Lost and Found!

Abstract: We demonstrate an application of finding target persons on a surveillance video. Each visually detected participant is tagged with a smartphone ID and the target person with the query ID is highlighted. This work is motivated by the fact that establishing associations between subjects observed in camera images and messages transmitted from their wireless devices can enable fast and reliable tagging. This is particularly helpful when target pedestrians need to be found on public surveillance footage, without th… Show more

“…We evaluate our method on two datasets, the Vi-Fi Multi-modal Dataset [18,19] and the H3D Dataset [30], for the problem of layout sequence prediction from noisy mobile data. To assess our proposed method, we require datasets that contain layout sequences (trajectories, bounding boxes, depths, etc.)…”

“…[6]. Vi-Tag is the current state-of-the-art method on the Vi-Fi dataset [18,19] for the vision-motion identity association task, which aims to match identities in cameras in the vision modality with wireless signals in the mobile modality. The core of Vi-Tag is the X-Translator model, which translates the visual modality to the mobile modality and finds the most similar wireless signals to match the identities in both modalities.…”

Layout Sequence Prediction From Noisy Mobile Modality

“…We evaluate our method on two datasets, the Vi-Fi Multi-modal Dataset [18,19] and the H3D Dataset [30], for the problem of layout sequence prediction from noisy mobile data. To assess our proposed method, we require datasets that contain layout sequences (trajectories, bounding boxes, depths, etc.)…”

“…[6]. Vi-Tag is the current state-of-the-art method on the Vi-Fi dataset [18,19] for the vision-motion identity association task, which aims to match identities in cameras in the vision modality with wireless signals in the mobile modality. The core of Vi-Tag is the X-Translator model, which translates the visual modality to the mobile modality and finds the most similar wireless signals to match the identities in both modalities.…”

Layout Sequence Prediction From Noisy Mobile Modality

OOSTraj: Out-of-Sight Trajectory Prediction With Vision-Positioning Denoising