Jämför metoder

Granska de valda metoderna sida vid sida; rader som skiljer sig är markerade.

	Finjusterad förstärkningsinlärning ×	Självövervakad förstärkningsinlärning ×
Ämnesområde	Djupinlärning	Djupinlärning
Familj	Machine learning	Machine learning
Ursprungsår≠	2017–2022	2020
Upphovsperson≠	Christiano, P. et al.; Ouyang, L. et al.	Laskin, M.; Srinivas, A.; Abbeel, P. (and contemporaries)
Typ≠	Policy adaptation via fine-tuning	Self-supervised auxiliary-task learning for RL
Ursprungskälla≠	Ouyang, L., Wu, J., Jiang, X., Almeida, D., Wainwright, C., Mishkin, P., Zhang, C., Agarwal, S., Slama, K., Ray, A., Schulman, J., Hilton, J., Kelton, F., Miller, L., Simens, M., Askell, A., Welinder, P., Christiano, P., Leike, J., & Lowe, R. (2022). Training language models to follow instructions with human feedback. Advances in Neural Information Processing Systems, 35, 27730–27744. link ↗	Laskin, M., Srinivas, A., & Abbeel, P. (2020). CURL: Contrastive Unsupervised Representations for Reinforcement Learning. Proceedings of the 37th International Conference on Machine Learning (ICML), PMLR 119, 5639–5650. link ↗
Alias	RL fine-tuning, policy fine-tuning, RLHF, reinforcement learning from human feedback	SSL-RL, self-supervised RL, representation-based reinforcement learning, auxiliary-task RL
Närliggande≠	5	4
Sammanfattning≠	Fine-Tuned Reinforcement Learning adapts a pre-trained policy or model to a new task or behavioral objective using reinforcement signals — including human feedback — rather than retraining from scratch. Popularized by RLHF, it is the core technique behind aligning large language models and adapting deep RL agents to specialized environments with minimal additional data.	Self-supervised Reinforcement Learning (SSL-RL) augments standard RL training with self-supervised auxiliary objectives — such as contrastive, predictive, or data-augmentation-based tasks — applied to the agent's own experience. These objectives improve the quality of learned representations without requiring extra human labels, enabling faster convergence and better sample efficiency, especially in high-dimensional observation spaces like raw pixels.
ScholarGateDatamängd ↗	v1 2 Källor PUBLISHED	v1 2 Källor PUBLISHED

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