@techreport{oai:ipsj.ixsq.nii.ac.jp:00183670,
 author = {宮本, 敬信 and ズオン, クアン タン and 東野, 武史 and 岡田, 実 and 築山, 大輔 and Hironobu, Miyamoto and Quang-Thang, Duong and Takeshi, Higashino and Minoru, Okada and Daisuke, Tsukiyama},
 issue = {12},
 month = {Oct},
 note = {送行中の移動体端末へ向けてワイヤレスに給電するために，送電側のコイルの大規模化が必要となると考えられる．筆者らは，給電エリアを容易に拡張し，広域に給電可能領域を展開する平行二線路システムを提案しているが，線路の延長に伴い抵抗成分が増加して伝送効率が低下するといった問題がある．そこで，本稿では平行線路を並列化した四線式平行線路を導入し，電磁界シミュレーションを用いて特性評価を行った．四線式平行線路は二線路と比較して伝送効率の最大値は増加するが，横ずれに対する耐性は変化しなかった．また，複数の受電コイルで受電する場合の伝送効率についても評価した．, It is required to enlarge the transmit coil in order to deliver wireless power to moving object. The parallel line feeder system has been proposed for power transmission over a wide area. However, if the line is extended, there is a problem that the resistive component increases and the transmission efficiency decreases. In an attempt to deal with this problem, we introduce the four parallel line feeder and evaluate its performances. By electromagnetic field simulation it is shown that, the transmission efficiency increases and the effective range of lateral misalignment do not change in the four parallel line. In addition, transmission efficiency using multiple power receiving coils was evaluated.},
 title = {平行線路を用いた大規模ワイヤレス給電の伝送効率の評価},
 year = {2017}
}