Keith Price Bibliography Indoor Navigation Issues, Lines, Walls, Doors, Flat Surfaces

15.3.3.3 Indoor Navigation Issues, Lines, Walls, Doors, Flat Surfaces

Chapter Contents (Back)
Indoor Navigation.

Saitoh, H.[Hiroshi], Noso, K.[Kazunori], Kurami, K.[Kunihiko], Kishi, N.[Norimasa],
System and method for calculating movement direction and position of an unmanned vehicle,
US_Patent4,819,169, Apr 4, 1989
WWW Version. Known features. BibRef 8904

Tomikawa, H.[Hisao], Okazaki, M.[Mamoru],
Method and apparatus for detecting traveling position and/or direction of an unmanned vehicle,
US_Patent4,847,774, Jul 11, 1989
WWW Version. Given markings BibRef 8907

Fujii, Y.[Yasuo], Hayashi, M.[Masahiko],
Boundary detecting method and apparatus for automatic working vehicle,
US_Patent4,868,752, Sep 19, 1989
WWW Version. Follow markings. BibRef 8909

Evans, Jr., J.M.[John M.], Weiman, C.F.R.[Carl F. R.], King, S.J.[Steven J.],
Mobile robot navigation employing ceiling light fixtures,
US_Patent4,933,864, Jun 12, 1990
WWW Version. BibRef 9006

Buffa, M., Faugeras, O.D., and Zhang, Z.,
Obstacle Avoidance and Trajectory Planning for an Indoor Mobile Robot Using Stereo Vision and Delaunay Triangulation,
VVG1992, Chapter 13, pp. 268-283. 3D map of the environment at about 1-5 Hz using a trinocular system. Used for obstacle avoidance and trajectory planning. BibRef 9200

Dulimarta, H.S., Jain, A.K.,
Mobile Robot Localization In Indoor Environment,
PR(30), No. 1, January 1997, pp. 99-111.
WWW Version. 9702
BibRef

Weng, J.Y., Chen, S.Y.,
Vision-Guided Navigation Using SHOSLIF,
NeurNet(11), No. 7-8, October/November 1998, pp. 1511-1529. 9811
BibRef

Chen, S.Y.[Shao-Yun], Weng, J.Y.[John Y.],
State-Based SHOSLIF for Indoor Visual Navigation,
ICPR98(Vol I: 482-484).
IEEE DOI Link 9808
BibRef

Chen, S.Y.[Shao-Yun], Weng, J.Y.[Ju-Yang],
Calibration for peripheral attenuation in intensity images,
ICIP94(II: 992-996).
IEEE DOI Link 9411
BibRef

Thrun, S.[Sebastian],
Learning metric-topological maps for indoor mobile robot navigation,
AI(99), No. 1, February 1998, pp. 21-71.
WWW Version. BibRef 9802

Thrun, S.[Sebastian], Bucken, A.[Arno],
Learning Maps for Indoor Mobile Robot Navigation,
CMU-CS-TR-96-121, April 1996.
Postscript Version. BibRef 9604

Lookingbill, A., Rogers, J., Lieb, D., Curry, J., Thrun, S.[Sebastian],
Reverse Optical Flow for Self-Supervised Adaptive Autonomous Robot Navigation,
IJCV(74), No. 3, September 2007, pp. 287-302.
Springer DOI Link 0707
BibRef

Kim, D.[Dongsung], and Nevatia, R.[Ramakant],
Recognition and Localization of Generic Objects for Indoor Navigation Using Functionality,
IVC(16), No. 11, August 1 1998, pp. 729-743.
WWW Version. BibRef 9808 USC Computer Vision 9808
BibRef
Earlier:
A Method for Recognition and Localization of Generic Objects for Indoor Navigation,
ARPA94(II:1069-1076). BibRef
And: WACV94(280-288).
IEEE Abstract. IEEE Top Reference.
PDF Version. BibRef

Kim, D., Nevatia, R.,
Representation and Computation of the Spatial Environment for Indoor Navigation,
CVPR94(475-482).
IEEE Abstract. IEEE Top Reference. BibRef 9400 USC Computer Vision
PDF Version. BibRef

Kim, D., Nevatia, R.,
Indoor Navigation without a Specific Map,
IAS93(xx). BibRef 9300 USC Computer Vision BibRef

Ku, C.H., Tsai, W.H.,
Obstacle Avoidance for Autonomous Land Vehicle Navigation in Indoor Environments by Quadratic Classifier,
SMC-B(29), No. 3, June 1999, pp. 416.
IEEE Top Reference. BibRef 9906

Tjan, B.S., Beckmann, P.J., Roy, R., Giudice, N., Legge, G.E.,
Digital Sign System for Indoor Wayfinding for the Visually Impaired,
VisImpaired05(III: 30-30).
IEEE DOI Link 0507
BibRef

Autio, I.[Ilkka], Elomaa, T.[Tapio],
Flexible view recognition for indoor navigation based on Gabor filters and support vector machines,
PR(36), No. 12, December 2003, pp. 2769-2779.
WWW Version. 0310
BibRef

