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<meta name="description" content="Recent Publications of the Murphey Lab at Northwestern University">
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	<h1>Publications</h1> <h3> [For a complete list of publications, please visit <a href="https://scholar.google.com/citations?hl=en&user=73NFiiMAAAAJ&view_op=list_works&sortby=pubdate">Google Scholar</a>]</h3>
		<h2>2024</h2>
		<p><b>Scale-Invariant Specifications for Human–Swarm Systems</b>
			<br>J. Meyer, A. Prabhakar, A. Pinosky, I. Abraham, A. Taylor, M. Schlafly, K. Popovic, G. Diniz, B. Teich, B. Simidchieva, S. Clark, T. D. Murphey
			<br><i>IEEE Transactions on Field Robotics (Volume 1, 276-291)</i>, 2024. <a href="https://ieeexplore.ieee.org/abstract/document/10749977">PDF</a></p>
		<p><b>Embodied Active Learning of Generative Sensor-Object Models</b>
			<br>A. Pinosky, T. D. Murphey
			<br><i>International Symposium of Robotics Research (ISRR)</i>, 2024. <a href="https://arxiv.org/abs/2410.11130">PDF</a></p>
		<p><b>Safe Coverage for Heterogeneous Systems With Limited Connectivity</b>
			<br>A. T. Taylor, T. A. Berrueta, A. Pinosky, T. D. Murphey
			<br><i>IEEE Robotics and Automation Letters (Volume 9, Issue 10)</i>, 2024. <a href="https://ieeexplore.ieee.org/abstract/document/10669222">PDF</a></p>
		<p><b>Active Exploration for Real-Time Haptic Training</b>
			<br>J. Ketchum, A. Prabhakar, T. D. Murphey
			<br><i>IEEE International Conference on Robotics and Automation (ICRA)</i>, 2024. <a href="https://ieeexplore.ieee.org/document/10610782">PDF</a></p>
		<p><b>Maximum diffusion reinforcement learning</b>
			<br>T. A. Berrueta, A. Pinosky, T. D. Murphey
			<br><i>Nature Machine Intelligence (6, 504–514)</i>, 2024. <a href="https://www.nature.com/articles/s42256-024-00829-3">PDF</a></p>
		<p><b>The role of the deep cervical extensor muscles in multi-directional isometric neck strength</b>
			<br>R. Abbott, J. Elliott, T. D. Murphey, A. M. Acosta
			<br><i>Journal of Biomechanics (Volume 168)</i>, 2024. <a href="https://www.sciencedirect.com/science/article/pii/S0021929024001738">PDF</a></p>
		<p><b>Mixed Strategy Nash Equilibrium for Crowd Navigation</b>
			<br>M. M. Sun, F. Baldini, P. Trautman, T. D. Murphey
			<br><i>International Journal of Robotics Research (IJRR)</i>, 2024. <a href="https://arxiv.org/abs/2403.01537">PDF</a></p>
		<p><b>Materializing Autonomy in Soft Robots across Scales</b>
			<br>T. A. Berrueta, T. D. Murphey, R. L. Truby
			<br><i>Advanced Intelligent Systems (Volume 6, Issue 2)</i>, 2024. <a href="https://onlinelibrary.wiley.com/doi/full/10.1002/aisy.202300111">PDF</a></p>
		<p><b>Collaborative Robots Can Augment Human Cognition in Regret-Sensitive Tasks</b>
			<br>M. Schlafly, A. Prabhakar, K. Popovic, G. Schlafly, C. Kim, T. D. Murphey
			<br><i>PNAS Nexus (Volume 3, Issue 2)</i>, 2024. <a href="https://academic.oup.com/pnasnexus/article/3/2/pgae016/7564677">PDF</a></p>

		<h2>2023</h2>
		<p><b>Characterizing Eye Gaze for Assistive Device Control</b>
			<br>L. Y.C. Loke, D. R. Barsoum, T. D. Murphey, B. D. Argall
			<br><i>IEEE International Conference on Rehabilitation Robotics (ICORR)</i>, 2023. <a href="https://ieeexplore.ieee.org/abstract/document/10304812">PDF</a></p>
		<p><b>Decentralization and Acceleration Enables Large-Scale Bundle Adjustment</b>
			<br>T. Fan, J. Ortiz, M. Hsiao, M. Monge, J. Dong, T. D. Murphey, M. Mukadam
			<br><i>Robotics: Science and Systems (RSS)</i>, 2023. <a href="https://www.roboticsproceedings.org/rss19/p111.html">PDF</a></p>
		<p><b>Measuring Human-Robot Team Benefits Under Time Pressure in a Virtual Reality Testbed</b>
			<br>K. Popović, M. Schlafly, A. Prabhakar, C. Kim. T. D. Murphey
			<br><i>IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)</i>, 2023. <a href="https://ieeexplore.ieee.org/abstract/document/10341794">PDF</a></p>
		<p><b>Majorization Minimization Methods for Distributed Pose Graph Optimization</b>
			<br>T. Fan, T. D. Murphey
			<br><i>IEEE Transactions on Robotics (T-RO)</i>, 2023. <a href="https://ieeexplore.ieee.org/abstract/document/10286063">PDF</a></p>
		<p><b>Automated Gait Generation For Walking, Soft Robotic Quadrupeds</b>
			<br>J. Ketchum, S. Schiffer, M. Sun, P. Kaarthik, R. L. Truby, T. D. Murphey
			<br><i>IEEE International Conference on Intelligent Robots and Systems (IROS)</i>, 2023. <a href="https://arxiv.org/abs/2310.00498">PDF</a></p>
		<p><b>Embodied Communication: How Robots and People Communicate Through Physical Interaction</b>
			<br>A. Kalinowska, P. M. Pilarski, T. D. Murphey
			<br><i>Annual Review of Control, Robotics, and Autonomous Systems</i>, 2023. <a href="https://www.annualreviews.org/doi/pdf/10.1146/annurev-control-070122-102501">PDF</a></p>
		<p><b>Learning Stable Models for Prediction and Control</b>
			<br>G. Mamakoukas, I. Abraham, T. D. Murphey
			<br><i>IEEE Transactions on Robotics (T-RO)</i>, 2023. <a href="https://ieeexplore.ieee.org/document/10091950">PDF</a></p>

		<h2>2022</h2>
		<p><b>Scale-Invariant Specifications for Human-Swarm Systems</b>
			<br>J. Meyer, A. Prabhakar, A. Pinosky, I. Abraham, A. Taylor, M. Schlafly, K. Popovic, G. Diniz, B. Teich, B. Simidchieva, S. Clark, T. D. Murphey
			<br><i></i>Journal of Field Robotics (JFR), 2022. <a href="/pdfs/2022JFRMePrMu.pdf">PDF</a></p>
		<p><b>A Game Benchmark for Real-Time Human-Swarm Control</b>
			<br>J. Meyer, A. Pinosky, T. Trzpit, E. Colgate, T. D. Murphey
			<br><i></i>IEEE International Conference on Automation Science and Engineering (CASE), 2022. <a href="/pdfs/2022CASEMePiTrCoMu.pdf">PDF</a></p>
  	<p><b>Measuring interaction bandwidth during physical human-robot collaboration</b>
        <br>A. Kalinowska, M. Schlafly, K. Rudy, J. P. Dewald, T. D. Murphey
        <br><i>Robotics and Automation Letters (RAL)</i>, 2022. <a href="https://ieeexplore.ieee.org/document/9935116">PDF</a></p>
		<p><b>Towards situated communication in multi-step interactions: Time is a key pressure in communication emergence</b>
			<br>A. Kalinowska, E. Davoodi, K. W. Mathewson, T. D. Murphey, P. Pilarski
			<br><i>Annual Meeting of the Cognitive Science Society (CogSci)</i>, 2022. <a href="../pdfs/2022CogSciKaDaMaMuPi.pdf">PDF</a></p>
		<p><b>Scale-Invariant Fast Functional Registration</b>
			<br>M. Sun, A. Pinosky, I. Abraham, T. D. Murphey
			<br><i>International Symposium of Robotics Research (ISRR)</i>, 2022. <a href="https://arxiv.org/pdf/2209.12763.pdf">PDF</a>, <a href="https://github.com/MurpheyLab/FLS">Code</a></p>
		<p><b>Mechanical Intelligence For Learning Embodied Sensor-Object Relationships</b>
			<br>A. Prabhakar, T. D. Murphey
			<br><i>Nature Communications, 2022</i>. <a href="https://www.nature.com/articles/s41467-022-31795-2">PDF</a>, <a href="https://github.com/apr600/mechanical-intelligence">Code</a></p>
		<p><b>Hybrid Control for Combining Model-Based and Model-Free Reinforcement Learning</b>
			<br>A. Pinosky, I. Abraham, A. Broad, B. Argall, T. D. Murphey
			<br><i>International Journal of Robotics Research (IJRR), 2022</i>. <a href="https://journals.sagepub.com/doi/pdf/10.1177/02783649221083331">PDF</a>, <a href="https://github.com/MurpheyLab/HybridLearning">Code</a></p>

