study was to find the effect of the two different types of movement velocity control on timing variability and temporal structure parameters (time to peak positive acceleration, duration of positive acceleration, peak positive acceleration) of acceleration-time function. Subjects were 6 male students, and task was arm flexion movement. The results showed that when movement distance increased with movement time fixed, timing variability was constant, also time to peak positive acceleration and duration of positive acceleration were constant, but peak positive acceleration increased with statistical significance. And when movement time increased with movement distance fixed, timing variability increased, and time to peak positive acceleration, duration of positive acceleration increased, but peak positive acceleration decreased. The results suggest that each control types of movement velocity are different fundamentally, and movement velocity as a function of movement distance is achieved by the increase of peak positive acceleration with time to positive acceleration and duration of positive acceleration constant. Namely, this type of velocity is modulated by the change of force with phasing of generalized motor program, and movement velocity as a function of movement time is achieved by the extension of time to peak positive acceleration and duration of positive acceleration, Thus, this type of movement velocity is modulated by the change of phasing and relative force generalized motor program.