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ORCIDMagnus Egerstedt
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- affiliation: Georgia Institute of Technology, Atlanta, USA
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2020 – today
- 2024
[j116]Alexander A. Nguyen
, Luis Guerrero-Bonilla, Faryar Jabbari, Magnus Egerstedt:
Scalable, Pairwise Collaborations in Heterogeneous Multi-Robot Teams. IEEE Control. Syst. Lett. 8: 604-609 (2024)- [j115]Soobum Kim, Ruoyu Lin, Samuel Coogan, Magnus Egerstedt:
Area Coverage Using Multiple Aerial Robots With Coverage Redundancy and Collision Avoidance. IEEE Control. Syst. Lett. 8: 610-615 (2024) - [j114]Tatsuya Miyano, Justin Romberg, Magnus Egerstedt:
Globally Optimal Assignment Algorithm for Collective Object Transport Using Air-Ground Multirobot Teams. IEEE Trans. Control. Syst. Technol. 32(1): 258-265 (2024) - [j113]Riku Funada, María Santos, Ryuichi Maniwa, Junya Yamauchi, Masayuki Fujita, Mitsuji Sampei, Magnus Egerstedt:
Distributed Coverage Hole Prevention for Visual Environmental Monitoring With Quadcopters Via Nonsmooth Control Barrier Functions. IEEE Trans. Robotics 40: 1546-1565 (2024) - 2023
- [j112]Priyabrata Saha, Luis Guerrero-Bonilla, Magnus Egerstedt, Saibal Mukhopadhyay:
Learning Deep Neural Network Controller for Path Following of Unicycle Robots. IEEE Robotics Autom. Lett. 8(1): 248-255 (2023) - [j111]Si Wu, Tengfei Liu, Magnus Egerstedt, Zhong-Ping Jiang:
Quadratic Programming for Continuous Control of Safety-Critical Multiagent Systems Under Uncertainty. IEEE Trans. Autom. Control. 68(11): 6664-6679 (2023) - [j110]Zhijian Hao, Siddharth Mayya, Gennaro Notomista, Seth Hutchinson, Magnus Egerstedt, Azadeh Ansari:
Controlling Collision-Induced Aggregations in a Swarm of Micro Bristle Robots. IEEE Trans. Robotics 39(1): 590-604 (2023) - [c268]Ruoyu Lin, Magnus Egerstedt:
Coverage Control on the Special Euclidean Groups. ACC 2023: 1972-1979 - [c267]Alexander A. Nguyen, Faryar Jabbari, Magnus Egerstedt:
Mutualistic Interactions in Heterogeneous Multi-Agent Systems. CDC 2023: 411-418 - [c266]Ruoyu Lin, Magnus Egerstedt:
Predator-Prey Interactions Through Heterogeneous Coverage Control Using Reaction-Diffusion Processes. CDC 2023: 5431-5436 - [c265]Ruoyu Lin, Magnus Egerstedt:
Dynamic Multi-Target Tracking Using Heterogeneous Coverage Control. IROS 2023: 11103-11110 - [i59]Max Rudolph, Sean Wilson, Magnus Egerstedt:
Range Limited Coverage Control using Air-Ground Multi-Robot Teams. CoRR abs/2306.07385 (2023) - 2022
- [j109]Haoyan Zhai, Magnus Egerstedt, Haomin Zhou:
Path Exploration in Unknown Environments Using Fokker-Planck Equation on Graph. J. Intell. Robotic Syst. 104(4): 71 (2022) - [j108]Christina Frederick, Magnus Egerstedt, Haomin Zhou:
Collective Motion Planning for a Group of Robots Using Intermittent Diffusion. J. Sci. Comput. 90(1): 13 (2022) - [j107]Soobum Kim, María Santos, Luis Guerrero-Bonilla, Anthony J. Yezzi, Magnus Egerstedt:
Coverage Control of Mobile Robots With Different Maximum Speeds for Time-Sensitive Applications. IEEE Robotics Autom. Lett. 7(2): 3001-3007 (2022) - [j106]Ragesh Kumar Ramachandran, Pietro Pierpaoli, Magnus Egerstedt, Gaurav S. Sukhatme:
Resilient Monitoring in Heterogeneous Multi-Robot Systems Through Network Reconfiguration. IEEE Trans. Robotics 38(1): 126-138 (2022) - [j105]Gennaro Notomista, Siddharth Mayya, Yousef Emam, Christopher M. Kroninger, Addison W. Bohannon, Seth Hutchinson, Magnus Egerstedt:
A Resilient and Energy-Aware Task Allocation Framework for Heterogeneous Multirobot Systems. IEEE Trans. Robotics 38(1): 159-179 (2022) - [j104]Yousef Emam, Paul Glotfelter, Sean Wilson, Gennaro Notomista, Magnus Egerstedt:
Data-Driven Robust Barrier Functions for Safe, Long-Term Operation. IEEE Trans. Robotics 38(3): 1671-1685 (2022) - [c264]Soobum Kim, Magnus Egerstedt:
Heterogeneous Coverage Control with Mobility-Based Operating Regions. ACC 2022: 2148-2153 - [c263]Magnus Egerstedt, Clyde F. Martin:
Control-Theoretic, Recursive Smoothing Splines. ACC 2022: 2950-2955 - [c262]Tatsuya Miyano, Justin Romberg, Magnus Egerstedt:
Distributed Optimal Assignment Algorithm for Collective Foraging. ACC 2022: 4713-4720 - [c261]Tatsuya Miyano, Justin Romberg, Magnus Egerstedt:
Passivity-Based Distributed Control for Cooperative Unknown Payload Manipulation with Sensing/Actuation Delays. CCTA 2022: 319-326 - [c260]Carmen Jimenez Cortes, Magnus Egerstedt:
Task Persistification for Robots with Control-Dependent Energy Dynamics. ICRA 2022: 128-134 - [c259]Luis Guerrero-Bonilla, Carlos Nieto-Granda, Magnus Egerstedt:
Ensured Continuous Surveillance Despite Sensor Transition Using Control Barrier Functions. ISRR 2022: 404-419 - [i58]Riku Funada, Maria Santos, Ryuichi Maniwa, Junya Yamauchi, Masayuki Fujita, Mitsuji Sampei, Magnus Egerstedt:
Distributed Coverage Hole Prevention for Visual Environmental Monitoring with Quadcopters via Nonsmooth Control Barrier Functions. CoRR abs/2211.02872 (2022) - [i57]Si Wu, Tengfei Liu, Magnus Egerstedt, Zhong-Ping Jiang:
Quadratic Programming for Continuous Control of Safety-Critical Multi-Agent Systems Under Uncertainty. CoRR abs/2211.16720 (2022) - 2021
- [j103]Motoya Ohnishi, Gennaro Notomista, Masashi Sugiyama, Magnus Egerstedt:
Constraint learning for control tasks with limited duration barrier functions. Autom. 127: 109504 (2021) - [j102]Aaron D. Ames, Gennaro Notomista, Yorai Wardi, Magnus Egerstedt:
Integral Control Barrier Functions for Dynamically Defined Control Laws. IEEE Control. Syst. Lett. 5(3): 887-892 (2021) - [j101]Maria Santos, Magnus Egerstedt:
From Motions to Emotions: Can the Fundamental Emotions be Expressed in a Robot Swarm? Int. J. Soc. Robotics 13(4): 751-764 (2021) - [j100]Sean Wilson, Paul Glotfelter, Siddharth Mayya, Gennaro Notomista, Yousef Emam, Xiaoyi Cai, Magnus Egerstedt:
The Robotarium: Automation of a Remotely Accessible, Multi-Robot Testbed. IEEE Robotics Autom. Lett. 6(2): 2922-2929 (2021) - [j99]Priyabrata Saha, Magnus Egerstedt, Saibal Mukhopadhyay:
Neural Identification for Control. IEEE Robotics Autom. Lett. 6(3): 4648-4655 (2021) - [j98]Paul Glotfelter, Jorge Cortés, Magnus Egerstedt:
A Nonsmooth Approach to Controller Synthesis for Boolean Specifications. IEEE Trans. Autom. Control. 66(11): 5160-5174 (2021) - [j97]Gennaro Notomista, Magnus Egerstedt:
Persistification of Robotic Tasks. IEEE Trans. Control. Syst. Technol. 29(2): 756-767 (2021) - [j96]Pietro Pierpaoli, Anqi Li, Mohit Srinivasan, Xiaoyi Cai, Samuel Coogan, Magnus Egerstedt:
A Sequential Composition Framework for Coordinating Multirobot Behaviors. IEEE Trans. Robotics 37(3): 864-876 (2021) - [j95]Ian Buckley, Magnus Egerstedt:
Infinitesimal Shape-Similarity for Characterization and Control of Bearing-Only Multirobot Formations. IEEE Trans. Robotics 37(6): 1921-1935 (2021) - [c258]Max Rudolph, Sean Wilson, Magnus Egerstedt:
Range Limited Coverage Control using Air-Ground Multi-Robot Teams. ICRA 2021: 3525-3530 - [c257]Eric Squires, Rohit Konda, Pietro Pierpaoli, Samuel Coogan, Magnus Egerstedt:
Safety With Limited Range Sensing Constraints For Fixed Wing Aircraft. ICRA 2021: 9065-9071 - [c256]Yousef Emam, Gennaro Notomista, Paul Glotfelter, Magnus Egerstedt:
Data-Driven Adaptive Task Allocation for Heterogeneous Multi-Robot Teams Using Robust Control Barrier Functions. ICRA 2021: 9124-9130 - [c255]Luis Guerrero-Bonilla, Magnus Egerstedt, Dimos V. Dimarogonas:
Area Defense and Surveillance on Rectangular Regions Using Control Barrier Functions. IROS 2021: 8166-8172 - [c254]Luis Guerrero-Bonilla, Carlos Nieto-Granda, Magnus Egerstedt:
Robust Perimeter Defense using Control Barrier Functions. MRS 2021: 164-172 - [i56]Yousef Emam, Paul Glotfelter, Sean Wilson, Gennaro Notomista, Magnus Egerstedt:
Data-Driven Robust Barrier Functions for Safe, Long-Term Operation. CoRR abs/2104.07592 (2021) - [i55]Gennaro Notomista, Siddharth Mayya, Yousef Emam, Christopher M. Kroninger, Addison W. Bohannon, Seth Hutchinson, Magnus Egerstedt:
A Resilient and Energy-Aware Task Allocation Framework for Heterogeneous Multi-Robot Systems. CoRR abs/2105.05586 (2021) - [i54]Eric Squires, Rohit Konda, Samuel Coogan, Magnus Egerstedt:
Model Free Barrier Functions via Implicit Evading Maneuvers. CoRR abs/2107.12871 (2021) - [i53]Farhad Farokhi, Magnus Egerstedt:
Optimal Stochastic Evasive Maneuvers Using the Schrodinger's Equation. CoRR abs/2110.04956 (2021) - [i52]Yousef Emam, Paul Glotfelter, Zsolt Kira, Magnus Egerstedt:
Safe Model-Based Reinforcement Learning Using Robust Control Barrier Functions. CoRR abs/2110.05415 (2021) - 2020
- [j94]Tatsuya Ibuki, Sean Wilson, Aaron D. Ames, Magnus Egerstedt:
Distributed Collision-Free Motion Coordination on a Sphere: A Conic Control Barrier Function Approach. IEEE Control. Syst. Lett. 4(4): 976-981 (2020) - [j93]Maria Santos, Gennaro Notomista, Siddharth Mayya, Magnus Egerstedt:
Interactive Multi-Robot Painting Through Colored Motion Trails. Frontiers Robotics AI 7: 580415 (2020) - [j92]Tatsuya Ibuki, Sean Wilson, Junya Yamauchi, Masayuki Fujita, Magnus Egerstedt:
