Blur aware metric depth estimation with multi-focus plenoptic cameras

Q: How reproducible is "Blur aware metric depth estimation with multi-focus plenoptic cameras"?

Estimated time to first reproduction: a few days. Risk flags: No repository-level reproducibility signals are currently available, Estimate is based on paper-only reproduction flow. No direct maintained implementation was found. Use the paper PDF and citation graph to design a baseline reproduction.

Mathieu Labussière, Céline Teulière, Omar Ait-Aider

Published: Aug 3, 2023

No direct implementation yet

Evidence: Inferred

Domain fit: AI-adjacent

Verified repos: 0

Paper appears method- or tooling-adjacent to AI workflows with partial ecosystem coverage.

Time to first repro: a few days

2 risk flags

DOI Publisher

While a traditional camera only captures one point of view of a scene, a plenoptic or light-field camera, is able to capture spatial and angular information in a single snapshot, enabling depth estimation from a single acquisition. In this paper, we present a new metric depth estimation algorithm using only raw images from a multi-focus plenoptic camera. The proposed approach is especially suited for the multi-focus ...

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configuration where several micro-lenses with different focal lengths are used. The main goal of our blur aware depth estimation (BLADE) approach is to improve disparity estimation for defocus stereo images by integrating both correspondence and defocus cues. We thus leverage blur information where it was previously considered a drawback. We explicitly derive an inverse projection model including the defocus blur providing depth estimates up to a scale factor. A method to calibrate the inverse model is then proposed. We thus take into account depth scaling to achieve precise and accurate metric depth estimates. Our results show that introducing defocus cues improves the depth estimation. We demonstrate the effectiveness of our framework and depth scaling calibration on relative depth estimation setups and on real-world 3D complex scenes with ground truth acquired with a 3D lidar scanner.

Technical details

Canonical key: doi-10.1016_j.cviu.2023.103802

Cache status: Stale (SWR served)

Generated at: Jun 18, 2026, 12:16 PM

Artifact coverage: sparse

HF provider: ok (mixed)

PWC source used: No

LLM status: not_generated

LLM model: n/a

LLM generated: Unknown

LLM content type: n/a

HF policy: hf-relevance-v27

context only

Benchmarks: missing

Time to repro: a few days

2 risk flags

Results & Benchmarks

Freshness tier: cold

Direct + Inferred Evidence

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Implementation Evidence Summary

Confidence: low

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Reproduction Risks

Estimate is based on paper-only reproduction flow

Hardware Notes

Expect multi-day setup/compute for meaningful reproduction based on current guidance.

Evidence disclosure

Evidence graph: 2 refs, 1 links.

Utility signals: depth 65/100, grounding 58/100, status medium.

Implementation Status

No verified maintained repo

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No direct maintained implementation was found. Use the paper PDF and citation graph to design a baseline reproduction.
Start from related paper: Depth of Field Spreadsheet.
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Time to first repro: a few days

Reproduction readiness

No Repo

Time to first repro: days

Last checked: Jun 18, 2026

Hardware requirements

Expect multi-day setup/compute for meaningful reproduction based on current guidance.

No verified implementation available

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Depth of field Computer vision Depth of field model

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Research context

Citations

106

References

Tasks

Computer science, Depth of field, Focus (optics), Depth map, Metric (unit), Scaling, Engineering, Media Technology

Methods

None detected

Domains

Computer vision, Artificial intelligence, Mathematics

Evaluation & Human Feedback Data

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