プロジェクト名：

保存変換からの脱却による非対称ダイナミクスの符号込み合成理論の開発

研究代表者：

伊藤博

非対称符号込み合成の基盤理論

1. Hiroshi Ito, ``Interpreting models of infectious diseases in terms of integral input-to-state stability,'' Mathematics of Control, Signals, and Systems, Vol.32, pp.611-631, 2020.
2. Hiroshi Ito, ``Signed small-gain criteria amenable to asymmetry with respect to equilibria in establishing iISS of networks,'' The 59th IEEE Conf. Decision Control, pp.6278-6284, Jeju, Korea, December 18, 2020.
3. Hiroshi Ito, ``Strong integral input-to-state stability of nonlinear networks through balancing kinetics,'' (invited), The 59th IEEE Conf. Decision Control, pp.482-487, Jeju, Korea, December 14, 2020.
4. Hiroshi Ito, ``Asymmetric dissipativity and supply rates for compartmental systems with logarithmic storage functions,'' 2023 American Control Conference, pp.3018-3023, San Diego, USA, June 1, 2023.
5. Hiroshi Ito, ``Asymmetric and fitted dissipativity with logarithmic storages for positive systems exhibiting interior equilibria,'' IFAC World Congress, pp.5532-5537, Yokohama, Japan, July 12, 2023.
6. 伊藤 博, ``対数型リアプノフ関数を使った非対称な状態空間上のダイナミクスのモジュール化について'', 第65回自動制御連合講演会, pp.1523-1528, 宇都宮, 11月13日, 2022.
7. 伊藤 博, ``非対称な状態空間上のダイナミクスのモジュール型解析設計を目指した供給率について'', 第10回計測自動制御学会制御部門マルチシンポジウム, p.SY0002/23/0000-0917 (4 pages), 草津滋賀, 3月11日, 2023.

非対称符号込み合成の具体例および適用

1. Hiroshi Ito, ``Input-to-state stability and Lyapunov functions with explicit domains for SIR model of infectious diseases,'' Discrete and Continuous Dynamical Systems - Series B, Vol.26, No.9, pp.5171-5196, May 2021.
2. Hiroshi Ito, Michael Malisoff, and Frédéric Mazenc, ``Strict Lyapunov functions and feedback controls for SIR models with quarantine and vaccination,'', Discrete and Continuous Dynamical Systems - Series B, Vol.27, No.12, pp.6969-6988, December 2022, accepted version
3. Hiroshi Ito, ``Strict smooth Lyapunov functions and vaccination control of SIR model certified by ISS,'' IEEE Trans. Automatic Control, Vol.67, No.9, pp.4514-4528, September 2022.
Hiroshi Ito, ``Isolation-oriented Lyapunov-based design of simultaneous feedback strategies for disease control of SIQR,'' International Journal of Robust and Nonlinear Control, Vol.32, No.16, pp.8767-8785, November 2022.
4. Hiroshi Ito, Michael Malisoff, and Frédéric Mazenc, ``Feedback control of isolation and contact for SIQR epidemic model via strict Lyapunov function,'', Math. Control Relat. Fields, Vol.13, No.4, pp.1438-1465, December 2023.
5. Hiroshi Ito, ``A strict smooth Lyapunov function and input-to-state stability of SIR model,'' 2021 American Control Conference, pp.4811-4816, New Orleans, USA, May 28, 2021.
6. Hajime Nakata and Hiroshi Ito, ``Feedback balancing between vaccination and quarantine for disease control: a simulation for COVID-19 in Japan,'' SICE Annual Conference 2021, pp.1255-1260, Tokyo, Japan, September 10, 2021.
7. Hiroshi Ito, ``A construction of strict Lyapunov functions for a bilinear balancing model,'' The 3rd IFAC Conf. Modelling, Identification and Control of Nonlinear Systems, pp.254-259, Tokyo, Japan, September 15, 2021.
8. Hiroshi Ito, ``Vaccination with input-to-state stability for SIR model of epidemics,'' The 60th IEEE Conf. Decision Control, pp.2812-2817, Austin, USA, December 14, 2021.
9. Hiroshi Ito, ``An ISS Lyapunov function estimating admissible inflow perturbations for semi-global control of SIQR model,'' SICE Annual Conference 2022, pp.321-326, Kumamoto, Japan, September 7, 2022.
10. Hiroshi Ito, ``Dynamic feedback control of SIQR model guaranteeing semi-global asymptotic stability and robustness for inflow perturbations,'' SICE Annual Conference 2022, pp.327-332, Kumamoto, Japan, September 7, 2022.
11. Hiroshi Ito, ``Semi-global input-to-state stabilization of SIQR model with isolation, outing regulation, and vaccination in staircase form,'' The 25th International Symposium on Mathematical Theory of Networks and Systems, pp.115-120 (IFAC-PapersOnLine 55.30), Bayreuth, Germany, September 12, 2022.
12. Hiroshi Ito, ``A global and semi-global controller for SIQR epidemic model by a control Lyapunov function via logarithmic sum,'' The 61st IEEE Conf. Decision Control, pp.6419-6424, Cancun, Mexico, December 9, 2022.
13. Hiroshi Ito, ``Nonlinear PI control for semi-global asymptotic stabilization and robustness of SIQR model with inflow perturbations,'' The 12th IFAC Symposium on Nonlinear Control Systems, pp.276-281, Canberra, Australia, January 6, 2023.
14. 伊藤 博, ``SIR感染モデルに基づく流入個体数規制の不確かさに対するISS保証の一解析'', 第63回自動制御連合講演会, pp.389-392, オンライン, 11月21日, 2020.
15. 伊藤 博, ``ISSリアプノフ関数により保証付けされたSIR感染モデルのワクチン接種フィードバック'', 第8回計測自動制御学会制御部門マルチシンポジウム, p.20SY0003/0000-0336 (5 pages), オンライン, 3月2日, 2021.
16. 伊藤 博, ``感染者隔離と分離型ISSリアプノフ関数によるSIQRモデルの準大域協調制御の実現'', 第9回計測自動制御学会制御部門マルチシンポジウム, p.SY0002/22/0000-0799 (6 pages), オンライン, 3月10日, 2022.

研究会等

1. 伊藤 博, ``感染症に対する非線形制御理論のアプローチ'', 大分大学理工学部福祉環境工学科, 3月17日, 2023.
2. 伊藤 博, ``感染症に対するリアプノフ関数を用いた多入力制御則設計'', 九州工業大学大学院情報工学研究院, 5月18日, 2023.
3. 伊藤 博, ``リアプノフ関数を用いた感染症拡大軽減の多入力制御設計'', 南山大学理工学部学科, 2月28日, 2024.
4. 伊藤 博, ``モデル不確かさが本質的な感染症制御における質的な拡大抑制策の設計'', 滋賀県立大学工学部機械システム工学科, 3月29日, 2024.

受賞等

1. 2023年SICE制御部門マルチシンポジウム大会論文賞(基礎分野)
   受賞対象: 2022年の伊藤博による発表「感染者隔離と分離型ISSリアプノフ関数によるSIQRモデルの準大域協調制御の実現」
2. A finalist of SICE Annual Conference International Award 2022
   for ``An ISS Lyapunov Function Estimating Admissible Inflow Perturbations for Semi-Global Control of SIQR Model'' by Hiroshi Ito