default search action
David Howard
Person information
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
showing all ?? records
2020 – today
- 2024
- [j39]Rhys Newbury
, Jack Collins
A Review of Differentiable Simulators. IEEE Access 12: 97581-97604 (2024) - [j38]Joshua Pinskier
Diversity-Based Topology Optimization of Soft Robotic Grippers. Adv. Intell. Syst. 6(4) (2024) - [j37]Lois Liow
A Compliant Robotic Leg Based on Fibre Jamming. IEEE Trans. Robotics 40: 4578-4597 (2024) - [c45]Geoff Nitschke, David Howard, Bilal Aslan:
Automating Robot Design with Multi-Level Evolution. CEC 2024: 1-8 - [c44]Jordan T. Bishop
Evolutionary Exploration of Triply Periodic Minimal Surfaces via Quality Diversity. GECCO 2024 - [c43]Seth G. Fitzgerald
Evolution of Material Properties and Gripping Strategy in Soft Robotic Jamming Devices. GECCO Companion 2024: 659-662 - [c42]Cameron Coombe
Learning Classifier Systems as a Solver for the Abstraction and Reasoning Corpus. GECCO Companion 2024: 1770-1778 - [c41]Duy Le, Linh Nguyen, Truong Phung, David Howard, Gayan Kahandawa, M. Manzur Murshed, Gary W. Delaney:
Machine Learning Accelerated Prediction of 3D Granular Flows in Hoppers. ICANN (9) 2024: 325-339 - [c40]Joshua Pinskier, James Brett, David Howard:
Towards Bespoke Soft Grippers through Voxel-Scale Metamaterial Topology Optimisation. RoboSoft 2024: 291-298 - [c39]Yue Xie, Xing Wang, Fumiya Iida, David Howard:
Fin-QD: A Computational Design Framework for Soft Grippers: Integrating MAP-Elites and High-fidelity FEM. RoboSoft 2024: 692-697 - [c38]Ryo Kanno, Pham H. Nguyen, Joshua Pinskier, David Howard, Sukho Song, Mirko Kovac:
Hybrid Soft Electrostatic Metamaterial Gripper for Multi-surface, Multi-object Adaptation. RoboSoft 2024: 851-857 - [i37]Callum Bennie, Bridget Casey, Cécile Paris, Dana Kulic, Brendan Tidd, Nicholas Lawrance, Alex Pitt, Fletcher Talbot, Jason Williams, David Howard, Pavan Sikka, Hashini Senaratne:
Alternative Interfaces for Human-initiated Natural Language Communication and Robot-initiated Haptic Feedback: Towards Better Situational Awareness in Human-Robot Collaboration. CoRR abs/2401.13903 (2024) - [i36]Ryo Kanno, Pham H. Nguyen, Joshua Pinskier, David Howard, Sukho Song
Hybrid Soft Electrostatic Metamaterial Gripper for Multi-surface, Multi-object Adaptation. CoRR abs/2403.06327 (2024) - [i35]Rafael Oliveira, Dino Sejdinovic, David Howard, Edwin V. Bonilla:
Bayesian Adaptive Calibration and Optimal Design. CoRR abs/2405.14440 (2024) - [i34]Rhys Newbury, Jack Collins, Kerry He, Jiahe Pan, Ingmar Posner, David Howard, Akansel Cosgun:
A Review of Differentiable Simulators. CoRR abs/2407.05560 (2024) - [i33]Yue Xie, Joshua Pinskier, Lois Liow, David Howard, Fumiya Iida:
A 'MAP' to find high-performing soft robot designs: Traversing complex design spaces using MAP-elites and Topology Optimization. CoRR abs/2407.07591 (2024) - [i32]Xing Wang, Joel Janek Dabrowski, Joshua Pinskier, Lois Liow, Vinoth Viswanathan, Richard Scalzo, David Howard:
PINN-Ray: A Physics-Informed Neural Network to Model Soft Robotic Fin Ray Fingers. CoRR abs/2407.08222 (2024) - [i31]Humphrey Munn, Brendan Tidd, David Howard, Marcus Gallagher:
Whole-Body Dynamic Throwing with Legged Manipulators. CoRR abs/2410.05681 (2024) - 2023
- [j36]David M. Douglas
Ethical risks of AI-designed products: bespoke surgical tools as a case study. AI Ethics 3(4): 1117-1133 (2023) - [j35]Angélique Volfart
Neural Correlates of Naturally Occurring Speech Errors during Picture Naming in Healthy Participants. J. Cogn. Neurosci. 35(1): 111-127 (2023) - [c37]Stine S. Johansen
