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2020 – today
- 2024
[j65]Miroslava Migovich
, Deeksha Adiani, Michael Breen, Amy Swanson, Timothy J. Vogus, Nilanjan Sarkar:
Stress Detection of Autistic Adults during Simulated Job Interviews Using a Novel Physiological Dataset and Machine Learning. ACM Trans. Access. Comput. 17(1): 1-25 (2024)- [c121]Hanchen David Wang, Nibraas Khan, Anna Chen, Nilanjan Sarkar, Pamela J. Wisniewski, Meiyi Ma:
MicroXercise: A Micro-Level Comparative and Explainable System for Remote Physical Therapy. CHASE 2024: 73-84 - [c120]Akshith Ullal, Mahrukh Tauseef, Alexandra Watkins, Lisa Juckett, Cathy A. Maxwell, Judith A. Tate, Lorraine C. Mion, Nilanjan Sarkar:
An Iterative Participatory Design Approach to Develop Collaborative Augmented Reality Activities for Older Adults in Long-Term Care Facilities. CHI 2024: 1009:1-1009:21 - [c119]Nibraas Khan, Mahrukh Tauseef, Ritam Ghosh, Nilanjan Sarkar:
A Novel Loss Function Utilizing Wasserstein Distance to Reduce Subject-Dependent Noise for Generalizable Models in Affective Computing. HCI (12) 2024: 18-30 - [c118]Isaiah Osborne, Abigale Plunk, Nathan Bolick, Siddhardha Chedella, Revanth Kommu, Drew Lickman, Warren Russell, Usman Saeed, Nilanjan Sarkar, Medha Shukla Sarkar:
Visualizing the Road Ahead: Human-Centered Dashboard Design for an Individualized Driving Simulator. HCI (57) 2024: 86-93 - [c117]Guangtao Nie, Zhi Zheng, Amy R. Swanson, Amy S. Weitlauf, Zachary E. Warren, Nilanjan Sarkar:
An Exploration into the Design of Multi-Session Robot-Mediated Joint Attention Intervention for Young Children with Autism. RO-MAN 2024: 1836-1841 - [i2]Hanchen David Wang, Nibraas Khan, Anna Chen, Nilanjan Sarkar, Pamela J. Wisniewski, Meiyi Ma:
MicroXercise: A Micro-Level Comparative and Explainable System for Remote Physical Therapy. CoRR abs/2408.11837 (2024) - 2023
- [j64]Akshith Ullal, Alexandra Watkins, Nilanjan Sarkar:
An Efficient Redirection of Positional Interactions in Mixed/ Augmented Reality. Int. J. Semantic Comput. 17(1): 95-118 (2023) - [j63]Abigale Plunk, Ashwaq Zaini Amat, Mahrukh Tauseef, Richard Alan Peters, Nilanjan Sarkar:
Semi-Supervised Behavior Labeling Using Multimodal Data during Virtual Teamwork-Based Collaborative Activities. Sensors 23(7): 3524 (2023) - [c116]Deeksha Adiani, Emily Tam Nguyen, Jessica Urban, Matthew Fadler, Amir Alam, Jonathan Garcia-Alamilla, Nilanjan Sarkar, Medha Shukla Sarkar:
Design of an Interview Script Authoring Tool for a Job Interview Training Simulator Using Graph Transformations. HCI (6) 2023: 413-431 - [c115]Akshith Ullal, Nilanjan Sarkar:
A Piecewise Approach to Mapping Interactions between Room-scale Environments in Remote Mixed/Augmented Reality. VR Workshops 2023: 663-664 - [i1]Nibraas Khan, Mahrukh Tauseef, Ritam Ghosh, Nilanjan Sarkar:
A Novel Loss Function Utilizing Wasserstein Distance to Reduce Subject-Dependent Noise for Generalizable Models in Affective Computing. CoRR abs/2308.10869 (2023) - 2022
- [j62]Deeksha Adiani, Aaron Itzkovitz, Dayi Bian, Harrison Katz, Michael Breen, Spencer Hunt, Amy Swanson, Timothy J. Vogus, Joshua W. Wade, Nilanjan Sarkar:
Career Interview Readiness in Virtual Reality (CIRVR): A Platform for Simulated Interview Training for Autistic Individuals and Their Employers. ACM Trans. Access. Comput. 15(1): 2:1-2:28 (2022) - [j61]Huan Zhao, Ashwaq Zaini Amat, Miroslava Migovich, Amy Swanson, Amy S. Weitlauf, Zachary Warren, Nilanjan Sarkar:
INC-Hg: An Intelligent Collaborative Haptic-Gripper Virtual Reality System. ACM Trans. Access. Comput. 15(1): 5:1-5:23 (2022) - [j60]Jing Fan, Lorraine C. Mion, Linda Beuscher, Akshith Ullal, Paul A. Newhouse, Nilanjan Sarkar:
SAR-Connect: A Socially Assistive Robotic System to Support Activity and Social Engagement of Older Adults. IEEE Trans. Robotics 38(2): 1250-1269 (2022) - [c114]Miroslava Migovich, Deeksha Adiani, Amy Swanson, Nilanjan Sarkar:
Heart Rate Variability for Stress Detection with Autistic Young Adults. HCI (31) 2022: 3-13 - [c113]Ritam Ghosh, Nibraas Khan, Miroslava Migovich, Devon Wilson, Emily Latshaw, Judith A. Tate, Lorraine C. Mion, Nilanjan Sarkar:
Iterative User Centered Design of Robot-Mediated Paired Activities for Older Adults with Mild Cognitive Impairment (MCI). HCI (30) 2022: 14-28 - [c112]Nibraas Khan, Ritam Ghosh, Miroslava Migovich, Andrew Johnson, Austin Witherow, Curtis Taylor, Matt Schroder, Tyler Vongpanya, Medha Shukla Sarkar, Nilanjan Sarkar:
A Data Collection and Annotation Tool for Asynchronous Multimodal Data During Human-Computer Interactions. HCI (29) 2022: 201-211 - [c111]Deeksha Adiani, Chang Qu, Timothy Gass, Sneha Gurram, Dylan LeMay, Ankit Bhusal, Medha Shukla Sarkar, Nilanjan Sarkar:
Evaluation of Webcam-Based Eye Tracking for a Job Interview Training Platform: Preliminary Results. HCI (35) 2022: 337-352 - [c110]Mahrukh Tauseef, Ashwaq Zaini Amat, Deeksha Adiani, Spencer Hunt, Makayla Honaker, Amy Swanson, Amy Weitlauf, Nilanjan Sarkar:
Design of a Virtual Task to Understand the Nature of Collaboration Between Autistic and Neurotypical Adults in Workplace Using Multimodal Data. HCI (8) 2022: 410-426 - [c109]Abigale Plunk, Ashwaq Zaini Amat, D. Mitchell Wilkes, Nilanjan Sarkar:
Automated Behavior Labeling During Team-Based Activities Involving Neurodiverse and Neurotypical Partners Using Multimodal Data. ICPR Workshops (1) 2022: 193-209 - [c108]Akshith Ullal, Alexandra Watkins, Nilanjan Sarkar:
A Multi-Objective Optimization Framework for Redirecting Pointing Gestures in Remote-Local Mixed/Augmented Reality. SUI 2022: 9:1-9:11 - [c107]Akshith Ullal, Nilanjan Sarkar:
Mapping of Locomotion Paths between Remote Environments in Mixed Reality using Mesh Deformation. VRST 2022: 67:1-67:2 - 2021
- [j59]Jing Fan, Akshith Ullal, Linda Beuscher, Lorraine C. Mion, Paul A. Newhouse, Nilanjan Sarkar:
Field Testing of Ro-Tri, a Robot-Mediated Triadic Interaction for Older Adults. Int. J. Soc. Robotics 13(7): 1711-1727 (2021) - [j58]Zhaobo Zheng, John E. Staubitz, Amy S. Weitlauf, Johanna Staubitz, Marney Pollack, Lauren Shibley, Michelle Hopton, William Martin, Amy Swanson, Pablo Juárez, Zachary E. Warren, Nilanjan Sarkar:
A Predictive Multimodal Framework to Alert Caregivers of Problem Behaviors for Children with ASD (PreMAC). Sensors 21(2): 370 (2021) - [j57]Huan Zhao, Ashwaq Zaini Amat, Miroslava Migovich, Amy Swanson, Amy S. Weitlauf, Zachary Warren, Nilanjan Sarkar:
C-Hg: A Collaborative Haptic-Gripper Fine Motor Skill Training System for Children with Autism Spectrum Disorder. ACM Trans. Access. Comput. 14(2): 9:1-9:28 (2021) - [j56]Zhaobo Kevin Zheng, Nandan Sarkar, Amy Swanson, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
CheerBrush: A Novel Interactive Augmented Reality Coaching System for Toothbrushing Skills in Children with Autism Spectrum Disorder. ACM Trans. Access. Comput. 14(4): 23:1-23:20 (2021) - [j55]Lian Zhang, Ashwaq Zaini Amat, Huan Zhao, Amy Swanson, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
Design of an Intelligent Agent to Measure Collaboration and Verbal-Communication Skills of Children With Autism Spectrum Disorder in Collaborative Puzzle Games. IEEE Trans. Learn. Technol. 14(3): 338-352 (2021) - [c106]Akshith Ullal, Cadence Watkins, Nilanjan Sarkar:
A Dynamically Weighted Multi-Objective Optimization Approach to Positional Interactions in Remote-Local Augmented/Mixed Reality. AIVR 2021: 29-37 - [c105]Miroslava Migovich, Ritam Ghosh, Nibraas Khan, Judith A. Tate, Lorraine C. Mion, Nilanjan Sarkar:
System Architecture and User Interface Design for a Human-Machine Interaction System for Dementia Intervention. HCI (26) 2021: 277-292 - [c104]Ashwaq Zaini Amat, Michael Breen, Spencer Hunt, Devon Wilson, Yousaf Khaliq, Nathan Byrnes, Daniel J. Cox, Steven Czarnecki, Cameron L. Justice, Deven A. Kennedy, Tristan C. Lotivio, Hunter K. McGee, Derrick M. Reckers, Justin W. Wade, Medha Shukla Sarkar, Nilanjan Sarkar:
Collaborative Virtual Environment to Encourage Teamwork in Autistic Adults in Workplace Settings. HCI (7) 2021: 339-348 - [c103]Michael Breen, James McClarty, Caleb Langley, Jamshid Farzidayeri, Kyle Trevethan, Brandon Swenson, Medha Shukla Sarkar, Joshua W. Wade, Nilanjan Sarkar:
2D and 3D Visualization of Eye Gaze Patterns in a VR-Based Job Interview Simulator: Application in Educating Employers on the Gaze Patterns of Autistic Candidates. HCI (7) 2021: 533-544 - [c102]Miroslava Migovich, Alex Korman, Joshua W. Wade, Nilanjan Sarkar:
Design and Validation of a Stress Detection Model for Use with a VR Based Interview Simulator for Autistic Young Adults. HCI (7) 2021: 580-588
2010 – 2019
- 2019
- [j54]Dayi Bian, Joshua W. Wade, Amy Swanson, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
Design of a Physiology-based Adaptive Virtual Reality Driving Platform for Individuals with ASD. ACM Trans. Access. Comput. 12(1): 2:1-2:24 (2019) - [j53]Joshua W. Wade, Robert Boyles, Patricia Flemming, Arpan Sarkar, Michael de Riesthal, Thomas J. Withrow, Nilanjan Sarkar:
Feasibility of Automated Mobility Assessment of Older Adults via an Instrumented Cane. IEEE J. Biomed. Health Informatics 23(4): 1631-1638 (2019) - [c101]Deeksha Adiani, Daniel Lewis, Vanessa Serao, Kevin Barrett, Amelia Bennett, Derick Hambly, Martina Shenoda, Samuel West, Garrett Coulter, Sultan Shagal, Toheeb Biala, Medha Shukla Sarkar, Joshua W. Wade, Nilanjan Sarkar:
Design of a Novel Web Utility that Provides Multi-lingual Word Definitions for Child E-Book Applications. HCI (26) 2019: 3-12 - [c100]Deeksha Adiani, Michael Schmidt, Joshua W. Wade, Amy R. Swanson, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
Usability Enhancement and Functional Extension of a Digital Tool for Rapid Assessment of Risk for Autism Spectrum Disorders in Toddlers Based on Pilot Test and Interview Data. HCI (8) 2019: 13-22 - [c99]Michael Schmidt, Robert Walters, Bryce Ault, Khem Poudel, Adam Mischke, Stone Jones, Austin Sockhecke, Marcus Spears, Patrick Clarke, Rober Makram, Sam Meagher, Medha Shukla Sarkar, Joshua W. Wade, Nilanjan Sarkar:
A Simple Web Utility for Automatic Speech Quantification in Dyadic Reading Interactions. HCI (26) 2019: 122-130 - [c98]Guangtao Nie, Akshith Ullal, Amy R. Swanson, Amy S. Weitlauf, Zachary E. Warren, Nilanjan Sarkar:
Design of an Intelligent and Immersive System to Facilitate the Social Interaction Between Caregivers and Young Children with Autism. HCI (8) 2019: 123-132 - 2018
- [j52]Lian Zhang, Qiang Fu, Amy Swanson, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
Design and Evaluation of a Collaborative Virtual Environment (CoMove) for Autism Spectrum Disorder Intervention. ACM Trans. Access. Comput. 11(2): 11:1-11:22 (2018) - [j51]Huan Zhao, Zhaobo Zheng, Amy Swanson, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
Design of a Haptic-Gripper Virtual Reality System (Hg) for Analyzing Fine Motor Behaviors in Children with Autism. ACM Trans. Access. Comput. 11(4): 19:1-19:21 (2018) - [j50]Joshua W. Wade, Heathman S. Nichols, Megan Ichinose, Dayi Bian, Esube Bekele, Matthew Snodgress, Ashwaq Zaini Amat, Eric L. Granholm, Sohee Park, Nilanjan Sarkar:
Extraction of Emotional Information via Visual Scanning Patterns: A Feasibility Study of Participants with Schizophrenia and Neurotypical Individuals. ACM Trans. Access. Comput. 11(4): 23:1-23:20 (2018) - [j49]Jing Fan, Joshua W. Wade, Alexandra P. Key, Zachary E. Warren, Nilanjan Sarkar:
EEG-Based Affect and Workload Recognition in a Virtual Driving Environment for ASD Intervention. IEEE Trans. Biomed. Eng. 65(1): 43-51 (2018) - [j48]Zhi Zheng, Huan Zhao, Amy Swanson, Amy Weitlauf, Zachary E. Warren, Nilanjan Sarkar:
Design, Development, and Evaluation of a Noninvasive Autonomous Robot-Mediated Joint Attention Intervention System for Young Children With ASD. IEEE Trans. Hum. Mach. Syst. 48(2): 125-135 (2018) - [j47]Huan Zhao, Amy Swanson, Amy Weitlauf, Zachary E. Warren, Nilanjan Sarkar:
Hand-in-Hand: A Communication-Enhancement Collaborative Virtual Reality System for Promoting Social Interaction in Children With Autism Spectrum Disorders. IEEE Trans. Hum. Mach. Syst. 48(2): 136-148 (2018) - [c97]Jing Fan, Linda Beuscher, Paul A. Newhouse, Lorraine C. Mion, Nilanjan Sarkar:
A Collaborative Virtual Game to Support Activity and Social Engagement for Older Adults. HCI (7) 2018: 192-204 - [c96]Ashwaq Zaini Amat, Amy Swanson, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
Design of an Assistive Avatar in Improving Eye Gaze Perception in Children with ASD During Virtual Interaction. HCI (7) 2018: 463-474 - [c95]Arpan Sarkar, Joshua W. Wade, Amy Swanson, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
A Data-Driven Mobile Application for Efficient, Engaging, and Accurate Screening of ASD in Toddlers. HCI (7) 2018: 560-570 - [c94]Huan Zhao, Amy Swanson, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
Understanding Fine Motor Patterns in Children with Autism Using a Haptic-Gripper Virtual Reality System. HCI (7) 2018: 650-659 - [c93]Guangtao Nie, Zhi Zheng, Jazette Johnson, Amy R. Swanson, Amy S. Weitlauf, Zachary E. Warren, Nilanjan Sarkar:
Predicting Response to Joint Attention Performance in Human-Human Interaction Based on Human-Robot Interaction for Young Children with Autism Spectrum Disorder. RO-MAN 2018: 1-4 - [c92]Zhaobo Zheng, James Zhu, Jing Fan, Nilanjan Sarkar:
Design and System Validation of Rassle: A Novel Active Socially Assistive Robot for Elderly with Dementia. RO-MAN 2018: 1-4 - 2017
- [j46]Eric M. Young, Thomas J. Withrow, Nilanjan Sarkar:
Design of intention-based assistive robot for upper limb. Adv. Robotics 31(11): 580-594 (2017) - [j45]Joshua W. Wade, Arpan Sarkar, Amy Swanson, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
Process Measures of Dyadic Collaborative Interaction for Social Skills Intervention in Individuals with Autism Spectrum Disorders. ACM Trans. Access. Comput. 10(4): 13:1-13:19 (2017) - [j44]Lian Zhang, Joshua W. Wade, Dayi Bian, Jing Fan, Amy Swanson, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
Cognitive Load Measurement in a Virtual Reality-Based Driving System for Autism Intervention. IEEE Trans. Affect. Comput. 8(2): 176-189 (2017) - [c91]Jing Fan, Esube Bekele, Zachary Warren, Nilanjan Sarkar:
EEG analysis of facial affect recognition process of individuals with ASD performance prediction leveraging social context. ACII Workshops 2017: 38-43 - [c90]Dayi Bian, Zhaobo Zheng, Amy Swanson, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
Design of a Multisensory Stimulus Delivery System for Investigating Response Trajectories in Infancy. HCI (7) 2017: 471-480 - [c89]Huan Zhao, Amy Swanson, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
Design of a Tablet Game to Assess the Hand Movement in Children with Autism. HCI (7) 2017: 555-564 - 2016
- [j43]Furui Wang, Christopher L. Jones, Milind Shastri, Kai Qian, Derek G. Kamper, Nilanjan Sarkar:
Design and evaluation of an actuated exoskeleton for examining motor control in stroke thumb. Adv. Robotics 30(3): 165-177 (2016) - [j42]Min Lei, Guang Meng, Wenming Zhang, Joshua W. Wade, Nilanjan Sarkar:
Symplectic Entropy as a Novel Measure for Complex Systems. Entropy 18(11): 412 (2016) - [j41]Joshua W. Wade, Lian Zhang, Dayi Bian, Jing Fan, Amy Swanson, Amy Weitlauf, Medha Shukla Sarkar, Zachary Warren, Nilanjan Sarkar:
A Gaze-Contingent Adaptive Virtual Reality Driving Environment for Intervention in Individuals with Autism Spectrum Disorders. ACM Trans. Interact. Intell. Syst. 6(1): 3:1-3:23 (2016) - [c88]Lian Zhang, Megan Gabriel-King, Zachary Armento, Miles Baer, Qiang Fu, Huan Zhao, Amy Swanson, Medha Shukla Sarkar, Zachary Warren, Nilanjan Sarkar:
Design of a Mobile Collaborative Virtual Environment for Autism Intervention. HCI (9) 2016: 265-275 - [c87]Huan Zhao, Amy Swanson, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
A Novel Collaborative Virtual Reality Game for Children with ASD to Foster Social Interaction. HCI (9) 2016: 276-288 - [c86]Dayi Bian, Joshua W. Wade, Zachary Warren, Nilanjan Sarkar:
Online Engagement Detection and Task Adaptation in a Virtual Reality Based Driving Simulator for Autism Intervention. HCI (9) 2016: 538-547 - [c85]Min Lei, Guang Meng, Wenming Zhang, Joshua W. Wade, Nilanjan Sarkar:
Brain Gamma Oscillations of Healthy People During Simulated Driving. ICIRA (2) 2016: 453-458 - [c84]Jing Fan, Linda Beuscher, Paul A. Newhouse, Lorraine C. Mion, Nilanjan Sarkar:
A robotic coach architecture for multi-user human-robot interaction (RAMU) with the elderly and cognitively impaired. RO-MAN 2016: 445-450 - [c83]Zhi Zheng, Guangtao Nie, Amy Swanson, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
Longitudinal Impact of Autonomous Robot-Mediated Joint Attention Intervention for Young Children with ASD. ICSR 2016: 581-590 - [c82]Esubalew Bekele, Joshua W. Wade, Dayi Bian, Jing Fan, Amy Swanson, Zachary Warren, Nilanjan Sarkar:
Multimodal adaptive social interaction in virtual environment (MASI-VR) for children with Autism spectrum disorders (ASD). VR 2016: 121-130 - 2015
- [c81]Lian Zhang, Joshua W. Wade, Amy Swanson, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
Cognitive state measurement from eye gaze analysis in an intelligent virtual reality driving system for autism intervention. ACII 2015: 532-538 - [c80]Jing Fan, Joshua W. Wade, Dayi Bian, Alexandra P. Key, Zachary E. Warren, Lorraine C. Mion, Nilanjan Sarkar:
A Step towards EEG-based brain computer interface for autism intervention. EMBC 2015: 3767-3770 - [c79]Joshua W. Wade, Dayi Bian, Jing Fan, Lian Zhang, Amy Swanson, Medha Shukla Sarkar, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
A Virtual Reality Driving Environment for Training Safe Gaze Patterns: Application in Individuals with ASD. HCI (9) 2015: 689-697 - [c78]Lian Zhang, Joshua W. Wade, Dayi Bian, Jing Fan, Amy Swanson, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
Multimodal Fusion for Cognitive Load Measurement in an Adaptive Virtual Reality Driving Task for Autism Intervention. HCI (9) 2015: 709-720 - [c77]Zhi Zheng, Qiang Fu, Huan Zhao, Amy Swanson, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
Design of a Computer-Assisted System for Teaching Attentional Skills to Toddlers with ASD. HCI (9) 2015: 721-730 - [c76]Zhi Zheng, Eric M. Young, Amy Swanson, Amy Weitlauf, Zachary Warren, Nilanjan Sarkar:
Robot-mediated mixed gesture imitation skill training for young children with ASD. ICAR 2015: 72-77 - [c75]Joshua W. Wade, Marco Beccani, Alec Myszka, Esubalew Bekele, Pietro Valdastri, Patricia Flemming, Michael de Riesthal, Thomas J. Withrow, Nilanjan Sarkar:
Design and implementation of an instrumented cane for gait recognition. ICRA 2015: 5904-5909 - [c74]Dayi Bian, Joshua W. Wade, Amy Swanson, Zachary Warren, Nilanjan Sarkar:
Physiology-based Affect Recognition During Driving in Virtual Environment for Autism Intervention. PhyCS 2015: 137-145 - 2014
- [j40]Yu Tian, Nilanjan Sarkar:
Control of a Mobile Robot Subject to Wheel Slip. J. Intell. Robotic Syst. 74(3-4): 915-929 (2014) - [c73]Esubalew Bekele, Joshua W. Wade, Dayi Bian, Lian Zhang, Zhi Zheng, Amy Swanson, Medha Shukla Sarkar, Zachary Warren, Nilanjan Sarkar:
Multimodal Interfaces and Sensory Fusion in VR for Social Interactions. HCI (16) 2014: 14-24 - [c72]Esubalew Bekele, Dayi Bian, Zhi Zheng, Joel Peterman, Sohee Park, Nilanjan Sarkar:
Responses during Facial Emotional Expression Recognition Tasks Using Virtual Reality and Static IAPS Pictures for Adults with Schizophrenia. HCI (17) 2014: 225-235 - [c71]Joshua W. Wade, Dayi Bian, Lian Zhang, Amy Swanson, Medha Shukla Sarkar, Zachary Warren, Nilanjan Sarkar:
Design of a Virtual Reality Driving Environment to Assess Performance of Teenagers with ASD. HCI (5) 2014: 466-474 - [c70]Lian Zhang, Joshua W. Wade, Dayi Bian, Amy Swanson, Zachary Warren, Nilanjan Sarkar:
Data Fusion for Difficulty Adjustment in an Adaptive Virtual Reality Game System for Autism Intervention. HCI (26) 2014: 648-652 - [c69]Yigit Can Aypar, Yunus Palaska, Ramazan Gokay, Engin Masazade, Duygun Erol Barkana, Nilanjan Sarkar:
Clustering of Emotional States under Different Task Difficulty Levels for the Robot-assisted Rehabilitation system-RehabRoby. ICINCO (1) 2014: 34-41 - [c68]Zhi Zheng, Shuvajit Das, Eric M. Young, Amy Swanson, Zachary Warren, Nilanjan Sarkar:
Autonomous robot-mediated imitation learning for children with autism. ICRA 2014: 2707-2712 - 2013
- [j39]Shahrul Naim Sidek, Nilanjan Sarkar:
Exploiting wheel slips of mobile robots to improve navigation performance. Adv. Robotics 27(8): 627-639 (2013) - [j38]Jadav Das, Nilanjan Sarkar:
Passivity-based target manipulation inside a deformable object by a robotic system with noncollocated feedback. Adv. Robotics 27(11): 861-875 (2013) - [j37]Yu Tian, Nilanjan Sarkar:
Game-based pursuit evasion for nonholonomic wheeled mobile robots subject to wheel slips. Adv. Robotics 27(14): 1087-1097 (2013) - [j36]D. Caleb Rucker, Jadav Das, Hunter B. Gilbert, Philip J. Swaney, Michael I. Miga, Nilanjan Sarkar, Robert J. Webster III:
Sliding Mode Control of Steerable Needles. IEEE Trans. Robotics 29(5): 1289-1299 (2013) - [j35]Esubalew Bekele, Zhi Zheng, Amy Swanson, Julie Ana Crittendon, Zachary Warren, Nilanjan Sarkar:
Understanding How Adolescents with Autism Respond to Facial Expressions in Virtual Reality Environments. IEEE Trans. Vis. Comput. Graph. 19(4): 711-720 (2013) - [c67]Esubalew Bekele, Zhi Zheng, Amy Swanson, Julie Davidson, Zachary Warren, Nilanjan Sarkar:
Virtual Reality-Based Facial Expressions Understanding for Teenagers with Autism. HCI (7) 2013: 454-463 - [c66]Esubalew Bekele, Mary Young, Zhi Zheng, Lian Zhang, Amy Swanson, Rebecca Johnston, Julie Davidson, Zachary Warren, Nilanjan Sarkar:
A Step towards Adaptive Multimodal Virtual Social Interaction Platform for Children with Autism. HCI (7) 2013: 464-473 - [c65]Dayi Bian, Joshua W. Wade, Lian Zhang, Esubalew Bekele, Amy Swanson, Julie Ana Crittendon, Medha Shukla Sarkar, Zachary Warren, Nilanjan Sarkar:
A Novel Virtual Reality Driving Environment for Autism Intervention. HCI (7) 2013: 474-483 - [c64]Zhi Zheng, Lian Zhang, Esubalew Bekele, Amy Swanson, Julie Ana Crittendon, Zachary Warren, Nilanjan Sarkar:
Impact of robot-mediated interaction system on joint attention skills for children with autism. ICORR 2013: 1-8 - 2012
- [c63]Yu Tian, Nilanjan Sarkar:
Formation control of mobile robots subject to wheel slip. ICRA 2012: 4553-4558 - [c62]Selvia Kuriakose, Nilanjan Sarkar, Uttama Lahiri:
A step towards an intelligent Human Computer Interaction: Physiology-based affect-recognizer. IHCI 2012: 1-6 - 2011
- [j34]Jadav Das, Nilanjan Sarkar:
Robust Shape Control of Deformable Objects Using Model-Based Techniques. Adv. Robotics 25(16): 2099-2123 (2011) - [j33]Jadav Das, Nilanjan Sarkar:
Autonomous Shape Control of a Deformable Object by Multiple Manipulators. J. Intell. Robotic Syst. 62(1): 3-27 (2011) - [j32]Duygun Erol Barkana, Jadav Das, Furui Wang, Thomas E. Groomes, Nilanjan Sarkar:
Incorporating verbal feedback into a robot-assisted rehabilitation system. Robotica 29(3): 433-443 (2011) - [c61]Uttama Lahiri, Esubalew Bekele, Elizabeth Dohrmann, Zachary Warren, Nilanjan Sarkar:
Design of a Virtual Reality Based Adaptive Response Technology for Children with Autism Spectrum Disorder. ACII (1) 2011: 165-174 - [c60]Joydip Barman, Gitendra Uswatte, Nilanjan Sarkar, Touraj Ghaffari, Brad Sokal:
Sensor-enabled RFID system for monitoring arm activity in daily life. EMBC 2011: 5219-5223 - [c59]Furui Wang, Milind Shastri, Christopher L. Jones, Vikash Gupta, Christian Osswald, Xuan Kang, Derek G. Kamper, Nilanjan Sarkar:
Design and control of an actuated thumb exoskeleton for hand rehabilitation following stroke. ICRA 2011: 3688-3693 - [c58]Esubalew Bekele, Uttama Lahiri, Julie Davidson, Zachary Warren, Nilanjan Sarkar:
Development of a novel robot-mediated adaptive response system for joint attention task for children with autism. RO-MAN 2011: 276-281 - 2010
- [j31]Karla Conn Welch, Uttama Lahiri, Zachary Warren, Nilanjan Sarkar:
An Approach to the Design of Socially Acceptable Robots for Children with Autism Spectrum Disorders. Int. J. Soc. Robotics 2(4): 391-403 (2010) - [j30]Uttama Lahiri, Robert F. Labadie, Changchun Liu, Ramya Balachandran, Omid Majdani, Nilanjan Sarkar:
A Step Toward Identification of Surgical Actions in Mastoidectomy. IEEE Trans. Biomed. Eng. 57(2): 479-487 (2010) - [c57]Jadav Das, Nilanjan Sarkar:
Planning and control of an internal point of a deformable object. ICRA 2010: 2877-2882 - [c56]Yu Tian, Jadav Das, Nilanjan Sarkar:
Near-optimal autonomous pursuit evasion for nonholonomic wheeled mobile robot subject to wheel slip. ICRA 2010: 4946-4951
2000 – 2009
- 2009
- [j29]Duygun Erol Barkana, Nilanjan Sarkar:
Towards a Smooth Human-Robot Interaction for Rehabilitation Robotic Systems. Adv. Robotics 23(12-13): 1641-1662 (2009) - [j28]Changchun Liu, Pramila Agrawal, Nilanjan Sarkar, Shuo Chen:
Dynamic Difficulty Adjustment in Computer Games Through Real-Time Anxiety-Based Affective Feedback. Int. J. Hum. Comput. Interact. 25(6): 506-529 (2009) - [j27]Vishnu Mallapragada, Nilanjan Sarkar, Tarun Kanti Podder:
Robot-Assisted Real-Time Tumor Manipulation for Breast Biopsy. IEEE Trans. Robotics 25(2): 316-324 (2009) - [c55]Yu Tian, Shahrul Naim Sidek, Nilanjan Sarkar:
Modeling and control of a nonholonomic Wheeled Mobile Robot with wheel slip dynamics. CICA 2009: 7-14 - [c54]Karla Conn Welch, Uttama Lahiri, Changchun Liu, Rebecca Weller, Nilanjan Sarkar, Zachary Warren:
An Affect-Sensitive Social Interaction Paradigm Utilizing Virtual Reality Environments for Autism Intervention. HCI (3) 2009: 703-712 - [c53]Jadav Das, Nilanjan Sarkar:
Shape control of a deformable object by multiple manipulators. IROS 2009: 960-965 - [c52]Furui Wang, Duygun Erol Barkana, Nilanjan Sarkar:
Evaluation of a robot-assisted rehabilitation system with assist-as- needed and visual error augmentation training methods. IROS 2009: 3555-3560 - 2008
- [j26]Kai Guo Yan, Tarun Kanti Podder, Ivan Buzurovic, Yida Hu, Edward Messing, Deborah J. Rubens, Adam Dicker, R. Valicenti, Nilanjan Sarkar, Wan Sing Ng, Yan Yu:
Radioactive seed immobilization techniques for interstitial brachytherapy. Int. J. Comput. Assist. Radiol. Surg. 3(1-2): 165-171 (2008) - [j25]Changchun Liu, Karla Conn, Nilanjan Sarkar, Wendy Stone:
Physiology-based affect recognition for computer-assisted intervention of children with Autism Spectrum Disorder. Int. J. Hum. Comput. Stud. 66(9): 662-677 (2008) - [j24]Changchun Liu, Karla Conn, Nilanjan Sarkar, Wendy Stone:
Online Affect Detection and Robot Behavior Adaptation for Intervention of Children With Autism. IEEE Trans. Robotics 24(4): 883-896 (2008) - [c51]Duygun Erol, Nilanjan Sarkar:
Synchronization of Arm and Hand Assistive Robotic Devices to Impart Activities of Daily Living Tasks. ICINCO-ICSO 2008: 5-12 - [c50]Shahrul Naim Sidek, Nilanjan Sarkar:
Dynamic Modeling and Control of Nonholonomic Mobile Robot with Lateral Slip. ICONS 2008: 35-40 - [c49]Vishnu Mallapragada, Nilanjan Sarkar, Tarun Kanti Podder:
Robot assisted real-time tumor manipulation for breast biopsy. ICRA 2008: 2515-2520 - [c48]Karla Conn, Changchun Liu, Nilanjan Sarkar, Wendy Stone, Zachary Warren:
Affect-sensitive assistive intervention technologies for children with autism: An individual-specific approach. RO-MAN 2008: 442-447 - 2007
- [j23]Pramila Rani, Nilanjan Sarkar, Julie A. Adams:
Anxiety-based affective communication for implicit human-machine interaction. Adv. Eng. Informatics 21(3): 323-334 (2007) - [j22]Bibhrajit Halder, Nilanjan Sarkar:
Robust nonlinear analytic redundancy for fault detection and isolation in mobile robot. Int. J. Autom. Comput. 4(2): 177-182 (2007) - [j21]Bibhrajit Halder, Nilanjan Sarkar:
Robust Fault Detection of a Robotic Manipulator. Int. J. Robotics Res. 26(3): 273-285 (2007) - [j20]Duygun Erol, Nilanjan Sarkar:
Intelligent Control for Robotic Rehabilitation after Stroke. J. Intell. Robotic Syst. 50(4): 341-360 (2007) - [c47]Medha Shukla Sarkar, Abisoye Mudasiru, Nilanjan Sarkar:
Design and implementation of a command processor for high level human-robot interaction system. ACM Southeast Regional Conference 2007: 209-214 - [c46]Vishnu Mallapragada, Nilanjan Sarkar, Tarun Kanti Podder:
A Robotic System for Real-time Tumor Manipulation During Image guided Breast Biopsy. BIBE 2007: 204-210 - [c45]Duygun Erol, Nilanjan Sarkar:
Intelligent Control Framework for Robotic Rehabilitation after Stroke. ICRA 2007: 1238-1243 - [c44]Changchun Liu, Karla Conn, Nilanjan Sarkar, Wendy Stone:
Affect Recognition in Robot Assisted Rehabilitation of Children with Autism Spectrum Disorder. ICRA 2007: 1755-1760 - [c43]Changchun Liu, Karla Conn, Nilanjan Sarkar, Wendy Stone:
Online Affect Detection and Adaptation in Robot Assisted Rehabilitation for Children with Autism. RO-MAN 2007: 588-593 - 2006
- [j19]Pramila Rani, Changchun Liu, Nilanjan Sarkar, Eric Vanman:
An empirical study of machine learning techniques for affect recognition in human-robot interaction. Pattern Anal. Appl. 9(1): 58-69 (2006) - [c42]Bibhrajit Halder, Nilanjan Sarkar:
Impact of the Order of Redundancy Relation in Robust Fault Detection of Robotic Systems. CDC 2006: 6500-6505 - [c41]Duygun Erol, Nilanjan Sarkar, Bibhrajit Halder:
A High-Level Controller for Robot-Assisted Rehabilitation. EMBC 2006: 3234-3237 - [c40]Pramila Rani, Changchun Liu, Nilanjan Sarkar:
Affective feedback in closed loop human-robot interaction. HRI 2006: 335-336 - [c39]Bibhrajit Halder, Nilanjan Sarkar:
Robust Fault Detection of Robotic Systems: New Results and Experiments. ICRA 2006: 3795-3800 - [c38]Changchun Liu, Pramila Rani, Nilanjan Sarkar:
Affective State Recognition and Adaptation in Human-Robot Interaction: A Design Approach. IROS 2006: 3099-3106 - [c37]Vishnu Mallapragada, Duygun Erol, Nilanjan Sarkar:
A New Method of Force Control for Unknown Environments. IROS 2006: 4509-4514 - [c36]Changchun Liu, Pramila Rani, Nilanjan Sarkar:
Human-Robot Interaction Using Affective Cues. RO-MAN 2006: 285-290 - 2005
- [c35]Pramila Rani, Nilanjan Sarkar:
Operator Engagement Detection and Robot Behavior Adaptation in Human-Robot Interaction. ICRA 2005: 2051-2056 - [c34]Changchun Liu, Pramila Rani, Nilanjan Sarkar:
An empirical study of machine learning techniques for affect recognition in human-robot interaction. IROS 2005: 2662-2667 - [c33]Pramila Rani, Nilanjan Sarkar:
Making robots emotion-sensitive - preliminary experiments and results. RO-MAN 2005: 1-6 - [c32]Pramila Rani, Nilanjan Sarkar:
EMG-based high level human-robot interaction system for people with disability. RO-MAN 2005: 280-285 - [c31]Duygun Erol, Vishnu Mallapragada, Nilanjan Sarkar:
Adaptable force control in robotic rehabilitation. RO-MAN 2005: 649-654 - [p1]Pramila Rani, Medha Shukla Sarkar, Robert Brackin, Nilanjan Sarkar:
Semi-Autonomous Human-Robot Interaction for People with Disability. Multi-point Interaction with Real and Virtual Objects 2005: 131-148 - 2004
- [j18]Kazuhiko Kawamura, Richard Alan Peters II, Robert E. Bodenheimer, Nilanjan Sarkar, Juyi Park, Charles A. Clifton, Albert W. Spratley, Kimberly A. Hambuchen:
A Parallel Distributed Cognitive Control System for a Humanoid Robot. Int. J. Humanoid Robotics 1(1): 65-93 (2004) - [j17]Pramila Rani, Nilanjan Sarkar, Craig A. Smith, Leslie D. Kirby:
Anxiety detecting robotic system - towards implicit human-robot collaboration. Robotica 22(1): 85-95 (2004) - [j16]Tarun Kanti Podder, Nilanjan Sarkar:
A unified dynamics-based motion planning algorithm for autonomous underwater vehicle-manipulator systems (UVMS). Robotica 22(1): 117-128 (2004) - [c30]David J. Bruemmer, Douglas A. Few, Michael A. Goodrich, Donald A. Norman, Nilanjan Sarkar, Jean Scholtz, Bill Smart, Mark L. Swinson, Holly A. Yanco:
How to trust robots further than we can throw them. CHI Extended Abstracts 2004: 1576-1577 - [c29]Pramila Rani, Nilanjan Sarkar:
Emotion-sensitive robots - a new paradigm for human-robot interaction. Humanoids 2004: 149-167 - [c28]Juyi Park, Steven C. Ferguson, Nilanjan Sarkar, Kazuhiko Kawamura, William Bluethmann, Robert O. Ambrose, Ken Alder:
Toward intelligent system health monitoring for NASA robonaut. Humanoids 2004: 855-868 - [c27]Zhen Zhang, Nilanjan Sarkar, Xiaoping Yun:
Supervisory Control of a Mobile Robot for Agile Motion Coordination. ICRA 2004: 2196-2203 - [c26]Phongchai Nilas, Pramila Rani, Nilanjan Sarkar:
An Innovative High-level Human-robot Interaction for Disabled Persons. ICRA 2004: 2309-2314 - 2003
- [c25]Pramila Rani, Nilanjan Sarkar, Craig A. Smith:
Affect-sensitive human-robot cooperation-theory and experiments. ICRA 2003: 2382-2387 - [c24]Pramila Rani, Nilanjan Sarkar, Craig A. Smith, Julie A. Adams:
Affective communication for implicit human-machine interaction. SMC 2003: 4896-4903 - 2002
- [j15]Gianluca Antonelli, Nilanjan Sarkar, Stefano Chiaverini:
Explicit force control for underwater vehicle-manipulator systems. Robotica 20(3): 251-260 (2002) - [j14]Pramila Rani, Jared Sims, Robert Brackin, Nilanjan Sarkar:
Online stress detection using psychophysiological signals for implicit human-robot cooperation. Robotica 20(6): 673-685 (2002) - [j13]Nilanjan Sarkar, Tarun Kanti Podder, Gianluca Antonelli:
Fault-accommodating thruster force allocation of an AUV considering thruster redundancy and saturation. IEEE Trans. Robotics Autom. 18(2): 223-233 (2002) - [c23]Nilanjan Sarkar:
Psychophysiological Control Architecture for Human-Robot Coordination - Concepts and Initial Experiments. ICRA 2002: 3719-3724 - 2001
- [j12]Tarun Kanti Podder, Gianluca Antonelli, Nilanjan Sarkar:
An experimental investigation into the fault-tolerant control of an autonomous underwater vehicle. Adv. Robotics 15(5): 501-520 (2001) - [j11]Tarun Kanti Podder, Nilanjan Sarkar:
Fault-tolerant control of an autonomous underwater vehicle under thruster redundancy. Robotics Auton. Syst. 34(1): 39-52 (2001) - [j10]Yong Cui, Nilanjan Sarkar:
A unified force control approach to autonomous underwater manipulation. Robotica 19(3): 255-266 (2001) - [j9]Gianluca Antonelli, Stefano Chiaverini, Nilanjan Sarkar, Michael West:
Adaptive control of an autonomous underwater vehicle: experimental results on ODIN. IEEE Trans. Control. Syst. Technol. 9(5): 756-765 (2001) - [j8]Gianluca Antonelli, Stefano Chiaverini, Nilanjan Sarkar:
External force control for underwater vehicle-manipulator systems. IEEE Trans. Robotics Autom. 17(6): 931-938 (2001) - [c22]Siripun Thongchai, Michael Goldfarb, Nilanjan Sarkar, Kazuhiko Kawamura:
A frequency modeling method of rubbertuators for control application in an IMA framework. ACC 2001: 1710-1714 - [c21]Steve Northrup, Nilanjan Sarkar, Kazuhiko Kawamura:
Biologically-inspired control architecture for a humanoid robot. IROS 2001: 1100-1105 - 2000
- [c20]Tarun Kanti Podder, Gianluca Antonelli, Nilanjan Sarkar:
Fault Tolerant Control of an Autonomous Underwater Vehicle Under Thruster Redundancy: Simulations and Experiments. ICRA 2000: 1251-1256 - [c19]Yong Cui, Nilanjan Sarkar:
A Unified Force Control Approach to Autonomous Underwater Manipulation. ICRA 2000: 1263-1268 - [c18]Tarun Kanti Podder, Nilanjan Sarkar:
Dynamic Trajectory Planning for Autonomous Underwater Vehicle-Manipulator Systems. ICRA 2000: 3461-3466 - [c17]Siripun Thongchai, Surachai Suksakulchai, D. Mitchell Wilkes, Nilanjan Sarkar:
Sonar behavior-based fuzzy control for a mobile robot. SMC 2000: 3532-3537
1990 – 1999
- 1999
- [j7]Nilanjan Sarkar, Medha Shukla Sarkar:
An Introduction to Graph-Rewriting Framework for High-Level Robotic Task Planning. Intell. Autom. Soft Comput. 5(2): 129-138 (1999) - [c16]Gianluca Antonelli, Stefano Chiaverini, Nilanjan Sarkar, Michael West:
Adaptive control of an autonomous underwater vehicle: experimental results on ODIN. CIRA 1999: 64-69 - [c15]Tarun Kanti Podder, Nilanjan Sarkar:
Fault Tolerant Decomposition of Thruster Forces of an Autonomous Underwater Vehicle. ICRA 1999: 84-89 - [c14]Nilanjan Sarkar, Tarun Kanti Podder:
Motion Coordination of Underwater Vehicle-Manipulator Systems Subject to Drag Optimization. ICRA 1999: 387-392 - [c13]Gianluca Antonelli, Stefano Chiaverini, Nilanjan Sarkar:
An explicit force control scheme for underwater vehicle-manipulator systems. IROS 1999: 136-141 - [c12]Nilanjan Sarkar, Junku Yuh, Tarun Kanti Podder:
Adaptive control of underwater vehicle-manipulator systems subject to joint limits. IROS 1999: 142-147 - [c11]Yong Cui, Tarun Kanti Podder, Nilanjan Sarkar:
Impedance control of underwater vehicle-manipulator systems (UVMS). IROS 1999: 148-153 - 1998
- [j6]Xiaoping Yun, Nilanjan Sarkar:
Unified formulation of robotic systems with holonomic and nonholonomic constraints. IEEE Trans. Robotics Autom. 14(4): 640-650 (1998) - [j5]Nilanjan Sarkar, Xiaoping Yun, Randy E. Ellis:
Live-constraint-based control for contact transitions. IEEE Trans. Robotics Autom. 14(5): 743-754 (1998) - [c10]Nilanjan Sarkar, Xiaoping Yun:
Traction control of wheeled vehicles using dynamic feedback approach. IROS 1998: 413-418 - [c9]Nilanjan Sarkar, Medha Shukla Sarkar:
A graph-rewriting approach to high-level task planning-an introduction. IROS 1998: 661-666 - 1997
- [j4]Nilanjan Sarkar, Xiaoping Yun, Vijay Kumar:
Control of Contact Interactions with Acatastatic Nonholonomic Constraints. Int. J. Robotics Res. 16(3): 357-374 (1997) - [j3]Nilanjan Sarkar, Xiaoping Yun, Vijay Kumar:
Dynamic control of 3-D rolling contacts in two-arm manipulation. IEEE Trans. Robotics Autom. 13(3): 364-376 (1997) - [c8]Nilanjan Sarkar, Xiaoping Yun, Randy E. Ellis:
Live-constraint-based control for contact transitions. CIRA 1997: 353-360 - 1996
- [j2]S. Laurie Ricker, Nilanjan Sarkar, Karen Rudie:
A discrete-event systems approach to modeling dextrous manipulation. Robotica 14(5): 515-525 (1996) - [c7]Nilanjan Sarkar, Xiaoping Yun:
Design of a continuous controller for contact transition task based on impulsive constraint analysis. ICRA 1996: 2000-2005 - [c6]Xiaoping Yun, Nilanjan Sarkar:
Dynamic feedback control of vehicles with two steerable wheels. ICRA 1996: 3105-3110 - 1994
- [j1]Nilanjan Sarkar, Xiaoping Yun, Vijay Kumar:
Control of Mechanical Systems With Rolling Constraints: Application to Dynamic Control of Mobile Robots. Int. J. Robotics Res. 13(1): 55-69 (1994) - [c5]Nilanjan Sarkar, Xiaoping Yun, Vijay Kumar:
Control of a Single Robot in a Decentralized Multi-Robot System. ICRA 1994: 896-901 - 1993
- [c4]Nilanjan Sarkar, Xiaoping Yun, Vijay Kumar:
Dynamic Control of 3-D Rolling Contacts in Two-Arm Manipulation. ICRA (3) 1993: 978-983 - [c3]Nilanjan Sarkar, Xiaoping Yun, Vijay Kumar:
Control of a single robot in a cooperative multi-robot framework. IROS 1993: 1645-1652 - 1992
- [c2]Xiaoping Yun, Vijay Kumar, Nilanjan Sarkar, Eric Paljug:
Control of multiple arms with rolling constraints. ICRA 1992: 2193-2198 - 1991
- [c1]Vijay Kumar, Xiaoping Yun, Eric Paljug, Nilanjan Sarkar:
Control of contact conditions for manipulation with multiple robotic systems. ICRA 1991: 170-175
Coauthor Index
Esube Bekele
aka: Esubalew Bekele
aka: Esubalew Bekele
Amy Swanson
aka: Amy R. Swanson
aka: Amy R. Swanson
Zachary Warren
aka: Zachary E. Warren
aka: Zachary E. Warren
[c117] [j61] [j58] [j57] [j56] [j55] [j54] [c100] [c98] [j52] [j51] [j49] [j48] [j47] [c96] [c95] [c94] [c93] [j45] [j44] [c91] [c90] [c89] [j41] [c88] [c87] [c86] [c83] [c82] [c81] [c80] [c79] [c78] [c77] [c76] [c74] [c73] [c71] [c70] [c68] [j35] [c67] [c66] [c65] [c64] [c61] [c58] [j31] [c54] [c48]
Amy Weitlauf
aka: Amy S. Weitlauf
aka: Amy S. Weitlauf
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