Tatsuya Sakagami, Masaki Himuro, Kengo Iokibe and Yoshitaka Toyota, "Multiple Regression Modeling of EMI from Cryptographic Hardware for Estimating Resistance to Deep Learning Side-Channel Attack," 2025 Asia-Pacific International Symposium and Exhibition on Electromagnetic Compatibility (APEMC), pp. 132-135, Taipei, Taiwan, May 19–21, 2025.DOI
Masaki Himuro, Rei Mitsuyasu, Kengo Iokibe and Yoshitaka Toyota, "Simulation-Based Approach to Target EMI Attenuation for Meeting Required Power Side-Channel Attack Success Rate," 2025 IEEE International Symposium on Electromagnetic Compatibility, Signal & Power Integrity (EMC+SIPI), Raleigh, North Carolina, US, Aug. 18–22, 2025.
2024
Masaki Himuro, Kengo Iokibe, and Yoshitaka Toyota, “Triangular Pulse-based IC Switching Current Model Using Multiple Regression Analysis for Fast Side-channel Attack Prediction,” IEEE Trans. Electoromagn. Compat., Vol. 66, No. 1, pp. 49-60, Jan. 2024.DOI
Kengo Iokibe, Masaki Himuro, and Yoshitaka Toyota, "Challenges in Feasible Simulation of Side-Channel Attack Resistance for Cryptographic Hardware," 2024 EMC Japan/Asia-Pacific International Symposium on Electromagnetic Compatibility (EMC Japan/APEMC Okinawa), pp. 49-52, Okinawa, Japan, May 20-24, 2024.DOI
Tatsuya Sakagami, Masaki Himuro, Kengo Iokibe, and Yoshitaka Toyota, "Measured Traces Reduction Using SNR of Leakage for Tolerance Evaluation to Deep Learning-based Side-channel Attack," 2024 EMC Japan/Asia-Pacific International Symposium on Electromagnetic Compatibility (EMC Japan/APEMC Okinawa), pp. 58-61, Okinawa, Japan, May 20-24, 2024.DOI
Masaki Himuro, Naota Kawahara, Yoshiyuki Amanuma, Kengo Iokibe, Yasuyuki Nogami, and Yoshitaka Toyota, "Tolerance Evaluation Against Deep Learning Side-channel Attack on AES in Automotive Microcontroller with Uncertain Leakage Model," 2024 EMC Japan/Asia-Pacific International Symposium on Electromagnetic Compatibility (EMC Japan/APEMC Okinawa), pp. 528-531, Okinawa, Japan, May 20-24, 2024.DOI
Masaki Himuro, Kengo Iokibe, and Yoshitaka Toyota, "Derivation of Target Transfer Function Against Frequency-Domain Side-Channel Analysis Using Simulated IC Switching Current," 2024 International Symposium on Electromagnetic Compatibility (EMC Europe), pp. 51-56, Bruges, Belgium, Sep. 2-5, 2024.
Kengo Iokibe, Kohei Shimoda, Masaki Himuro, and Yoshitaka Toyota, "Identification of Dominant Side-Channel Information Leaking Mechanism Induced by Split Ground Planes," IEICE Transactions on Communications, vol. E107-B, no. 12, pp. -, Dec. 2024. (Early Access)DOI
日室雅貴,五百旗頭健吾,豊田啓孝,"暗号ICのサイドチャネル情報漏洩抑制を目的とした伝達関数の目標低減量の算出 ~スイッチング電流源のシミュレーション結果に基づいた検討~," 電子情報通信学会環境電磁工学研究会, EMCJ2024-19, pp. 65-70, 北海道小樽市, 2024.6.28.
Masaki Himuro, Rei Mitsuyasu, Kengo Iokibe and Yoshitaka Toyota, ''SNR Identification Using Fewer Plaintexts Selected to Save Evaluation Time of Side-Channel Attack Success Rate,'' 電子情報通信学会環境電磁工学(EMCJ)研究会, EMCJ2024-72, pp. 8-9, Bangkok, Thailand, 2024.11.15.
Tatsuya Sakagami, Masaki Himuro, Kengo Iokibe and Yoshitaka Toyota, Song-Tsuen Pong Best Student Paper Award, "Multiple Regression Modeling of EMI from Cryptographic Hardware for Estimating Resistance to Deep Learning Side-Channel Attack," 2025 Asia-Pacific International Symposium on Electromagnetic Compatibility, 2025.5.22.
Masaki Himuro, Rei Mitsuyasu, Kengo Iokibe and Yoshitaka Toyota, Student Award, "SNR Identification Using Fewer Plaintexts Selected to Save Evaluation Time of Side-Channel Attack Success Rate," IEEE EMC Society Japan Joint / Sendai Chapters, 2025.3.27.