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degenerate-boundaries-natcom2022
Data from paper: Baker S-A, Griffith T, Lepora NF. 2022 Degenerate Boundaries for Multiple-Alternative Decisions. Nature Communications. -
degenerate-boundaries-natcom2022/Source Data/Fig8
Data from paper: Baker S-A, Griffith T, Lepora NF. 2022 Degenerate Boundaries for Multiple-Alternative Decisions. Nature Communications. -
degenerate-boundaries-natcom2022/simulation data/3N curve SAT param split
Data from paper: Baker S-A, Griffith T, Lepora NF. 2022 Degenerate Boundaries for Multiple-Alternative Decisions. Nature Communications. -
degenerate-boundaries-natcom2022/Source Data/Fig6
Data from paper: Baker S-A, Griffith T, Lepora NF. 2022 Degenerate Boundaries for Multiple-Alternative Decisions. Nature Communications. -
degenerate-boundaries-natcom2022/Source Data/Fig9
Data from paper: Baker S-A, Griffith T, Lepora NF. 2022 Degenerate Boundaries for Multiple-Alternative Decisions. Nature Communications. -
degenerate-boundaries-natcom2022/Source Data/Fig4
Data from paper: Baker S-A, Griffith T, Lepora NF. 2022 Degenerate Boundaries for Multiple-Alternative Decisions. Nature Communications. -
degenerate-boundaries-natcom2022/Source Data/Fig5
Data from paper: Baker S-A, Griffith T, Lepora NF. 2022 Degenerate Boundaries for Multiple-Alternative Decisions. Nature Communications. -
Data for AFM graded stiffness gel paper/Figure_2
Included here are data to support the paper: M. Taghavi, H.Y. C, A. T. Conn, J. Rossiter, Stiffness Graded Electroactive Artificial Muscle. Advanced Functional Materials (2022). -
Data for AFM graded stiffness gel paper/Figure_5/5a
Included here are data to support the paper: M. Taghavi, H.Y. C, A. T. Conn, J. Rossiter, Stiffness Graded Electroactive Artificial Muscle. Advanced Functional Materials (2022). -
Data for AFM graded stiffness gel paper/Figure_7
Included here are data to support the paper: M. Taghavi, H.Y. C, A. T. Conn, J. Rossiter, Stiffness Graded Electroactive Artificial Muscle. Advanced Functional Materials (2022). -
Data for AFM graded stiffness gel paper/Figure_6
Included here are data to support the paper: M. Taghavi, H.Y. C, A. T. Conn, J. Rossiter, Stiffness Graded Electroactive Artificial Muscle. Advanced Functional Materials (2022). -
Data for AFM graded stiffness gel paper/Figure_5/5c
Included here are data to support the paper: M. Taghavi, H.Y. C, A. T. Conn, J. Rossiter, Stiffness Graded Electroactive Artificial Muscle. Advanced Functional Materials (2022). -
Data for AFM graded stiffness gel paper
Included here are data to support the paper: M. Taghavi, H.Y. C, A. T. Conn, J. Rossiter, Stiffness Graded Electroactive Artificial Muscle. Advanced Functional Materials (2022). -
Data for AFM graded stiffness gel paper/Figure_S1
Included here are data to support the paper: M. Taghavi, H.Y. C, A. T. Conn, J. Rossiter, Stiffness Graded Electroactive Artificial Muscle. Advanced Functional Materials (2022). -
Data for AFM graded stiffness gel paper/Figure_5/5b
Included here are data to support the paper: M. Taghavi, H.Y. C, A. T. Conn, J. Rossiter, Stiffness Graded Electroactive Artificial Muscle. Advanced Functional Materials (2022). -
Data for AFM graded stiffness gel paper/Figure_3
Included here are data to support the paper: M. Taghavi, H.Y. C, A. T. Conn, J. Rossiter, Stiffness Graded Electroactive Artificial Muscle. Advanced Functional Materials (2022). -
Efficient model of wave scattering from large defects in ultrasonic array ins...
Support data and codes for the paper entitled, Efficient model of wave scattering from large defects in ultrasonic array inspections, in NDT&E International 2022 -
A Model to Investigate Exploiting Intrinsic Multi-Agent Heterogeneity for Spa...
A simple simulation model used to investigate the use of intrinsic traits as a means to resolve spatial interference between 2 or more agents passing back and forth along a... -
A Model to Investigate Exploiting Intrinsic Multi-Agent Heterogeneity for Spa...
A simple simulation model used to investigate the use of intrinsic traits as a means to resolve spatial interference between 2 or more agents passing back and forth along a... -
Biomimicking Zantedeschia Aethiopica/Inp file/Angle HBC
INP ABAQUS files used for the work described in the paper: Biomimicking Zantedeschia Aethiopica: a new generation of programmable 4D printed continuous flax fibre adaptive...
