@article{oai:miyazaki-u.repo.nii.ac.jp:00002858,
 author = {池上, 達也 and 横田, 光広 and Yokota, Mitsuhiro and Ikegami, Tatsuya},
 journal = {宮崎大学工学部紀要, Memoirs of Faculty of Engineering, University of Miyazaki},
 month = {Jul},
 note = {The number of customers who use cellular phones indoors is rapidly increasing. In this case, mobile terminals used in a stationary condition receive a level variation different from that in a moving condition. Then, it was proposed that a physical channel model for a static terminal used in indoors. The proposed model can consider physical parameters such as moving speed in order to evaluate various situations preciously, and an experimental verificatio is done. The model is two dimension, and assumes that a moving person is represented as a disk with diameter of ΔW and its moving person absorbs a part of the power of the paths across his width of ΔW.
In this report, the scattering by lossy dielectric cylinders is examined numerically. The lossy dielectric cylinder is considered as the human body and propagation loss is calculated by Method of Moments. At first the scattering by two cylinders is examined. In this case, we propose two models for the scattering by two cylinders arranged on axis. One is that two cylinders arranged on vertical axis are approximated by equivalent one cylinder. Another is that scattered field are approximated by superposition of the scattered field by each independent cylinder. Next, the scattering by several lossy dielectric cylinders which exist in random position with concrete walls is considered as the approximated modeling for real environment as an underground center.},
 pages = {87--91},
 title = {屋内通信環境における人体の電磁波遮蔽特性の数値的検討},
 volume = {40},
 year = {2011},
 yomi = {イケガミ, タツヤ and ヨコタ, ミツヒロ}
}