20.5.1.2 Augmented Reality, With Panoramic, Omnidirectional Images

Chapter Contents (Back)
Augmented Reality. Panorama. Omnidirectional.

Onoe, Y.[Yoshio], Yamazawa, K.[Kazumasa], Takemura, H.[Haruo], Yokoya, N.[Naokazu],
Telepresence by Real-Time View-Dependent Image Generation from Omnidirectional Video Streams,
CVIU(71), No. 2, August 1998, pp. 154-165.
DOI Link Panoramic Views. Omnidirectional Sensors. BibRef 9808

Shimamura, J., Yokoya, N., Takemura, H., Yamazawa, K.,
Construction of an Immersive Mixed Environment using an Omnidirectional Stereo Image Sensor,
OMNIVIS00(xx-yy). 0012
BibRef
And: A1, A3, A2, A4:
Construction and Presentation of a Virtual Environment Using Panoramic Stereo Images of a Real Scene and Computer Graphics Models,
ICPR00(Vol IV: 463-467).
IEEE DOI 0009
BibRef

Yamaguchi, K., Takemura, H., Yamazawa, K., Yokoya, N.,
Real-time Generation and Presentation of View-dependent Binocular Stereo Images Using a Sequence of Omnidirectional Images,
ICPR00(Vol IV: 589-593).
IEEE DOI 0009
BibRef

Takemura, H.[Haruo], Iwasa, H.[Hidehiko], Yokoya, N.[Naokazu], Aihara, N.[Nobuhiro],
Memory-Based Self-Localization Using Omnidirectional Images,
ICPR98(Vol II: 1799-1803).
IEEE DOI 9808
BibRef

Yokoya, N.[Naokazu], Iwasa, H.[Hidehiko], Yamazawa, K.[Kazumasa], Kawanishi, T.[Takahito], Takemura, H.[Haruo],
Generation of High-Resolution Stereo Panoramic Images by Omnidirectional Imaging Sensor Using Hexagonal Pyramidal Mirrors,
ICPR98(Vol I: 485-489).
IEEE DOI 9808
BibRef

Kanbara, M., Iwasa, H., Takemura, H., Yokoya, N.,
A Stereo Vision-based Augmented Reality System with a Wide Range of Registration,
ICPR00(Vol IV: 147-151).
IEEE DOI 0009
BibRef

Yokoya, N.[Naokazu], Kiyokawa, K.[Kiyoshi], Okuma, T.[Takashi], Takemura, H.[Haruo],
An Augmented Reality System Using a Real-Time Vision Based Registration,
ICPR98(Vol II: 1226-1229).
IEEE DOI 9808
BibRef

Baudisch, P.,
Interacting with large displays,
Computer(39), No. 4, April 2006, pp. 96-99.
IEEE DOI 0604
BibRef

Kaneva, B.[Biliana], Sivic, J.[Josef], Torralba, A.B.[Antonio B.], Avidan, S.[Shai], Freeman, W.T.[William T.],
Infinite Images: Creating and Exploring a Large Photorealistic Virtual Space,
PIEEE(98), No. 8, August 2010, pp. 1391-1407.
IEEE DOI 1008
BibRef
Earlier: A2, A1, A3, A4, A5:
Creating and exploring a large photorealistic virtual space,
InterNet08(1-8).
IEEE DOI 0806
BibRef

Kaneva, B.[Biliana], Torralba, A.B.[Antonio B.], Freeman, W.T.[William T.],
Evaluation of image features using a photorealistic virtual world,
ICCV11(2282-2289).
IEEE DOI 1201
BibRef

Zhou, Y.[Yan], Chen, Z.Z.[Zhen-Zhong], Liu, S.[Shan],
Fast sample adaptive offset algorithm for 360-degree video coding,
SP:IC(80), 2020, pp. 115634.
Elsevier DOI 1912
360-degree video, H.265/HEVC, Sample adaptive offset, Fuzzy control BibRef

Wang, Y.B.[Ying-Bin], Li, Y.M.[Yi-Ming], Yang, D.Q.[Dai-Qin], Chen, Z.Z.[Zhen-Zhong],
A fast intra prediction algorithm for 360-degree equirectangular panoramic video,
VCIP17(1-4)
IEEE DOI 1804
computational complexity, data compression, image resolution, video coding, 2D image planar format, Virtual Reality BibRef