Galindo, C., Fernandez-Madrigal, J.A., Gonzalez, J., Saffiotti, A., Buschka, P.,
Life-Long Optimization of the Symbolic Model of Indoor Environments for a Mobile Robot,
SMC-B(37), No. 5, October 2007, pp. 1290-1304.
IEEE DOI Link 0711
BibRef

LeBlanc, K., Saffiotti, A.,
Multirobot Object Localization: A Fuzzy Fusion Approach,
SMC-B(39), No. 5, October 2009, pp. 1259-1276.
IEEE DOI Link 0906
Sensor fusion, info from multiple sensors for localization. BibRef

Hu, J.S.[Jwu-Sheng], Liu, W.H.[Wei-Han], Cheng, C.C.[Chieh-Cheng],
Indoor sound field feature matching for robot's location and orientation detection,
PRL(29), No. 1, 15 January 2008, pp. 149-160.
WWW Version. 0711
GMM; Robot localization; Robot's orientation detection BibRef

Lee, J.[Jihyo], Ko, H.S.[Han-Seok],
Gradient-based local affine invariant feature extraction for mobile robot localization in indoor environments,
PRL(29), No. 14, October 2008, pp. 1934-1940.
WWW Version. 0804
Local feature extraction; Affine invariant; 3D rotation; Translation BibRef

Rodrigo, R., Zouqi, M., Chen, Z., Samarabandu, J.,
Robust and Efficient Feature Tracking for Indoor Navigation,
SMC-B(39), No. 3, June 2009, pp. 658-671.
IEEE DOI Link 0904
BibRef

Collier, J.[Jack], Ramirez-Serrano, A.[Alejandro],
Environment Classification for Indoor/Outdoor Robotic Mapping,
CRV09(276-283).
IEEE DOI Link 0905
BibRef

Gorte, B., Khoshelham, K., Verbree, E.,
Indoor Navigation by Using Segmentation of Range Images Obtained by Laser Scanners,
ISPRS08(B1: 971 ff).
PDF Version. 0807
BibRef

Lara, C.[Carlos], Romero, L.[Leonardo],
Robust Local Localization of a Mobile Robot in Indoor Environments Using Virtual Corners,
CIARP07(901-910).
Springer DOI Link 0711
BibRef

Kasprzak, W.[Wlodzimierz], Szynkiewicz, W.[Wojciech], Karolczak, M.[Mikolaj],
Global Color Image Features for Discrete Self-Localization of an Indoor Vehicle,
CAIP05(620).
Springer DOI Link 0509
BibRef

Aider, O.A.[O. Ait], Chateau, T., Lapreste, J.T.,
Indoor autonomous navigation using visual memory and pattern tracking,
BMVC04(xx-yy).
HTML Version. 0508
BibRef

Cohen, O., Edan, Y.,
Adaptive fuzzy logic algorithm for grid-map based sensor fusion,
IVS04(625-630).
IEEE Abstract. IEEE Top Reference. 0411
Sensor fusion applied to localization of indoor robot. BibRef

Ching, L.W.[Lee Wee], Leung, M.K.H.,
SINVI: smart indoor navigation for the visually impaired,
ICARCV04(II: 1072-1077).
IEEE DOI Link 0412
BibRef

Welles, II, K.B.[Kenneth Brakeley], Kelliher, T.P.[Timothy Patrick], Tu, P.H.[Peter Henry],
Method and system for calibrating relative fields of view of multiple cameras,
US_Patent6,873,924, Mar 29, 2005
WWW Version. BibRef 0503

Tu, P.H., Rittscher, J., Kelliher, T.P.,
Site calibration for large indoor scenes,
AVSBS03(358-363).
IEEE Abstract. IEEE Top Reference. 0310
BibRef

Bräuer-Burchardt, C.[Christian],
Automatic Monocular 3D-Reconstruction of Indoor Environments Using Mobile Vehicles,
DAGM02(370 ff.).
HTML Version. 0303
BibRef

Weng, J.Y.[Ju-Yang], Hwang, W.S.[Wey-Shiuan], Zhang, Y.,
Developmental Vision, Audition, Robots and Beyond,
AIPU02(1-38). 0905
BibRef

Hwang, W.S., Weng, J.,
Incremental Hierarchical Discriminating Regression for Indoor Visual Navigation,
ICIP01(I: 810-813).
IEEE Abstract. IEEE Top Reference. 0108
BibRef

Schreer, O.,
Stereo vision-based navigation in unknown indoor environment,
ECCV98(I: 203).
WWW Version. BibRef 9800

Holder, M., Trivedi, M.M., Marapane, S.B.,
Mobile Robot Navigation by Wall Following Using a Rotating Ultrasonic Scanner,
ICPR96(III: 298-302).
IEEE DOI Link 9608
(Univ. of California, La Jolla, USA) BibRef

Sarachik, K.B.,
Visual Navigation: Constructing and Utilizing Simple Maps of and Indoor Environment,
MIT AI-TR-1113, March 1989.
WWW Version. BibRef 8903

Chapter on Active Vision, Camera Calibration, Mobile Robots, Navigation, Road Following continues in
CMU Road Followers -- ALVINN YARF MANIAC .

Last update:Nov 16, 2009 at 19:35:14