ARTICLES
Research Articles
- With Makiko Sasada, Varadhan's Decomposition of Shift-Invariant Closed $L^2$-forms for Large Scale Interacting Systems on the Euclidean Lattice, preprint: arXiv:2111.08934 [math.PR].
- With Yukio Kametani and Makiko Sasada, Topological Structures of Large Scale Interacting Systems via Uniform Functions and Forms, preprint: arXiv:2009.04699 [math.PR].
- With Kei Hagihara, Kazuki Yamada, and Shuji Yamamoto, Canonical Equivariant Cohomology Classes Generating Zeta Values of Totally Real Fields,
preprint: arXiv:1911.02650 [math.NT].
- With Kei Hagihara, Kazuki Yamada, and Shuji Yamamoto, $p$-adic Polylogarithms and $p$-adic Hecke $L$-functions for Totally Real Fields,
preprint: arXiv:2003.08157 [math.NT], accepted to Crelle's Journal.
- With Makiko Sasada, A Decomposition Theorem of Varadhan Type for Co-local Forms on Large Scale Interacting Systems, preprint: arXiv:2105.06043 [math.PR], accepted to RIMS Kôkyûroku Bessatsu.
- With Kei Hagihara, Shinichi Kobayashi, Kazuki Yamada, Shuji Yamamoto, and Seidai Yasuda,
Category of mixed plectic Hodge structures, Asian J. Math. 24 (2020), no. 1, 31–76; DOI: 10.4310/AJM.2020.v24.n1.a2.
- With Kei Hagihara, Kazuki Yamada, and Shuji Yamamoto, The Hodge realization of the polylogarithm on the product of multiplicative groups, Math. Z. 296 (2020), no. 3–4, 1787–1817; DOI: 10.1007/s00209-020-02483-y.
- With Daiki Suehiro, Kohei Hatano, Eiji Takimoto, Shuji Yamamoto and Akiko Takeda, Theory and algorithms for shapelet-based multiple-instance learning. Neural Comput. 32 (2020), no. 8, 1580–1613: DOI: 10.1162/neco_a_01297.
- With Shinichi Kobayashi and Seidai Yasuda,
The radius of convergence of the $p$-adic sigma function,
Math. Z. (2017) Vol. 286: 751–781;
DOI: 10.1007/s00209-016-1783-x.
- With Shinichi Kobayashi, Integral structures on $p$-adic Fourier theory, Annales de L'Institut Fourier, Vol. 66 no. 2 (2016), 521–550;
DOI: 10.5802/aif.3018.
- With Hidekazu Furusho and Shinichi Kobayashi, $p$-adic Eisenstein–Kronecker series for CM elliptic curves and the Kronecker limit formulas,
Nagoya Math. J. 219 (2015), 269–302; DOI:
10.1215/00277630-2891995.
- With Guido Kings,
$p$-adic Beilinson conjecture for ordinary Hecke motives associated to imaginary quadratic fields,
RIMS Kôkyûroku Bessatsu B25: Algebraic Number Theory and Related Topics 2009,
eds. T. Ichikawa, M. Kida, T. Yamazaki, June (2011), 9–30; Available at RIMS.
- With Guido Kings,
p-adic elliptic polylogarithm, p-adic Eisenstein series and Katz measure,
American J. Math. 132 no. 6 (2010), 1609–1654; Available at
Project MUSE.
- With Shinichi Kobayashi,
Algebraic theta functions and p-adic interpolation of Eisenstein-Kronecker numbers,
Duke Math. J. 153 no. 2 (2010), 229–295; DOI:
10.1215/00127094-2010-024.
- With Shinichi Kobayashi and Takeshi Tsuji,
On the de Rham and p-adic realizations of the elliptic polylogarithm for CM elliptic curves,
Annales scientifiques de l'ENS 43, fascicule 2 (2010), 185–234; DOI:
10.24033/asens.2119.
- With Shinichi Kobayashi and Takeshi Tsuji,
Realizations of the elliptic polylogarithm for CM elliptic curves,
RIMS Kôkyûroku Bessatsu B12: Algebraic Number Theory and Related Topics 2007,
eds. M. Asada, H. Nakamura and H. Takahashi, August (2009), 33–50; Available at
RIMS.
- With Shinichi Kobayashi,
Algebraic theta functions and Eisenstein-Kronecker numbers,
RIMS Kôkyûroku Bessatsu B4: Proceedings of the Symposium on Algebraic Number theory and
Related Topics, eds. K. Hashimoto, Y. Nakajima and H. Tsunogai,
December (2007), 63–78; Available at
RIMS.
- Specialization of the $p$-adic polylogarithm to $p$-th power roots of unity,
Doc. Math., Extra Volume: Kazuya Kato's Fiftieth Birthday (2003), 73–97; Available at
Documenta Mathematica.
- On the $p$-adic realization of elliptic polylogarithms for CM-elliptic curves,
Duke Math. J. 113 (2002), 193–236; DOI:
10.1215/S0012-7094-02-11321-0.
- Syntomic cohomology as a $p$-adic absolute Hodge cohomology,
Math. Z. 242/3 (2002), 443–480; DOI:
10.1007/s002090100351.
- Rigid syntomic cohomology and $p$-adic polylogarithms,
J. Reine Angew. Math. 529 (2000), 205–237; DOI:
10.1515/crll.2000.097.
Other Research
- Ken Kobayashi, Naoki Hamada, Akiyoshi Sannai, Akinori Tanaka, Kenichi Bannai and Masashi Sugiyama, Bezier Simplex Fitting: Describing Pareto Fronts of Simplicial Problems with Small Samples in Multi-objective Optimization,
arXiv:1812.05222.
- Daiki Suehiro, Kohei Hatano, Eiji Takimoto, Shuji Yamamoto, Kenichi Bannai and Akiko Takeda,
Multiple-Instance Learning by Boosting Infinitely Many Shapelet-based Classifiers, arXiv:1811.08084.
- Daiki Suehiro, Kohei Hatano, Eiji Takimoto, Shuji Yamamoto, Kenichi Bannai and Akiko Takeda,
Boosting the kernelized shapelets: Theory and algorithms for local features, arXiv:1709.01300.
日本語記事