		<h2>2021</h2>
		<p><b>Memristor Circuits for Colloidal Robotics: Temporal Access to Memory, Sensing, and Actuation</b>
			<br>J. F. Yang, A. T. Liu, T. A. Berrueta, G. Zhang, A. M. Brooks, V. B. Koman, S. Yang, X. Gong, T. D. Murphey, M. S. Strano
			<br><i>Advanced Inetlligent Systems</i>, 2021. <a href="https://onlinelibrary.wiley.com/doi/epdf/10.1002/aisy.202100205">PDF</a></p>
		<p><b>Mechanical computing</b>
			<br>H. Yasuda,  P. R. Buskohl, A. Gillman, T. D. Murphey, S. Stepney, R. A. Vaia, and J. R. Raney
			<br><i>Nature</i>, 2021. <a href="https://www.nature.com/articles/s41586-021-03623-y">Article</a></p>
		<p><b>Active learning in robotics: A review of control principles</b>
			<br>A. T. Taylor, T. A. Berrueta, and T. D. Murphey
			<br><i>Mechatronics</i>, 2021. <a href="https://arxiv.org/pdf/2106.13697.pdf">PDF</a></p>
		<p><b>Revitalizing Optimization for 3D Human Pose and Shape Estimation: A Sparse Constrained Formulation</b>
			<br>T. Fan, K. V. Alwala, D. Xiang, W. Xiang, T. D. Murphey, and M. Mukadam
			<br><i>IEEE Int. Conf. on Computer Vision (ICCV)</i>, 2021. <a href="/pdfs/2021ICCVFaMuMu.pdf">PDF</a></p>
		<p><b>Move Beyond Trajectories: Distribution Space Coupling for Crowd Navigation</b>
			<br>M. Sun, F. Baldini, P. Trautman, T. D. Murphey
			<br><i>Robotics: Science and Systems (RSS)</i>, 2021. <a href="http://www.roboticsproceedings.org/rss17/p053.pdf">PDF</a>, <a href="https://www.youtube.com/watch?v=dpJUbM0IPJs">Video</a>, <a href="https://github.com/MurpheyLab/DistNav">Code</a>
		<p><b>Derivative-Based Koopman Operators for Real-Time Control of Robotic Systems</b>
			<br>G. Mamakoukas, M. Castano, X. Tan, T. D. Murphey
			<br><i>IEEE Transactions on Robotics (TRO)</i>, 2021. <a href="https://arxiv.org/pdf/2010.05778.pdf">PDF</a></p>
		<p><b>Automatic Tuning for Data-driven Model Predictive Control</b>
			<br>W. Edwards, G. Tang, G. Mamakoukas, T. D. Murphey, K. Hauser
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, 2021. <a href="https://motion.cs.illinois.edu/papers/ICRA2021_Edwards_AutoMPC.pdf">PDF</a></p>
		<p><b>Ergodic imitation: Learning from what to do and what not to do</b>
			<br>A. Kalinowska, A. Prabhakar, K. Fitzsimons, T. D. Murphey
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, 2021. <a href="/pdfs/2021KaPrFiMu.pdf">PDF</a></p>
		<p><b>Low Rattling: A Predictive Principle for Self-Organization in Active Collectives </b>
			<br>P. Chvykov, T. A. Berrueta, A. Vardhan, W. Savoie, A. Samland, T. D. Murphey, K. Wiesenfeld, D. I. Goldman, and J. L. England
			<br><i>Science</i>, vol. 371, no. 6524, 2021. <a href="https://science.sciencemag.org/content/371/6524/90">Article</a></p>

		<h2>2020</h2>
		<p><b>CPL-SLAM: Efficient and Certifiably Correct Planar Graph-Based SLAM Using the Complex Number Representation</b>
			<br>T. Fan, H. Wang, M. Rubenstein, and T. D. Murphey
		<br><i>IEEE Transactions on Robotics</i>, 2020. <a href="/pdfs/2020TROFaMu.pdf">PDF</a></p>
		<p><b>Algorithmic Design for Embodied Intelligence in Synthetic Cells</b>
			<br>A. Pervan and T. D. Murphey
			<br><i>IEEE Transactions on Automation Science and Engineering (T-ASE)</i>, 2020. <a href="/pdfs/2020TASEPeMu.pdf">PDF</a></p>
		<p><b>Ergodic Specifications for Flexible Swarm Control: From User Commands to Persistent Adaptation</b>
			<br> A. Prabhakar, I. Abraham, A. Taylor, M. Schlafly, K. Popovic, G. Diniz, B. Teich, B. Simidchieva, S. Clark, T. D. Murphey,
			<br><i>Robotics Science and Systems</i>, 2020. <a href="/pdfs/2020RSSPrAbTaScPoMu.pdf">PDF</a> <a href="https://sites.google.com/view/ergodic-flexible-swarm-control">Video</a></p>
		<p><b>Tuning movement for sensing in an uncertain world</b>
			<br>C. Chen, T. D. Murphey, M. A. MacIver
			<br><i>eLife</i>, e52371, 2020. <a href="https://elifesciences.org/articles/52371">Article</a></p>
		<p><b>Bayesian Particles on Cyclic Graphs</b>
			<br>A. Pervan and T. D. Murphey
			<br><i>IEEE Int. Conf. on Intelligent Robots and Systems (IROS)</i>, 2020. <a href="/pdfs/2020IROSPeMu.pdf">PDF</a></p>
		<p><b>Majorization Minimization Methods to Distributed Pose Graph Optimization with Convergence Guarantees</b>
			<br>T. Fan and T. D. Murphey
			<br><i>IEEE Int. Conf. on Intelligent Robots and Systems (IROS)</i>, 2020. <a href="/pdfs/2020IROSFaMu.pdf">PDF</a></p>
		<p><b>Autoperforation of Two-Dimensional Materials to Generate Colloidal State Machines Capable of Locomotion</b>
			<br>A. T. Liu, J. F. Yang, L. N. LeMar, G. Zhang, A. Pervan, T. D. Murphey, M. Strano
			<br><i>Faraday Discussions</i>, Royal Society of Chemistry, 2020. <a href="/pdfs/2020RSCLiuYaLeZhPeMuSt.pdf">PDF</a></p>
		<p><b>Information Requirements of Collision-Based Micromanipulation</b>
			<br>A. Q. Nilles, A. Pervan, T. A. Berrueta, T. D. Murphey, S. M. LaValle
			<br><i>Workshop on the Algorithmic Foundations of Robotics (WAFR)</i>, 2020. <a href="/pdfs/2020WAFRNiPeBeMuLa.pdf">PDF</a></p>
		<p><b>Task-based hybrid shared control for training through forceful interaction</b>
			<br>K. Fitzsimons, A. Kalinowska, J. Dewald and T. D. Murphey
			<br><i>International Journal of Robotics Research</i>, vol. 39, no. 9, pp. 1138-1154, 2020. <a href="/pdfs/2020IJRRFiKaDeMu.pdf">PDF</a></p>
		<p><b>Shoulder abduction loading affects motor coordination in individuals  with chronic stroke, informing targeted rehabilitation</b>
			<br>A. Kalinowska, K. Rudy, M. Schlafly, K. Fitzsimons, J. Dewald and T. D. Murphey
			<br><i>IEEE RAS/EMBS Int. Conf. on Biomedical Robotics and Biomechatronics (BioRob)</i>, 2020. <a href="/pdfs/2020BIOROBKaRuScFiDeMu.pdf">PDF</a></p>

