"Xin Du,Jun-ichi Takada","Mirror Kirchhoff Approximation for Predicting Shadowing Effect by a PEC Convex Cylinder","ACES Conference 2021",,,,,,2021,Aug.
"Jun-ichi Takada,Kosuke Murakami,Panawit Hanpinitsak,Kentaro Saito","Experimental Evaluation of Over-the-rooftop Propagation Loss Prediction Model for the Spectrum Sharing at 26 GHz Band","ACES Conference 2021",,,,,,2021,Aug.
"山田肖子,大塲麻代,汪牧耘,會田剛史,福林良典,佐藤仁,高田潤一,島田剛","特集「国際開発学 2.0―新型コロナとニューノーマル」",,"国際開発研究","国際開発学会","vol. 30","no. 1","pp. 75-89",2021,July
"山本尚武,佐々木太一,山本温,菱川哲也,齋藤健太郎,高田潤一,前山利幸","920MHz帯フラットコンクリート製天井近傍における伝搬損失推定式の一検討","電子情報通信学会アンテナ・伝播研究会","電子情報通信学会技術研究報告",,"Vol. 121","No. 126","pp. 49-54",2021,July
"内藤智之,綿貫竜史,竹内知成,狩野剛,高田潤一,井上直美","デジタル技術は経済開発をリープフロッグさせうるのか？ - 国際開発のデジタル・トランスフォーメーションに向けての希望と課題 -","国際開発学会第22回春季大会","国際開発学会第22回春季大会論文集",,,,"pp. 132",2021,June
"Yong Hong Tan,Kentaro Saito,Jun-ichi Takada,Md Rafiqul Islam,Abdul Rahman Tharek","Rain Attenuation Prediction Based on Theoretical Method with Realistic Drop Shape for Millimeter-Wave Radio in Tropical Region",,"IEICE Communications Express",,"Vol. 10","No. 5","pp. 260-265",2021,May
"Kentaro Saito,CheChia Kang,Jun-ichi Takada","Angular Characteristics Prediction of Radio Propagation Channel from Point Cloud Data by Aperture Field Integration Method","3rd Post COST Inclusive Radio Communication Networks for 5G and Beyond (Post-IRACON) Meeting",,,,,,2021,May
"Yen-Ru Chen,Jenq-Shiou Leu,Sheng-An Huang,Jui-Tang Wang,Jun-ichi Takada","Predicting Default Risk on Peer-to-Peer Lending Imbalanced Datasets",,"IEEE Access",,"Vol. 9",,"pp. 73103-73109",2021,May
"康哲嘉,齋藤健太郎,高田潤一","物理光学近似に基づくミリ波帯伝搬チャネル予測の計算量削減手法","電子情報通信学会移動通信ワークショップ","電子情報通信学会技術研究報告",,"Vol. 120","No. 406","pp. 55-58",2021,Mar.
"Nopphon Keerativoranan,Kentaro Saito,Jun-ichi Takada","Investigation of Time-Variant Channel Impulse Response Interpolation Using Extended Kalman Filter","IEICE General Conference",,,,,,2021,Mar.
"齋藤健太郎,康哲嘉,Weihan Huang,呂卓揚,高田潤一","電波伝搬シミュレーションのための建材物性パラメータモデリング","2021年電子情報通信学会総合大会",,,,,,2021,Mar.
"原田博司,松村武,児島史秀,原井洋明,寳迫巌,高田潤一","サイバーフィジカル融合による電波模擬システム技術の高度化に向けた研究開発","2021年電子情報通信学会総合大会",,,,,,2021,Mar.
"高田潤一","サイバーフィジカル融合による電波模擬システム技術のための電波伝搬モデル","2021年電子情報通信学会総合大会",,,,,,2021,Mar.
"岡村航,海部太郎,吉敷由起子,齋藤健太郎,高田潤一","屋内環境における点群データを用いたレイトレース解析に適用可能な3次元平面モデル構築手法の提案および電波伝搬評価","2021年電子情報通信学会総合大会",,,,,,2021,Mar.
"Nopphon Keerativoranan,Panawit Hanpinitsak,Kentaro Saito,Jun-ichi Takada","Circular Mesh based Physical Optics for Scattered Field Prediction on Point Cloud Surface",,"IEEE Antennas and Wireless Propagation Letters",,"Vol. 20","No. 3","pp. 391-395",2021,Mar.
"三宅祐人,金ミンソク,高田潤一","ミリ波を用いた伝搬環境イメージング法の精度評価","2021年電子情報通信学会総合大会",,,,,,2021,Mar.
"Kosuke Murakami,Panawit Hanpinitsak,Jun-ichi Takada,Kentaro Saito","Characterization of Dominant Propagation Mechanism for Fixed Wireless Access Link in the Sub-Urban Area at 26GHz Band","2nd Post COST Inclusive Radio Communication Networks for 5G and Beyond (Post-IRACON) Meeting",,,,,,2021,Feb.
"Panawit Hanpinitsak,Kosuke Murakami,Kentaro Saito,Jun-ichi Takada","Outdoor Localization utilizing Angle-of-Arrival at 25 GHz Band for Spectrum Sharing","2nd Post COST Inclusive Radio Communication Networks for 5G and Beyond (Post-IRACON) Meeting",,,,,,2021,Feb.
"Yuto Miyake,Minseok Kim,Takeshi Tasaki,Satoshi Yamakawa,Jun-ichi Takada","Environment Mapping Technique using Millimeter-Wave Radio Systems","2020 International Symposium on Antennas and Propagation (ISAP 2020)",,,,,,2021,Feb.
"Panawit Hanpinitsak,Kosuke Murakami,Kentaro Saito,Jun-ichi Takada","Angle-of-Arrival-based Outdoor Localization for Spectrum Sharing at 25 GHz Band","2020 International Symposium on Antennas and Propagation (ISAP 2020)",,,,,,2021,Feb.
"Xin Du,Kentaro Saito,Jun-ichi Takada,Panawit Hanpinitsak","A Novel Mirror Kirchhoff Approximation Method for Predicting the Shadowing Effect by A Metal Cuboid","2nd Post COST Inclusive Radio Communication Networks for 5G and Beyond (Post-IRACON) Meeting",,,,,,2021,Feb.
"Guojin Zhang,Jesper Odum Nielsen,Xuesong Cai,Kentaro Saito,Panawit Hanpinitsak,Jun-ichi Takada,Gert Frolund Pedersen,Wei Fan","Modeling Multi-Frequency Characteristics for Classroom and Hall Scenarios at 2-4, 9-11 and 27-29 GHz Bands",,"IEEE Access",,"Vol. 9",,"pp. 14549-14563",2021,Jan.