השוואת שיטות
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| למידת Q× | למידת חיזוק עמוקה× | תכנון דינמי× | |
|---|---|---|---|
| תחום≠ | למידת מכונה | למידה עמוקה | אופטימיזציה |
| משפחה≠ | Machine learning | Machine learning | Process / pipeline |
| שנת המקור≠ | 1992 | 2015 | 1957 |
| הוגה השיטה≠ | Christopher Watkins & Peter Dayan | Mnih, V. et al. (DQN) | Richard Bellman |
| סוג≠ | Model-free reinforcement-learning control algorithm | Sequential decision-making (agent–environment interaction) | Exact combinatorial optimization via recursive decomposition |
| מקור מכונן≠ | Watkins, C. J. C. H., & Dayan, P. (1992). Q-learning. Machine Learning, 8(3–4), 279–292. DOI ↗ | Mnih, V. et al. (2015). Human-Level Control through Deep Reinforcement Learning. Nature, 518, 529–533. DOI ↗ | Bellman, R. (1957). Dynamic Programming. Princeton University Press. ISBN: 978-0-691-07951-6 |
| כינויים≠ | Q-learning algorithm, tabular Q-learning, off-policy TD control, Q-öğrenme | Derin Pekiştirmeli Öğrenme (DQN / PPO / A3C), derin pekiştirmeli öğrenme, deep RL, DRL | DP, Bellman's Principle of Optimality, Recursive Optimization, Dinamik Programlama |
| קשורות≠ | 3 | 4 | 3 |
| תקציר≠ | Q-learning, introduced by Christopher Watkins and Peter Dayan in 1992, is a model-free reinforcement-learning algorithm that learns the value of taking each action in each state — the Q-function — purely from experience, without a model of the environment. It is off-policy: it learns the optimal action-values while following an exploratory behaviour policy, and under standard conditions it provably converges to the optimal policy. | Deep Reinforcement Learning combines neural networks with reinforcement learning so an agent learns by interacting with an environment, popularised by Mnih and colleagues' 2015 Nature work on human-level Atari control. Instead of learning from a fixed labelled dataset, the agent takes actions, observes rewards, and gradually shapes a policy that maximises long-run return. | Dynamic Programming (DP) is an exact optimization technique introduced by Richard Bellman in 1957 for solving multi-stage decision problems. It decomposes a complex problem into simpler, overlapping subproblems, solves each subproblem once, and stores the results to avoid redundant computation. Grounded in the Principle of Optimality, DP guarantees globally optimal solutions whenever the problem exhibits overlapping subproblems and optimal substructure. |
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