2007 |
11 | EE | Michele Rucci,
Daniel Bullock,
Fabrizio Santini:
Integrating robotics and neuroscience: brains for robots, bodies for brains.
Advanced Robotics 21(10): 1115-1129 (2007) |
2004 |
10 | EE | Joshua W. Brown,
Daniel Bullock,
Stephen Grossberg:
How laminar frontal cortex and basal ganglia circuits interact to control planned and reactive saccades.
Neural Networks 17(4): 471-510 (2004) |
2003 |
9 | EE | Antonio Ulloa,
Daniel Bullock,
Bradley J. Rhodes:
Adaptive force generation for precision-grip lifting by a spectral timing model of the cerebellum.
Neural Networks 16(5-6): 521-528 (2003) |
8 | EE | Antonio Ulloa,
Daniel Bullock:
A neural network simulating human reach-grasp coordination by continuous updating of vector positioning commands.
Neural Networks 16(8): 1141-1160 (2003) |
2002 |
7 | | Bradley J. Rhodes,
Daniel Bullock:
A Scalable Model of Cerebellar Adaptive Timing and Sequencing: The Recurrent Slide and Latch (RSL) Model.
Appl. Intell. 17(1): 35-48 (2002) |
6 | | P. Patrick van der Smagt,
Daniel Bullock:
Guest Editorial for Special Issue on Scalable Applications of Neural Networks to Robotics.
Appl. Intell. 17(1): 7-10 (2002) |
5 | EE | Joost C. Dessing,
Daniel Bullock,
C. (Lieke) E. Peper,
Peter J. Beek:
Prospective control of manual interceptive actions: comparative simulations of extant and new model constructs.
Neural Networks 15(1): 163-179 (2002) |
1999 |
4 | EE | Daniel Bullock,
Raoul M. Bongers,
Marnix Lankhorst,
Peter J. Beek:
A vector-integration-to-endpoint model for performance of viapoint movements.
Neural Networks 12(1): 1-29 (1999) |
1998 |
3 | EE | Jacob J. van Heijst,
Johan E. Vos,
Daniel Bullock:
Development in a biologically inspired spinal neural network for movement control.
Neural Networks 11(7-8): 1305-1316 (1998) |
1994 |
2 | EE | Daniel Bullock,
John C. Fiala,
Stephen Grossberg:
A neural model of timed response learning in the cerebellum.
Neural Networks 7(6-7): 1101-1114 (1994) |
1993 |
1 | EE | Stephen Grossberg,
Frank H. Guenther,
Daniel Bullock,
Douglas N. Greve:
Neural representations for sensory-motor control, II: Learning a head-centered visuomotor representation of 3-D target position.
Neural Networks 6(1): 43-67 (1993) |