Contextual Feedback Loops: Amplifying Deep Reasoning with Iterative Top-Down Feedback

Deep neural networks typically rely on a single forward pass for inference, which can limit their capacity to resolve ambiguous inputs. We introduce Contextual Feedback Loops (CFLs) as an iterative mechanism that incorporates top-down feedback to refine intermediate representations, thereby improving accuracy and robustness. This repeated process mirrors how humans continuously re-interpret sensory information in daily life-by checking and re-checking our perceptions using contextual cues. Our results suggest that CFLs can offer a straightforward yet powerful way to incorporate such contextual reasoning in modern deep learning architectures.