		<h2>2019</h2>
		<p><b>A robot made of robots: emergent transport and control of a smarticle ensemble</b>
			<br>W. Savoie, T. A. Berrueta, Z. Jackson, A. Pervan, R. Warkentin, S. Li, T. D. Murphey, K. Wiesenfeld, and D. I. Goldman
			<br><i>Science Robotics</i>, vol. 4, no. 34, 2019. <a href="https://robotics.sciencemag.org/content/4/34/eaax4316"">Article</a></p>
		<p><b>Ergodicity reveals assistance and learning in physical human robot interaction</b>
			<br>K. Fitzsimons, A. M. Acosta, J. Dewald, and T. D. Murphey
			<br><i>Science Robotics</i>, vol. 4, no. 29, 2019.
			<br>For a video and a freely accessible link to the paper, <a href="https://www.youtube.com/watch?v=cDuOvX18GNM">click here</a>.</p>
		<p><b>Active learning of dynamics for data-driven control using Koopman operators</b>
			<br>I. Abraham and T. D. Murphey
			<br><i>IEEE Transactions on Robotics</i>, 2019. <a href="/pdfs/2019TROAbMu.pdf">PDF</a>, <a href="https://github.com/i-abr/active-learning-koopman">Code</a></p>
		<p><b>Dynamical system segmentation for information measures in motion</b>
			<br>T. Berrueta, A. Pervan, K. Fitzsimons, and T. D. Murphey
			<br><i>IEEE Robotics and Automation Letters</i>, vol. 4, no. 1, pp. 169–176, 2019. <a href="/pdfs/2019BePeFiMu.pdf">PDF</a></p>
		<p><b>Structure-preserving local optimal control of mechanical systems</b>
			<br>K. Flaßkamp and T. D. Murphey
			<br><i>Optimal Control, Applications and Methods</i>, vol. 40, no. 2, pp. 310–329, 2019.</p>
		<p><b>Iterative sequential action control for stable, model-based control of nonlinear systems</b>
			<br>E. Tzorakoleftherakis and T. D. Murphey
			<br><i>IEEE Transactions on Automatic Control</i>, vol. 64, no. 8, pp. 3170–3183, 2019. <a href="/pdfs/2019TACTzMu.pdf">PDF</a></p>
		<p><b>Feedback synthesis for underactuated systems using sequential second-order needle variations</b>
			<br>G. Mamakoukas, M. Maciver, and T. D. Murphey
			<br><i>International Journal of Robotics Research</i>, vol. 37, no. 13-14, pp. 1826–1853, 2019. <a href="/pdfs/2019IJRRMaMaMu.pdf">PDF</a></p>
		<p><b>Generalized proximal methods for pose graph optimization</b>
			<br>T. Fan and T. D. Murphey
      		<br><i>International Symposium on Robotics Research (ISRR)</i>, 2019. <a href="/pdfs/2019ISRRFaMu.pdf">PDF</a></p></p>
		<p><b>Efficient and guaranteed planar pose graph optimization using the complex number representation</b>
			<br>T. Fan, H. Wang, M. Rubenstein, and T. D. Murphey
			<br><i>IEEE Int. Conf. on Intelligent Robots and Systems (IROS)</i>, 2019. Winner of ABB Best Student Paper Award. <a href="/pdfs/2019IROSFaWaRuMu.pdf">PDF</a></p>
		<p><b>Highly parallelized data-driven MPC for minimal intervention shared control</b>
			<br>A. Broad, T. D. Murphey, and B. Argall
			<br><i>Robotics: Science and Systems Proceedings</i>, 2019. <a href="/pdfs/2019RSSBrMuAr.pdf">PDF</a></p>
		<p><b>Local Koopman operators for data-driven control of robotic systems</b>
			<br>G. Mamakoukas, M. Castano, X. Tan, and T. D. Murphey
			<br><i>Robotics: Science and Systems Proceedings</i>, 2019. <a href="/pdfs/2019RSSMaCaTaMu.pdf">PDF</a></p>
		<p><b>Adaptive single action control policies for linearly parameterized systems</b>
			<br>O. Ennasr, G. Mamakoukas, M. Castano, D. Coleman, T. D. Murphey, and X. Tan
			<br><i>ASME Dynamic Systems and Control Conference (DSCC)</i>, 2019.</p>
		<p><b>Data-driven gait segmentation for walking assistance in a lower-limb assistive device</b>
			<br>A. Kalinowska, T. Berrueta, A. Zoss, and T. D. Murphey
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, 2019. <a href="/pdfs/2019ICRAKaBeZoMu.pdf">PDF</a></p>

		<br><h2>2018</h2>
		<p><b>Decentralized ergodic control: Distribution-driven sensing and exploration for multi-agent systems</b>
			<br>I. Abraham and T. D. Murphey
			<br><i>IEEE Robotics and Automation Letters</i>, vol. 3, no. 4, pp. 2987–2994, 2018. <a href="/pdfs/2018RALAbMu.pdf">PDF</a>, <a href="/videos/2018RALAbMu.mp4">Video</a></p>
		<p><b>Real-time area coverage and target localization using receding-horizon ergodic exploration</b>
			<br>A. Mavrommati, E. Tzorakoleftherakis, I. Abraham, and T. D. Murphey
			<br><i>IEEE Transactions on Robotics</i>, vol. 34, no. 1, pp. 62–80, 2018. <a href="/pdfs/2018TROMaTzAbMu.pdf">PDF</a>,    <a href="/videos/2018TROMaTzAbMuExplorationVideos.mp4">Video 1</a>,    <a href="/videos/2018TROMaTzAbMuLocalizationVideos.mp4">Video 2</a></p>
		<p><b>Operation and imitation under safety-aware shared control</b>
			<br>A. Broad, T. D. Murphey, and B. Argall
			<br><i>Workshop on the Algorithmic Foundations of Robotics (WAFR)</i>, 2018. <a href="/pdfs/2018WAFRBrMuAr.pdf">PDF</a></p>
		<p><b>Active area coverage from equilibrium</b>
			<br>I. Abraham, A. Prabhakar, and T. D. Murphey
			<br><i>Workshop on the Algorithmic Foundations of Robotics (WAFR)</i>, 2018. <a href="/pdfs/2018WAFRAbPrMu.pdf">PDF</a>,    <a href="/pdfs/2018WAFRAbPrMuappendix.pdf">Appendix</a>, <a href="/videos/2018WAFRAbPrMu.mp4">Video</a></p>
		<p><b>Efficient computation of higher-order variational integrators in robotic simulation and trajectory optimization</b>
			<br>T. Fan, J. Schultz, and T. D. Murphey
			<br><i>Workshop on the Algorithmic Foundations of Robotics (WAFR)</i>, 2018. <a href="/pdfs/2018WAFRFaScMu.pdf">PDF</a>, <a href="/pdfs/2018WAFRFaScMuappendix.pdf">Appendix</a>, <a href="/videos/2018WAFRFaScMu.mp4">Video</a></p>
		<p><b>Low complexity control policy synthesis for cyber-free robot design</b>
			<br>A. Pervan and T. D. Murphey
			<br><i>Workshop on the Algorithmic Foundations of Robotics (WAFR)</i>, 2018. <a href="/pdfs/2018WAFRPeMu.pdf">PDF</a></p>
		<p><b>Superlinear convergence using controls based on second-order needle variations</b>
			<br>G. Mamakoukas, M. MacIver, and T. D. Murphey
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 4301–4308, 2018. <a href="/pdfs/2018CDCMaMaMu.pdf">PDF</a></p>
		<p><b>Data-driven measurement models for active localization in sparse environments</b>
			<br>I. Abraham, A. Mavrommati, and T. D. Murphey
			<br><i>Robotics: Science and Systems Proceedings</i>, 2018. <a href="/pdfs/2018RSSAbMaMu.pdf">PDF</a>, <a href="/videos/2018RSSAbMaMu.mp4">Video</a></p>
		<p><b>Online user assessment for minimal intervention during task-based robotic assistance</b>
			<br>A. Kalinowska, K. Fitzsimons, J. Dewald, and T. D. Murphey
			<br><i>Robotics: Science and Systems Proceedings</i>, 2018. <a href="/pdfs/2018RSSKaFiDeMu.pdf">PDF</a></p>
		<p><b>Structured neural networks for model-based control</b>
			<br>A. Broad, I. Abraham, B. Argall, and T. D. Murphey
			<br><i>Robotics: Science and Systems (RSS) Workshop on Learning and Inference in Robotics</i>, 2018. <a href="/pdfs/2018RSSWSBrAbArMu.pdf">PDF</a></p>
		<p><b>Demonstration and imitation of novel behaviors under safety aware control</b>
			<br>A. Broad, T. D. Murphey, and B. Argall
			<br><i>Robotics: Science and Systems (RSS) Workshop on Causal Imitation in Robotics</i>, 2018. <a href="/pdfs/2018RSSWSBrMuAr.pdf">PDF</a></p>
		<p><b>Ergodic exploration for adaptive sampling of water columns using gliding robotic fish</b>
			<br>O. Ennasr, G. Mamakoukas, T. D. Murphey, and X. Tan
			<br><i>ASME Dynamic Systems and Control Conference (DSCC)</i>, p. V003T32A016, 2018. <a href="/pdfs/2018DSCCEnMaCaCoMuTa.pdf">PDF</a></p>
		<p><b>Algorithmic Materials: Embedding Computation within Material Properties for Autonomy</b>
			<br>A. Pervan and T. D. Murphey
			<br><i>Robotic Systems and Autonomous Platforms: Advances in Materials and Manufacturing</i>, Elsevier, 2018. Eds. M. Strano and S. Walsh. <a href="/pdfs/2018PeMuAlgMatChapter.pdf">PDF</a></p>

