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Mihran Tuceryan
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2020 – today
- 2024
- [c39]Sedat Kilic, Mihran Tuceryan:
Crime Detection from Pre-crime Video Analysis with Augmented Pose and Emotion Information. SSIAI 2024: 97-100 - 2023
- [j18]Hibah Alatawi, Nouf Albalawi, Ghadah Shahata, Khulud Aljohani, A'aeshah Alhakamy, Mihran Tuceryan:
Augmented Reality-Assisted Deep Reinforcement Learning-Based Model towards Industrial Training and Maintenance for NanoDrop Spectrophotometer. Sensors 23(13): 6024 (2023) - [c38]Sedat Kilic, Mihran Tuceryan:
Crime Detection from Pre-crime Video Analysis with Augmented Pose Information. eIT 2023: 1-6 - 2021
- [j17]A'aeshah Alhakamy, Mihran Tuceryan:
Real-time Illumination and Visual Coherence for Photorealistic Augmented/Mixed Reality. ACM Comput. Surv. 53(3): 49:1-49:34 (2021) - [c37]Blake Troutman, Mihran Tuceryan:
Towards Fast and Automatic Map Initialization for Monocular SLAM Systems. ROBOVIS 2021: 22-30 - 2020
- [j16]A'aeshah Alhakamy, Mihran Tuceryan:
Physical Environment Reconstruction Beyond Light Polarization for Coherent Augmented Reality Scene on Mobile Devices. Trans. Comput. Sci. 37: 19-38 (2020) - [c36]Mihran Tuceryan, Anish N. Hemmady, Craig Schebler, Alpha Alex, Ashay D. Bhatwadekar:
Automated computer-based enumeration of acellular capillaries for assessment of diabetic retinopathy. Biomedical Applications in Molecular, Structural, and Functional Imaging 2020: 113170N
2010 – 2019
- 2019
- [c35]A'aeshah Alhakamy, Mihran Tuceryan:
An Empirical Evaluation of the Performance of Real-Time Illumination Approaches: Realistic Scenes in Augmented Reality. AVR (2) 2019: 179-195 - [c34]A'aeshah Alhakamy, Mihran Tuceryan:
Polarization-Based Illumination Detection for Coherent Augmented Reality Scene Rendering in Dynamic Environments. CGI 2019: 3-14 - 2018
- [j15]Ruwan Egoda Gamage, Mihran Tuceryan:
Distributed monocular visual SLAM as a basis for a collaborative augmented reality framework. Comput. Graph. 71: 113-123 (2018) - 2017
- [j14]Ruwan Egoda Gamage, Mihran Tuceryan:
Distributed Monocular SLAM for Indoor Map Building. J. Sensors 2017: 6842173:1-6842173:11 (2017) - [c33]Ruwan Egoda Gamage, Mihran Tuceryan:
A Collaborative Augmented Reality Framework Based on Distributed Visual Slam. CW 2017: 25-32 - [c32]Ruwan Egoda Gamage, Mihran Tuceryan:
A Distributed Framework for Monocular Visual SLAM. MAICS 2017: 55-61 - 2016
- [c31]Ryan Rybarczyk, Rajeev R. Raje, Mihran Tuceryan:
Infusing trust in indoor tracking: poster. DEBS 2016: 374-377 - [c30]Ruwan Egoda Gamage, Mihran Tuceryan:
An experimental distributed framework for distributed Simultaneous Localization and Mapping. EIT 2016: 665-667 - 2015
- [c29]Andy Harris, Arjan Durresi, Mihran Tuceryan, Tamara S. Hannon:
Integrated and Personalized Diabetes Coach for Children. AINA Workshops 2015: 31-35 - 2013
- [j13]Varin Chouvatut, Suthep Madarasmi, Mihran Tuceryan:
3D face and motion estimation from sparse points using adaptive bracketed minimization. Multim. Tools Appl. 63(2): 569-589 (2013) - [c28]Ryan Rybarczyk, Rajeev R. Raje, Mihran Tuceryan:
eDOTS 2.0: A Pervasive Indoor Tracking System. SEKE 2013: 429-434 - [c27]Ruwan Egoda Gamage, Abhishek Joshi, Jiang Yu Zheng, Mihran Tuceryan:
A high resolution 3D tire and footprint impression acquisition for forensics applications. WACV 2013: 317-322 - 2012
- [c26]Ruwan Egoda Gamage, Abhishek Joshi, Jiang Yu Zheng, Mihran Tuceryan:
A 3D Impression Acquisition System for Forensic Applications. WDIA 2012: 9-20 - 2011
