ESAR: Event-Based Synthetic Aperture Reconstruction
Abstract
Event cameras report asynchronous polarity events when changes in log--radiance exceed a fixed contrast threshold, producing signed temporal contrast measurements rather than conventional image frames. We formulate monocular event-based imaging as a synthetic-aperture inverse problem for a static ground-domain log--radiance field $θ\in \mathbb{R}^{N_g}$. Instead of reconstructing a latent pixel-time volume $v \in \mathbb{R}^{N_pN_t}$, we impose the geometric relation $v=Pθ$, where $P$ maps the f...
Description / Details
Event cameras report asynchronous polarity events when changes in log--radiance exceed a fixed contrast threshold, producing signed temporal contrast measurements rather than conventional image frames. We formulate monocular event-based imaging as a synthetic-aperture inverse problem for a static ground-domain log--radiance field . Instead of reconstructing a latent pixel-time volume , we impose the geometric relation , where maps the fixed scene into motion-dependent latent views. Aggregating events over finite time intervals gives the linearized model [ APθ= b+η, ] where is a temporal differencing operator, contains signed binned event counts, and represents measurement and modeling errors. This decomposition exposes a synthetic-aperture structure: under near-nadir motion, successive projections are approximately shifted views of a common scene, while the composite operator remains ill-conditioned because it combines spatial averaging with temporal differencing. We therefore use regularized inversion to recover . Numerical experiments on simulated data and real near-nadir Falcon Neuro event data show that the proposed -based formulation recovers coherent large-scale spatial structure, relative to dynamic latent-image and learned event-reconstruction baselines, while suppressing fine-scale texture.
Source: arXiv:2607.15073v1 - http://arxiv.org/abs/2607.15073v1 PDF: https://arxiv.org/pdf/2607.15073v1 Original Link: http://arxiv.org/abs/2607.15073v1
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Jul 17, 2026
Chemical Engineering
Engineering
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