		<br><h2>2017</h2>
		<p><b>A massive increase in visual range preceded the origin of terrestrial vertebrates</b>
			<br>M. A. MacIver, L. Schmitz, U. Mugan, T. D. Murphey, and C. D. Mobley
			<br><i>Proceedings of the National Academy of Science (PNAS)</i>, vol. 114, no. 12, pp. E2375–E2384, 2017.</p>
		<p><b>Ergodic exploration using binary sensing for non-parametric shape estimation</b>
			<br>I. Abraham, A. Prabhakar, M. Hartmann, and T. D. Murphey
			<br><i>IEEE Robotics and Automation Letters</i>, vol. 2, no. 2, pp. 827–834, 2017. <a href="/pdfs/2017RALAbPrHaMu.pdf">PDF</a>, <a href="/videos
			/2017RALAbPrHaMu.mp4">Video</a></p>
		<p><b>Dynamic task execution using active parameter identification with the Baxter research robot</b>
			<br>A. D. Wilson, J. A. Schultz, A. Ansari, and T. D. Murphey
			<br><i>IEEE Transactions on Automation Science and Engineering</i>, vol. 14, no. 1, pp. 391–397, 2017. <a href="/pdfs/2017TASEWiScAnMu.pdf">PDF</a></p>
		<p><b>Hybrid control for tracking of invariant manifolds</b>
			<br>K. Flaßkamp, A. Ansari, and T. D. Murphey
			<br><i>Nonlinear Analysis: Hybrid Systems</i>, vol. 25, pp. 298–311, 2017. <a href="/pdfs/2017NAHSFlAnMu.pdf">PDF</a></p>
		<p><b>Decentralized and recursive identification for cooperative manipulation of unknown rigid body with local measurements</b>
			<br>T. Fan, H. Weng, and T. D. Murphey
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 2842–2849, 2017. <a href="/pdfs/2017CDCFaWeMu.pdf">PDF</a></p>
		<p><b>Model-based control using Koopman operators</b>
			<br>I. Abraham, G. de la Torre, and T. D. Murphey
			<br><i>Robotics: Science and Systems Proceedings</i>, 2017. <a href="/pdfs/2017RSSAbToMu.pdf">PDF</a>, <a href="https://github.com/i-abr/mpc-koopman">Code</a></p>
		<p><b>Feedback synthesis for controllable underactuated systems using sequential second order actions</b>
			<br>G. Mamakoukas, M. MacIver, and T. D. Murphey
			<br><i>Robotics: Science and Systems Proceedings</i>, 2017. <a href="/pdfs/2017RSSMaMaMu.pdf">PDF</a>, <a href="/videos/2017RSSMaMaMuMM.mp4">Video</a></p>
		<p><b>Learning models for shared control of human-machine systems with unknown dynamics</b>
			<br>A. Broad, T. D. Murphey, and B. Argall
			<br><i>Robotics: Science and Systems Proceedings</i>, 2017. <a href="/pdfs/2017RSSBrMuAr.pdf">PDF</a></p>
		<p><b>Trajectory planning and tracking of robotic fish using ergodic exploration,</b>
			<br>M. Castano, A. Mavrommati, T. D. Murphey, and X. Tan
			<br><i>American Controls Conf. (ACC)</i>, pp. 5476 – 5481, 2017.</p>
		<p><b>Assistive Optimal Control-on-Request with Application in Standing Balance Therapy and Reinforcement</b>
			<br>A. Mavrommati, A. Ansari, and T. D. Murphey,
			<br><i>Trends in Control and Decision-Making for Human-Robot Collaboration Systems</i>, pp. 131–156. Springer, 2017. Eds. Y. Wang and F. Zhang. <a href="/pdfs/2017BookChapterMaAnMu.pdf">PDF</a></p>

		<br><h2>2016</h2>
		<p><b>Variational integrators for structure-preserving filtering</b>
			<br>J. Schultz, K. Flaßkamp, and T. D. Murphey
			<br><i>ASME Journal of Computational and Nonlinear Dynamics</i>, vol. 12, no. 2, pp. 021005:1–021005:10, 2016. <a href="/pdfs/2016JCNDScFlMu.pdf">PDF</a></p>
		<p><b>Trust adaptation leads to lower control effort in shared control of crane automation</b>
			<br>A. Broad, M. Derry, J. Schultz, T. D. Murphey, and B. Argall
			<br><i>IEEE Robotics and Automation Letters</i>, vol. 2, no. 1, pp. 239–246, 2016. <a href="/pdfs/2016RALBrScDeMuAr.pdf">PDF</a></p>
		<p><b>Sequential Action Control: Closed-form optimal control for nonlinear and nonsmooth systems</b>
			<br>A. Ansari and T. D. Murphey
			<br><i>IEEE Transactions on Robotics</i>, vol. 32, no. 5, pp. 1196–1214, 2016. <a href="/pdfs/2016TROAnMu.pdf">PDF</a>, <a href="/videos/2016TROAnMu.mp4">Video</a></p>
		<p><b>Sensory agreement guides energy optimization in human movements</b>
			<br>A. Farshchiansadegh, A. Melendez-Calderon, R. Ranganathan, T. D. Murphey, and F. Mussa-Ivaldi
			<br><i>PLOS Computational Biology</i>, vol. 12, no. 4, p. e1004861, 2016.</p>
		<p><b>Real-time mode scheduling using single-integration hybrid optimization for linear time-varying systems</b>
			<br>A. Mavrommati, J. Schultz, and T. D. Murphey
			<br><i>IEEE Transactions on Automation Science and Engineering</i>, vol. 13, no. 3, pp. 1385–1398, 2016. <a href="/pdfs/2016TASEMaScMu.pdf">PDF</a>, <a href="/videos/2016TASEMaScMu.mp4">Video</a></p>
		<p><b>Augmenting sensorimotor control using goal-aware vibrotactile stimulation during reaching and manipulation behaviors</b>
			<br>E. Tzorakoleftherakis, T. D. Murphey, and R. A. Scheidt
			<br><i>Experimental Brain Research</i>, vol. 234, no. 8, pp. 2403–2414, 2016. <a href="/pdfs/2016EBRTzMuSc.pdf">PDF</a></p>
		<p><b>Minimum sensitivity control for planning with parametric and hybrid uncertainty</b>
			<br>A. Ansari and T. D. Murphey
			<br><i>International Journal of Robotics Research</i>, vol. 35, no. 7, pp. 823–839, 2016. <a href="/pdfs/2016IJRRAnMu.pdf">PDF</a></p>
		<p><b>Model-based reactive control for hybrid and high-dimensional robotic systems</b>
			<br>E. Tzorakoleftherakis, A. Ansari, A. Wilson, J. Schultz, and T. D. Murphey
			<br><i>IEEE Robotics and Automation Letters</i>, vol. 1, no. 1, pp. 431–438, 2016. <a href="/pdfs/2016RALTzWiAnScMu.pdf">PDF</a></p>
		<p><b>Projection-based iterative mode scheduling for switched systems</b>
			<br>T. Caldwell and T. D. Murphey
			<br><i>Nonlinear Analysis: Hybrid Systems</i>, vol. 21, pp. 59–83, 2016. <a href="/pdfs/2016NAHSCaMu.pdf">PDF</a></p>
		<p><b>Ergodic exploration of distributed information</b>
			<br>L. Miller, Y. Silverman, M. A. MacIver, and T. D. Murphey
			<br><i>IEEE Transactions on Robotics</i>, vol. 32, no. 1, pp. 36–52, 2016. <a href="/pdfs/2016TROMiSiMaMu.pdf">PDF</a></p>
		<p><b>Discrete Lagrangian mechanics for nonsmooth nonseparable systems</b>
			<br>D. Pekarek and T. D. Murphey
			<br><i>International Journal for Numerical Methods in Engineering</i>, vol. 105, pp. 440–463, 2016. <a href="/pdfs/2016IJNMEPeMu.pdf">PDF</a></p>
		<p><b>Autonomous visual rendering using physical motion</b>
			<br>A. Prabhakar, A. Mavrommati, J. Schultz, and T. D. Murphey
			<br><i>Workshop on the Algorithmic Foundations of Robotics (WAFR)</i>, 2016. <a href="/pdfs/2016WAFRPrMaScMu.pdf">PDF</a>, <a href="/videos/2016WAFRPrMaScMuBaxterLincoln.mp4">Video 1</a>,  <a href="/videos/2016WAFRPrMaScMuLincolnSim.mp4">Video 2</a>, <a href="/videos/2016WAFRPrMaScMuNSim.mp4">Video 3</a> </p>
		<p><b>Low-infrastructure real-time embedded control via variational integrators</b>
			<br>J. Schultz and T. D. Murphey
			<br><i>PAMM</i>, vol. 16, no. 1, pp. 949–952, 2016. <a href="/pdfs/2016PAMMScMu.pdf">PDF</a></p>
		<p><b>On the benefits of surrogate Lagrangians in optimal control and planning algorithms</b>
			<br>G. De La Torre and T. D. Murphey
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 7384–7391, 2016. <a href="/pdfs/2016CDCToMu.pdf">PDF</a></p>
		<p><b>Automatic synthesis of control alphabet policies</b>
			<br>A. Mavrommati and T. D. Murphey
			<br><i>IEEE Int. Conf. on Automation Science and Engineering (CASE)</i>, pp. 313 – 320, 2016. <a href="/pdfs/2016CASEMaMu.pdf">PDF</a></p>
		<p><b>Online feedback control for input-saturated robotic systems on Lie groups</b>
			<br>T. Fan and T. D. Murphey
			<br><i>Robotics: Science and Systems Proceedings</i>, 2016. <a href="/pdfs/2016RSSFaMu.pdf">PDF</a></p>
		<p><b>Controlling simulated underactuated underwater vehicles with added mass and velocity drift using sequential action control</b>
			<br>G. Mamakoukas, M. MacIver, and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 4500 – 4506, 2016. <a href="/pdfs/2016ACCMaMaMu.pdf">PDF</a></p>
		<p><b>Ergodic exploration with stochastic sensor dynamics</b>
			<br>G. De La Torre, K. Flaßkamp, A. Prabhakar, and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 2971 – 2976, 2016. <a href="/pdfs/2016ACCToFlPrMu.pdf">PDF</a></p>
		<p><b>Optimal human-in-the-loop interfaces based on Maxwell’s demon</b>
			<br>K. Fitzsimons, E. Tzorakoleftherakis, and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 4397 – 4402, 2016. <a href="/pdfs/2016ACCFiTzMu.pdf">PDF</a></p>