- [j12]Varin Chouvatut, Suthep Madarasmi, Mihran Tuceryan:
3D Face and Motion from Feature Points Using Adaptive Constrained Minima. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 94-A(11): 2207-2219 (2011) - [j11]Amirali Jazayeri, Hongyuan Cai, Jiang Yu Zheng, Mihran Tuceryan:
Vehicle Detection and Tracking in Car Video Based on Motion Model. IEEE Trans. Intell. Transp. Syst. 12(2): 583-595 (2011) - 2010
- [c25]Varin Chouvatut, Suthep Madarasmi, Mihran Tuceryan:
3D Reconstruction and Camera Pose from Video Sequence Using Multi-dimensional Descent. ICISTM 2010: 282-292 - [c24]Omkar J. Tilak, Snehasis Mukhopadhyay, Mihran Tuceryan, Rajeev R. Raje:
A novel reinforcement learning framework for sensor subset selection. ICNSC 2010: 95-100 - [c23]Amirali Jazayeri, Hongyuan Cai, Jiang Yu Zheng, Mihran Tuceryan:
Motion based vehicle identification in car video. Intelligent Vehicles Symposium 2010: 493-499 - [c22]Amirali Jazayeri, Hongyuan Cai, Mihran Tuceryan, Jiang Yu Zheng:
Smart video systems in police cars. ACM Multimedia 2010: 807-810
2000 – 2009
- 2009
- [c21]Adebayo Olowoyeye, Mihran Tuceryan, Shiaofen Fang:
Medical volume segmentation using bank of Gabor filters. SAC 2009: 826-829 - [c20]Glenn Flora, Mihran Tuceryan, Herbert Blitzer:
Forensic bite mark identification using image processing methods. SAC 2009: 903-907 - [c19]Amirali Jazayeri, Hongyuan Cai, Jiang Yu Zheng, Mihran Tuceryan, Herbert Blitzer:
An intelligent video system for vehicle localization and tracking in police cars. SAC 2009: 939-940 - 2008
- [c18]Douglas S. Greer, Mihran Tuceryan:
Image retrieval and classification using associative reciprocal-image attractors. ICIP 2008: 713-716 - [c17]Girish G. Joshi, Rajeev R. Raje, Mihran Tuceryan:
Designing and Experimenting with a Distributed Tracking System. ICPADS 2008: 64-71 - 2007
- [c16]Alex Leykin, Mihran Tuceryan:
Detecting shopper groups in video sequences. AVSS 2007: 417-422 - 2006
- [c15]Jiandong Fang, Shiaofen Fang, Jeffrey Huang, Mihran Tuceryan:
Digital geometry image analysis for medical diagnosis. SAC 2006: 217-221 - [c14]Shih-Hsi Liu, Barrett R. Bryant, Jeffrey G. Gray, Rajeev R. Raje, Mihran Tuceryan, Andrew M. Olson, Mikhail Auguston:
QoSPL: A QoS-Driven Software Product Line Engineering Framework for Distributed Real-time and Embedded Systems. SEKE 2006: 724-729 - 2005
- [c13]Shih-Hsi Liu, Barrett R. Bryant, Mikhail Auguston, Jeff Gray, Rajeev R. Raje, Mihran Tuceryan:
A Component-Based Approach for Constructing High-Confidence Distributed Real-Time and Embedded Systems. Monterey Workshop 2005: 225-247 - 2004
- [c12]Alex Leykin, Florin Cutzu, Mihran Tuceryan:
Using Multiple Views To Resolve Human Body Tracking Ambiguities. BMVC 2004: 1-10 - [c11]Alex Leykin, Mihran Tuceryan:
Automatic Determination of Text Readability over Textured Backgrounds for Augmented Reality Systems. ISMAR 2004: 224-230 - [c10]Alex Leykin, Mihran Tuceryan:
Determining text readability over textured backgrounds in augmented reality systems. VRCAI 2004: 436-439 - 2002
- [j10]Mihran Tuceryan, Yakup Genc, Nassir Navab:
Single-Point Active Alighment Method (SPAAM) for Optical See-Through HMD Calibration for Augmented Reality. Presence Teleoperators Virtual Environ. 11(3): 259-276 (2002) - [c9]Yakup Genc, Mihran Tuceryan, Nassir Navab:
Practical Solutions for Calibration of Optical See-Through Devices. ISMAR 2002: 169-175 - 2001
- [c8]Yakup Genc, Mihran Tuceryan, Ali Khamene, Nassir Navab:
Optical See-through Calibration with Vision-Based Trackers: Propagation of Projection Matrices. ISAR 2001: 147-156 - [c7]Erin McGarrity, Yakup Genc, Mihran Tuceryan, Charles B. Owen, Nassir Navab:
A New System for Online Quantitative Evaluation of Optical See-through Augmentation. ISAR 2001: 157- - 2000
- [c6]Mihran Tuceryan, Nassir Navab:
Single point active alignment method (SPAAM) for optical see-through HMD calibration for AR. ISAR 2000: 149-158 - [c5]Yakup Genc, Frank Sauer, Fabian Wenzel, Mihran Tuceryan, Nassir Navab:
Optical see-through HMD calibration: a stereo method validated with a video see-through system. ISAR 2000: 165-174
1990 – 1999
- 1999
- [c4]Erin McGarrity, Mihran Tuceryan:
A method for calibrating see-through head-mounted displays for AR. IWAR 1999: 75-84 - 1998
- [c3]Shiaofen Fang, Tom Biddlecome, Mihran Tuceryan:
Image-based transfer function design for data exploration in volume visualization. IEEE Visualization 1998: 319-326 - 1997
- [j9]Gudrun Klinker, Klaus H. Ahlers, David E. Breen, Pierre-Yves Chevalier, Chris Crampton, Douglas S. Greer, Dieter Koller, André Kramer, Eric Rose, Mihran Tuceryan, Ross T. Whitaker:
Confluence of Computer Vision and Interactrive Graphics for Augmented Reality. Presence Teleoperators Virtual Environ. 6(4): 433-451 (1997) - [c2]Dieter Koller, Gudrun Klinker, Eric Rose, David E. Breen, Ross T. Whitaker, Mihran Tuceryan:
Automated Camera Calibration and 3D Egomotion Estimation for Augmented Reality Applications. CAIP 1997: 199-206 - [c1]Dieter Koller, Gudrun Klinker, Eric Rose, David E. Breen, Ross T. Whitaker, Mihran Tuceryan:
Real-time vision-based camera tracking for augmented reality applications. VRST 1997: 87-94 - 1996
- [j8]David E. Breen, Ross T. Whitaker, Eric Rose, Mihran Tuceryan:
Interactive Occlusion and Automatic Object Placement for Augmented Reality. Comput. Graph. Forum 15(3): 11-22 (1996) - 1995
- [j7]Klaus H. Ahlers, André Kramer, David E. Breen, Pierre-Yves Chevalier, Chris Crampton, Eric Rose, Mihran Tuceryan, Ross T. Whitaker, Douglas S. Greer:
Distributed Augmented Reality for Collaborative Design Applications. Comput. Graph. Forum 14(3): 3-14 (1995) - [j6]Ross T. Whitaker, Chris Crampton, David E. Breen, Mihran Tuceryan, Eric Rose:
Object Calibration for Augmented Reality. Comput. Graph. Forum 14(3): 15-28 (1995) - [j5]Deborah Anne Trytten, Mihran Tuceryan:
The construction of labeled line drawings from intensity images. Pattern Recognit. 28(2): 171-198 (1995) - [j4]Mihran Tuceryan, Douglas S. Greer, Ross T. Whitaker, David E. Breen, Eric Rose, Klaus H. Ahlers, Chris Crampton:
Calibration Requirements and Procedures for a Monitor-Based Augmented Reality System. IEEE Trans. Vis. Comput. Graph. 1(3): 255-273 (1995) - [p1]Eric Rose, David E. Breen, Klaus H. Ahlers, Chris Crampton, Mihran Tuceryan, Ross T. Whitaker, Douglas S. Greer:
Annotating Real-World Objects Using Augmented Reality. Computer Graphics 1995: 357-370 - 1994
- [j3]Mihran Tuceryan:
Moment-based texture segmentation. Pattern Recognit. Lett. 15(7): 659-668 (1994) - 1991
- [j2]Mihran Tuceryan, Terrence Chorzempa:
Relative sensitivity of a family of closest-point graphs in computer vision applications. Pattern Recognit. 24(5): 361-373 (1991)
1980 – 1989
- 1989
- [j1]Narendra Ahuja, Mihran Tuceryan:
Extraction of early perceptual structure in dot patterns: Integrating region, boundary, and component gestalt. Comput. Vis. Graph. Image Process. 48(3): 304-356 (1989)
Coauthor Index
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last updated on 2024-11-28 20:33 CET by the dblp team
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