Litcius/Paper detail

A Comprehensive Survey of Depth Completion Approaches

Muhammad Ahmed Ullah Khan, Danish Nazir, Alain Pagani, Hamam Mokayed, Marcus Liwicki, Didier Stricker, Muhammad Zeshan Afzal

2022Sensors17 citationsDOIOpen Access PDF

Abstract

Depth maps produced by LiDAR-based approaches are sparse. Even high-end LiDAR sensors produce highly sparse depth maps, which are also noisy around the object boundaries. Depth completion is the task of generating a dense depth map from a sparse depth map. While the earlier approaches focused on directly completing this sparsity from the sparse depth maps, modern techniques use RGB images as a guidance tool to resolve this problem. Whilst many others rely on affinity matrices for depth completion. Based on these approaches, we have divided the literature into two major categories; unguided methods and image-guided methods. The latter is further subdivided into multi-branch and spatial propagation networks. The multi-branch networks further have a sub-category named image-guided filtering. In this paper, for the first time ever we present a comprehensive survey of depth completion methods. We present a novel taxonomy of depth completion approaches, review in detail different state-of-the-art techniques within each category for depth completion of LiDAR data, and provide quantitative results for the approaches on KITTI and NYUv2 depth completion benchmark datasets.

Topics & Concepts

Depth mapLidarBenchmark (surveying)Computer scienceArtificial intelligenceDepth perceptionMeasured depthTask (project management)Computer visionRGB color modelImage (mathematics)Pattern recognition (psychology)Remote sensingGeologyGeographyCartographyEngineeringBiologyPerceptionSystems engineeringNeuroscienceGeophysicsAdvanced Vision and ImagingOptical measurement and interference techniquesRobotics and Sensor-Based Localization