		<br><h2>2015</h2>
		<p><b>The geography of fatty infiltrates within the cervical multifidus and semispinalis cervicis in individuals with chronic whiplash-associated disorders</b>
			<br>R. Abbott, A. Pedler, M. Sterling, J. Hides, T. D. Murphey, M. Hoggarth, and J. Elliott
			<br><i>Journal of Orthopaedic and Sports Physical Therapy</i>, vol. 45, no. 4, pp. 281–288, 2015.</p>
		<p><b>Linearizations of variational integrators for analysis and optimization</b>
			<br>E. Johnson, J. Schultz, and T. D. Murphey
			<br><i>IEEE Transactions on Automation Science and Engineering</i>, vol. 12, no. 1, pp. 140–152, 2015. <a href="/pdfs/2015TASEJoScMu.pdf">PDF</a></p>
		<p><b>Trajectory optimization for well-conditioned parameter estimation</b>
			<br>A. Wilson, J. Schultz, and T. D. Murphey
			<br><i>IEEE Transactions on Automation Science and Engineering</i>, vol. 12, no. 1, pp. 28–36, 2015.</p>
		<p><b>Structured linearization of discrete mechanical systems on Lie groups: a synthesis of analysis and control</b>
			<br>T. Fan and T. D. Murphey
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 1092 – 1099, 2015.  <a href="/pdfs/2015CDCFaMu.pdf">PDF</a></p>
		<p><b>Symplectic integration for optimal ergodic control</b>
			<br>A. Prabhakar, K. Flaßkamp, and T. D. Murphey
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 2594 – 2600,	2015.  <a href="/pdfs/2015CDCPrFlMu.pdf">PDF</a></p>
		<p><b>Controllers as filters: Noise-driven swing-up control based on Maxwell’s demon</b>
			<br>E. Tzorakoleftherakis and T. D. Murphey
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 4368 – 4374, 2015.  <a href="/pdfs/2015CDCTzMu.pdf">PDF</a></p>
		<p><b>Real-time trajectory synthesis for information maximization using sequential action control and least-squares estimation</b>
			<br>A. Wilson, J. Schultz, A. Ansari, and T. D. Murphey
			<br><i>IEEE Int. Conf. on Intelligent Robots and Systems (IROS)</i>, 2015.  <a href="/pdfs/2015IROSWiScAnMu.pdf">PDF</a></p>
		<p><b>Power network regulation benchmark for switched-mode optimal control</b>
			<br>T. Caldwell and T. D. Murphey
			<br><i>Analysis and Design of Hybrid Systems (ADHS)</i>, 2015. <a href="/pdfs/2015ADHSCaMu.pdf">PDF</a></p>
		<p><b>Sequential action control for tracking of free invariant manifolds</b>
			<br>A. Ansari, K. Flaßkamp, and T. D. Murphey
			<br><i>Analysis and Design of Hybrid Systems (ADHS)</i>, 2015. <a href="/pdfs/2015ADHSAnFlMu.pdf">PDF</a></p>
		<p><b>Optimal planning for target localization and coverage using range sensing</b>
			<br>L. Miller and T. D. Murphey
			<br><i>IEEE Int. Conf. on Automation Science and Engineering (CASE)</i>, pp. 501–508, 2015. <a href="/pdfs/2015CASEMiMu.pdf">PDF</a></p>
		<p><b>Optimal control-on-request: An application in real-time assistive balance control</b>
			<br>A. Mavrommati, A. Ansari, and T. D. Murphey
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, pp. 5928 – 5934, 2015. <a href="/pdfs/2015ICRAMaAnMu.pdf">PDF</a></p>
		<p><b>Tactile proprioceptive input in robotic rehabilitation after stroke</b>
			<br>E. Tzorakoleftherakis, M. C. Bengtson, F. A. Mussa-Ivaldi, R. A. Scheidt, and T. D. Murphey
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, pp. 6475 – 6481, 2015. <a href="/pdfs/2015ICRATzBeMuScMu.pdf">PDF</a></p>
		<p><b>Maximizing Fisher information in discrete-time mechanical systems using projection-based trajectory optimization</b>
			<br>A. D. Wilson and T. D. Murphey
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, pp. 2403 – 2409, 2015. <a href="/pdfs/2015ICRAWiMu.pdf">PDF</a></p>
		<p><b>“Control-on-request: Short-burst assistive control for long time horizon improvement</b>
			<br>A. Ansari and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 1173 – 1180, 2015. <a href="/pdfs/2015ACCAnMuA.pdf">PDF</a></p>
		<p><b>A variational derivation of LQR for piecewise time-varying systems</b>
			<br>A. Ansari and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 2260 – 2265, 2015. <a href="/pdfs/2015ACCAnMuB.pdf">PDF</a></p>
		<p><b>Variational integrators in linear optimal control and filtering</b>
			<br>K. Flaßkamp and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 5140 – 5145, 2015. <a href="/pdfs/2015ACCFlMu.pdf">PDF</a></p>
		<p><b>Trajectory Optimization in Discrete Mechanics</b>
			<br>J. Schultz, E. Johnson, and T. D. Murphey,
			<br><i>Differential-Geometric Methods in Computational Multibody System Dynamics</i>, CISM, 2015. Eds. Z. Terze and A. Mueller.</p>

		<br><h2>2014</h2>
		<p><b>Trajectory synthesis for Fisher information maximization</b>
			<br>A. Wilson, J. Schultz, and T. D. Murphey
			<br><i>IEEE Transactions on Robotics</i>, vol. 30, no. 6, pp. 1358–1370, 2014. <a href="/pdfs/2014TROWiScMu.pdf">PDF</a></p>
		<p><b>A Propagative Model of Simultaneous Impact: Existence, Uniqueness, and Design Consequences</b>
			<br>V. Seghete and T. D. Murphey
			<br><i>IEEE Transactions on Automation Science and Engineering</i>, vol. 11, no. 1, pp. 154 – 168, 2014.</p>
		<p><b>Uniqueness conditions for simultaneous impact in locomotion: existence, uniqueness, and design consequences</b>
			<br>V. Seghete and T. D. Murphey
			<br><i>IEEE Transactions on Automation Science and Engineering</i>, vol. 11, no. 1, pp. 154–168, 2014. <a href="/pdfs/2014TASESeMu.pdf.pdf">PDF</a></p>
		<p><b>Modeling forces and moments at the base of a rat vibrissa during non contact whisking and whisking against an object</b>
			<br>B. Quist, V. Seghete, L. Huet, T. D. Murphey, and M. J. Z. Hartmann
			<br><i>Journal of Neuroscience</i>, vol. 34, pp. 9828–9844, July 2014.</p>
		<p><b>Towards software-enabled rehabilitation</b>
			<br>T. D. Murphey and B. Argall
			<br><i>IROS Workshop on Workshop on Rehabilitation & Assistive Robotics</i>, 2014.</p>
		<p><b>Improving object tracking through distributed exploration of an information map</b>
			<br>I. D. Neveln, L. M. Miller, M. A. MacIver, and T. D. Murphey
			<br><i>IEEE Int. Conf. on Intelligent Robots and Systems (IROS)</i>, pp. 3441 – 3447, 2014. <a href="/pdfs/2014IROSNeMiMuMa.pdf">PDF</a></p>
		<p><b>Single-integration mode scheduling for linear time-varying switched systems</b>
			<br>A. Mavrommati and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 430 – 436, 2014. <a href="/pdfs/2014ACCMaMu.pdf">PDF</a></p>
		<p><b>Effects of optimal tactile feedback in balancing tasks: a pilot study</b>
			<br>E. Tzorakoleftherakis, F. Mussa-Ivaldi, R. Scheidt, and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 778 – 783, 2014. <a href="/pdfs/2014ACCTzMuScMu.pdf">PDF</a></p>
		<p><b>Continuous-time optimal control of impacting mechanical systems via a projected Hamilton’s principle</b>
			<br>V. Seghete and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 2438 – 2444, 2014. <a href="/pdfs/2014ACCSeMu.pdf">PDF</a></p>
		<p><b>Extending filter performance through structured integration</b>
			<br>J. Schultz and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 261 – 270, 2014. <a href="/pdfs/2014ACCScMu.pdf">PDF</a></p>
		<p><b>Engineering autonomous theatre: The impact of culture on mobile robots and automated systems</b>
			<br>E. Jochum, J. Schultz, and T. D. Murphey
			<br><i>AAMAS Workshop on Culture Aware Robotics</i>, 2014.</p>
		<p><b>Local E-optimality conditions for trajectory design to estimate parameters in nonlinear systems</b>
			<br>A. Wilson and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 443 – 450, 2014. <a href="/pdfs/2014ACCWiMu.pdf">PDF</a></p>
		<p><b>Real-time trajectory generation for a planar crane using	discrete mechanics</b>
			<br>J. Schultz and T. D. Murphey
			<br><i>IROS Workshop on Real-Time Systems</i>, 2014. <a href="/pdfs/2014IROSScMu_rtmgc.pdf">PDF</a></p>
		<p><b>INTERACT: Applying theory and methods from the visual and performing arts to robots</b>
			<br>E. Jochum, G. Borggreen, and T. D. Murphey
			<br><i>HRI-Workshop on Culture Aware Robotics</i>, 2014. <a href="/pdfs/2014HRIJoBoMu.pdf">PDF</a></p>