Empowering People in Human-Robot Collaboration: Why, How, When, and for Whom. OZCHI 2023: 684-688 - [c36]Hashini Senaratne, Alex Pitt, Fletcher Talbot, Peyman Moghadam
Measuring Situational Awareness Latency in Human-Robot Teaming Experiments. RO-MAN 2023: 2624-2631 - [c35]Cameron Coombe
Active Vibration Fluidization for Granular Jamming Grippers. RoboSoft 2023: 1-8 - [c34]David Howard, Jack O'Connor, Jordan Letchford, Therese Joseph, Sophia Lin, Sarah Baldwin, Gary W. Delaney:
A Comprehensive Dataset of Grains for Granular Jamming in Soft Robotics: Grip Strength and Shock Absorption. RoboSoft 2023: 1-8 - [c33]Therese Joseph, Sarah Baldwin, Lillian Guan, James Brett, David Howard:
The Jamming Donut: A Free-Space Gripper Based on Granular Jamming. RoboSoft 2023: 1-6 - [c32]Joshua Pinskier, Prabhat Kumar, Matthijs Langelaar
Automated design of pneumatic soft grippers through design-dependent multi-material topology optimization. RoboSoft 2023: 1-7 - [i30]Lois Liow, James Brett, Joshua Pinskier, Lauren Hanson, Louis Tidswell, Navinda Kottege, David Howard:
A Compliant Robotic Leg Based on Fibre Jamming. CoRR abs/2308.01758 (2023) - [i29]Prabhat Kumar, Joshua Pinskier, David Howard, Matthijs Langelaar:
Topology optimization of fluidic pressure-driven multi-material compliant mechanisms. CoRR abs/2310.10355 (2023) - [i28]Yue Xie, Xing Wang, Fumiya Iida, David Howard:
Fin-QD: A Computational Design Framework for Soft Grippers: Integrating MAP-Elites and High-fidelity FEM. CoRR abs/2311.12477 (2023) - 2022
- [j34]Matheus S. Xavier
Soft Pneumatic Actuators: A Review of Design, Fabrication, Modeling, Sensing, Control and Applications. IEEE Access 10: 59442-59485 (2022) - [j33]Joshua Pinskier
From Bioinspiration to Computer Generation: Developments in Autonomous Soft Robot Design. Adv. Intell. Syst. 4(1) (2022) - [j32]David M. Douglas
Ethical responsibility and computational design: bespoke surgical tools as an instructive case study. Ethics Inf. Technol. 24(1): 11 (2022) - [j31]David Howard:
From the lab to the field with Evolutionary Field Robotics. Frontiers Robotics AI 9 (2022) - [j30]David Howard, Kyrre Glette, Nick Cheney:
Editorial: Evolving Robotic Morphologies. Frontiers Robotics AI 9: 874853 (2022) - [j29]Geoff Nitschke
AutoFac: The Perpetual Robot Machine. IEEE Trans. Artif. Intell. 3(1): 2-10 (2022) - [j28]Gabriel Günter Waibel, Tobias Löw
How Rough Is the Path? Terrain Traversability Estimation for Local and Global Path Planning. IEEE Trans. Intell. Transp. Syst. 23(9): 16462-16473 (2022) - [j27]Andrew Razjigaev
End-to-End Design of Bespoke, Dexterous Snake-Like Surgical Robots: A Case Study With the RAVEN II. IEEE Trans. Robotics 38(5): 2827-2840 (2022) - [c31]Zonghao Huang, Quinn Wu, David Howard, Cynthia R. Sung:
EvoRobogami: co-designing with humans in evolutionary robotics experiments. GECCO 2022: 168-176 - [c30]David Howard, Humphrey Munn, Davide Dolcetti, Josh Kannemeyer, Nicole L. Robinson:
Assessing evolutionary terrain generation methods for curriculum reinforcement learning. GECCO 2022: 377-384 - [c29]Seth G. Fitzgerald, Gary W. Delaney, David Howard, Frédéric Maire:
Evolving polydisperse soft robotic jamming grippers. GECCO Companion 2022: 707-710 - [c28]Joshua Pinskier, James Brett, Lauren Hanson, Katrina Lo Surdo, David Howard:
Jammkle: Fibre jamming 3D printed multi-material tendons and their application in a robotic ankle. IROS 2022: 8507-8514 - [c27]Stine S. Johansen
Empowering People in Human-Robot Collaboration: Bringing Together and Synthesising Perspectives. OZCHI 2022: 352-355 - [c26]David Howard, Jack O'Connor, Jordan Letchford, James Brett, Therese Joseph, Sophia Lin, Daniel Furby, Gary W. Delaney:
Getting a Grip: in Materio Evolution of Membrane Morphology for Soft Robotic Jamming Grippers. RoboSoft 2022: 531-538 - [i27]David Howard, Josh Kannemeyer, Davide Dolcetti, Humphrey Munn, Nicole L. Robinson:
Assessing Evolutionary Terrain Generation Methods for Curriculum Reinforcement Learning. CoRR abs/2203.15172 (2022) - [i26]Zonghao Huang, Quinn Wu, David Howard, Cynthia Sung:
EvoRobogami: Co-designing with Humans in Evolutionary Robotics Experiments. CoRR abs/2205.08086 (2022) - [i25]Joshua Pinskier, Prabhat Kumar, David Howard, Matthijs Langelaar:
Automated design of pneumatic soft grippers through design-dependent multi-material topology optimization. CoRR abs/2211.13843 (2022) - [i24]Nicole L. Robinson, Jason Williams, David Howard, Brendan Tidd, Fletcher Talbot, Brett Wood, Alex Pitt, Navinda Kottege, Dana Kulic:
Human-Robot Team Performance Compared to Full Robot Autonomy in 16 Real-World Search and Rescue Missions: Adaptation of the DARPA Subterranean Challenge. CoRR abs/2212.05626 (2022) - [i23]Therese Joseph, Sarah Baldwin, Lillian Guan, James Brett, David Howard:
The Jamming Donut: A Free-Space Gripper based on Granular Jamming. CoRR abs/2212.06485 (2022) - [i22]Cameron Coombe, James Brett, Raghav Mishra, Gary W. Delaney, David Howard:
Active Vibration Fluidization for Granular Jamming Grippers. CoRR abs/2212.06498 (2022) - [i21]David Howard, Jack O'Connor, Jordan Letchford, Therese Joseph, Sophia Lin, Sarah Baldwin, Gary W. Delaney:
A Comprehensive Dataset of Grains for Granular Jamming in Soft Robotics: Grip Strength and Shock Absorption. CoRR abs/2212.06511 (2022) - 2021
- [j26]Jack Collins
A Review of Physics Simulators for Robotic Applications. IEEE Access 9: 51416-51431 (2021) - [j25]David M. Douglas
Moral responsibility for computationally designed products. AI Ethics 1(3): 273-281 (2021) - [j24]Tønnes F. Nygaard, Charles P. Martin
Environmental Adaptation of Robot Morphology and Control Through Real-World Evolution. Evol. Comput. 29(4): 441-461 (2021) - [j23]Shelvin Chand, David Howard:
Multi-Level Evolution for Robotic Design. Frontiers Robotics AI 8: 684304 (2021) - [j22]Felipe G. Oliveira
Three-Dimensional Mapping with Augmented Navigation Cost through Deep Learning. J. Intell. Robotic Syst. 101(3): 50 (2021) - [j21]Tønnes F. Nygaard
Real-world embodied AI through a morphologically adaptive quadruped robot. Nat. Mach. Intell. 3(5): 410-419 (2021) - [j20]Ahmadreza Ahmadi
Semi-Supervised Gated Recurrent Neural Networks for Robotic Terrain Classification. IEEE Robotics Autom. Lett. 6(2): 1848-1855 (2021) - [c25]Seth G. Fitzgerald, Gary W. Delaney, David Howard, Frédéric Maire:
Evolving soft robotic jamming grippers. GECCO 2021: 102-110 - [c24]Marin Dimitrov, Keir Groves
Model Identification of a Small Fully-Actuated Aquatic Surface Vehicle Using a Long Short-Term Memory Neural Network. ICRA 2021: 5966-5972 - [c23]Andrew Razjigaev
SnakeRaven: Teleoperation of a 3D Printed Snake-like Manipulator Integrated to the RAVEN II Surgical Robot. IROS 2021: 5282-5288 - [c22]David Howard, Jack O'Connor, James Brett, Gary W. Delaney:
Shape, Size, and Fabrication Effects in 3D Printed Granular Jamming Grippers. RoboSoft 2021: 458-464 - [i20]David Howard, Jack O'Connor, James Brett, Gary W. Delaney:
Shape, Size, and Fabrication Effects in 3D Printed Granular Jamming Grippers. CoRR abs/2104.04171 (2021) - [i19]Jack Collins, Ross Brown, Jürgen Leitner, David Howard:
Follow the Gradient: Crossing the Reality Gap using Differentiable Physics (RealityGrad). CoRR abs/2109.04674 (2021) - [i18]James Brett, Katrina Lo Surdo, Lauren Hanson, Joshua Pinskier, David Howard:
Jammkle: Fibre jamming 3D printed multi-material tendons and their application in a robotic ankle. CoRR abs/2109.04681 (2021) - [i17]Raghav Mishra, Tyson Philips, Gary W. Delaney, David Howard:
Vibration Improves Performance in Granular Jamming Grippers. CoRR abs/2109.10496 (2021) - [i16]David Howard, Jack O'Connor, Jordan Letchford, James Brett, Therese Joseph, Sophia Lin, Daniel Furby, Gary W. Delaney:
Getting a Grip: in Materio Evolution of Membrane Morphology for Soft Robotic Jamming Grippers. CoRR abs/2111.01952 (2021) - 2020
- [j19]Alexander S. Rich, Cynthia Rudin, David M. P. Jacoby, Robin Freeman, Oliver R. Wearn, Henry Shevlin, Kanta Dihal, Seán S. ÓhÉigeartaigh, James Butcher, Marco Lippi, Przemyslaw Palka, Paolo Torroni
AI reflections in 2019. Nat. Mach. Intell. 2(1): 2-9 (2020) - [j18]Jack Collins
Benchmarking Simulated Robotic Manipulation Through a Real World Dataset. IEEE Robotics Autom. Lett. 5(1): 250-257 (2020) - [j17]Llewyn Salt
Parameter Optimization and Learning in a Spiking Neural Network for UAV Obstacle Avoidance Targeting Neuromorphic Processors. IEEE Trans. Neural Networks Learn. Syst. 31(9): 3305-3318 (2020) - [c21]Huanneng Qiu
Towards crossing the reality gap with evolved plastic neurocontrollers. GECCO 2020: 130-138 - [c20]Shelvin Chand, David Howard:
Path towards multilevel evolution of robots. GECCO Companion 2020: 1381-1382 - [c19]Tønnes F. Nygaard
Real world morphological evolution is feasible. GECCO Companion 2020: 1392-1394 - [c18]Koen Tange, David Howard, Travis Shanahan, Stefano Pepe, Xenofon Fafoutis
rTLS: Lightweight TLS Session Resumption for Constrained IoT Devices. ICICS 2020: 243-258 - [c17]Huanneng Qiu
Evolving Spiking Neurocontrollers for UAVs. SSCI 2020: 1928-1935 - [c16]Christopher Chen, David Howard, Steven L. Zhang, Youngwook Do, Sienna Xin Sun, Tingyu Cheng, Zhong Lin Wang
SPIN (Self-powered Paper Interfaces): Bridging Triboelectric Nanogenerator with Folding Paper Creases. TEI 2020: 431-442 - [i15]Huanneng Qiu, Matthew Garratt, David Howard, Sreenatha G. Anavatti:
Crossing the Reality Gap with Evolved Plastic Neurocontrollers. CoRR abs/2002.09854 (2020) - [i14]Jack Collins, Ross Brown, Jürgen Leitner, David Howard:
Traversing the Reality Gap via Simulator Tuning. CoRR abs/2003.01369 (2020) - [i13]Tønnes F. Nygaard, Charles P. Martin, David Howard, Jim Tørresen, Kyrre Glette:
Environmental Adaptation of Robot Morphology and Control through Real-world Evolution. CoRR abs/2003.13254 (2020) - [i12]David Howard, Thomas Lowe, Wade Geles:
Diversity-based Design Assist for Large Legged Robots. CoRR abs/2004.08057 (2020) - [i11]Tønnes F. Nygaard, David Howard, Kyrre Glette:
Real World Morphological Evolution is Feasible. CoRR abs/2005.09288 (2020) - [i10]Shelvin Chand, David Howard:
Path Towards Multilevel Evolution of Robots. CoRR abs/2006.03266 (2020) - [i9]Ahmadreza Ahmadi, Tønnes F. Nygaard, Navinda Kottege, David Howard, Nicolas Hudson:
Semi-supervised Gated Recurrent Neural Networks for Robotic Terrain Classification. CoRR abs/2011.11913 (2020)
2010 – 2019
- 2019
- [j16]David Howard, Ágoston E. Eiben, Danielle Frances Kennedy, Jean-Baptiste Mouret
Evolving embodied intelligence from materials to machines. Nat. Mach. Intell. 1(1): 12-19 (2019) - [c15]Jack Collins
Comparing Direct and Indirect Representations for Environment-Specific Robot Component Design. CEC 2019: 2705-2712 - [c14]Gary W. Delaney, David Howard, Krystal De Napoli:
Utilising Evolutionary Algorithms to Design Granular Materials for Industrial Applications. ICMLA 2019: 1897-1902 - [c13]Jack Collins
Quantifying the Reality Gap in Robotic Manipulation Tasks. ICRA 2019: 6706-6712 - [i8]David Howard, Ágoston E. Eiben, Danielle Frances Kennedy, Jean-Baptiste Mouret, Philip Valencia, David A. Winkler:
Evolving embodied intelligence from materials to machines. CoRR abs/1901.05704 (2019) - [i7]Jack Collins, Ben Cottier, David Howard:
Comparing Direct and Indirect Representations for Environment-Specific Robot Component Design. CoRR abs/1901.06775 (2019) - [i6]Huanneng Qiu, Matthew Garratt, David Howard, Sreenatha G. Anavatti:
Evolving Spiking Neural Networks for Nonlinear Control Problems. CoRR abs/1903.01180 (2019) - [i5]Llewyn Salt, David Howard, Giacomo Indiveri, Yulia Sandamirskaya:
Parameter Optimization and Learning in a Spiking Neural Network for UAV Obstacle Avoidance targeting Neuromorphic Processors. CoRR abs/1910.07960 (2019) - [i4]Jack Collins, Jessie McVicar, David Wedlock, Ross Brown, David Howard, Jürgen Leitner:
Benchmarking Simulated Robotic Manipulation through a Real World Dataset. CoRR abs/1911.01557 (2019) - 2018
- [c12]Jack Collins
Towards the targeted environment-specific evolution of robot components. GECCO 2018: 61-68 - [c11]Huanneng Qiu
Evolving Spiking Neural Networks for Nonlinear Control Problems. SSCI 2018: 1367-1373 - [i3]Jack Collins, Wade Geles, David Howard, Frédéric Maire:
Towards the Targeted Environment-Specific Evolution of Robot Components. CoRR abs/1810.04735 (2018) - [i2]Jack Collins, David Howard, Jürgen Leitner:
Quantifying the Reality Gap in Robotic Manipulation Tasks. CoRR abs/1811.01484 (2018) - 2017
- [j15]David Howard:
A Platform That Directly Evolves Multirotor Controllers. IEEE Trans. Evol. Comput. 21(6): 943-955 (2017) - [c10]Huub Heijnen, David Howard, Navinda Kottege:
A testbed that evolves hexapod controllers in hardware. ICRA 2017: 1065-1071 - [i1]Llewyn Salt, David Howard, Giacomo Indiveri, Yulia Sandamirskaya:
Differential Evolution and Bayesian Optimisation for Hyper-Parameter Selection in Mixed-Signal Neuromorphic Circuits Applied to UAV Obstacle Avoidance. CoRR abs/1704.04853 (2017) - 2016
- [j14]James Myers, Anand Savanth
A Subthreshold ARM Cortex-M0+ Subsystem in 65 nm CMOS for WSN Applications with 14 Power Domains, 10T SRAM, and Integrated Voltage Regulator. IEEE J. Solid State Circuits 51(1): 31-44 (2016) - [c9]David Howard, Farid Kendoul:
Towards Evolved Time to Contact Neurocontrollers for Quadcopters. ACALCI 2016: 336-347 - 2015
- [j13]Michael McGrath
A Forward Dynamic Modelling Investigation of Cause-and-Effect Relationships in Single Support Phase of Human Walking. Comput. Math. Methods Medicine 2015: 383705:1-383705:9 (2015) - [c8]David Howard, Torsten Merz:
A platform for the direct hardware evolution of quadcopter controllers. IROS 2015: 4614-4619 - [c7]James Myers, Anand Savanth
8.1 An 80nW retention 11.7pJ/cycle active subthreshold ARM Cortex-M0+ subsystem in 65nm CMOS for WSN applications. ISSCC 2015: 1-3 - 2013
- [j12]Lei Ren
Mathematical Modelling of Biomechanical Interactions between Backpack and Bearer during Load Carriage. J. Appl. Math. 2013: 349638:1-349638:12 (2013) - [j11]Swathi Kiran
Neuroimaging in aphasia treatment research: Standards for establishing the effects of treatment. NeuroImage 76: 428-435 (2013) - 2012
- [c6]Aakash Prasad, David Howard, Shoaib Kamil, Armando Fox:
Parallel High Performance Bootstrapping in Python. SciPy 2012: 1-5
2000 – 2009
- 2009
- [j10]Stephen J. Preece, John Yannis Goulermas, Laurence P. J. Kenney
A Comparison of Feature Extraction Methods for the Classification of Dynamic Activities From Accelerometer Data. IEEE Trans. Biomed. Eng. 56(3): 871-879 (2009) - 2008
- [j9]Philip A. Tresadern, Sibylle B. Thies, Laurence P. J. Kenney
Rapid Prototyping for Functional Electrical Stimulation Control. IEEE Pervasive Comput. 7(2): 62-69 (2008) - [j8]John Yannis Goulermas, Andrew H. Findlow, Christopher J. Nester