Wang, S.W.[Sheng-Wei], Wang, H.K.[Hong-Kui], Xiang, S.[Sen], Yu, L.[Li],
Densely connected convolutional network block based autoencoder for panorama map compression,
SP:IC(80), 2020, pp. 115678.
Elsevier DOI 1912
Autoencoder, Dense block, Neural network, Panorama map BibRef

Hristova, H., Simon, G., Corbillon, X., Devlic, A., Swaminathan, V.,
Heterogeneous Spatial Quality for Omnidirectional Video,
CirSysVideo(31), No. 4, April 2021, pp. 1411-1424.
IEEE DOI 2104
Streaming media, Encoding, Kernel, Shape, Bandwidth, Visualization, Virtual reality (VR), spherical filter BibRef

Fan, C.L., Yen, S.C., Huang, C.Y., Hsu, C.H.,
On the Optimal Encoding Ladder of Tiled 360° Videos for Head-Mounted Virtual Reality,
CirSysVideo(31), No. 4, April 2021, pp. 1632-1647.
IEEE DOI 2104
Videos, Encoding, Optimization, Servers, Bandwidth, Streaming media, Bit rate, 360° videos, encoding ladders, encoder configurations, optimization BibRef

Rubio-Tamayo, J.L.[Jose Luis], Gertrudix, M.[Manuel], Barro, M.[Mario],
Development of Standards for Production of Immersive 360 Motion Graphics, Based on 360 Monoscopic Videos: Layers of Information and Development of Content,
VAMR22(I:58-73).
Springer DOI 2206
BibRef


Dahou, Y.[Yasser], Tliba, M.[Marouane], McGuinness, K.[Kevin], O'Connor, N.E.[Noel E.],
ATSal: An Attention Based Architecture for Saliency Prediction in 360° Videos,
EgoApp20(305-320).
Springer DOI 2103
BibRef

Wallmyr, M.[Markus], Kade, D.[Daniel], Holstein, T.[Tobias],
360 Degree Mixed Reality Environment to Evaluate Interaction Design for Industrial Vehicles Including Head-Up and Head-Down Displays,
VAMR18(II: 377-391).
Springer DOI 1807
BibRef

Gödde, M.[Michael], Gabler, F.[Frank], Siegmund, D.[Dirk], Braun, A.[Andreas],
Cinematic Narration in VR: Rethinking Film Conventions for 360 Degrees,
VAMR18(II: 184-201).
Springer DOI 1807
BibRef

Ozcinar, C., de Abreu, A., Smolic, A.,
Viewport-aware adaptive 360° video streaming using tiles for virtual reality,
ICIP17(2174-2178)
IEEE DOI 1803
Adaptive systems, Bandwidth, Bit rate, Decoding, Encoding, Standards, Streaming media, 360° video, DASH, tiling, viewport-aware, virtual reality BibRef

Hashemian, A.M.[Abraham M.], Riecke, B.E.[Bernhard E.],
Leaning-Based 360° Interfaces: Investigating Virtual Reality Navigation Interfaces with Leaning-Based-Translation and Full-Rotation,
VAMR17(15-32).
Springer DOI 1712
BibRef

Domanski, M., Stankiewicz, O., Wegner, K., Grajek, T.,
Immersive visual media-MPEG-I: 360 video, virtual navigation and beyond,
WSSIP17(1-9)
IEEE DOI 1707
Bit rate, Cameras, Image coding, Transform coding, Video coding, Video compression, 3D 360 video, Future Video Coding, Immersive video, MPEG-I, free viewpoint, virtual reality BibRef

Xiu, X., He, Y., Ye, Y., Vishwanath, B.,
An evaluation framework for 360-degree video compression,
VCIP17(1-4)
IEEE DOI 1804
data compression, image resolution, video coding, 360-degree video compression, virtual reality BibRef

Thatte, J., Lian, T., Wandell, B., Girod, B.,
Stacked Omnistereo for virtual reality with six degrees of freedom,
VCIP17(1-4)
IEEE DOI 1804
rendering (computer graphics), stereo image processing, virtual reality, 6 DoF head motion, Stacked Omnistereo, BibRef