		<br><h2>2013</h2>
		<p><b>Simultaneous optimal estimation of mode transition times and parameters applied to simple traction models</b>
			<br>L. Miller and T. D. Murphey
			<br><i>IEEE Transactions on Robotics</i>, vol. 29, no. 6, pp. 1496–1503, 2013. <a href="/pdfs/2013TROMiMu.pdf">PDF</a></p>
		<p><b>Uniqueness conditions for simultaneous impact in locomotion: existence, uniqueness, and design consequences</b>
			<br>V. Seghete and T. D. Murphey
			<br><i>IEEE Transactions on Automation Science and Engineering</i>, vol. 11, no. 1, pp. 154–168, 2014.</p>
		<p><b>Feature localization using kinematics and impulsive hybrid optimization</b>
			<br>Y. P. Leong and T. D. Murphey
			<br><i>IEEE Transactions on Automation Science and Engineering</i>, vol. 10, no. 4, pp. 957 – 968, 2013.  <a href="/pdfs/2013TASELeMu.pdf">PDF</a></p>
		<p><b>Projection-based optimal mode scheduling</b>
			<br>T. Caldwell and T. D. Murphey
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 5307 – 5314, 2013. <a href="/pdfs/2013CDCCaMu.pdf">PDF</a>, <a href="/pdfs/2013CDCCaMuLong.pdf">Extended Version</a></p>
		<p><b>Trajectory optimization for continuous ergodic exploration on the motion group SE(2)</b>
			<br>L. Miller and T. D. Murphey
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 4517 – 4522, 2013. <a href="/pdfs/2013CDCMiMu.pdf">PDF</a></p>
		<p><b>A projected Lagrange-d’Alembert principle for forced nonsmooth mechanics and optimal control</b>
			<br>D. Pekarek and T. D. Murphey
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 7777 – 7784, 2013. <a href="/pdfs/2013CDCPeMu.pdf">PDF</a></p>
		<p><b>Minimal sensitivity control for hybrid environments</b>
			<br>A. Ansari and T. D. Murphey
			<br><i>IEEE Int. Conf. on Intelligent Robots and Systems (IROS)</i>, pp. 3023 – 3028, 2013. <a href="/pdfs/2013IROSAnMu.pdf">PDF</a></p>
		<p><b>Optimal planning for information acquisition</b>
			<br>Y. Silverman, L. Miller, M. MacIver, and T. D. Murphey
			<br><i>IEEE Int. Conf. on Intelligent Robots and Systems (IROS)</i>, pp. 5974 – 5980, 2013. <a href="/pdfs/2013IROSSiMiMaMu.pdf">PDF</a></p>
		<p><b>Optimal trajectory design for well-conditioned parameter estimation</b>
			<br>A. D. Wilson and T. D. Murphey
			<br><i>IEEE Int. Conf. on Automation Science and Engineering (CASE)</i>, pp. 13–19, 2013. Finalist for ABB Best Conference Paper Award. <a href="/pdfs/2013CASEWiMu.pdf">PDF</a></p>
		<p><b>Discretized switching time optimization problems</b>
			<br>K. Flaßkamp, T. D. Murphey, and S. Ober-Blöbaum
			<br><i>European Control Conference (ECC)</i>, pp. 3179–3184, 2013. <a href="/pdfs/2013ECCFlMuOb.pdf">PDF</a></p>
		<p><b>Second-order switching time and magnitude optimization for impulsive hybrid systems</b>
			<br>Y. P. Leong and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 6213–6218, 2013. <a href="/pdfs/2013ACCLeMu.pdf">PDF</a></p>
		<p><b>Trajectory optimization for continuous ergodic exploration</b>
			<br>L. M. Miller and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 4196–4201, 2013. <a href="/pdfs/2013ACCMiMu.pdf">PDF</a></p>
		<p><b>Embedded control synthesis using one-step methods in discrete mechanics</b>
			<br>J. Schultz and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 5293–5298, 2013. <a href="/pdfs/2013ACCScMu.pdf">PDF</a></p>
		<p><b>Minimal parametric sensitivity trajectories for nonlinear systems</b>
			<br>A. Ansari and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 5011–5016, 2013. <a href="/pdfs/2013ACCAnMu.pdf">PDF</a></p>
		<p><b>Robotic Puppets and the Engineering of Autonomous Theater</b>
			<br>E. Jochum, J. Schultz, E. Johnson, and T. D. Murphey,
			<br><i>Art and Control</i>, Springer-Verlag, 2013. Eds. A. LaViers and M. Egerstedt. <a href="/pdfs/2013ControlAndArtJoScMu.pdf">PDF</a></p>

		<br><h2>2012</h2>
		<p><b>Single integration optimization of linear time-varying switched systems</b>
			<br>T. Caldwell and T. D. Murphey
			<br><i>IEEE Transactions on Automatic Control</i>, vol. 57, no. 6, pp. 1592–1597, 2012.</p>
		<p><b>Global projections for variational nonsmooth mechanics</b>
			<br>D. Pekarek and T. D. Murphey
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 5572–5579, 2012. <a href="/pdfs/2012CDCPeMu.pdf">PDF</a></p>
		<p><b>Optimal contact decisions for ergodic exploration</b>
			<br>L. Miller and T. D. Murphey
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 5091–5097, 2012. <a href="/pdfs/2012CDCMiMu.pdf">PDF</a></p>
		<p><b>Projection-based switching system optimization: Absolute continuity of the line search</b>
			<br>T. Caldwell and T. D. Murphey
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 699–706, 2012. <a href="/pdfs/2012CDCCaMu.pdf">PDF</a></p>
		<p><b>Switching time optimization in discretized hybrid dynamical systems</b>
			<br>K. Flaßkamp, T. D. Murphey, and S. Ober-Blöbaum
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 707–712, 2012. <a href="/pdfs/2012CDCFlMuOb.pdf">PDF</a></p>
		<p><b>“Simultaneous optimal parameter and mode transition estimation</b>
			<br>L. Miller and T. D. Murphey
			<br><i>IEEE Int. Conf. on Intelligent Robots and Systems (IROS)</i>, pp. 719–724, 2012. <a href="/pdfs/2012IROSMiMu.pdf">PDF</a></p>
		<p><b>Varational nonsmooth mechanics via a projected Hamilton’s principle</b>
			<br>D. Pekarek and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 1040–1046, 2012. <a href="/pdfs/2012ACCPeMu.pdf">PDF</a></p>
		<p><b>Linear time-varying impulse optimization for data association</b>
			<br>M. Travers, T. D. Murphey, and L. Y. Pao
			<br><i>American Controls Conf. (ACC)</i>, pp. 1047–1052, 2012. <a href="/pdfs/2012ACCTrMuPa.pdf">PDF</a></p>
		<p><b>Projection-based switching time optimization</b>
			<br>T. Caldwell and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 4552–4557, 2012. <a href="/pdfs/2012ACCCaMu.pdf">PDF</a></p>
		<p><b>Making robotic marionettes perform</b>
			<br>T. D. Murphey and B. Argall
			<br><i>ICRA Workshop on Robotics and Performance Arts: Reciprocal Influences</i>, 2012. <a href="/pdfs/2012ICRAMuAg.pdf">PDF</a></p>
		<p><b>Trajectory tracking among landmarks and binary sensor beams</b>
			<br>B. Tovar and T. D. Murphey
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, pp. 2121–2127, 2012. <a href="/pdfs/2012ICRAToMu.pdf">PDF</a></p>
		<p><b>Conditions for uniqueness in simultaneous impact with application to mechanical design</b>
			<br>V. Seghete and T. D. Murphey
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, pp. 5006–5011, 2012. <a href="/pdfs/2012ICRASeMu.pdf">PDF</a></p>
		<p><b>Trajectory generation for underactuated control of a suspended mass</b>
			<br>J. Schultz and T. D. Murphey
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, pp. 123–129, 2012. <a href="/pdfs/2012ICRAScMu.pdf">PDF</a></p>
		<p><b>Programming Play: Puppets, Robots, and Engineering.</b>
			<br>E. Jochum and T. D. Murphey,
			<br><i>New Scholarship on Puppetry and Performing Objects</i>, Springer-Verlag, 2012. Eds. D. Posner, J. Bell, and C. Orenstein. <a href="/pdfs/2012PuppetBookJoMu.pdf">PDF</a></p>

