| scholarly article | Q13442814 |
| P8978 | DBLP publication ID | journals/bc/GawthropLHO13 |
| P356 | DOI | 10.1007/S00422-013-0564-4 |
| P698 | PubMed publication ID | 23943300 |
| P894 | zbMATH Open document ID | 1294.93042 |
| P50 | author | Mark Halaki | Q57016701 |
| Peter J. Gawthrop | Q47156479 | ||
| P2093 | author name string | Nicholas O'Dwyer | |
| Kwee-Yum Lee | |||
| P2860 | cites work | Predictive feedback control and Fitts' law. | Q47987498 |
| Internal models and intermittency: a theoretical account of human tracking behavior | Q48132623 | ||
| Intermittent control with ankle, hip, and mixed strategies during quiet standing: a theoretical proposal based on a double inverted pendulum model | Q48461022 | ||
| Degrees of freedom and motor planning in purposive movement | Q48464867 | ||
| Delay effects in the human sensory system during balancing | Q48743954 | ||
| Visual control of stable and unstable loads: what is the feedback delay and extent of linear time-invariant control? | Q48860298 | ||
| Intermittent control: a computational theory of human control. | Q50687767 | ||
| Refractoriness in sustained visuo-manual control: is the refractory duration intrinsic or does it depend on external system properties? | Q30459305 | ||
| Balancing with vibration: a prelude for "drift and act" balance control | Q33511441 | ||
| Optimal feedback control as a theory of motor coordination | Q34156556 | ||
| Sampling or intermittency in hand control system dynamics | Q34354497 | ||
| Identification of intermittent control in man and machine | Q36119241 | ||
| A model of postural control in quiet standing: robust compensation of delay-induced instability using intermittent activation of feedback control | Q37248398 | ||
| Open questions in computational motor control | Q37940909 | ||
| The delayed and noisy nervous system: implications for neural control | Q37953347 | ||
| Modelling human balance using switched systems with linear feedback control. | Q39932659 | ||
| Compensating time delays with neural predictions: are predictions sensory or motor? | Q40002466 | ||
| Predictive feedback in human simulated pendulum balancing. | Q46181120 | ||
| Frequency-domain identification of the human controller | Q47382357 | ||
| P433 | issue | 6 | |
| P6104 | maintained by WikiProject | WikiProject Mathematics | Q8487137 |
| P304 | page(s) | 637-652 | |
| P577 | publication date | 2013-08-13 | |
| P1433 | published in | Biological Cybernetics | Q15766256 |
| P1476 | title | Human stick balancing: an intermittent control explanation | |
| P478 | volume | 107 |
| Q30782951 | Control at stability's edge minimizes energetic costs: expert stick balancing. |
| Q50629833 | Perceptual and motor learning underlies human stick-balancing skill. |
| Q39051396 | Predictability and Robustness in the Manipulation of Dynamically Complex Objects |
| Q52317829 | Predictability, Force and (Anti-)Resonance in Complex Object Control. |
| Q34394563 | Rhythmic manipulation of objects with complex dynamics: predictability over chaos |
| Q49908688 | Sustained sensorimotor control as intermittent decisions about prediction errors: computational framework and application to ground vehicle steering |
| Q55241467 | Switching in Feedforward Control of Grip Force During Tool-Mediated Interaction With Elastic Force Fields. |
Search more.