Abstract: A decoy comprising a decoy body having an upper portion shaped to resemble water fowl and a lower portion extending downward from the upper portion; the decoy body including an outer wall defining a cavity therein, wherein the decoy body is constructed of a collapsible shape memory polymer material having an initial volume that collapses under a compressive force to form a second volume that is less than the initial volume, and wherein upon release of the compressive force, the decoy body returns to the initial volume; the lower portion of the decoy body includes an integral keel having a greater thickness than the wall to form a concentrated mass in the lower portion.

Abstract: Enhanced network power factor corrective designs are presented that can use corrective devices that achieve long-term, operationally stable mechanical work. Embodiments can utilize reverse-winding induction motor designs with engineerable parameters and configurations for the reverse winding (13) in systems and through methods where an inductive motor (1) can present a current that leads voltage and a leading power factor (16) to correct other existing induction motors (8) in an initial network (9) or be optimized for a particular application. Designs also present a power factor correction that can present a variable correction without altering the character or physical capacitive value of an electrical correction component. Individual induction motors that have leading current and a leading power factor (16) can be provided to improve reverse winding induction motors.

Abstract: Enhanced network power factor corrective designs are presented that can use corrective devices that achieve long-term, operationally stable mechanical work. Embodiments can utilize reverse-winding induction motor designs with engineerable parameters and configurations for the reverse winding (13) in systems and through methods where an inductive motor (1) can present a current that leads voltage and a leading power factor (16) to correct other existing induction motors (8) in an initial network (9) or be optimized for a particular application. Designs also present a power factor correction that can present a variable correction without altering the character or physical capacitive value of an electrical correction component. Individual induction motors that have leading current and a leading power factor (16) can be provided to improve reverse winding induction motors.