		<br><h2>2011</h2>
		<p><b>Second-order switching time optimization for nonlinear time-varying dynamic systems</b>
			<br>T. Caldwell and T. D. Murphey
			<br><i>Automatica</i>, vol. 47, no. 1, pp. 50–64, 2011. <a href="/pdfs/2011AUTCaMu.pdf">PDF</a></p>
		<p><b>Second-order switching time optimization for nonlinear time-varying dynamic systems</b>
			<br>E. Johnson and T. D. Murphey
			<br><i>IEEE Transactions on Automatic Control</i>, vol. 56, no. 8, pp. 1953–1957, 2011.
		<p><b>Constructing and implementing motion programs for robotic marionettes</b>
			<br>P. Martin, E. Johnson, T. D. Murphey, and M. Egerstedt
			<br><i>IEEE Transactions on Automatic Control</i>, vol. 56, no. 4, pp. 902–907, 2011. <a href="/pdfs/2011TACMaJoMuEg.pdf">PDF</a></p>
		<p><b>Second-order switching time optimization for nonlinear time-varying dynamic systems</b>
			<br>E. Johnson and T. D. Murphey
			<br><i>IEEE Transactions on Automatic Control</i>, vol. 56, no. 8, pp. 1953–1957, 2011. <a href="/pdfs/2011TACJoMu.pdf">PDF</a></p>
		<p><b>A backwards error analysis approach for simulation and control of nonsmooth mechanical systems</b>
			<br>D. Pekarek and T. D. Murphey
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 6942–6949, 2011. <a href="/pdfs/2011CDCPeMu.pdf">PDF</a></p>
		<p><b>Single integration optimization of linear time-varying switched systems</b>
			<br>T. Caldwell and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 2024–2030, 2011. <a href="/pdfs/2011ACCCaMu.pdf">PDF</a></p>
		<p><b>Trajectory optimization estimator for impulsive data association</b>
			<br>M. Travers, T. D. Murphey, and L. Y. Pao
			<br><i>American Controls Conf. (ACC)</i>, pp. 4514–4519, 2011. <a href="/pdfs/2011ACCTrMuPa.pdf">PDF</a></p>
		<p><b>Control aesthetics in software for automated marionettes</b>
			<br>T. D. Murphey and E. Johnson
			<br><i>American Controls Conf. (ACC)</i>, pp. 3825 – 3830, 2011. <a href="/pdfs/2011ACCMuJo.pdf">PDF</a></p>
		<p><b>Optimal motion planning for a class of hybrid dynamical systems with impacts</b>
			<br>A. Long, T. D. Murphey, and K. M. Lynch
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, pp. 4220 – 4226, 2011. <a href="/pdfs/2011ICRALoMuLy.pdf">PDF</a></p>
		<p><b>Impulsive data association with an unknown number of targets</b>
			<br>M. Travers, T. D. Murphey, and L. Y. Pao
			<br><i>Hybrid Systems: Computation and Control</i>, pp. 261 – 270, 2011. <a href="/pdfs/2011HSCCTrMuPa.pdf">PDF</a></p>
		<p><b>Variational methods for contact mechanics</b>
			<br>T. D. Murphey, D. Pekarek, and V. Seghete
			<br><i>Robotics Science and Systems Workshop: Toward High-Performance	Computing Support for Simulation and Planning of Robot Contact Tasks</i>, 2011. <a href="/pdfs/2011RSSMuPeSe.pdf">PDF</a></p>

		<br><h2>2010</h2>
		<p><b>Programming from the ground up in controls laboratories</b>
			<br>T. D. Murphey and J. Falcon
			<br><i>International Journal of Engineering Education</i>, vol. 26, no. 5, pp. 1241–1248, 2010. <a href="/pdfs/2010IJEEMuFa.pdf">PDF</a></p>
		<p><b>A Robotic Pygmalion: Choreography for an automated marionette play</b>
			<br>E. Jochum and T. D. Murphey
			<br><i>Puppetry International</i>, vol. 27, pp. 22–24, 2010.</p>
		<p><b>An adjoint method for second-order switching-time optimization</b>
			<br>T. Caldwell and T. D. Murphey
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 2155–2162, 2010. <a href="/pdfs/2010CDCCaMu.pdf">PDF</a></p>
		<p><b>Data association with impulse optimization</b>
			<br>M. Travers, L. Pao, and T. D. Murphey
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 2204–2209, 2010. <a href="/pdfs/2010CDCTrMuPa.pdf">PDF</a></p>
		<p><b>Second-order DMOC using projections</b>
			<br>K. Snyder and T. D. Murphey
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 1872–1878, 2010. <a href="/pdfs/2010CDCSnMu.pdf">PDF</a></p>
		<p><b>Local planning using switching time optimization</b>
			<br>E. Johnson and T. D. Murphey
			<br><i>IEEE Int. Conf. on Automation Science and Engineering (CASE)</i>, pp. 828–834, 2010. <a href="/pdfs/2010CASEJoMu.pdf">PDF</a></p>
		<p><b>Geometric integration of impact during an orbital docking procedure</b>
			<br>C. Gibson and T. D. Murphey
			<br><i>IEEE Int. Conf. on Automation Science and Engineering (CASE)</i>, pp. 928–932, 2010. <a href="/pdfs/2010CASEGiMu.pdf">PDF</a></p>
		<p><b>Linearizations for mechanical systems in generalized coordinates</b>
			<br>E. Johnson and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 629–633, 2010. <a href="/pdfs/2010ACCJoMu.pdf">PDF</a></p>
		<p><b>Stochastic sampling-based data association</b>
			<br>M. Travers, T. D. Murphey, and L. Y. Pao
			<br><i>American Controls Conf. (ACC)</i>, pp. 1386–1391, 2010. <a href="/pdfs/2010ACCTrMuPa.pdf">PDF</a></p>
		<p><b>Variational solutions to simultaneous collisions between multiple rigid bodies</b>
			<br>V. Seghete and T. D. Murphey
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, pp. 2731–2738, 2010. <a href="/pdfs/2010ICRASeMu.pdf">PDF</a></p>
		<p><b>Relaxed optimization for mode estimation in skid steering</b>
			<br>T. Caldwell and T. D. Murphey
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, pp. 5423–5428, 2010. <a href="/pdfs/2010ICRACaMu.pdf">PDF</a></p>
		<p><b>Topology-based variational integration of degenerate interconnected mechanical systems</b>
			<br>T. D. Murphey
			<br><i>European Conference on Computational Mechanics (ECCM)</i>,	2010. <a href="/pdfs/2010ECCMMu.pdf">PDF</a></p>

		<br><h2>2009</h2>
		<p><b>Scalable variational integrators for constrained mechanical systems in generalized coordinates</b>
			<br>E. Johnson and T. D. Murphey
			<br><i>IEEE Transactions on Robotics</i>, vol. 25, no. 6, pp. 1249–1261, 2009. <a href="/pdfs/2009TROJoMu.pdf">PDF</a> <a href="/pdfs/2009TROJoMuextended.pdf">Extended Version</a></p>
		<p><b>Second order switching time optimization for time-varying nonlinear systems</b>
			<br>E. Johnson and T. D. Murphey
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 5281 – 5286, 2009. <a href="/pdfs/2009CDCJoMu.pdf">PDF</a></p>
		<p><b>Multiple instantaneous collisions in a variational framework</b>
			<br>V. Seghete and T. D. Murphey
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 5015 – 5020, 2009. <a href="/pdfs/2009CDCSeMu.pdf">PDF</a></p>
		<p><b>Automated trajectory morphing for marionettes using trajectory optimization</b>
			<br>E. Johnson and T. D. Murphey
			<br><i>IEEE Int. Conf. on Automation Science and Engineering (CASE)</i>, pp. 274–279, 2009. <a href="/pdfs/2009CASEJoMu.pdf">PDF</a></p>
		<p><b>Second-order optimal estimation of slip state for a simple slip-steered vehicle</b>
			<br>T. Caldwell and T. D. Murphey
			<br><i>IEEE Int. Conf. on Automation Science and Engineering (CASE)</i>, pp. 133–139, 2009. <a href="/pdfs/2009CASECaMu.pdf">PDF</a></p>
		<p><b>Dangers of two-point holonomic constraints for variational integrators</b>
			<br>E. Johnson and T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 4723–4728, 2009. <a href="/pdfs/2009ACCJoMu.pdf">PDF</a></p>

		<br><h2>2008</h2>
		<p><b>Convergence preserving switching for topology-dependent decentralized systems</b>
			<br>B. Shucker, T. D. Murphey, and J. Bennett
			<br><i>IEEE Transactions on Robotics</i>, vol. 24, no. 6, pp. 1405–1415, 2008. <a href="/pdfs/2008TROScMuBe.pdf">PDF</a></p>
		<p><b>Case studies in planar part feeding and assembly based on design of limit sets</b>
			<br>T. D. Murphey and K. M. Lynch
			<br><i>International Journal of Robotics Research</i>, vol. 27, pp. 693–708, June 2008. <a href="/pdfs/2008IJRRMuLy.pdf">PDF</a></p>
		<p><b>Teaching rigid body mechanics using student-created virtual environments</b>
			<br>T. D. Murphey
			<br><i>IEEE Transactions on Education</i>, vol. 51, no. 1, pp. 45–52, 2008. <a href="/pdfs/2008TEEMu.pdf">PDF</a></p>
		<p><b>On multiple model control for multiple contact systems</b>
			<br>T. D. Murphey
			<br><i>Automatica</i>, vol. 44, pp. 451–458, 2008. <a href="/pdfs/2008AUTMu.pdf">PDF</a></p>
		<p><b>Variational integrators for constrained cables</b>
			<br>K. Nichols and T. D. Murphey
			<br><i>IEEE Int. Conf. on Automation Science and Engineering (CASE)</i>, pp. 802–807, 2008. <a href="/pdfs/2008CASENiMu.pdf">PDF</a></p>
		<p><b>Filtering of interaction rules in cooperation</b>
			<br>T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 3733–3739, 2008. <a href="/pdfs/2008ACCMu.pdf">PDF</a></p>
		<p><b>Data association with ambiguous measurements</b>
			<br>M. Travers, T. D. Murphey, and L. Pao
			<br><i>American Controls Conf. (ACC)</i>, pp. 1875–1880, 2008. <a href="/pdfs/2008ACCTrMuPa.pdf">PDF</a></p>
		<p><b>Discrete and continuous mechanics for tree representations of mechanical systems</b>
			<br>E. Johnson and T. D. Murphey
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, pp. 1106–1111, 2008. <a href="/pdfs/2008ICRAJoMu.pdf">PDF</a></p>
		<p><b>Adaptive cooperative manipulation with intermittent contact</b>
			<br>T. D. Murphey and M. Horowitz
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, pp. 1483–1488, 2008. <a href="/pdfs/2008ICRAMuHo.pdf">PDF</a></p>
		<p><b>The automated marionette project</b>
			<br>E. Johnson and T. D. Murphey
			<br><i>AAAI Robotics and Creativity Workshop</i>, 2008.<a href="/pdfs/2008AAAIJoMu.pdf">PDF</a></p>
		<p><b>A Variational Approach to Strand-Based Modeling of the Human Hand</b>
			<br>E. Johnson, K. Morris, and T. D. Murphey,
			<br><i>Algorithmic Foundations of Robotics VIII</i> pp. 151–166. Springer-Verlag, 2008. Eds. G. Chirikjian, H. Choset, M. Morales, T. D. Murphey. <a href="/pdfs/2008WAFRJoMoMu.pdf">PDF</a></p>

