出版

研究成果発表（プレスリリース）

微弱信号が突然変化するタイミングを特定する問題の性能限界

原論文
プレスリリース「微弱信号が突然変化するタイミングを特定する問題において量子的な限界性能を求めることに成功」玉川大学 2023年11月24日

量子プロセス識別問題の最大正解率の上界・下界

原論文
プレスリリース「世界初！対象物の状態を能動的に識別する際の量子物理限界を調べるための汎用的かつ効率的な手法を開発～高性能量子レーダーの解析に応用も可能～」玉川大学 2021年5月20日

量子状態識別問題の最適逐次測定

原論文
プレスリリース「従来の量子受信機ではレーザー光の最適識別が不可能な場合があることを解明」玉川大学 2018年2月25日

走査型電子顕微鏡画像の画像処理による高画質化

プレスリリース「走査型電子顕微鏡画像のSN比と画像の鮮鋭度を1.4倍に向上する画像処理技術を開発」日立製作所 2009年12月7日
本プレスリリースに基づく新聞掲載「走査型電子顕微鏡 分解能1.4倍に向上 ノイズ減らし画質改善 日立 画像処理ソフト開発」日刊工業新聞2009年12月4日朝刊23面

書籍

ストリング図で学ぶ圏論の基礎

「圏論」ページをご参照ください。

図式と操作的確率論による量子論

「図式」ページをご参照ください。

学術論文

参照： Google Scholar / arXiv

[50] K. Nakahira,

"Improving quantum channel discrimination with resourceful states",
Phys. Rev. A 112, 032414 (2025).

Summary: 日本語 / English

[49] K. Nakahira,

"Diagrammatic representation of unsteerability and Bell locality",
Tamagawa University Quantum ICT Research Institute Bulletin 14, 1 (2024).

[48] K. Nakahira,

"Characterization of vector spaces by isomorphisms",
arXiv:2404.15865.

[47] K. Nakahira,

"A characterization of von Neumann entropy using functors",
Tamagawa University Quantum ICT Research Institute Bulletin 13, 1 (2023).

[46] K. Nakahira,

"Identification of quantum change points for Hamiltonians",
Phys. Rev. Lett. 131, 210804 (2023).

[45] K. Nakahira,

"Diagrammatic category theory",
arXiv:2307.08891.

[44] K. Nakahira,

"Matrix differentiation with diagrammatic notation",
Tamagawa University Quantum ICT Research Institute Bulletin 12, 1 (2022).

[43] 王天澄, 小山真司, 中平健治, 臼田毅,

"位相雑音環境下における量子受信機の誤り率特性とそのロバスト 設計の規準",
電子情報通信学会論文誌 (B) J105-B, 39 (2022).

[42] K. Nakahira,

"Efficient implementation of quantum orthogonal wavelet transforms and their undecimated versions",
Tamagawa University Quantum ICT Research Institute Bulletin 11, 7 (2021).

[41] K. Nakahira,

"Quantum process discrimination with restricted strategies",
Phys. Rev. A 104, 062609 (2021). [arXiv:2104.09038]

[40] K. Nakahira and K. Kato,

"Generalized quantum process discrimination problems",
Phys. Rev. A 103, 062606 (2021). [arXiv:2104.09759]

[39] K. Nakahira and K. Kato,

"Simple upper and lower bounds on the ultimate success probability for discriminating arbitrary finite-dimensional quantum processes",
Phys. Rev. Lett. 126, 200502 (2021). [arxiv:2012.13844]

[38] K. Nakahira,

"Diagrammatic representation of quantum testers for discriminating between quantum processes",
Tamagawa University Quantum ICT Research Institute Bulletin 10, 23 (2020).

[37] K. Nakahira,

"Derivation of quantum theory with superselection rules",
Phys. Rev. A 101, 022104 (2020). [arXiv:1910.02649]

[36] K. Nakahira,

"Discrimination of symmetric states in operational probabilistic theory",
Tamagawa University Quantum ICT Research Institute Bulletin 9, 15 (2019).

[35] K. Nakahira, K. Kato, and T. S. Usuda,

"Local unambiguous discrimination of symmetric ternary states",
Phys. Rev. A 99, 022316 (2019). [arXiv:1806.08784]

[34] K. Nakahira,

"Optimal discrimination of symmetric quantum pure states except one and its application to near-optimal optical receivers",
Tamagawa University Quantum ICT Research Institute Bulletin 8, 1 (2018).

[33] K. Nakahira and T. S. Usuda,

"Realizing a 2-D positive operator-valued measure by local operations and classical communication",
IEEE Trans. Inf. Theory 64, 613 (2018).

[32] K. Nakahira and A. Miyamoto,

"Parseval wavelets on hierarchical graphs",
Appl. Comput. Harmon. Anal. 44, 414 (2018).

[31] K. Nakahira, T. S. Usuda, and K. Kato,

"Upper and lower bounds on optimal success probability of quantum state discrimination with and without inconclusive results",
Phys. Rev. A 97, 012103 (2018). [arXiv:1601.06231]

[30] K. Nakahira, K. Kato, and T. S. Usuda,

"Generalized bipartite quantum state discrimination problems with sequential measurements",
Phys. Rev. A 97, 022340 (2018). [arXiv:1707.04736]

[29] K. Nakahira, K. Kato, and T. S. Usuda,

"Optimal discrimination of optical coherent states cannot always be realized by interfering with coherent light, photon counting, and feedback",
Phys. Rev. A 97, 022320 (2018). [arXiv:1706.02125]

[28] K. Nakahira and Kentaro Kato,

"Examples of deriving sequential measurements maximizing average success probabilities",
Tamagawa University Quantum ICT Research Institute Bulletin 7, 5 (2017).

[27] K. Nakahira, T. S. Usuda, and K. Kato,

"Finding optimal solutions for generalized quantum state discrimination problems",
IEEE Trans. Inf. Theory 63, 7845 (2017). [arXiv:1510.05202]

[26] 宮本敦, 中平健治,

"Multi-Link Waveletと適応サンプリングに基づく医用超音波画像 のスペックルノイズ除去技術",
画像電子学会 46, 308 (2017).

[25] K. Nakahira, K. Kato, and T. S. Usuda,

"Iterative methods for finding optimal quantum measurements under minimum-error and minimax criteria",
Phys. Rev. A 91, 012318 (2015).

[24] 宮本敦, 中平健治,

"ルールベース型欠陥分類器の判定パラメータ自動調整技術",
電気学会論文誌C 135, 453 (2015).

[23] K. Nakahira, T. S. Usuda, and K. Kato,

"Finding optimal measurement with inconclusive results using the problem of minimum error discrimination",
Phys. Rev. A 91, 022331 (2015).

[22] K. Nakahira, K. Kato, and T. S. Usuda,

"Generalized quantum state discrimination problems",
Phys. Rev. A 91, 052304 (2015). [arXiv:1501.05744]

[21] K. Nakahira and T. S. Usuda,

"Implementation of nonprojective measurement on a Hilbert space spanned by binary coherent states",
Phys. Rev. A 89, 012120 (2014).

[20] 宮本敦, 中平健治, 細谷直樹, 木村和浩, 小池正浩,

"原子炉内検査画像の高画質化技術",
電子情報通信学会論文誌 (D) J97-D, 1809 (2014).

[19] K. Nakahira, A. Miyamoto, and T. Honda,

"A fast iterative technique for restoring scanning electron microscope images",
Nuclear Inst. and Methods in Physics Research A 768, 89 (2014).

[18] K. Nakahira and A. Miyamoto,

"Multi-link wavelets on hierarchical graphs",
Appl. Comput. Harmon. Anal. 37, 1 (2014).

[17] 宮本敦, 中平健治,

"複数の明度値変動要因を考慮した半導体デバイスSEM画像の超解像処理技術",
精密工学会誌 79, 1069 (2013).

[16] Y. Minekawa, K. Nakahira, R. Nakagaki, and Y. Takagi,

"Efficient parameter optimization by applying estimation error reduction to design of experiments for image processing",
IEEJ Trans. Electr. Electron. Eng. 133, 111 (2013).

[15] 中平健治, 臼田毅, 加藤研太郎,

"Inconclusive 量子最適測定およびその導出過程に対する幾何学的解釈",
電子情報通信学会論文誌 (A) J96-A, 56 (2013).

[14] K. Nakahira and T. S. Usuda,

"Quantum measurement for group-covariant state set",
Phys. Rev. A 87, 012308 (2013).

[13] K. Nakahira, K. Kato, and T. S. Usuda,

"Minimax strategy in quantum signal detection with inconclusive results",
Phys. Rev. A 88, 032314 (2013).

[12] K. Nakahira and T. S. Usuda,

"Minimum-error discrimination between self-symmetric mixed quantum state signals",
IEEE Trans. Inf. Theory 58, 1215 (2012).

[11] 中平健治, 宮本敦,

"多重解像度解析およびモルフォロジカルフィルタを用いた医用超音波画像の高画質化技術",
Medical Imaging Technology 30, 103 (2012).

[10] K. Nakahira, T. S. Usuda, and K. Kato,

"Discrimination between geometrically uniform quantum states with inconclusive results",
Phys. Rev. A 86, 032316 (2012).

[9] K. Nakahira and T. S. Usuda,

"Optimal receiver for discrimination of two coherent states with inconclusive results",
Phys. Rev. A 86, 052323 (2012).

[8] K. Nakahira and T. S. Usuda,

"Minimum-Bayes-cost discrimination for symmetric quantum states",
Phys. Rev. A 86, 062305 (2012).

[7] T. Kodama and K. Nakahira,

"Performance analysis of ultrasonic ranging using a digital polarity correlator",
Meas. Sci. Technol. 24, 015101 (2012).

[6] 児玉哲司, 中平健治, 小山優, 村上順一,

"超音波距離計における2値周波数偏移変調信号の特性",
電気学会論文誌C 129, 418 (2009).

[5] 児玉哲司, 中平健治, 金谷勇気, 吉川貴彦,

"超音波距離計へのディジタル相関器の応用",
電気学会論文誌C 127, 317 (2007).

[4] K. Nakahira, T. Kodama, T. Furuhashi, and H. Maeda,

"Design of digital polarity correlators in a multiple user sonar ranging system",
IEEE Trans. Instrum. Meas. 54, 305 (2005).

[3] T. Kodama, X. Li, K. Nakahira, and D. Ito,

"Evolutionary computation applied to the reconstruction of 3-D surface topography in the SEM",
J. Electron Microsc. 54, 429 (2005).

[2] K. Nakahira, T. Kodama, T. Furuhashi, and S. Okuma,

"A self adapting sonar ranging system based on digital polarity correlators",
Meas. Sci. Technol. 15, 347 (2003).

[1] K. Nakahira, T. Kodama, S. Morita, and S. Okuma,

"Distance measurement by an ultrasonic system based on a digital polarity correlator",
IEEE Trans. Instrum. Meas. 50, 1748 (2001).