17.1.5.13.1 Occupancy Detection, Occupance

Chapter Contents (Back)
Occupancy. Intrusion Detection.
See also Human Action Recognition, Indoor Environments, Classroom, Smart Room.
See also Planning Optimal Sensor Positions, Optimal View Planning, Optimal Next View.

Gonzalez-Arjona, D.[David], Sanchez, A.[Alberto], López-Colino, F.[Fernando], de Castro, A.[Angel], Garrido, J.[Javier],
Simplified Occupancy Grid Indoor Mapping Optimized for Low-Cost Robots,
IJGI(2), No. 4, 2013, pp. 959-977.
DOI Link 1310
BibRef

Lin, Y.S.[Yen-Shuo], Lo, K.H.[Kuo-Hua], Chen, H.T.[Hua-Tsung], Chuang, J.H.[Jen-Hui],
Vanishing Point-Based Image Transforms for Enhancement of Probabilistic Occupancy Map-Based People Localization,
IP(23), No. 12, December 2014, pp. 5586-5598.
IEEE DOI 1402
cameras BibRef

Rabiee, R.[Ramtin], Karlsson, J.[Johannes],
Multi-Bernoulli Tracking Approach for Occupancy Monitoring of Smart Buildings Using Low-Resolution Infrared Sensor Array,
RS(13), No. 16, 2021, pp. xx-yy.
DOI Link 2109
BibRef

Zhang, J.M.[Jin-Ming], Wang, X.[Xun], Xu, L.R.[Lian-Rui], Zhang, X.[Xin],
An Occupancy Information Grid Model for Path Planning of Intelligent Robots,
IJGI(11), No. 4, 2022, pp. xx-yy.
DOI Link 2205
BibRef

Fang, S.Z.[Shi-Zhang], Zheng, Q.[Qi], Wang, X.[Xu],
A dual residual transformer architecture for indoor semantic occupancy prediction,
PR(179), 2026, pp. 113667.
Elsevier DOI Code:
WWW Link. 2606
Indoor occupancy prediction, Semantic occupancy prediction, Dual residual transformer BibRef

Zheng, L.Q.[Lian-Qing], Liu, J.A.[Jian-An], Guan, R.W.[Run-Wei], Yang, L.[Long], Lu, S.[Shouyi], Li, Y.Z.[Yuan-Zhe], Bai, X.K.[Xiao-Kai], Bai, J.[Jie], Ma, Z.X.[Zhi-Xiong], Shen, H.L.[Hui-Liang], Zhu, X.C.[Xi-Chan],
Doracamom: Joint 3D Detection and Occupancy Prediction With Multi-View 4D Radars and Cameras for Omnidirectional Perception,
CirSysVideo(36), No. 6, June 2026, pp. 7630-7645.
IEEE DOI Code:
WWW Link. 2606
Radar, Radar imaging, Cameras, Feature extraction, Semantics, Point cloud compression, Radar detection, Object detection, Videos, 3D occupancy prediction BibRef

Oh, G.[Geunseob], Valois, J.S.[Jean-Sébastien],
HCNAF: Hyper-Conditioned Neural Autoregressive Flow and its Application for Probabilistic Occupancy Map Forecasting,
CVPR20(14538-14547)
IEEE DOI 2008
Computational modeling, Task analysis, Mathematical model, Data models, Neural networks, Forecasting BibRef

Ramakrishnan, S.K.[Santhosh K.], Al-Halah, Z.[Ziad], Grauman, K.[Kristen],
Occupancy Anticipation for Efficient Exploration and Navigation,
ECCV20(V:400-418).
Springer DOI 2011
BibRef

Cokbas, M., Ishwar, P., Konrad, J.,
Low-Resolution Overhead Thermal Tripwire for Occupancy Estimation,
PBVS20(398-406)
IEEE DOI 2008
Thermal sensors, Cameras, Event detection, Tracking, Land surface temperature, Feature extraction BibRef

Chouliara, A.[Adamantia], Peppas, K.[Konstantinos], Tsolakis, A.C.[Apostolos C.], Vafeiadis, T.[Thanasis], Krinidis, S.[Stelios], Tzovaras, D.[Dimitrios],
Occupancy Inference Through Energy Consumption Data: A Smart Home Experiment,
CVS19(670-679).
Springer DOI 1912
BibRef

Liu, Z., Zhang, J., Geng, L.,
An Intelligent Building Occupancy Detection System Based on Sparse Auto-Encoder,
SoftBio17(17-22)
IEEE DOI 1609
building management systems, energy conservation, image coding, learning (artificial intelligence), object detection, power engineering computing, data analysis, deep learning technology, energy saving, BibRef

Yan, Y., Xu, M., Smith, J.S.,
Multiview pedestrian localisation via a prime candidate chart based on occupancy likelihoods,
ICIP17(2334-2338)
IEEE DOI 1803
Benchmark testing, Cameras, Color, Phantoms, Robustness, Transmission line matrix methods, image fusion, visual surveillance BibRef

Chandran, A.K., Subramaniam, A., Wong, W.C., Yang, J., Chaturvedi, K.A.,
A PTZ camera based people-occupancy estimation system (PCBPOES),
MVA17(145-148)
DOI Link 1708
Cameras, Head, Lighting, Magnetic heads, Probabilistic logic, Retina, Support vector machines. BibRef

Lin, Y.S., Chen, H.T., Chuang, J.H.,
An efficient probabilistic occupancy map-based people localization approach,
VCIP15(1-4)
IEEE DOI 1605
Cameras BibRef

Conti, F.[Francesco], Pullini, A.[Antonio], Benini, L.[Luca],
Brain-Inspired Classroom Occupancy Monitoring on a Low-Power Mobile Platform,
ECVW14(624-629)
IEEE DOI 1409
brain-inspired computer vision BibRef

Gade, R.[Rikke], Jorgensen, A.[Anders], Moeslund, T.B.[Thomas B.],
Long-Term Occupancy Analysis Using Graph-Based Optimisation in Thermal Imagery,
CVPR13(3698-3705)
IEEE DOI 1309
BibRef

Hu, T.[Tao], Mutlu, S.[Sinan], Lanz, O.[Oswald],
Multicamera People Tracking Using a Locus-based Probabilistic Occupancy Map,
CIAP13(II:693-702).
Springer DOI 1309
BibRef

Wang, Q.[Quan], Zhang, X.C.[Xin-Chi], Wang, M.[Meng], Boyer, K.L.[Kim L.],
Learning Room Occupancy Patterns from Sparsely Recovered Light Transport Models,
ICPR14(1987-1992)
IEEE DOI 1412
Color BibRef

Li, Y.[You], Ruichek, Y.[Yassine],
Observing Dynamic Urban Environment through Stereo-Vision Based Dynamic Occupancy Grid Mapping,
CIAP13(II:379-388).
Springer DOI 1309
For vehicle guidance. BibRef

Chapter on Motion -- Human Motion, Surveillance, Tracking, Surveillance, Activities continues in
Human Activities, Interactions between People .

Last update:Jun 13, 2026 at 20:41:05