		<br><h2>2007</h2>
		<p><b>Kinematic reductions for uncertain mechanical contact</b>
			<br>T. D. Murphey
			<br><i>Robotica</i>, vol. 25, pp. 751–764, Nov 2007. <a href="/pdfs/2007ROBMu.pdf">PDF</a></p>
		<p><b>Geometric derived information spaces in manipulation with mechanical contact</b>
			<br>T. D. Murphey
			<br><i>IEEE Int. Conf. on Automation Science and Engineering (CASE)</i>, pp. 338–345, 2007. <a href="/pdfs/2007CASEMu.pdf">PDF</a></p>
		<p><b>Dynamic modeling and motion planning for marionettes: Rigid bodies articulated by massless strings</b>
			<br>E. Johnson and T. D. Murphey
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, pp. 330–335, 2007. <a href="/pdfs/2007ICRAJoMu.pdf">PDF</a></p>
		<p><b>Teaching rigid body mechanics using student-created virtual environments</b>
			<br>T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 2503–2508, 2007. <a href="/pdfs/2007ACCMu.pdf">PDF</a></p>
		<p><b>Switching Rules for Decentralized Control with Simple Control Law</b>
			<br>B. Shucker, T. D. Murphey, and J. Bennett
			<br><i>American Controls Conf. (ACC)</i>, pp. 1485–1492, 2007. <a href="/pdfs/2007ACCShMuBe.pdf">PDF</a></p>
		<p><b>Choreography for Marionettes: Imitation, Planning, and Control</b>
			<br>T. D. Murphey and M. Egerstedt
			<br><i>IEEE Int. Conf. on Intelligent Robots and	Systems (IROS)</i>, 2007. <a href="/pdfs/2007IROSMuEg.pdf">PDF</a></p>
		<p><b>Motion Programs for Puppet Choreography and Control</b>
			<br>M. Egerstedt, T. D. Murphey, and J. Ludwig,
			<br><i>Hybrid Systems: Computation and Control</i>, Springer Berlin Heidelberg, 2007. Eds. A. Bemporad, A. Bicchi, and G. Buttazzo. <a href="/pdfs/2007HSCCEgMuLu.pdf">PDF</a></p>

		<br><h2>2006</h2>
		<p><b>The power dissipation method and kinematic reducibility of multiple model robotic systems</b>
			<br>T. D. Murphey and J. W. Burdick
			<br><i>IEEE Transactions on Robotics</i>, vol. 22, pp. 694–710, August 2006. <a href="/pdfs/2006TROMuBu.pdf">PDF</a></p>
		<p><b>Programming from the ground up in controls laboratories using graphical programming</b>
			<br>T. D. Murphey and J. Falcon
			<br><i>Proceedings of the IFAC Advances in Control Education (ACE)</i>, 2006. <a href="/pdfs/2006IFACACEMuFa.pdf">PDF</a></p>
		<p><b>Modeling and control of multiple-contact manipulation without modeling friction</b>
			<br>T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 3227–3234, 2006.</p>
		<p><b>An approach to switching control beyond nearest neighbor rules</b>
			<br>B. Shucker, T. D. Murphey, and J. Bennett
			<br><i>American Controls Conf. (ACC)</i>, pp. 5959–5965, 2006. <a href="/pdfs/2006ACCShMuBe.pdf">PDF</a></p>
		<p><b>Motion planning for kinematically overconstrained vehicles using	feedback primitives</b>
			<br>T. D. Murphey
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, pp. 1643–1648, 2006. <a href="/pdfs/2006ICRAMu.pdf">PDF</a></p>
		<p><b>Cooperative control using occasional	non-local interactions</b>
			<br>B. Shucker, T. D. Murphey, and J. Bennett
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>,	pp. 1324–1329, 2006. <a href="/pdfs/2006ICRAShMuBe.pdf">PDF</a></p>
		<p><b>Mechanical Manipulation Using Reduced Models of Uncertainty</b>
			<br>T. D. Murphey
			<br><i>Workshop on the Algorithmic Foundations of Robotics (WAFR)</i>, 2006. <a href="/pdfs/2006WAFRMu.pdf">PDF</a></p>

		<br><h2>2005</h2>
		<p><b>An example of parts handling and self-assembly using stable limit sets</b>
			<br>T. D. Murphey, J. Bernheisel, D. Choi, and K. M. Lynch
			<br><i>IEEE Int. Conf. on Intelligent Robots and	Systems (IROS)</i>, pp. 1624–1629, 2005.</p>
		<p><b>Application of supervisory control methods to uncertain multiple model systems</b>
			<br>T. D. Murphey
			<br><i>American Controls Conf. (ACC)</i>, pp. 774–780, 2005.</p>
		<p><b>On Observing Contact States in Overconstrained Manipulation</b>
			<br>T. D. Murphey,
			<br><i>Multi-point Interaction with Real and Virtual Objects</i>, pp. 151–164. Springer-Verlag, 2005. Eds. F. Barbagli, D. Prattichizzo, and K. Salisbury.</p>

		<br><h2>2004</h2>
		<p><b>Feedback control methods for distributed manipulation systems that involve mechanical contacts</b>
			<br>T. D. Murphey and J. W. Burdick
			<br><i>International Journal of Robotics Research</i>, vol. 23, pp. 763–782, July 2004. <a href="/pdfs/2004IJRRMuBu.pdf">PDF</a></p>
		<p><b>Experiments in the use of	stable limits sets for parts handling</b>
			<br>T. D. Murphey, D. Choi, J. Bernheisel, and K. M. Lynch
			<br><i>Proc. Int. Conf. MEMS, NANO, and Smart Systems (ICMENS)</i>, pp. 218–224, 2004.</p>

		<br><h2>2003</h2>
		<p><b>Kinematic reducibility for multiple model systems</b>
			<br>T. D. Murphey and J. W. Burdick
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 5307–5313, 2003.</p>
		<p><b>Experiments in nonsmooth control of distributed manipulation</b>
			<br>T. D. Murphey and J. W. Burdick
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, pp. 3600–3606, 2003.</p>
		<p><b>Smooth feedback control algorithms for fully	actuated distributed manipulators</b>
			<br>T. D. Murphey and J. W. Burdick
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, pp. 3619–3623, 2003.</p>
		<p><b>Control of Nonprehensile Manipulation</b>
			<br>K. M. Lynch and T. D. Murphey,
			<br><i>Control Problems in Robotics and Automation</i> pp. 39–57. Springer-Verlag, 2003. Eds. A. Bicchi and H. Christensen.</p>

		<br><h2>2002</h2>
		<p><b>Nonsmooth controllability theory and an example</b>
			<br>T. D. Murphey and J. W. Burdick
			<br><i>IEEE Int. Conf. on Decision and Control (CDC)</i>, pp. 370–376, 2002.</p>
		<p><b>Global exponential stabilizability for distributed manipulation</b>
			<br>T. D. Murphey and J. W. Burdick
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, pp. 1210–1216, 2002.</p>
		<p><b>A local controllability test for nonlinear multiple model systems</b>
			<br>T. D. Murphey and J. W. Burdick
			<br><i>American Controls Conf. (ACC)</i>, pp. 4657–4661, 2002.</p>

		<p class=year>2001</p>
		<p><b>Global stability for distributed systems with changing contact states</b>
			<br>T. D. Murphey and J. W. Burdick
			<br><i>IEEE Int. Conf. on Intelligent Robots and Systems (IROS)</i>, pp. 214–219, 2001.</p>
		<p><b>A controllability test and motion planning primitives for overconstrained vehicles</b>
			<br>T. D. Murphey and J. W. Burdick
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, pp. 2716–2722, 2001.</p>
		<p><b>On the stability and design of distributed systems</b>
			<br>T. D. Murphey and J. W. Burdick
			<br><i>IEEE Int. Conf. on Robotics and Automation (ICRA)</i>, pp. 2686–2691, 2001.</p>

		<p class=year>2000</p>
		<p><b>Issues in controllability and motion planning for overconstrained wheeled vehicles</b>
			<br>T. D. Murphey and J. W. Burdick
			<br><i>Proc. Int. Conf. Math. Theory of Networks and Systems (MTNS)</i>, 2000.</p>


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