Naseer, Muhammad MuzammalKhan, Salman H.Porikli, Fatih2019-03-052019-03-05http://hdl.handle.net/1885/156979With the availability of low-cost and compact 2.5/3D visual sensing devices, computer vision community is experiencing a growing interest in visual scene understanding of indoor environments. This survey paper provides a comprehensive background to this research topic. We begin with a historical perspective, followed by popular 3D data representations and a comparative analysis of available datasets. Before delving into the application specific details, this survey provides a succinct introduction to the core technologies that are the underlying methods extensively used in the literature. Afterwards, we review the developed techniques according to a taxonomy based on the scene understanding tasks. This covers holistic indoor scene understanding as well as subtasks such as scene classification, object detection, pose estimation, semantic segmentation, 3D reconstruction, saliency detection, physics-based reasoning and affordance prediction. Later on, we summarize the performance metrics used for evaluation in different tasks and a quantitative comparison among the recent state-of-the-art techniques. We conclude this review with the current challenges and an outlook towards the open research problems requiring further investigation.This work was supported by the Australian Research Council’s Discovery Projects Funding Scheme under Project DP150104645.29 pagesapplication/pdfen-AU© 2018 IEEE. Translations and content mining are permitted for academic research only. Personal use is also permitted, but republication/redistribution requires IEEE permission3D scene understandingsemantic labelinggeometry estimationdeep networksMarkov random fields.Indoor Scene Understanding in 2.5/3D for Autonomous Agents: A Survey2018-12-1210.1109/ACCESS.2018.2886133