Abstract
The development and application of modern technology are an essential basis for the efficient monitoring of species in natural habitats to assess the change of ecosystems, species communities and populations, and in order to understand important drivers of change. For estimating wildlife abundance, camera trapping in combination with three-dimensional (3D) measurements of habitats is highly valuable. Additionally, 3D information improves the accuracy of wildlife detection using camera trapping. This study presents a novel approach to 3D camera trapping featuring highly optimized hardware and software. This approach employs stereo vision to infer the 3D information of natural habitats and is designated as StereO CameRA Trap for monitoring of biodivErSity (SOCRATES). A comprehensive evaluation of SOCRATES shows not only a 3.23% improvement in animal detection (bounding box mAP75), but also its superior applicability for estimating animal abundance using camera trap distance sampling. The software and documentation of SOCRATES is openly provided.
Keywords
Computer visionSOCRATESWildlifeArtificial intelligenceStereopsisComputer scienceComputer graphics (images)OptometryArtBiologyMedicineEcology
Affiliated Institutions
Related Publications
The efficiency of pitfall trapping for polyphagous predatory Carabidae
ABSTRACT. The efficiency of pitfall trapping was investigated for seven carabid species, using time‐lapse video recording equipment, in the laboratory. The effects of differing ...
A Bayesian treatment of the stereo correspondence problem using half-occluded regions
A half-occluded region in a stereo pair is a set of pixels in one image representing points in space visible to that camera or eye only, and not to the other. These occur typica...
Spatial ecology of the European wildcat in a Mediterranean ecosystem: dealing with small radio‐tracking datasets in species conservation
Abstract Despite some populations of European wildcat Felis silvestris in central Europe are stable or increasing, the Iberian subpopulation is in decline and is listed as ‘vuln...
A Combined Corner and Edge Detector
The problem we are addressing in Alvey Project MMI149 is that of using computer vision to understand the unconstrained 3D world, in which the viewed scenes will in general conta...
Predation as a Selective Force on Foraging Herons: Effects of Plumage Color and Flocking
Abstract Experiments using model herons in natural mangrove habitats demonstrated that more hawks are attracted to white than to blue herons. Both Common Black-Hawks (Buteogallu...
Publication Info
- Year
- 2022
- Type
- article
- Volume
- 22
- Issue
- 23
- Pages
- 9082-9082
- Citations
- 6
- Access
- Closed
External Links
Social Impact
Altmetric
PlumX Metrics
Social media, news, blog, policy document mentions
Citation Metrics
6
OpenAlex
Cite This
Timm Haucke,
Hjalmar S. Kühl,
Volker Steinhage
(2022).
SOCRATES: Introducing Depth in Visual Wildlife Monitoring Using Stereo Vision.
Sensors
, 22
(23)
, 9082-9082.
https://doi.org/10.3390/s22239082
Identifiers
- DOI
- 10.3390/s22239082