Optimization-Based Distributed Flocking Control for Multiple Rigid Bodies. IEEE Robotics Autom. Lett. 5(2): 1891-1898 (2020) - [c253]Tatsuya Miyano, Justin Romberg, Magnus Egerstedt:
Primal-Dual Gradient Dynamics for Cooperative Unknown Payload Manipulation without Communication. ACC 2020: 2061-2067 - [c252]Tatsuya Miyano, Justin Romberg, Magnus Egerstedt:
Distributed Force/Position Optimization Dynamics for Cooperative Unknown Payload Manipulation. CDC 2020: 5366-5373 - [c251]Riku Funada, Maria Santos, Takuma Gencho, Junya Yamauchi, Masayuki Fujita, Magnus Egerstedt:
Visual Coverage Maintenance for Quadcopters Using Nonsmooth Barrier Functions. ICRA 2020: 3255-3261 - [c250]Gennaro Notomista, Mingyu Wang, Mac Schwager, Magnus Egerstedt:
Enhancing Game-Theoretic Autonomous Car Racing Using Control Barrier Functions. ICRA 2020: 5393-5399 - [c249]Ian Buckley, Magnus Egerstedt:
Controller Synthesis for Infinitesimally Shape-Similar Formations. ICRA 2020: 5597-5603 - [c248]Christopher Banks, Sean Wilson, Samuel Coogan, Magnus Egerstedt:
Multi-Agent Task Allocation using Cross-Entropy Temporal Logic Optimization. ICRA 2020: 7712-7718 - [c247]Yousef Emam, Siddharth Mayya, Gennaro Notomista, Addison W. Bohannon, Magnus Egerstedt:
Adaptive Task Allocation for Heterogeneous Multi-Robot Teams with Evolving and Unknown Robot Capabilities. ICRA 2020: 7719-7725 - [c246]Alessia Benevento, María Santos, Giuseppe Notarstefano, Kamran Paynabar, Matthieu R. Bloch, Magnus Egerstedt:
Multi-Robot Coordination for Estimation and Coverage of Unknown Spatial Fields. ICRA 2020: 7740-7746 - [i51]Yousef Emam, Siddharth Mayya, Gennaro Notomista, Addison W. Bohannon, Magnus Egerstedt:
Adaptive Task Allocation for Heterogeneous Multi-Robot Teams with Evolving and Unknown Robot Capabilities. CoRR abs/2003.03344 (2020) - [i50]Tatsuya Ibuki, Sean Wilson, Aaron D. Ames, Magnus Egerstedt:
Distributed Collision-Free Motion Coordination on a Sphere: A Conic Control Barrier Function Approach. CoRR abs/2003.13363 (2020) - [i49]Yousef Emam, Sean Wilson, Mathias Hakenberg, Ulrich Münz, Magnus Egerstedt:
A Receding Horizon Scheduling Approach for Search & Rescue Scenarios. CoRR abs/2004.02347 (2020) - [i48]Shashwat Shivam, Yorai Wardi, Magnus Egerstedt, Aris Kanellopoulos, Kyriakos G. Vamvoudakis:
Intersection-Traffic Control of Autonomous Vehicles using Newton-Raphson Flows and Barrier Functions. CoRR abs/2004.10226 (2020) - [i47]Ragesh K. Ramachandran, Pietro Pierpaoli, Magnus Egerstedt, Gaurav S. Sukhatme:
Resilient Monitoring in Heterogeneous Multi-robot Systems through Network Reconfiguration. CoRR abs/2008.01321 (2020) - [i46]Eric Squires, Rohit Konda, Pietro Pierpaoli, Samuel Coogan, Magnus Egerstedt:
Safety With Limited Range Sensing Constraints For Fixed Wing Aircraft. CoRR abs/2010.10883 (2020) - [i45]Yousef Emam, Gennaro Notomista, Paul Glotfelter, Magnus Egerstedt:
Data-Driven Adaptive Task Allocation for Heterogeneous Multi-Robot Teams Using Robust Control Barrier Functions. CoRR abs/2011.01164 (2020)
2010 – 2019
- 2019
- [j91]Amanda Prorok, Brian M. Sadler, Magnus Egerstedt, Vijay Kumar:
Guest Editorial: Special section on "Foundations of resilience for networked robotic systems". Auton. Robots 43(3): 741 (2019) - [j90]Farhad Farokhi, Magnus Egerstedt:
Optimal Stochastic Evasive Maneuvers Using the Schrödinger's Equation. IEEE Control. Syst. Lett. 3(3): 517-522 (2019) - [j89]Paul Glotfelter, Ian Buckley, Magnus Egerstedt:
Hybrid Nonsmooth Barrier Functions With Applications to Provably Safe and Composable Collision Avoidance for Robotic Systems. IEEE Robotics Autom. Lett. 4(2): 1303-1310 (2019) - [j88]Gennaro Notomista, Yousef Emam, Magnus Egerstedt:
The SlothBot: A Novel Design for a Wire-Traversing Robot. IEEE Robotics Autom. Lett. 4(2): 1993-1998 (2019) - [j87]Federico Celi, Li Wang, Lucia Pallottino, Magnus Egerstedt:
Deconfliction of Motion Paths With Traffic Inspired Rules. IEEE Robotics Autom. Lett. 4(2): 2227-2234 (2019) - [j86]Siddharth Mayya, Sean Wilson, Magnus Egerstedt:
Closed-loop task allocation in robot swarms using inter-robot encounters. Swarm Intell. 13(2): 115-143 (2019) - [j85]Siddharth Mayya, Pietro Pierpaoli, Girish N. Nair, Magnus Egerstedt:
Localization in Densely Packed Swarms Using Interrobot Collisions as a Sensing Modality. IEEE Trans. Robotics 35(1): 21-34 (2019) - [j84]Motoya Ohnishi, Li Wang, Gennaro Notomista, Magnus Egerstedt:
Barrier-Certified Adaptive Reinforcement Learning With Applications to Brushbot Navigation. IEEE Trans. Robotics 35(5): 1186-1205 (2019) - [c245]Anqi Li, Magnus Egerstedt:
On the Trade-Off Between Communication and Execution Overhead for Control of Multi-Agent Systems. ACC 2019: 79-85 - [c244]Gennaro Notomista, Magnus Egerstedt:
Constraint-Driven Coordinated Control of Multi-Robot Systems. ACC 2019: 1990-1996 - [c243]Rohit Konda, Eric Squires, Pietro Pierpaoli, Magnus Egerstedt, Samuel Coogan:
Provably-Safe Autonomous Navigation of Traffic Circles. CCTA 2019: 876-881 - [c242]Anqi Li, Ching-An Cheng, Byron Boots, Magnus Egerstedt:
Stable, Concurrent Controller Composition for Multi-Objective Robotic Tasks. CDC 2019: 1144-1151 - [c241]Vadim Azhmyakov, Magnus Egerstedt, Erik I. Verriest:
On the Optimal Control of Volterra Integro-Differential Equations. CDC 2019: 3340-3345 - [c240]Yousef Emam, Paul Glotfelter, Magnus Egerstedt:
Robust Barrier Functions for a Fully Autonomous, Remotely Accessible Swarm-Robotics Testbed. CDC 2019: 3984-3990 - [c239]Shashwat Shivam, Ian Buckley, Yorai Wardi, Carla Seatzu, Magnus Egerstedt:
Tracking Control by the Newton-Raphson Flow: Applications to Autonomous Vehicles. ECC 2019: 1562-1567 - [c238]Gennaro Notomista, Siddharth Mayya, Seth Hutchinson, Magnus Egerstedt:
An Optimal Task Allocation Strategy for Heterogeneous Multi-Robot Systems. ECC 2019: 2071-2076 - [c237]Aaron D. Ames, Samuel Coogan, Magnus Egerstedt, Gennaro Notomista, Koushil Sreenath, Paulo Tabuada:
Control Barrier Functions: Theory and Applications. ECC 2019: 3420-3431 - [c236]Ian Buckley, Magnus Egerstedt:
A Decentralized Heterogeneous Control Strategy for a Class of Infinitesimally Shape-Similar Formations. ICRA 2019: 2004-2010 - [c235]Riku Funada, Maria Santos, Junya Yamauchi, Takeshi Hatanaka, Masayuki Fujita, Magnus Egerstedt:
Visual Coverage Control for Teams of Quadcopters via Control Barrier Functions. ICRA 2019: 3010-3016 - [c234]Gennaro Notomista, Maria Santos, Seth Hutchinson, Magnus Egerstedt:
Sensor Coverage Control Using Robots Constrained to a Curve. ICRA 2019: 3252-3258 - [c233]Siddharth Mayya, Pietro Pierpaoli, Magnus Egerstedt:
Voluntary Retreat for Decentralized Interference Reduction in Robot Swarms. ICRA 2019: 9667-9673 - [c232]Siddharth Mayya, Gennaro Notomista, Dylan A. Shell, Seth Hutchinson, Magnus Egerstedt:
Non-Uniform Robot Densities in Vibration Driven Swarms Using Phase Separation Theory. IROS 2019: 4106-4112 - [c231]Gennaro Notomista, Siddharth Mayya, Anirban Mazumdar, Seth Hutchinson, Magnus Egerstedt:
A Study of a Class of Vibration-Driven Robots: Modeling, Analysis, Control and Design of the Brushbot. IROS 2019: 5101-5106 - [c230]Christopher Banks, Kyle Slovak, Samuel Coogan, Magnus Egerstedt:
Specification-Based Maneuvering of Quadcopters Through Hoops. IROS 2019: 5191-5197 - [c229]Anqi Li, Mustafa Mukadam, Magnus Egerstedt, Byron Boots:
Multi-objective Policy Generation for Multi-robot Systems Using Riemannian Motion Policies. ISRR 2019: 258-274 - [c228]Maria Santos, Siddharth Mayya, Gennaro Notomista, Magnus Egerstedt:
Decentralized Minimum-Energy Coverage Control for Time-Varying Density Functions. MRS 2019: 155-161 - [c227]Gennaro Notomista, Xiaoyi Cai, Junya Yamauchi, Magnus Egerstedt:
Passivity-Based Decentralized Control of Multi-Robot Systems With Delays Using Control Barrier Functions. MRS 2019: 231-237 - [i44]Anqi Li, Mustafa Mukadam, Magnus Egerstedt, Byron Boots:
Multi-Objective Policy Generation for Multi-Robot Systems Using Riemannian Motion Policies. CoRR abs/1902.05177 (2019) - [i43]Siddharth Mayya, Gennaro Notomista, Dylan A. Shell, Seth Hutchinson, Magnus Egerstedt:
Achieving Non-Uniform Densities in Vibration Driven Robot Swarms Using Phase Separation Theory. CoRR abs/1902.10662 (2019) - [i42]Gennaro Notomista, Siddharth Mayya, Anirban Mazumdar, Seth Hutchinson, Magnus Egerstedt:
A Study of a Class of Vibration-Driven Robots: Modeling, Analysis, Control and Design of the Brushbot. CoRR abs/1902.10830 (2019) - [i41]Gennaro Notomista, Magnus Egerstedt:
Persistification of Robotic Tasks. CoRR abs/1903.05810 (2019) - [i40]Gennaro Notomista, Siddharth Mayya, Seth Hutchinson, Magnus Egerstedt:
An Optimal Task Allocation Strategy for Heterogeneous Multi-Robot Systems. CoRR abs/1903.08641 (2019) - [i39]Aaron D. Ames, Samuel Coogan, Magnus Egerstedt, Gennaro Notomista, Koushil Sreenath, Paulo Tabuada:
Control Barrier Functions: Theory and Applications. CoRR abs/1903.11199 (2019) - [i38]Maria Santos, Magnus Egerstedt:
From Motions to Emotions: Can the Fundamental Emotions be Expressed in a Robot Swarm? CoRR abs/1903.12118 (2019) - [i37]Anqi Li, Ching-An Cheng, Byron Boots, Magnus Egerstedt:
Stable, Concurrent Controller Composition for Multi-Objective Robotic Tasks. CoRR abs/1903.12605 (2019) - [i36]Gennaro Notomista, Xiaoyi Cai, Magnus Egerstedt:
Passivity-Based Decentralized Control of Multi-Robot Systems With Delays Using Control Barrier Functions. CoRR abs/1904.04801 (2019) - [i35]Sebastian F. Ruf, Magnus Egerstedt, Jeff S. Shamma:
Herdability of Linear Systems Based on Sign Patterns and Graph Structures. CoRR abs/1904.08778 (2019) - [i34]Eric Squires, Pietro Pierpaoli, Rohit Konda, Samuel Coogan, Magnus Egerstedt:
Composition of Safety Constraints With Applications to Decentralized Fixed-Wing Collision Avoidance. CoRR abs/1906.03771 (2019) - [i33]Pietro Pierpaoli, Anqi Li, Mohit Srinivasan, Xiaoyi Cai, Samuel Coogan, Magnus Egerstedt:
A Sequential Composition Framework for Coordinating Multi-Robot Behaviors. CoRR abs/1907.07718 (2019) - [i32]Motoya Ohnishi, Gennaro Notomista, Masashi Sugiyama, Magnus Egerstedt:
Constraint Learning for Control Tasks with Limited Duration Barrier Functions. CoRR abs/1908.09506 (2019) - [i31]Yousef Emam, Paul Glotfelter, Magnus Egerstedt:
Robust Barrier Functions for a Fully Autonomous, Remotely Accessible Swarm-Robotics Testbed. CoRR abs/1909.02966 (2019) - [i30]Pietro Pierpaoli, Thinh T. Doan, Justin Romberg, Magnus Egerstedt:
A Reinforcement Learning Framework for Sequencing Multi-Robot Behaviors. CoRR abs/1909.05731 (2019) - [i29]Pietro Pierpaoli, Harish Ravichandar, Nicholas R. Waytowich, Anqi Li, Derrik E. Asher, Magnus Egerstedt:
Inferring and Learning Multi-Robot Policies by Observing an Expert. CoRR abs/1909.07887 (2019) - [i28]Haoyan Zhai, Magnus Egerstedt, Haomin Zhou:
Path Planning in Unknown Environments Using Optimal Transport Theory. CoRR abs/1909.11235 (2019) - 2018
- [j83]Magnus Egerstedt, Jonathan N. Pauli, Gennaro Notomista, Seth Hutchinson:
Robot ecology: Constraint-based control design for long duration autonomy. Annu. Rev. Control. 46: 1-7 (2018) - [j82]Chao Sun, Guoqiang Hu, Lihua Xie, Magnus Egerstedt:
Robust finite-time connectivity preserving coordination of second-order multi-agent systems. Autom. 89: 21-27 (2018) - [j81]Gennaro Notomista, Sebastian F. Ruf, Magnus Egerstedt:
Persistification of Robotic Tasks Using Control Barrier Functions. IEEE Robotics Autom. Lett. 3(2): 758-763 (2018) - [j80]Maria Santos, Yancy Diaz-Mercado, Magnus Egerstedt:
Coverage Control for Multirobot Teams With Heterogeneous Sensing Capabilities. IEEE Robotics Autom. Lett. 3(2): 919-925 (2018) - [j79]Kazunori Sakurama, Erik I. Verriest, Magnus Egerstedt:
Scalable Stability and Time-Scale Separation of Networked, Cascaded Systems. IEEE Trans. Control. Netw. Syst. 5(1): 321-332 (2018) - [j78]Matthew T. Hale, Magnus Egerstedt:
Cloud-Enabled Differentially Private Multiagent Optimization With Constraints. IEEE Trans. Control. Netw. Syst. 5(4): 1693-1706 (2018) - [j77]Usman Ali, Magnus Egerstedt:
Hybrid Optimal Control under Mode Switching Constraints with Applications to Pesticide Scheduling. ACM Trans. Cyber Phys. Syst. 2(1): 2:1-2:17 (2018) - [c226]Yorai Wardi, Carla Seatzu, Magnus Egerstedt:
Tracking Control via Variable-gain Integrator and Lookahead Simulation: Application to Leader-follower Multiagent Networks. ADHS 2018: 217-222 - [c225]Li Wang, Dongkun Han, Magnus Egerstedt:
Permissive Barrier Certificates for Safe Stabilization Using Sum-of-squares. ACC 2018: 585-590 - [c224]Sebastian F. Ruf, Magnus Egerstedt, Jeff S. Shamma:
Herdable Systems Over Signed, Directed Graphs. ACC 2018: 1807-1812 - [c223]Pietro Pierpaoli, Dominique Sauter, Magnus Egerstedt:
Fault Tolerant Control for Networked Mobile Robots. CCTA 2018: 374-379 - [c222]Paul Glotfelter, Jorge Cortés, Magnus Egerstedt:
Boolean Composability of Constraints and Control Synthesis for Multi-Robot Systems via Nonsmooth Control Barrier Functions. CCTA 2018: 897-902 - [c221]Eric Squires, Pietro Pierpaoli, Magnus Egerstedt:
Constructive Barrier Certificates with Applications to Fixed-Wing Aircraft Collision Avoidance. CCTA 2018: 1656-1661 - [c220]Mohit Srinivasan, Samuel Coogan, Magnus Egerstedt:
Control of Multi-Agent Systems with Finite Time Control Barrier Certificates and Temporal Logic. CDC 2018: 1991-1996 - [c219]Gennaro Notomista, Magnus Egerstedt:
Coverage Control for Wire-Traversing Robots. ICRA 2018: 1-6 - [c218]Paul Glotfelter, Magnus Egerstedt:
A Parametric MPC Approach to Balancing the Cost of Abstraction for Differential-Drive Mobile Robots. ICRA 2018: 732-737 - [c217]Li Wang, Evangelos A. Theodorou, Magnus Egerstedt:
Safe Learning of Quadrotor Dynamics Using Barrier Certificates. ICRA 2018: 2460-2465 - [c216]Anqi Li, Li Wang, Pietro Pierpaoli, Magnus Egerstedt:
Formally Correct Composition of Coordinated Behaviors Using Control Barrier Certificates. IROS 2018: 3723-3729 - [c215]Ian Buckley, Magnus Egerstedt:
Self-Assembly of a Class of Infinitesimally Shape-Similar Frameworks. IROS 2018: 3751-3756 - [c214]Maria Santos, Magnus Egerstedt:
Coverage Control for Multi-Robot Teams with Heterogeneous Sensing Capabilities Using Limited Communications. IROS 2018: 5313-5319 - [i27]Motoya Ohnishi, Li Wang, Gennaro Notomista, Magnus Egerstedt:
Safety-aware Adaptive Reinforcement Learning with Applications to Brushbot Navigation. CoRR abs/1801.09627 (2018) - [i26]Paul Glotfelter, Magnus Egerstedt:
A Parametric MPC Approach to Balancing the Cost of Abstraction for Differential-Drive Mobile Robots. CoRR abs/1802.07199 (2018) - [i25]Gennaro Notomista, Magnus Egerstedt:
Coverage Control for Wire-Traversing Robots. CoRR abs/1802.08847 (2018) - [i24]Sebastian F. Ruf, Magnus Egerstedt, Jeff S. Shamma:
Herdable Systems Over Signed, Directed Graphs. CoRR abs/1804.04230 (2018) - [i23]Sebastian F. Ruf, Magnus Egerstedt, Jeff S. Shamma:
Herding Positive, Complex Networks. CoRR abs/1804.04449 (2018) - [i22]Smriti Chopra, Giuseppe Notarstefano, Matthew Rice, Magnus Egerstedt:
A Distributed Version of the Hungarian Method for Multi-Robot Assignment. CoRR abs/1805.08712 (2018) - [i21]Pietro Pierpaoli, Dominique Sauter, Magnus Egerstedt:
Fault Tolerant Control for Networked Mobile Robots. CoRR abs/1806.02459 (2018) - [i20]Mohit Srinivasan, Samuel Coogan, Magnus Egerstedt:
Control of Multi-Agent Systems with Finite Time Control Barrier Certificates and Temporal Logic. CoRR abs/1808.02393 (2018) - [i19]Gennaro Notomista, Magnus Egerstedt:
Constraint-Driven Coordinated Control of Multi-Robot Systems. CoRR abs/1811.02465 (2018) - [i18]Shashwat Shivam, Ian Buckley, Yorai Wardi, Carla Seatzu, Magnus Egerstedt:
Tracking Control by the Newton-Raphson Flow: Applications to Autonomous Vehicles. CoRR abs/1811.08033 (2018) - [i17]Siddharth Mayya, Pietro Pierpaoli, Magnus Egerstedt:
Voluntary Retreat for Decentralized Interference Reduction in Robot Swarms. CoRR abs/1812.02193 (2018) - 2017
- [j76]Paul Glotfelter, Jorge Cortés, Magnus Egerstedt:
Nonsmooth Barrier Functions With Applications to Multi-Robot Systems. IEEE Control. Syst. Lett. 1(2): 310-315 (2017) - [j75]Wuchen Li, Shui-Nee Chow, Magnus Egerstedt, Jun Lu, Haomin Zhou:
Method of evolving junctions: A new approach to optimal path-planning in 2D environments with moving obstacles. Int. J. Robotics Res. 36(4): 403-413 (2017) - [j74]Matthew T. Hale, Angelia Nedic, Magnus Egerstedt:
Asynchronous Multiagent Primal-Dual Optimization. IEEE Trans. Autom. Control. 62(9): 4421-4435 (2017) - [j73]Ahmet Yasin Yazicioglu, Magnus Egerstedt, Jeff S. Shamma:
Communication-Free Distributed Coverage for Networked Systems. IEEE Trans. Control. Netw. Syst. 4(3): 499-510 (2017) - [j72]Yuan Fan, Guoqiang Hu, Magnus Egerstedt:
Distributed Reactive Power Sharing Control for Microgrids With Event-Triggered Communication. IEEE Trans. Control. Syst. Technol. 25(1): 118-128 (2017) - [j71]Tina Setter, Magnus Egerstedt:
Energy-Constrained Coordination of Multi-Robot Teams. IEEE Trans. Control. Syst. Technol. 25(4): 1257-1263 (2017) - [j70]Li Wang, Aaron D. Ames, Magnus Egerstedt:
Safety Barrier Certificates for Collisions-Free Multirobot Systems. IEEE Trans. Robotics 33(3): 661-674 (2017) - [j69]Smriti Chopra, Giuseppe Notarstefano, Matthew Rice, Magnus Egerstedt:
A Distributed Version of the Hungarian Method for Multirobot Assignment. IEEE Trans. Robotics 33(4): 932-947 (2017) - [j68]Yancy Diaz-Mercado, Magnus Egerstedt:
Multirobot Mixing via Braid Groups. IEEE Trans. Robotics 33(6): 1375-1385 (2017) - [c213]Tina Setter, Andrea Gasparri, Magnus Egerstedt:
Trust in multi-agent networks: From self-centered to team-oriented. ACC 2017: 997-1002 - [c212]Matthew T. Hale, Magnus Egerstedt:
Convergence rate estimates for consensus over random graphs. ACC 2017: 1024-1029 - [c211]Chao Sun, Guoqiang Hu, Lihua Xie, Magnus Egerstedt:
Robust finite-time connectivity preserving consensus tracking and formation control for multi-agent systems. ACC 2017: 1990-1995 - [c210]Xiangru Xu, Thomas Waters, Daniel Pickem, Paul Glotfelter, Magnus Egerstedt, Paulo Tabuada, Jessy W. Grizzle, Aaron D. Ames:
Realizing simultaneous lane keeping and adaptive speed regulation on accessible mobile robot testbeds. CCTA 2017: 1769-1775 - [c209]Sebastian F. Ruf, Keith Paarporn, Philip E. Pare, Magnus Egerstedt:
