From Fly Detectors to Action Control: Representations in Reinforcement Learning

被引:0
|
作者
Rusanen, Anna-Mari [1 ]
Lappi, Otto [1 ]
Pekkanen, Jami [1 ]
Kuokkanen, Jesse [1 ]
机构
[1] Univ Helsinki, POB 24, Helsinki 00014, Finland
来源
PHILOSOPHY OF SCIENCE | 2021年 / 88卷 / 05期
关键词
RECEPTIVE FIELDS; MOTOR CONTROL; MODELS;
D O I
10.1086/715513
中图分类号
N09 [自然科学史]; B [哲学、宗教];
学科分类号
01 ; 0101 ; 010108 ; 060207 ; 060305 ; 0712 ;
摘要
According to radical enactivists, cognitive sciences should abandon the representational framework. Perceptuomotor cognition and action control are often provided as paradigmatic examples of nonrepresentational cognitive phenomena. In this article, we illustrate how motor and action control are studied in research that uses reinforcement learning algorithms. Crucially, this approach can be given a representational interpretation. Hence, reinforcement learning provides a way to explicate action-oriented views of cognitive systems in a representational way.
引用
收藏
页码:1045 / 1054
页数:10
相关论文
共 50 条
  • [21] Metareasoning in Modular Software Systems: On-the-Fly Configuration Using Reinforcement Learning with Rich Contextual Representations
    Modi, Aditya
    Dey, Debadeepta
    Agarwal, Alekh
    Swaminathan, Adith
    Nushi, Besmira
    Andrist, Sean
    Horvitz, Eric
    THIRTY-FOURTH AAAI CONFERENCE ON ARTIFICIAL INTELLIGENCE, THE THIRTY-SECOND INNOVATIVE APPLICATIONS OF ARTIFICIAL INTELLIGENCE CONFERENCE AND THE TENTH AAAI SYMPOSIUM ON EDUCATIONAL ADVANCES IN ARTIFICIAL INTELLIGENCE, 2020, 34 : 5207 - 5215
  • [22] Offline reinforcement learning with representations for actions
    Lou, Xingzhou
    Yin, Qiyue
    Zhang, Junge
    Yu, Chao
    He, Zhaofeng
    Cheng, Nengjie
    Huang, Kaiqi
    INFORMATION SCIENCES, 2022, 610 : 746 - 758
  • [23] Exchangeable Input Representations for Reinforcement Learning
    Mern, John
    Sadigh, Dorsa
    Kochenderfer, Mykel J.
    2020 AMERICAN CONTROL CONFERENCE (ACC), 2020, : 3971 - 3976
  • [24] Reinforcement learning with multiple representations in the basal ganglia loops for sequential motor control
    Nakahara, H
    Doya, K
    Hikosaka, O
    Nagano, S
    IEEE WORLD CONGRESS ON COMPUTATIONAL INTELLIGENCE, 1998, : 1553 - 1558
  • [25] Environment Representations of Railway Infrastructure for Reinforcement Learning-Based Traffic Control
    Lovetei, Istvan
    Kovari, Balint
    Becsi, Tamas
    Aradi, Szilard
    APPLIED SCIENCES-BASEL, 2022, 12 (09):
  • [26] Learning from Unreliable Human Action Advice in Interactive Reinforcement Learning
    Scherf, Lisa
    Turan, Cigdem
    Koert, Dorothea
    2022 IEEE-RAS 21ST INTERNATIONAL CONFERENCE ON HUMANOID ROBOTS (HUMANOIDS), 2022, : 895 - 902
  • [27] Learning Sparse Representations in Reinforcement Learning with Sparse Coding
    Le, Lei
    Kumaraswamy, Raksha
    White, Martha
    PROCEEDINGS OF THE TWENTY-SIXTH INTERNATIONAL JOINT CONFERENCE ON ARTIFICIAL INTELLIGENCE, 2017, : 2067 - 2073
  • [28] Regret Bounds for Learning State Representations in Reinforcement Learning
    Ortner, Ronald
    Pirotta, Matteo
    Fruit, Ronan
    Lazaric, Alessandro
    Maillard, Odalric-Ambrym
    ADVANCES IN NEURAL INFORMATION PROCESSING SYSTEMS 32 (NIPS 2019), 2019, 32
  • [29] Learning controllable elements oriented representations for reinforcement learning
    Yi, Qi
    Zhang, Rui
    Peng, Shaohui
    Guo, Jiaming
    Hu, Xing
    Du, Zidong
    Guo, Qi
    Chen, Ruizhi
    Li, Ling
    Chen, Yunji
    NEUROCOMPUTING, 2023, 549
  • [30] Action representations in perception, motor control and learning: implications for medical education
    Elliott, Digby
    Grierson, Lawrence E. M.
    Hayes, Spencer J.
    Lyons, James
    MEDICAL EDUCATION, 2011, 45 (02) : 119 - 131
12345