Results for "learning like humans"

Finding mathematical equations from data.

Groups adopting extreme positions.

Adjusting learning rate over training to improve convergence.

Ordering training samples from easier to harder to improve convergence or generalization.

Selecting the most informative samples to label (e.g., uncertainty sampling) to reduce labeling cost.

Learning from data generated by a different policy.

Learning a function from input-output pairs (labeled data), optimizing performance on predicting outputs for unseen inputs.

Learning where data arrives sequentially and the model updates continuously, often under changing distributions.

A model is PAC-learnable if it can, with high probability, learn an approximately correct hypothesis from finite samples.

Learning policies from expert demonstrations.

A learning paradigm where an agent interacts with an environment and learns to choose actions to maximize cumulative reward.

A branch of ML using multi-layer neural networks to learn hierarchical representations, often excelling in vision, speech, and language.

Methods that learn training procedures or initializations so models can adapt quickly to new tasks with little data.

Automatically learning useful internal features (latent variables) that capture salient structure for downstream tasks.

Learning only from current policy’s data.

A theoretical framework analyzing what classes of functions can be learned, how efficiently, and with what guarantees.

Learning from data by constructing “pseudo-labels” (e.g., next-token prediction, masked modeling) without manual annotation.

Achieving task performance by providing a small number of examples inside the prompt without weight updates.

Training across many devices/silos without centralizing raw data; aggregates updates, not data.

Gradually increasing learning rate at training start to avoid divergence.

Built-in assumptions guiding learning efficiency and generalization.

Modifying reward to accelerate learning.

Training one model on multiple tasks simultaneously to improve generalization through shared structure.

Iterative method that updates parameters in the direction of negative gradient to minimize loss.

Reinforcement learning from human feedback: uses preference data to train a reward model and optimize the policy.

Inferring reward function from observed behavior.

Learning by minimizing prediction error.

Robots learning via exploration and growth.

Inferring and aligning with human preferences.

A subfield of AI where models learn patterns from data to make predictions or decisions, improving with experience rather than explicit rule-coding.