He, Y., Ye, Y., Hanhart, P., Xiu, X.,
Motion compensated prediction with geometry padding for 360 video coding,
VCIP17(1-4)
IEEE DOI 1804
computational geometry, motion compensation, video coding, 2D video coding, 360 video coding, motion compensation BibRef

Wang, Y., Wang, R., Wang, Z., Fan, K., Deng, Y., Syu, S., Shenzhen, M.J.J.,
Polar square projection for panoramic video,
VCIP17(1-4)
IEEE DOI 1804
video coding, 360° spherical video content, equirectangular projection, polar square projection scheme, virtual reality BibRef

Su, Y.C., Grauman, K.,
Making 360° Video Watchable in 2D: Learning Videography for Click Free Viewing,
CVPR17(1368-1376)
IEEE DOI 1711
Cameras, Cinematography, Computational efficiency, Lenses, Trajectory, Visualization BibRef

Nabiyouni, M., Scerbo, S., de Vito, V., Smolen, S., Starrin, P., Bowman, D.A.,
Design and evaluation of a visual acclimation aid for a semi-natural locomotion device,
3DUI15(11-14)
IEEE DOI 1511
human computer interaction VR in large environment. BibRef

Ardouin, J., Lecuyer, A., Marchal, M., Marchand, E.,
Navigating in virtual environments with 360deg omnidirectional rendering,
3DUI13(95-98)
IEEE DOI 1406
data visualisation BibRef

Guan, W.[Wei], You, S.[Suya], Neumann, U.[Ulrich],
Efficient matchings in augmented reality application,
ICIP12(997-1000).
IEEE DOI 1302
BibRef
Earlier:
Computationally efficient retrieval-based tracking system and augmented reality for large-scale areas,
WACV11(410-417).
IEEE DOI 1101
BibRef

Hayashi, T.[Tomoki], Uchiyama, H.[Hideaki], Pilet, J.[Julien], Saito, H.[Hideo],
An Augmented Reality Setup with an Omnidirectional Camera Based on Multiple Object Detection,
ICPR10(3171-3174).
IEEE DOI 1008
BibRef

Yazawa, N.[Naoyuki], Uchiyama, H.[Hideaki], Saito, H.[Hideo], Servières, M.[Myriam], Moreau, G.[Guillaume],
Image Based View Localization System Retrieving from a Panorama Database by SURF,
MVA09(118-).
PDF File. 0905
BibRef

Uchiyama, H.[Hideaki], Saito, H.[Hideo], Servières, M.[Myriam], Moreau, G.[Guillaume],
AR GIS on a Physical Map Based on Map Image Retrieval Using LLAH Tracking,
MVA09(382-).
PDF File. 0905
BibRef

Arif, W.N.W.A.[Wan Norazlinawati Wan Abd], Ahmad, W.F.B.W.[Wan Fatimah Bt Wan], Nordin, S.M.[Shahrina M.], Abdullah, A.[Azrai], Sivapalan, S.[Subarna],
Designing 3 Dimensional Virtual Reality Using Panoramic Image,
IVIC09(404-414).
Springer DOI 0911
BibRef

Dehais, C., Douze, M.[Matthijs], Morin, G., Charvillat, V.[Vincent],
Augmented reality through real-time tracking of video sequences using a panoramic view,
ICPR04(IV: 995-998).
IEEE DOI 0409
BibRef

Douze, M.[Matthijs], Charvillat, V.[Vincent],
Real-Time Tracking of Video Sequences in a Panoramic View for Object-Based Video Coding,
SCIA03(1022-1029).
Springer DOI 0310
BibRef

Boult, T.E.[Terrance E.],
Remote Reality Omnidirectional Imaging,
DARPA98(1049-1052). BibRef 9800

Boult, T.E.,
Remote Reality Demonstration,
CVPR98(966-966).
IEEE DOI Demo presentation. BibRef 9800

Chapter on Implementations and Applications, Databases, QBIC, Video Analysis, Hardware and Software, Inspection continues in
Augmented Reality, Virtual Reality, Overviews, Surveys, Systems, Evaluations .


Last update:Mar 16, 2024 at 20:36:19