Dynamics of opinion-dependent product spread. CDC 2017: 2935-2940 - [c208]Yorai Wardi, Carla Seatzu, Magnus Egerstedt, Ian Buckley:
Performance regulation and tracking via lookahead simulation: Preliminary results and validation. CDC 2017: 6462-6468 - [c207]Daniel Pickem, Paul Glotfelter, Li Wang, Mark Mote, Aaron D. Ames, Eric Feron, Magnus Egerstedt:
The Robotarium: A remotely accessible swarm robotics research testbed. ICRA 2017: 1699-1706 - [c206]Li Wang, Aaron D. Ames, Magnus Egerstedt:
Safe certificate-based maneuvers for teams of quadrotors using differential flatness. ICRA 2017: 3293-3298 - [c205]Siddharth Mayya, Magnus Egerstedt:
Safe open-loop strategies for handling intermittent communications in multi-robot systems. ICRA 2017: 5818-5823 - [c204]Ian Buckley, Magnus Egerstedt:
Infinitesimally shape-similar motions using relative angle measurements. IROS 2017: 1077-1082 - [c203]Siddharth Mayya, Pietro Pierpaoli, Girish N. Nair, Magnus Egerstedt:
Collisions as Information Sources in Densely Packed Multi-Robot Systems Under Mean-Field Approximations. Robotics: Science and Systems 2017 - [i16]Li Wang, Aaron D. Ames, Magnus Egerstedt:
Safe Certificate-Based Maneuvers for Teams of Quadrotors Using Differential Flatness. CoRR abs/1702.01075 (2017) - [i15]Siddharth Mayya, Magnus Egerstedt:
Safe Open-Loop Strategies for Handling Intermittent Communications in Multi-Robot Systems. CoRR abs/1702.03466 (2017) - [i14]Li Wang, Evangelos A. Theodorou, Magnus Egerstedt:
Safe Learning of Quadrotor Dynamics Using Barrier Certificates. CoRR abs/1710.05472 (2017) - 2016
- [j67]Waseem Abbas, Magnus Egerstedt, Chun-Hung Liu, Robin Thomas, Peter Whalen:
Deploying Robots With Two Sensors in K1, 6-Free Graphs. J. Graph Theory 82(3): 236-252 (2016) - [j66]Ahmet Yasin Yazicioglu, Waseem Abbas, Magnus Egerstedt:
Graph Distances and Controllability of Networks. IEEE Trans. Autom. Control. 61(12): 4125-4130 (2016) - [c202]Li Wang, Aaron D. Ames, Magnus Egerstedt:
Safety barrier certificates for heterogeneous multi-robot systems. ACC 2016: 5213-5218 - [c201]Tina Setter, Andrea Gasparri, Magnus Egerstedt:
Trust-based interactions in teams of mobile agents. ACC 2016: 6158-6163 - [c200]Li Wang, Aaron D. Ames, Magnus Egerstedt:
Multi-objective compositions for collision-free connectivity maintenance in teams of mobile robots. CDC 2016: 2659-2664 - [c199]Yu Wang, Matthew T. Hale, Magnus Egerstedt, Geir E. Dullerud:
Differentially private objective functions in distributed cloud-based optimization. CDC 2016: 3688-3694 - [c198]Yorai Wardi, Magnus Egerstedt, M. U. Qureshi:
Hamiltonian-based algorithm for relaxed optimal control. CDC 2016: 7222-7227 - [c197]Austin Jones, Usman Ali, Magnus Egerstedt:
Optimal Pesticide Scheduling in Precision Agriculture. ICCPS 2016: 12:1-12:8 - [c196]Meng Guo, Magnus Egerstedt, Dimos V. Dimarogonas:
Hybrid control of multi-robot systems using embedded graph grammars. ICRA 2016: 5242-5247 - [c195]Masoud H. Nazari, Santiago Grijalva, Magnus Egerstedt:
Distributed frequency regulation in the presence of communication failure. ISGT 2016: 1-5 - [i13]Daniel Pickem, Li Wang, Paul Glotfelter, Yancy Diaz-Mercado, Mark Mote, Aaron D. Ames, Eric Feron, Magnus Egerstedt:
Safe, Remote-Access Swarm Robotics Research on the Robotarium. CoRR abs/1604.00640 (2016) - [i12]Ahmet Yasin Yazicioglu, Waseem Abbas, Magnus Egerstedt:
Graph Distances and Controllability of Networks. CoRR abs/1608.04309 (2016) - [i11]Li Wang, Aaron D. Ames, Magnus Egerstedt:
Multi-objective Compositions for Collision-Free Connectivity Maintenance in Teams of Mobile Robots. CoRR abs/1608.06887 (2016) - [i10]Li Wang, Aaron D. Ames, Magnus Egerstedt:
Safety Barrier Certificates for Heterogeneous Multi-Robot Systems. CoRR abs/1609.00651 (2016) - [i9]Daniel Pickem, Paul Glotfelter, Li Wang, Mark Mote, Aaron D. Ames, Eric Feron, Magnus Egerstedt:
The Robotarium: A remotely accessible swarm robotics research testbed. CoRR abs/1609.04730 (2016) - 2015
- [j65]Smriti Chopra, Magnus Egerstedt:
Spatio-temporal multi-robot routing. Autom. 60: 173-181 (2015) - [j64]Yorai Wardi, Magnus Egerstedt, M. T. Hale:
Switched-mode systems: gradient-descent algorithms with Armijo step sizes. Discret. Event Dyn. Syst. 25(4): 571-599 (2015) - [j63]Jean-Pierre de la Croix, Magnus Egerstedt:
Analyzing human-swarm interactions using control Lyapunov functions and optimal control. Networks Heterog. Media 10(3): 609-630 (2015) - [j62]Zak Costello, Magnus Egerstedt:
From Global, Finite-Time, Linear Computations to Local, Edge-Based Interaction Rules. IEEE Trans. Autom. Control. 60(8): 2237-2241 (2015) - [j61]Rowland O'Flaherty, Magnus Egerstedt:
Low-Dimensional Learning for Complex Robots. IEEE Trans Autom. Sci. Eng. 12(1): 19-27 (2015) - [j60]Tina Setter, Alex Fouraker, Magnus Egerstedt, Hiroaki Kawashima:
Haptic interactions with multi-robot swarms using manipulability. J. Hum. Robot Interact. 4(1): 60-74 (2015) - [j59]Ahmet Yasin Yazicioglu, Magnus Egerstedt, Jeff S. Shamma:
Formation of Robust Multi-Agent Networks through Self-Organizing Random Regular Graphs. IEEE Trans. Netw. Sci. Eng. 2(4): 139-151 (2015) - [j58]Sung G. Lee, Yancy Diaz-Mercado, Magnus Egerstedt:
Multirobot Control Using Time-Varying Density Functions. IEEE Trans. Robotics 31(2): 489-493 (2015) - [c194]Urs Borrmann, Li Wang, Aaron D. Ames, Magnus Egerstedt:
Control Barrier Certificates for Safe Swarm Behavior. ADHS 2015: 68-73 - [c193]Yancy Diaz-Mercado, Sung G. Lee, Magnus Egerstedt:
Distributed dynamic density coverage for human-swarm interactions. ACC 2015: 353-358 - [c192]Tina Setter, Hiroaki Kawashima, Magnus Egerstedt:
Team-level properties for haptic human-swarm interactions. ACC 2015: 453-458 - [c191]M. T. Hale, Magnus Egerstedt:
Differentially private cloud-based multi-agent optimization with constraints. ACC 2015: 1235-1240 - [c190]Jean-Pierre de la Croix, Magnus Egerstedt:
A control lyapunov function approach to human-swarm interactions. ACC 2015: 4368-4373 - [c189]Kazunori Sakurama, Erik I. Verriest, Magnus Egerstedt:
Effects of insufficient time-scale separation in cascaded, networked systems. ACC 2015: 4683-4688 - [c188]Yancy Diaz-Mercado, Austin Jones, Calin Belta, Magnus Egerstedt:
Correct-by-construction control synthesis for multi-robot mixing. CDC 2015: 221-226 - [c187]Matthew T. Hale, Angelia Nedic, Magnus Egerstedt:
Cloud-based centralized/decentralized multi-agent optimization with communication delays. CDC 2015: 700-705 - [c186]Zak Costello, Justin Ruths, Magnus Egerstedt:
On the construction of local interaction rules that perform global linear computation. CDC 2015: 2588-2593 - [c185]Daniel Pickem, Magnus Egerstedt, Jeff S. Shamma:
A game-theoretic formulation of the homogeneous self-reconfiguration problem. CDC 2015: 2829-2834 - [c184]Thiagarajan Ramachandran, Masoud H. Nazari, Magnus Egerstedt:
Controllability of prosumer-based networks in the presence of communication failures. CDC 2015: 4770-4775 - [c183]Daniel Pickem, Myron Lee, Magnus Egerstedt:
The GRITSBot in its natural habitat - A multi-robot testbed. ICRA 2015: 4062-4067 - [c182]Rowland O'Flaherty, Magnus Egerstedt:
Optimal exploration in unknown environments. IROS 2015: 5796-5801 - [c181]Ronald C. Arkin, Magnus Egerstedt:
Temporal heterogeneity and the value of slowness in robotic systems. ROBIO 2015: 1000-1005 - [e3]Magnus Egerstedt, Yorai Wardi:
5th IFAC Conference on Analysis and Design of Hybrid Systems, ADHS 2015, Atlanta, GA, USA, October 14-16, 2015. IFAC-PapersOnLine 48(27), Elsevier 2015 [contents] - [r1]Mehran Mesbahi, Magnus Egerstedt:
Graphs for Modeling Networked Interactions. Encyclopedia of Systems and Control 2015 - [i8]Ahmet Yasin Yazicioglu, Magnus Egerstedt, Jeff S. Shamma:
Formation of Robust Multi-Agent Networks Through Self-Organizing Random Regular Graphs. CoRR abs/1503.08131 (2015) - [i7]Ahmet Yasin Yazicioglu, Magnus Egerstedt, Jeff S. Shamma:
Communication-Free Distributed Coverage for Networked Systems. CoRR abs/1505.06379 (2015) - [i6]Daniel Pickem, Magnus Egerstedt, Jeff S. Shamma:
A Game-theoretic Formulation of the Homogeneous Self-Reconfiguration Problem. CoRR abs/1509.00737 (2015) - [i5]Yancy Diaz-Mercado, Magnus Egerstedt:
Inter-Robot Interactions in Multi-Robot Systems Using Braids. CoRR abs/1509.04826 (2015) - 2014
- [j57]Hiroaki Kawashima, Magnus Egerstedt:
Manipulability of leader-follower networks with the rigid-link approximation. Autom. 50(3): 695-706 (2014) - [j56]Waseem Abbas, Magnus Egerstedt:
Characterizing heterogeneity in cooperative networks from a resource distribution view-point. Commun. Inf. Syst. 14(1): 1-22 (2014) - [j55]Greg Droge, Hiroaki Kawashima, Magnus Egerstedt:
Continuous-time proportional-integral distributed optimisation for networked systems. J. Control. Decis. 1(3): 191-213 (2014) - [j54]Musad A. Haque, Amirreza Rahmani, Magnus Egerstedt, Anthony J. Yezzi:
Efficient Foraging Strategies in Multi-Agent Systems Through Curve Evolutions. IEEE Trans. Autom. Control. 59(4): 1036-1041 (2014) - [c180]Yancy Diaz-Mercado, Magnus Egerstedt:
Multi-robot mixing of nonholonomic mobile robots. CCA 2014: 524-529 - [c179]Tina Setter, Magnus Egerstedt:
Minimum time power-aware rendezvous for multi-agent networks. CCA 2014: 2159-2164 - [c178]Jean-Pierre de la Croix, Magnus Egerstedt:
Flipping the controls classroom around a MOOC. ACC 2014: 2557-2562 - [c177]Hassan Jaleel, Yorai Wardi, Magnus Egerstedt:
Minimizing mobility and communication energy in robotic networks: An optimal control approach. ACC 2014: 2662-2667 - [c176]Greg Droge, Magnus Egerstedt:
Proportional integral distributed optimization for dynamic network topologies. ACC 2014: 3621-3626 - [c175]Philip Twu, Yasamin Mostofi, Magnus Egerstedt:
A measure of heterogeneity in multi-agent systems. ACC 2014: 3972-3977 - [c174]Teymur Sadikhov, Wassim M. Haddad, Rafal Goebel, Magnus Egerstedt:
Set-valued protocols for almost consensus of multiagent systems with uncertain interagent communication. ACC 2014: 4002-4007 - [c173]Smriti Chopra, Magnus Egerstedt:
Heterogeneous multi-robot routing. ACC 2014: 5390-5395 - [c172]Ahmet Yasin Yazicioglu, Magnus Egerstedt, Jeff S. Shamma:
Decentralized formation of random regular graphs for robust multi-agent networks. CDC 2014: 595-600 - [c171]Usman Ali, Magnus Egerstedt:
Optimal control of switched dynamical systems under dwell time constraints. CDC 2014: 4673-4678 - [c170]Zak Costello, Magnus Egerstedt:
The degree of nonholonomy in distributed computations. CDC 2014: 6092-6098 - [c169]M. T. Hale, Magnus Egerstedt:
Cloud-based optimization: A quasi-decentralized approach to multi-agent coordination. CDC 2014: 6635-6640 - [c168]Magnus Egerstedt:
Robots and the Internet of Things. ICARCV 2014 - [c167]Magnus Egerstedt:
Control and coordination of multi-robot teams. ICARCV 2014 - [c166]Amy LaViers, Magnus Egerstedt:
Style-based abstractions for human motion classification. ICCPS 2014: 84-91 - [c165]Jun Lu, Yancy Diaz-Mercado, Magnus Egerstedt, Haomin Zhou, Shui-Nee Chow:
Shortest paths through 3-dimensional cluttered environments. ICRA 2014: 6579-6585 - [p3]Magnus Egerstedt, Jean-Pierre de la Croix, Hiroaki Kawashima, Peter Kingston:
Interacting with Networks of Mobile Agents. Large-Scale Networks in Engineering and Life Sciences 2014: 199-224 - [i4]Sung G. Lee, Magnus Egerstedt:
Multi-Robot Control Using Time-Varying Density Functions. CoRR abs/1404.0338 (2014) - 2013
- [j53]Musad A. Haque, Magnus Egerstedt, Amirreza Rahmani:
Multilevel Coalition Formation Strategy for Suppression of Enemy Air Defenses Missions. J. Aerosp. Inf. Syst. 10(6): 287-296 (2013) - [j52]Hassan Jaleel, Amirreza Rahmani, Magnus Egerstedt:
Probabilistic Lifetime Maximization of Sensor Networks. IEEE Trans. Autom. Control. 58(2): 534-539 (2013) - [j51]Rahul Chipalkatty, Greg Droge, Magnus Egerstedt:
Less Is More: Mixed-Initiative Model-Predictive Control With Human Inputs. IEEE Trans. Robotics 29(3): 695-703 (2013) - [c164]Jean-Pierre de la Croix, Magnus Egerstedt:
A separation signal for heterogeneous networks. Allerton 2013: 254-261 - [c163]Hassan Jaleel, Magnus Egerstedt:
Sleep scheduling of wireless sensor networks using hard-core point processes. ACC 2013: 788-793 - [c162]Greg Droge, Magnus Egerstedt:
Distributed parameterized model predictive control of networked multi-agent systems. ACC 2013: 1332-1337 - [c161]Ahmet Yasin Yazicioglu, Magnus Egerstedt:
Leader selection and network assembly for controllability of leader-follower networks. ACC 2013: 3802-3807 - [c160]Zhihao Xu, Magnus Egerstedt, Greg Droge, Klaus Schilling:
Balanced deployment of multiple robots using a modified kuramoto model. ACC 2013: 6138-6144 - [c159]Rowland O'Flaherty, Magnus Egerstedt:
Learning to locomote: Action sequences and switching boundaries. CASE 2013: 7-12 - [c158]Yancy Diaz-Mercado, Magnus Egerstedt:
Multi-robot mixing using braids. CDC 2013: 2001-2005 - [c157]Hassan Jaleel, Magnus Egerstedt:
Distributed and adaptive power-aware scheduling of wireless sensor networks. CDC 2013: 4152-4157 - [c156]Waseem Abbas, Hassan Jaleel, Magnus Egerstedt:
Energy-efficient data collection in heterogeneous wireless sensor and actor networks. CDC 2013: 4164-4169 - [c155]Ahmet Yasin Yazicioglu, Magnus Egerstedt, Jeff S. Shamma:
Decentralized degree regularization for multi-agent networks. CDC 2013: 7498-7503 - [c154]Matteo Diana, Jean-Pierre de la Croix, Magnus Egerstedt:
Deformable-medium affordances for interacting with multi-robot systems. IROS 2013: 5252-5257 - [c153]Michael X. Grey, Neil Dantam, Daniel M. Lofaro, Aaron F. Bobick, Magnus Egerstedt, Paul Y. Oh, Mike Stilman:
Multi-process control software for HUBO2 Plus robot. TePRA 2013: 1-6 - [c152]Rowland O'Flaherty, Peter Vieira, Michael X. Grey, Paul Y. Oh, Aaron F. Bobick, Magnus Egerstedt, Mike Stilman:
Humanoid robot teleoperation for tasks with power tools. TePRA 2013: 1-6 - [e2]Alcherio Martinoli, Francesco Mondada, Nikolaus Correll, Grégory Mermoud, Magnus Egerstedt, M. Ani Hsieh, Lynne E. Parker, Kasper Støy:
Distributed Autonomous Robotic Systems - The 10th International Symposium, DARS 2010, Lausanne, Switzerland, November 1-3, 2010. Springer Tracts in Advanced Robotics 83, Springer 2013, ISBN 978-3-642-32722-3 [contents] - [i3]Greg Droge, Hiroaki Kawashima, Magnus Egerstedt:
Proportional-Integral Distributed Optimization for Networked Systems. CoRR abs/1309.6613 (2013) - 2012
- [j50]Yongcan Cao, Wei Ren, Magnus Egerstedt:
Distributed containment control with multiple stationary or dynamic leaders in fixed and switching directed networks. Autom. 48(8): 1586-1597 (2012) - [j49]Yorai Wardi, Magnus Egerstedt:
Guest editorial: hybrid systems, part II. Discret. Event Dyn. Syst. 22(1): 1-2 (2012) - [j48]Patrick Martin, Magnus Egerstedt:
Hybrid systems tools for compiling controllers for cyber-physical systems. Discret. Event Dyn. Syst. 22(1): 101-119 (2012) - [j47]Philip Twu, Patrick Martin, Magnus Egerstedt:
Graph process specifications for hybrid networked systems. Discret. Event Dyn. Syst. 22(4): 541-577 (2012) - [j46]Rahul Chipalkatty, Magnus Egerstedt:
Constrained agreement protocols for tree graph topologies. Int. J. Control 85(5): 457-474 (2012) - [c151]Jean-Pierre de la Croix, Magnus Egerstedt:
Controllability Characterizations of Leader-Based Swarm Interactions. AAAI Fall Symposium: Human Control of Bioinspired Swarms 2012 - [c150]Hiroaki Kawashima, Yorai Wardi, D. Taylor, Magnus Egerstedt:
Switching Control in DC-DC Converter Circuits: Optimizing Tracking-Energy Tradeoffs. ADHS 2012: 198-203 - [c149]Daniel Pickem, Magnus Egerstedt:
Self-Reconfiguration Using Graph Grammars for Modular Robotics. ADHS 2012: 313-318 - [c148]Smriti Chopra, Magnus Egerstedt:
Multi-robot routing for servicing spatio-temporal requests: A musically inspired problem. ADHS 2012: 319-324 - [c147]Hiroaki Kawashima, Yorai Wardi, David G. Taylor, Magnus Egerstedt:
Optimal switching control of a step-down DC-DC converter. ACC 2012: 1454-1459 - [c146]Waseem Abbas, Magnus Egerstedt:
Securing multiagent systems against a sequence of intruder attacks. ACC 2012: 4161-4166 - [c145]Amy LaViers, Magnus Egerstedt:
Style based robotic motion. ACC 2012: 4327-4332 - [c144]Yorai Wardi, Magnus Egerstedt:
Algorithm for optimal mode scheduling in switched systems. ACC 2012: 4546-4551 - [c143]Tansel Yucelen, Magnus Egerstedt:
Control of multiagent systems under persistent disturbances. ACC 2012: 5264-5269 - [c142]Hiroaki Kawashima, Magnus Egerstedt:
Leader selection via the manipulability of leader-follower networks. ACC 2012: 6053-6058 - [c141]Waseem Abbas, Magnus Egerstedt:
Distribution of agents with multiple capabilities in heterogeneous multiagent networks - A graph theoretic view. CDC 2012: 290-295 - [c140]Yorai Wardi, Magnus Egerstedt, Philip Twu:
A controlled-precision algorithm for mode-switching optimization. CDC 2012: 713-718 - [c139]Ahmet Yasin Yazicioglu, Waseem Abbas, Magnus Egerstedt:
A tight lower bound on the controllability of networks with multiple leaders. CDC 2012: 1978-1983 - [c138]Hiroaki Kawashima, Guangwei Zhu, Jianghai Hu, Magnus Egerstedt:
Responsiveness and manipulability of formations of multi-robot networks. CDC 2012: 4622-4628 - [c137]Greg Droge, Magnus Egerstedt:
Optimal decentralized gait transitions for snake robots. ICRA 2012: 317-322 - [c136]Greg Droge, Peter Kingston, Magnus Egerstedt:
Behavior-based switch-time MPC for mobile robots. IROS 2012: 408-413 - [c135]Aaron Albin, Gil Weinberg, Magnus Egerstedt:
Musical abstractions in distributed multi-robot systems. IROS 2012: 451-458 - [i2]Ahmet Yasin Yazicioglu, Waseem Abbas, Magnus Egerstedt:
A Tight Lower Bound on the Controllability of Networks with Multiple Leaders. CoRR abs/1205.3058 (2012) - 2011
- [j45]Giuseppe Notarstefano, Magnus Egerstedt, Musad A. Haque:
Containment in leader-follower networks with switching communication topologies. Autom. 47(5): 1035-1040 (2011) - [j44]Peter Kingston, Magnus Egerstedt:
Time and output warping of control systems: Comparing and imitating motions. Autom. 47(8): 1580-1588 (2011) - [j43]Magnus Egerstedt, B. Hanlon, Clyde F. Martin, Ning Wang:
Switched linear systems: stability and the convergence of random products. Commun. Inf. Syst. 11(4): 327-342 (2011) - [j42]Yorai Wardi, Magnus Egerstedt:
Guest editorial: hybrid systems, part I. Discret. Event Dyn. Syst. 21(4): 425-426 (2011) - [j41]Musad A. Haque, Amirreza Rahmani, Magnus Egerstedt:
Biologically inspired confinement of multi-robot systems. Int. J. Bio Inspired Comput. 3(4): 213-224 (2011) - [j40]Michael M. Zavlanos, Magnus Egerstedt, George J. Pappas:
Graph-Theoretic Connectivity Control of Mobile Robot Networks. Proc. IEEE 99(9): 1525-1540 (2011) - [j39]Amy LaViers, Yushan Chen, Calin Belta, Magnus Egerstedt:
Automatic Sequencing of Ballet Poses. IEEE Robotics Autom. Mag. 18(3): 87-95 (2011) - [j38]Patrick Martin, Elliot R. Johnson, Todd D. Murphey, Magnus Egerstedt:
Constructing and Implementing Motion Programs for Robotic Marionettes. IEEE Trans. Autom. Control. 56(4): 902-907 (2011) - [c134]Rosalba Galván-Guerra, Vadim Azhmyakov, Magnus Egerstedt:
Optimization of multiagent systems with increasing state dimensions: Hybrid LQ approach. ACC 2011: 881-887 - [c133]Girish Chowdhary, Magnus Egerstedt, Eric N. Johnson:
Network discovery: An estimation based approach. ACC 2011: 1076-1081 - [c132]Waseem Abbas, Magnus Egerstedt:
Hierarchical assembly of leader-asymmetric, single-leader networks. ACC 2011: 1082-1087 - [c131]Greg Droge, Magnus Egerstedt:
Adaptive time horizon optimization in model predictive control. ACC 2011: 1843-1848 - [c130]Hassan Jaleel, Amirreza Rahmani, Magnus Egerstedt:
Duty cycle scheduling in dynamic sensor networks for controlling event detection probabilities. ACC 2011: 3233-3238 - [c129]Peter Kingston, Magnus Egerstedt:
Motion preference learning. ACC 2011: 3819-3824 - [c128]Amy LaViers, Magnus Egerstedt:
The ballet automaton: A formal model for human motion. ACC 2011: 3837-3842 - [c127]Musad A. Haque, Amir Rahmani, Magnus Egerstedt, Anthony J. Yezzi:
Biologically motivated shape optimization of foraging fronts. ACC 2011: 4143-4148 - [c126]Waseem Abbas, Magnus Egerstedt:
Distribution of agents in heterogeneous multiagent systems. CDC/ECC 2011: 976-981 - [c125]Samuel Coogan, Murat Arcak, Magnus Egerstedt:
Scaling the size of a multiagent formation via distributed feedback. CDC/ECC 2011: 994-999 - [c124]Peter Kingston, Magnus Egerstedt:
Distributed-infrastructure multi-robot routing using a Helmholtz-Hodge decomposition. CDC/ECC 2011: 5281-5286 - [c123]Jonghoek Kim, Sean Maxon, Magnus Egerstedt, Fumin Zhang:
Intruder capturing game on a topological map assisted by information networks. CDC/ECC 2011: 6266-6271 - [c122]Hiroaki Kawashima, Magnus Egerstedt:
Approximate manipulability of leader-follower networks. CDC/ECC 2011: 6618-6623 - [c121]Hassan Jaleel, Shaunak Dattaprasad Bopardikar, Magnus Egerstedt:
Towards power-aware rendezvous. CDC/ECC 2011: 6642-6647 - [c120]Amy LaViers, Magnus Egerstedt, Yushan Chen, Calin Belta:
Automatic Generation of Balletic Motions. ICCPS 2011: 13-21 - [c119]Simone Martini, Adriano Fagiolini, Giancarlo Zichittella, Magnus Egerstedt, Antonio Bicchi:
Decentralized classification in societies of autonomous and heterogenous robots. ICRA 2011: 32-39 - [c118]Tobias Kunz, Peter Kingston, Mike Stilman, Magnus Egerstedt:
Dynamic chess: Strategic planning for robot motion. ICRA 2011: 3796-3803 - [c117]Greg Droge, Magnus Egerstedt:
Adaptive look-ahead for robotic navigation in unknown environments. IROS 2011: 1134-1139 - [c116]Hassan Jaleel, Magnus Egerstedt:
Power-aware rendezvous with shrinking footprints. IROS 2011: 2772-2777 - [c115]Rahul Chipalkatty, Hannes Daepp, Magnus Egerstedt, Wayne J. Book:
Human-in-the-loop: MPC for shared control of a quadruped rescue robot. IROS 2011: 4556-4561 - [c114]Musad A. Haque, Amirreza Rahmani, Magnus Egerstedt, Anthony J. Yezzi:
Optimization of foraging multi-agent system front: A flux-based curve evolution method. ROBIO 2011: 859-864 - [i1]Yorai Wardi, Magnus Egerstedt:
Algorithm for Optimal Mode Scheduling in Switched Systems. CoRR abs/1107.3099 (2011) - 2010
- [b1]Mehran Mesbahi, Magnus Egerstedt:
Graph Theoretic Methods in Multiagent Networks. Princeton Series in Applied Mathematics 33, Princeton University Press / DeGruyter 2010, ISBN 978-0-691-14061-2 - [j37]Jonghoek Kim, Fumin Zhang, Magnus Egerstedt:
A provably complete exploration strategy by constructing Voronoi diagrams. Auton. Robots 29(3-4): 367-380 (2010) - [j36]Tove Gustavi, Dimos V. Dimarogonas, Magnus Egerstedt, Xiaoming Hu:
Sufficient conditions for connectivity maintenance and rendezvous in leader-follower networks. Autom. 46(1): 133-139 (2010) - [j35]Patrick Martin, Magnus Egerstedt:
Timing Control of Switched Systems with Applications to Robotic Marionettes. Discret. Event Dyn. Syst. 20(2): 233-248 (2010) - [j34]Xu Chu Ding, Amirreza Rahmani, Magnus Egerstedt:
Multi-UAV Convoy Protection: An Optimal Approach to Path Planning and Coordination. IEEE Trans. Robotics 26(2): 256-268 (2010) - [c113]Vadim Azhmyakov, Rosalba Galván-Guerra, Magnus Egerstedt:
On the LQ-based optimization techniques for impulsive hybrid control systems. ACC 2010: 129-135 - [c112]Philip Twu, Magnus Egerstedt:
Optimal decentralization of multi-agent motions. ACC 2010: 2326-2331 - [c111]Patrick Martin, Magnus Egerstedt:
Expanding motion programs under input constraints. ACC 2010: 2416-2421 - [c110]Peter Kingston, Magnus Egerstedt:
Time and output warping of control systems: Comparing and imitating motions. ACC 2010: 6042-6047 - [c109]Musad A. Haque, Amirreza Rahmani, Magnus Egerstedt:
Biologically inspired coalition formation of multi-agent systems. AAMAS 2010: 1427-1428 - [c108]Rahul Chipalkatty, Philip Twu, Amirreza Rahmani, Magnus Egerstedt:
Distributed scheduling for air traffic throughput maximization during the terminal phase of flight. CDC 2010: 1195-1200 - [c107]Yorai Wardi, Philip Twu, Magnus Egerstedt:
On-line optimal timing control of switched systems. CDC 2010: 2137-2142 - [c106]Mauro Franceschelli, Simone Martini, Magnus Egerstedt, Antonio Bicchi, Alessandro Giua:
Observability and controllability verification in multi-agent systems through decentralized Laplacian spectrum estimation. CDC 2010: 5775-5780 - [c105]Philip Twu, Magnus Egerstedt, Simone Martini:
Controllability of homogeneous single-leader networks. CDC 2010: 5869-5874 - [c104]Musad A. Haque, Amirreza Rahmani, Magnus Egerstedt:
Geometric foraging strategies in multi-agent systems based on biological models. CDC 2010: 6040-6045 - [c103]Patrick Martin, Jean-Pierre de la Croix, Magnus Egerstedt:
Pancakes: A Software Framework for Distributed Robot and Sensor Network Applications. DARS 2010: 115-127 - [c102]Rahul Chipalkatty, Magnus Egerstedt:
Human-in-the-Loop: Terminal constraint receding horizon control with human inputs. ICRA 2010: 2712-2717 - [c101]Amirreza Rahmani, Xu Chu Ding, Magnus Egerstedt:
Optimal motion primitives for multi-UAV convoy protection. ICRA 2010: 4469-4474 - [c100]Jonghoek Kim, Fumin Zhang, Magnus Egerstedt:
Battery Level Estimation of Mobile Agents under Communication Constraints. SUTC/UMC 2010: 291-295 - [c99]Philip Twu, Patrick Martin, Magnus Egerstedt:
Graph process specifications for hybrid networked systems. WODES 2010: 65-70
2000 – 2009
- 2009
- [j33]Brian Stephen Smith, Ayanna M. Howard, John-Michael McNew, Jiuguang Wang, Magnus Egerstedt:
Multi-robot deployment and coordination with Embedded Graph Grammars. Auton. Robots 26(1): 79-98 (2009) - [j32]Jonghoek Kim, Fumin Zhang, Magnus Egerstedt:
Curve Tracking Control for Autonomous Vehicles with Rigidly Mounted Range Sensors. J. Intell. Robotic Syst. 56(1-2): 177-197 (2009) - [j31]Brian Stephen Smith, Magnus Egerstedt, Ayanna M. Howard:
Automatic Generation of Persistent Formations for Multi-agent Networks Under Range Constraints. Mob. Networks Appl. 14(3): 322-335 (2009) - [j30]Luca Schenato, Francesco De Pellegrini, Jason Redi, Magnus Egerstedt, Alan F. T. Winfield:
RoboComm Editorial. Mob. Networks Appl. 14(4): 551 (2009) - [j29]Xu Chu Ding, Matthew Powers, Magnus Egerstedt, Shih-Yih Young, Tucker R. Balch:
Executive decision support. IEEE Robotics Autom. Mag. 16(2): 73-81 (2009) - [j28]Amirreza Rahmani, Meng Ji, Mehran Mesbahi, Magnus Egerstedt:
Controllability of Multi-Agent Systems from a Graph-Theoretic Perspective. SIAM J. Control. Optim. 48(1): 162-186 (2009) - [j27]Xu Chu Ding, Yorai Wardi, Magnus Egerstedt:
On-Line Optimization of Switched-Mode Dynamical Systems. IEEE Trans. Autom. Control. 54(9): 2266-2271 (2009) - [c98]Xu Chu Ding, Axel Schild, Magnus Egerstedt, Jan Lunze:
Real-time optimal feedback control of switched autonomous systems. ADHS 2009: 108-113 - [c97]Vadim Azhmyakov, Magnus Egerstedt, Leonid M. Fridman, Alex Poznyak:
Continuity Properties of Nonlinear Affine Control Systems: Applications to Hybrid and Sliding Mode Dynamics. ADHS 2009: 204-209 - [c96]Musad A. Haque, Amirreza Rahmani, Magnus Egerstedt:
A Hybrid, Multi-Agent Model of Foraging Bottlenose Dolphins. ADHS 2009: 262-267 - [c95]Musad A. Haque, Magnus Egerstedt:
Coalition formation in multi-agent systems based on bottlenose dolphin alliances. ACC 2009: 3280-3285 - [c94]Vadim Azhmyakov, Rosalba Galván-Guerra, Magnus Egerstedt:
Hybrid LQ-optimization using dynamic programming. ACC 2009: 3617-3623 - [c93]Xu Chu Ding, Matthew Powers, Magnus Egerstedt, Ryan Young:
An optimal timing approach to controlling multiple UAVs. ACC 2009: 5374-5379 - [c92]Peter Kingston, Magnus Egerstedt:
Comparing apples and oranges through partial orders: An empirical approach. ACC 2009: 5434-5439 - [c91]Mauro Franceschelli, Magnus Egerstedt, Alessandro Giua, Cristian Mahulea:
Constrained invariant motions for networked multi-agent systems. ACC 2009: 5749-5754 - [c90]Ning Wang, Magnus Egerstedt, Clyde F. Martin:
Stability of switched linear systems and the convergence of random products. CDC 2009: 3721-3726 - [c89]Giuseppe Notarstefano, Magnus Egerstedt, Musad A. Haque:
Rendezvous with multiple, intermittent leaders. CDC 2009: 3733-3738 - [c88]Axel Schild, Xu Chu Ding, Magnus Egerstedt, Jan Lunze:
Design of optimal switching surfaces for switched autonomous systems. CDC 2009: 5293-5298 - [c87]Xu Chu Ding, Yorai Wardi, Magnus Egerstedt:
On-line adaptive optimal timing control of switched systems. CDC 2009: 5305-5310 - [c86]Jonghoek Kim, Fumin Zhang, Magnus Egerstedt:
An exploration strategy by constructing Voronoi diagrams with provable completeness. CDC 2009: 7024-7029 - [c85]Patrick Martin, Magnus Egerstedt:
Optimization of Multi-agent Motion Programs with Applications to Robotic Marionettes. HSCC 2009: 262-275 - [c84]Axel Schild, Magnus Egerstedt, Jan Lunze:
Orbital Control for a Class of Planar Impulsive Hybrid Systems with Controllable Resets. HSCC 2009: 465-469 - [c83]Brian Stephen Smith, Jiuguang Wang, Magnus Egerstedt, Ayanna M. Howard:
Automatic formation deployment of decentralized heterogeneous multi-robot networks with limited sensing capabilities. ICRA 2009: 730-735 - [c82]Gian Luca Mariottini, Simone Martini, Magnus Egerstedt:
A switching active sensing strategy to maintain observability for vision-based formation control. ICRA 2009: 2637-2642 - [c81]Rahul Chipalkatty, Magnus Egerstedt, Shun-ichi Azuma:
Multi-pendulum synchronization using constrained agreement protocols. ROBOCOMM 2009: 1-6 - [c80]Xu Chu Ding, Amirreza Rahmani, Magnus Egerstedt:
Optimal multi-UAV convoy protection. ROBOCOMM 2009: 1-6 - 2008
- [j26]Hiroyuki Kano, Magnus Egerstedt, Hiroyuki Fujioka, Satoru Takahashi, Clyde F. Martin:
Periodic smoothing splines. Autom. 44(1): 185-192 (2008) - [j25]Tejas R. Mehta, Magnus Egerstedt:
Multi-modal control using adaptive motion description languages. Autom. 44(7): 1912-1917 (2008) - [j24]Magnus Egerstedt, Patrick Martin:
Motion Description Language-Based Topological Maps for Robot Navigation. Commun. Inf. Syst. 8(2): 171-184 (2008) - [j23]Florent Delmotte, Tejas R. Mehta, Magnus Egerstedt:
A Software Tool for Hybrid Control. IEEE Robotics Autom. Mag. 15(1): 87-95 (2008) - [j22]Meng Ji, Giancarlo Ferrari-Trecate, Magnus Egerstedt, Annalisa Buffa:
Containment Control in Mobile Networks. IEEE Trans. Autom. Control. 53(8): 1972-1975 (2008) - [c79]Magnus Egerstedt, Patric Jensfelt:
A control theoretic formulation of the generalized SLAM problem in robotics. ACC 2008: 2409-2414 - [c78]Musad A. Haque, Magnus Egerstedt, Clyde F. Martin:
First-order, networked control models of swarming silkworm moths. ACC 2008: 3798-3803 - [c77]Xu Chu Ding, Yorai Wardi, D. Taylor, Magnus Egerstedt:
Optimization of switched-mode systems with switching costs. ACC 2008: 3965-3970 - [c76]Mauro Franceschelli, Magnus Egerstedt, Alessandro Giua:
Motion probes for fault detection and recovery in networked control systems. ACC 2008: 4358-4363 - [c75]Brian Stephen Smith, Jiuguang Wang, Magnus Egerstedt:
Persistent formation control of multi-robot networks. CDC 2008: 471-476 - [c74]Patrick Martin, Jean-Pierre de la Croix, Magnus Egerstedt:
MDLn: A Motion Description Language for networked systems. CDC 2008: 558-563 - [c73]Dimos V. Dimarogonas, Tove Gustavi, Magnus Egerstedt, Xiaoming Hu:
On the number of leaders needed to ensure network connectivity. CDC 2008: 1797-1802 - [c72]Jonghoek Kim, Fumin Zhang, Magnus Egerstedt:
Curve tracking control for autonomous vehicles with rigidly mounted range sensors. CDC 2008: 5036-5041 - [c71]Simone Martini, Magnus Egerstedt, Antonio Bicchi:
Controllability decompositions of networked systems through quotient graphs. CDC 2008: 5244-5249 - [c70]Brian Stephen Smith, Magnus Egerstedt, Ayanna M. Howard:
Automatic deployment and formation control of decentralized multi-agent networks. ICRA 2008: 134-139 - [e1]Magnus Egerstedt, Bud Mishra:
Hybrid Systems: Computation and Control, 11th International Workshop, HSCC 2008, St. Louis, MO, USA, April 22-24, 2008. Proceedings. Lecture Notes in Computer Science 4981, Springer 2008, ISBN 978-3-540-78928-4 [contents] - 2007
- [j21]David Wooden, Matthew Powers, Magnus Egerstedt, Henrik I. Christensen, Tucker R. Balch:
A Modular, Hybrid System Architecture for Autonomous, Urban Driving. J. Aerosp. Comput. Inf. Commun. 4(12): 1047-1058 (2007) - [j20]Calin Belta, Antonio Bicchi, Magnus Egerstedt, Emilio Frazzoli, Eric Klavins, George J. Pappas:
Symbolic planning and control of robot motion [Grand Challenges of Robotics]. IEEE Robotics Autom. Mag. 14(1): 61-70 (2007) - [j19]Meng Ji, Magnus Egerstedt:
Distributed Coordination Control of Multiagent Systems While Preserving Connectedness. IEEE Trans. Robotics 23(4): 693-703 (2007) - [c69]Jorge L. Piovesan, Chaouki T. Abdallah, Magnus Egerstedt, Herbert G. Tanner, Yorai Wardi:
Statistical Learning for Optimal Control of Hybrid Systems. ACC 2007: 2775-2780 - [c68]Tejas R. Mehta, Deryck Yeung, Erik I. Verriest, Magnus Egerstedt:
Optimal Control of Multi-Dimensional, Hybrid Ice-Skater Model. ACC 2007: 2787-2792 - [c67]Meng Ji, Magnus Egerstedt:
A Graph-Theoretic Characterization of Controllability for Multi-agent Systems. ACC 2007: 4588-4593 - [c66]Steven M. LaValle, Magnus Egerstedt:
On time: Clocks, chronometers, and open-loop control. CDC 2007: 1916-1922 - [c65]Angela Schöllig, Peter E. Caines, Magnus Egerstedt, Roland P. Malhamé:
A Hybrid Bellman Equation for systems with regional dynamics. CDC 2007: 3393-3398 - [c64]Tejas R. Mehta, Magnus Egerstedt:
A variational approach to constructivist learning for mobile robot navigation. CDC 2007: 4179-4184 - [c63]Meng Ji, Magnus Egerstedt:
Observability and estimation in distributed sensor networks. CDC 2007: 4221-4226 - [c62]Yorai Wardi, Xu Chu Ding, Magnus Egerstedt, Shun-ichi Azuma:
On-line optimization of switched-mode systems: Algorithms and convergence properties. CDC 2007: 5005-5010 - [c61]Magnus Egerstedt, Todd D. Murphey, Jon Ludwig:
Motion Programs for Puppet Choreography and Control. HSCC 2007: 190-202 - [c60]John-Michael McNew, Eric Klavins, Magnus Egerstedt:
Solving Coverage Problems with Embedded Graph Grammars. HSCC 2007: 413-427 - [c59]Peter E. Caines, Magnus Egerstedt, Roland P. Malhamé, Angela Schöllig:
A Hybrid Bellman Equation for Bimodal Systems. HSCC 2007: 656-659 - [c58]David Wooden, Matthew Powers, Douglas C. MacKenzie, Tucker R. Balch, Magnus Egerstedt:
Control-driven mapping and planning. IROS 2007: 3056-3061 - [c57]Brian Stephen Smith, Magnus Egerstedt, Ayanna M. Howard:
Automatic generation of persistent formations for multi-agent networks under range constraints. ROBOCOMM 2007: 14 - 2006
- [j18]Yiahao Zhou, Magnus Egerstedt, Clyde F. Martin:
Hilbert Space Methods for Control Theoretic Splines: A Unified Treatment. Commun. Inf. Syst. 6(1): 55-81 (2006) - [j17]Jie Sun, Tejas R. Mehta, David Wooden, Matthew Powers, James M. Rehg, Tucker R. Balch, Magnus Egerstedt:
Learning from examples in unstructured, outdoor environments. J. Field Robotics 23(11-12): 1019-1036 (2006) - [j16]Magnus Egerstedt, Yorai Wardi, Henrik Axelsson:
Transition-time optimization for switched-mode dynamical systems. IEEE Trans. Autom. Control. 51(1): 110-115 (2006) - [c56]Henrik Axelsson, Mauro Boccadoro, Yorai Wardi, Magnus Egerstedt:
Optimal mode-switching for Hybrid Systems with unknown initial State. ADHS 2006: 95-100 - [c55]Mauro Boccadoro, Magnus Egerstedt, Paolo Valigi, Yorai Wardi:
Beyond the Construction of Optimal switching surfaces for Autonomous Hybrid Systems. ADHS 2006: 101-105 - [c54]Henrik Axelsson, Magnus Egerstedt, Yorai Wardi:
Trade-offs between precision and computation horizon in real-time optimal control of switched systems. ACC 2006: 1-6 - [c53]Meng Ji, Abubakr Muhammad, Magnus Egerstedt:
Leader-based multi-agent coordination: controllability and optimal control. ACC 2006 - [c52]Tejas R. Mehta, Magnus Egerstedt:
Optimal membership functions for multi-modal control. ACC 2006: 1-6 - [c51]Abubakr Muhammad, Magnus Egerstedt:
Network configuration control via connectivity graph processes. ACC 2006 - [c50]David Wooden, Magnus Egerstedt:
On Finding Globally Optimal Paths through Weighted Colored Graphs. CDC 2006: 1948-1953 - [c49]Henrik Axelsson, Magnus Egerstedt, Yorai Wardi:
Optimal Switching Surfaces in Behavior-Based Robotics. CDC 2006: 1954-1959 - [c48]Meng Ji, Magnus Egerstedt:
Distributed Formation Control While Preserving Connectedness. CDC 2006: 5962-5967 - [c47]Dimos V. Dimarogonas, Magnus Egerstedt, Kostas J. Kyriakopoulos:
A Leader-based Containment Control Strategy for Multiple Unicycles. CDC 2006: 5968-5973 - [c46]Shun-ichi Azuma, Magnus Egerstedt, Yorai Wardi:
Output-Based Optimal Timing Control of Switched Systems. HSCC 2006: 64-78 - [c45]Giancarlo Ferrari-Trecate, Magnus Egerstedt, Annalisa Buffa, Meng Ji:
Laplacian Sheep: A Hybrid, Stop-Go Policy for Leader-Based Containment Control. HSCC 2006: 212-226 - [c44]David Wooden, Magnus Egerstedt:
Oriented Visibility Graphs: Low-complexity Planning in Real-time Environments. ICRA 2006: 2354-2359 - 2005
- [j15]Abubakr Muhammad, Magnus Egerstedt:
Connectivity graphs as models of local interactions. Appl. Math. Comput. 168(1): 243-269 (2005) - [j14]Mauro Boccadoro, Yorai Wardi, Magnus Egerstedt, Erik I. Verriest:
Optimal Control of Switching Surfaces in Hybrid Dynamical Systems. Discret. Event Dyn. Syst. 15(4): 433-448 (2005) - [j13]Mohamed Babaali, Magnus Egerstedt:
Nonpathological sampling of switched linear systems. IEEE Trans. Autom. Control. 50(12): 2102-2105 (2005) - [c43]Henrik Axelsson, Magnus Egerstedt, Yorai Wardi, George J. Vachtsevanos:
Algorithm for Switching-Time Optimization in Hybrid Dynamical Systems. ISIC 2005: 256-261 - [c42]Meng Ji, Magnus Egerstedt:
Connectedness preserving distributed coordination control over dynamic graphs. ACC 2005: 93-98vol.1 - [c41]Erik I. Verriest, Florent Delmotte, Magnus Egerstedt:
Control of epidemics by vaccination. ACC 2005: 985-990 - [c40]Magnus Egerstedt, Mohamed Babaali:
On observability and reachability in a class of discrete-time switched linear systems. ACC 2005: 1179-1180 - [c39]Henrik Axelsson, Magnus Egerstedt, Yorai Wardi:
Reactive robot navigation using optimal timing control. ACC 2005: 4929-4934 - [c38]Tejas R. Mehta, Florent Delmotte, Magnus Egerstedt:
Motion Alphabet Augmentation Based on Past Experiences. CDC/ECC 2005: 108-113 - [c37]Yiahao Zhou, Magnus Egerstedt, Clyde F. Martin:
Control Theoretic Splines with Deterministic and Random Data. CDC/ECC 2005: 362-367 - [c36]Florent Delmotte, Magnus Egerstedt, Erik I. Verriest:
Hybrid Function Approximation: A Variational Approach. CDC/ECC 2005: 374-379 - [c35]Henrik Axelsson, Yorai Wardi, Magnus Egerstedt, Erik I. Verriest:
A Provably Convergent Algorithm for Transition-Time Optimization in Switched Systems. CDC/ECC 2005: 1397-1402 - [c34]Tejas R. Mehta, Magnus Egerstedt:
Learning Multi-modal Control Programs. HSCC 2005: 466-479 - [c33]Magnus Egerstedt, Tucker R. Balch, Frank Dellaert, Florent Delmotte, Zia Khan:
What Are the Ants Doing? Vision-Based Tracking and Reconstruction of Control Programs. ICRA 2005: 4182-4187 - [p2]Magnus Egerstedt:
Control of Autonomous Mobile Robots. Handbook of Networked and Embedded Control Systems 2005: 767-778 - 2004
- [j12]Magnus Egerstedt, Clyde F. Martin:
A note on the connection between Bezier curves and linear optimal control. IEEE Trans. Autom. Control. 49(10): 1728-1732 (2004) - [j11]Mohamed Babaali, Magnus Egerstedt, Edward W. Kamen:
A direct algebraic approach to observer design under switching measurement equations. IEEE Trans. Autom. Control. 49(11): 2044-2049 (2004) - [c32]Abubakr Muhammad, Magnus Egerstedt:
On the structural complexity of multi-agent robot formations. ACC 2004: 4957-4962 - [c31]Mohamed Babaali, Magnus Egerstedt:
Pathwise observability through arithmetic progressions and non-pathological sampling. ACC 2004: 5824-5828 - [c30]Mohamed Babaali, Magnus Egerstedt:
On the observability of piecewise linear systems. CDC 2004: 26-31 - [c29]Abubakr Muhammad, Magnus Egerstedt:
Connectivity graphs as models of local interactions. CDC 2004: 124-129 - [c28]Florent Delmotte, Magnus Egerstedt:
Reconstruction of low-complexity control programs from data. CDC 2004: 1460-1465 - [c27]Yorai Wardi, Magnus Egerstedt, Mauro Boccadoro, Erik I. Verriest:
Optimal control of switching surfaces. CDC 2004: 1854-1859 - [c26]Mohamed Babaali, Magnus Egerstedt:
Observability of Switched Linear Systems. HSCC 2004: 48-63 - 2003
- [j10]Hiroyuki Kano, Magnus Egerstedt, Hiroaki Nakata, Clyde F. Martin:
B-splines and control theory. Appl. Math. Comput. 145(2-3): 263-288 (2003) - [j9]Magnus Egerstedt:
Robot Force Control: Bruno Siciliano and Luigi Villani, Kluwer Academic Publishers, Boston, 1999, ISBN 0-7923-7733-8. Autom. 39(4): 757-758 (2003) - [j8]Magnus Egerstedt, Roger W. Brockett:
Feedback can reduce the specification complexity of motor programs. IEEE Trans. Autom. Control. 48(2): 213-223 (2003) - [c25]Henrik Axelsson, Abubakr Muhammad, Magnus Egerstedt:
Autonomous Formation Switching for Multiple, Mobile Robots. ADHS 2003: 117-122 - [c24]Leandro G. Barajas, Magnus Egerstedt, Edward W. Kamen, Alex Goldstein:
Process control in a high-noise environment using a limited number of measurements. ACC 2003: 597-602 - [c23]Mohamed Babaali, Magnus Egerstedt, Edward W. Kamen:
An observer for linear systems with randomly-switching measurement equations. ACC 2003: 1879-1884 - [c22]Magnus Egerstedt, Yorai Wardi, Florent Delmotte:
Optimal control of switching times in switched dynamical systems. CDC 2003: 2138-2143 - [c21]Dimitrios Hristu-Varsakelis, Magnus Egerstedt, P. S. Krishnaprasad:
On the structural complexity of the motion description language MDLe. CDC 2003: 3360-3365 - [c20]Mohamed Babaali, Magnus Egerstedt:
Pathwise observability and controllability are decidable. CDC 2003: 5771-5776 - [c19]Adam Austin, Magnus Egerstedt:
Mode Reconstruction for Source Coding and Multi-modal Control. HSCC 2003: 36-49 - [c18]Leandro G. Barajas, Ashish Kansal, Abhinav Saxena, Magnus Egerstedt, Alex Goldstein, Edward W. Kamen:
Modeling and Control of SMT Manufacturing Lines Using Hybrid Dynamic Systems. HSCC 2003: 66-80 - [p1]Magnus Egerstedt:
Motion Description Languages for Multi-Modal Control in Robotics. Control Problems in Robotics 2003: 75-89 - 2002
- [j7]Magnus Egerstedt, Xiaoming Hu:
A hybrid control approach to action coordination for mobile robots. Autom. 38(1): 125-130 (2002) - [j6]Petter Ögren, Magnus Egerstedt, Xiaoming Hu:
A control Lyapunov function approach to multiagent coordination. IEEE Trans. Robotics Autom. 18(5): 847-851 (2002) - [c17]Magnus Egerstedt:
Some complexity aspects of the control of mobile robots. ACC 2002: 710-715 - [c16]Magnus Egerstedt, Vincent D. Blondel:
How hard is it to control switched systems? ACC 2002: 1869-1873 - [c15]Erik I. Verriest, Magnus Egerstedt:
Control with delayed and limited information: a first look. CDC 2002: 1231-1236 - [c14]Magnus Egerstedt, Yorai Wardi:
Multi-process control using queuing theory. CDC 2002: 1991-1996 - [c13]Magnus Egerstedt, Dimitrios Hristu-Varsakelis:
Observability and policy optimization for mobile robots. CDC 2002: 3596-3601 - 2001
- [j5]Magnus Egerstedt, Clyde F. Martin:
Optimal trajectory planning and smoothing splines. Autom. 37(7): 1057-1064 (2001) - [j4]Yishao Zhou, Magnus Egerstedt, Clyde F. Martin:
Optimal approximation of functions. Commun. Inf. Syst. 1(1): 101-112 (2001) - [j3]Magnus Egerstedt, Xiaoming Hu, Alexander Stotsky:
Control of mobile platforms using a virtual vehicle approach. IEEE Trans. Autom. Control. 46(11): 1777-1782 (2001) - [j2]Magnus Egerstedt, Xiaoming Hu:
Formation constrained multi-agent control. IEEE Trans. Robotics Autom. 17(6): 947-951 (2001) - [c12]Petter Ögren, Magnus Egerstedt, Xiaoming Hu:
A control Lyapunov function approach to multi-agent coordination. CDC 2001: 1150-1155 - [c11]Magnus Egerstedt, Roger W. Brockett:
Feedback can reduce the specification complexity of motor programs. CDC 2001: 1651-1656 - [c10]Magnus Egerstedt, Xiaoming Hu:
Formation Constrained Multi-Agent Control. ICRA 2001: 3961-3966 - [c9]Magnus Egerstedt:
Linguistic control of mobile robots. IROS 2001: 877-882 - 2000
- [j1]Shan Sun, Magnus Egerstedt, Clyde F. Martin:
Control theoretic smoothing splines. IEEE Trans. Autom. Control. 45(12): 2271-2279 (2000) - [c8]Magnus Egerstedt, Petter Ögren, Omid Shakernia, John Lygeros:
Toward optimal control of switched linear systems. CDC 2000: 587-592 - [c7]Petter Ögren, Lars Petersson, Magnus Egerstedt, Xiaoming Hu:
Reactive mobile manipulation using dynamic trajectory tracking: design and implementation. CDC 2000: 3001-3006 - [c6]Magnus Egerstedt:
Behavior Based Robotics Using Hybrid Automata. HSCC 2000: 103-116 - [c5]Petter Ögren, Magnus Egerstedt, Xiaoming Hu:
Reactive Mobile Manipulation using Dynamic Trajectory Tracking. ICRA 2000: 3473-3478 - [c4]Magnus Egerstedt, Xiaoming Hu:
Coordinated Trajectory Following for Mobile Manipulation. ICRA 2000: 3479-3484
1990 – 1999
- 1999
- [c3]Magnus Egerstedt, Tak-John Koo, Frank Hoffmann, Shankar Sastry:
Path Planning and Flight Controller Scheduling for an Autonomous Helicopter. HSCC 1999: 91-102 - [c2]Lars Petersson, Magnus Egerstedt, Henrik I. Christensen:
A hybrid control architecture for mobile manipulation. IROS 1999: 1285-1291 - 1998
- [c1]Magnus Egerstedt, Xiaoming Hu, Alexander Stotsky:
Control of a Car-Like Robot Using a Dynamic Model. ICRA 1998: 3273-3278
Coauthor Index
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Citation data
Add a list of citing articles from and to record detail pages.
load citations from opencitations.net
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OpenAlex data
Load additional information about publications from 
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last updated on 2024-10-07 22:09 CEST by the dblp team
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