System and method of automatic feeder stack management

What is claimed is: 1. A system for managing articles in an automatic stack feeder comprising: a frame configured to support a stack of articles; a perforated drive belt assembly comprising: a drive belt having an opening therein; a first end and a second end, wherein the first end of the perforated drive belt assembly is pivotably attached to the frame and the second end of the perforated drive belt assembly is pivotable about an axis of rotation defined by the attachment of the first end of the perforated drive belt assembly, and wherein the drive belt extends rotationally about the first and second ends; and wherein the second end of the perforated drive belt pivots in response to contact with the stack of articles; a conveyor connected to the frame and configured to move the stack of articles with respect to the drive belt, the conveyor comprising a conveyor belt and a paddle, the conveyor belt and the paddle being independently moveable, and wherein the paddle is configured to provide vertical support for the stack of articles and the conveyor belt is configured to convey the stack of articles toward or away from the perforated drive belt assembly; a sensor connected to the second end of the perforated drive belt assembly, the sensor configured to detect a force exerted on a portion of the perforated drive belt assembly by the stack of articles as the stack of articles impinges on the perforated drive belt, wherein the sensor is configured to sense angular displacement of the perforated drive belt assembly relative to the frame according, at least in part, to the force exerted by the stack of articles; and a controller configured to receive an input from the sensor and to control adjustment of the position of the paddle, or to move the conveyor belt, in response to the input received from the sensor. 2. The system of claim 1 , wherein the perforated drive belt assembly comprises a vacuum unit configured to apply a vacuum through the opening in the drive belt. 3. The system of claim 1 , wherein the pivotable attachment of the perforated drive belt assembly is configured to resist movement of the perforated drive belt assembly due at least in part to the force thereon from the stack of articles. 4. A system for managing articles in an automatic stack feeder comprising: a frame configured to support a stack of articles; a perforated drive belt assembly comprising: a drive belt having an opening therein: a first end and a second end, wherein the first end of the perforated drive belt assembly is pivotably attached to the frame and the second end of the perforated drive belt assembly is pivotable about an axis of rotation defined by the attachment of the first end of the perforated drive belt assembly, and wherein the drive belt extends rotationally about the first and second ends; and wherein the second end of the perforated drive belt pivots in response to contact with the stack of articles; a conveyor connected to the frame and configured to move the stack of articles with respect to the drive belt, the conveyor comprising a conveyor belt and a paddle, the conveyor belt and the paddle being independently moveable, and wherein the paddle is configured to provide vertical support for the stack of articles and the conveyor belt is configured to convey the stack of articles toward or away from the perforated drive belt assembly; a sensor connected to the second end of the perforated drive belt assembly, the sensor configured to sense a pressure exerted on the perforated drive belt assembly by the stack of articles, and wherein the sensor senses pressure exerted on the perforated drive belt assembly due, at least in part, to the movement of the second end of the perforated drive belt assembly about the axis of rotation defined by the attachment of the first end; and a controller configured to receive an input from the sensor and to control adjustment of the position of the paddle, or to move the conveyor belt, in response to the input received from the sensor. 5. A system for managing articles in an automatic stack feeder comprising: a frame configured to support a stack of articles; a perforated drive belt assembly comprising: a drive belt having an opening therein; a first end and a second end, wherein the first end of the perforated drive belt assembly is pivotably attached to the frame and the second end of the perforated drive belt assembly is pivotable about an axis of rotation defined by the attachment of the first end of the perforated drive belt assembly, and wherein the drive belt extends rotationally about the first and second ends; and wherein the second end of the perforated drive belt pivots in response to contact with the stack of articles; a conveyor connected to the frame and configured to move the stack of articles with respect to the drive belt, the conveyor comprising a conveyor belt and a paddle, the conveyor or belt and the paddle being independently moveable, and wherein the paddle is configured to provide vertical support for the stack of articles and the conveyor belt is configured to convey the stack of articles toward or away from the perforated drive belt assembly; a sensor connected to the second end of the perforated drive belt assembly, the sensor configured to detect a force exerted on a portion of the perforated drive belt assembly by the stack of articles as the stack of articles impinges on the perforated drive belt; a controller configured to receive an input from the sensor and to control adjustment of the position of the paddle, or to move the conveyor belt, in response to the input received from the sensor; and a photoelectric sensor located so as to detect an angle of the stack of articles relative to the frame. 6. The system of 5 , wherein the controller is configured to receive an input from the photoelectric sensor. 7. A method of automatic feeder stack management comprising: operating a drive belt assembly comprising a drive belt having an opening therein, wherein an attached end of the drive belt assembly is pivotably attached to a frame, and a free end of the drive belt assembly is rotatable about an axis of rotation defined by the attached end; receiving one or more articles onto a conveyor, the conveyor comprising a conveyor belt and a paddle, the conveyor belt and the paddle being independently moveable, and wherein the paddle is configured to provide vertical support for a stack of articles and the conveyor belt is configured to convey the stack of articles toward or away from the drive belt assembly; sensing a force exerted on the free end of the drive belt assembly by the one or more articles, wherein the free end of the perforated drive belt pivots in response to contact with the stack of articles as the one or more articles impinge on the perforated drive belt, and wherein sensing a force comprises sensing an angular displacement of the free end of the perforated drive belt assembly in reference to the frame, according, at least in part, to the force exerted by the one or more articles; and controlling the position or movement of the paddle or conveyor based on the input received from the sensor, thereby controlling the position of the stack of articles. 8. The method of claim 7 , further comprising singulating an article from the one or more articles using a vacuum applied via the drive belt assembly. 9. The method of claim 7 , wherein the pivotable attachment of the perforated drive belt resists movement of the perforated drive belt assembly due, at least in part, to the force exerted thereon by the one or more articles. 10. A method of automatic feeder stack management comprising: operating a drive belt assembly comprising a drive b