搜尋結果
2013年9月12日 · This paper demonstrates how a cognitive radar exploiting echoic flow can perform target interception. The “taudot” parameter and the coupling of different echoic flow fields define interception performance. The manner in which tau-dot allows a deterministic implementation of the perception-action cycle is presented.
2013年9月1日 · This paper demonstrates how a cognitive radar exploiting echoic flow can perform target interception. The “taudot” parameter and the coupling of different echoic flow fields define ...
2013年9月1日 · This paper demonstrates how a cognitive radar exploiting echoic flow can perform target interception. The “taudot” parameter and the coupling of different echoic flow fields define interception performance. The manner in which tau-dot allows a deterministic
2009年11月18日 · This work clarifies the physics of this instability in the epoch before decoupling, and emphasizes that the universe is formally unstable on scales below the horizon, even in the limit of large taudot. Analogous instabilities at yet earlier epochs are also mentioned
Abstract. Following F. Zaal and R. J. Bootsma (1995), the authors studied whether the decelerative phase of a reaching movement could be modeled as a constant tau-dot strategy resulting in a soft collision with the object.
This paper demonstrates how a cognitive radar exploiting echoic flow can perform target interception. The “taudot” parameter and the coupling of different echoic flow fields define ...
2013年11月12日 · It has been suggested that smooth decelerations can be achieved by controlling the rate of change of Tau with time, a quantity that has been termed Taudot (). It can be shown (ref. 21 and SI Appendix, Text S6) that the constant-Taudot control principle leads to