An Instance-Based Algorithm With Auxiliary Similarity Information for the Estimation of Gait Kinematics From Wearable Sensors. IEEE Trans. Neural Networks 19(9): 1574-1582 (2008) - 2006
- [c5]Kaijian Shi, David Howard:
Challenges in sleep transistor design and implementation in low-power designs. DAC 2006: 113-116 - [c4]Philip A. Tresadern, Sibylle B. Thies, Laurence P. J. Kenney
Artificial Neural Network Prediction Using Accelerometers to Control Upper Limb FES During Reaching and Grasping Following Stroke. EMBC 2006: 2916-2919 - 2005
- [j7]John Yannis Goulermas, Andrew H. Findlow, Christopher J. Nester
Automated design of robust discriminant analysis classifier for foot pressure lesions using kinematic data. IEEE Trans. Biomed. Eng. 52(9): 1549-1562 (2005) - [c3]Laurence P. J. Kenney, Paul Taylor, Geraldine Mann, Gerrit Bultstra, Hendrik Buschman, Hermie J. Hermens, Per J. Slycke, John Hobby, N. van der Aa, Ben W. Heller, A. Barker, David Howard, N. Sha:
Recent Developments in Implantable and Surface Based Dropped Foot Functional Electrical Stimulators. CLAWAR 2005: 89-96 - 2002
- [c2]Alan M. MacEachren, Mark Harrower, Bonan Li, David Howard, Roger Downs, Mark Gahegan:
Supporting statistical, graphic/cartographic, and domain literacy through onlinelearning activities: MapStats for Kids. DG.O 2002 - 2001
- [j6]Anmin Liu, David Howard:
Kinematic design of crab-like legged vehicles. Robotica 19(1): 67-77 (2001) - 2000
- [j5]Shan Miao, David Howard:
Optimal tripod turning gait generation for hexapod walking machines. Robotica 18(6): 639-649 (2000)
1990 – 1999
- 1999
- [j4]David Howard, Jim Schroeder:
Multiscale Models for Target Detection and Background Discrimination in Synthetic Aperture Radar Imagery. Digit. Signal Process. 9(3): 149-161 (1999) - [c1]Lynne Dunckley, Andy Smith, David Howard:
Designing for Shared Interfaces with Diverse User Groups. INTERACT 1999: 630-636 - 1997
- [j3]Shu-jun Zhang, David Howard, D. John Sanger, Shan Miao:
Multi-legged walking machine body design. Robotica 15(6): 593-598 (1997) - 1996
- [j2]Shu-jun Zhang, D. John Sanger, David Howard:
Workspaces of a walking machine and their graphical representation. Part I: kinematic workspaces. Robotica 14(1): 71-79 (1996) - [j1]Shu-jun Zhang, David Howard, D. John Sanger:
Workspaces of a walking machine and their graphical representation. Part II: static workspaces. Robotica 14(2): 219-226 (1996)
Coauthor Index
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
Unpaywalled article links
Add open access links from to the list of external document links (if available).
Privacy notice: By enabling the option above, your browser will contact the API of unpaywall.org to load hyperlinks to open access articles. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Unpaywall privacy policy.
Archived links via Wayback Machine
For web page which are no longer available, try to retrieve content from the of the Internet Archive (if available).
Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from ,
, and
to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and
to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from .
Privacy notice: By enabling the option above, your browser will contact the API of openalex.org to load additional information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the information given by OpenAlex.
last updated on 2024-11-19 20:46 CET by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint
dblp was originally created in 1993 at:
since 2018, dblp has been operated and maintained by:
the dblp computer science bibliography is funded and supported by: