Fabrication of composite parts by additive manufacturing and microstructure topology optimization

What is claimed is: 1. A method for manufacturing an object using an additive manufacturing process, comprising the steps of: providing loose raw material to a fabrication bed; providing loose reinforcing material to the fabrication bed having a random distribution; capturing an image of the raw material and the reinforcement material; processing the image to identify an arrangement of the reinforcement material in the fabrication bed; dynamically determining a toolpath based upon the arrangement of the identified reinforcement material; and operating a tool to activate the raw material along the determined toolpath in a layer of the object being manufactured. 2. The method of claim 1 , wherein the step of dynamically determining the toolpath based on the arrangement of the identified reinforcement material comprises: identifying a portion of raw material to be activated to structurally incorporate at least a portion of the loose reinforcement material into the layer of the object being manufactured. 3. The method of claim 2 , wherein the step of dynamically determining the toolpath further comprises identifying another portion of raw material that is not activated to define a void, and the step of operating the tool further comprises controlling the tool to activate the raw material in the layer of the object being manufactured so as to bound the void. 4. The method of claim 1 , wherein the step of dynamically determining the toolpath based on the arrangement of the identified reinforcement material comprises: identifying an individual piece of reinforcement material which resides between boundary walls of the object being manufactured; defining a rib as a portion of raw material to be activated so as to structurally incorporate the individual piece of reinforcement material; wherein the rib extends between at least one of the boundary wall and a portion of the individual piece of reinforcement material. 5. The method of claim 1 , wherein the step of providing reinforcing material to a fabrication bed includes providing a first and a second reinforcing material. 6. The method of claim 5 , wherein one of the first and second reinforcing materials is a bead and the other of the first and second reinforcing material is a fiber. 7. The method of claim 1 , wherein the step of determining the toolpath based on the arrangement of the identified reinforcement material comprises reducing the weight of the object being manufactured by reducing the total amount of raw material that is activated by the tool. 8. The method of claim 1 , wherein the step of determining the toolpath based on the arrangement of the identified reinforcement material comprises minimizing a maximum stress under a given load of the object being manufactured. 9. The method of claim 1 , wherein the step of determining the toolpath based on the arrangement of the identified reinforcement material comprises reducing the weight of the manufactured object and minimizing a maximum stress under a given load of the object being manufactured. 10. A system for manufacturing an object from a raw material and a reinforcement material using an additive manufacturing process, comprising: a fabrication chamber; a raw material reservoir configured to dispense the raw material; a reinforcement material reservoir configured to dispense the reinforcement material; a fabrication bed supported by fabrication chamber, the fabrication bed having a portion of the raw material depositable thereon from the raw material reservoir as a layer and a portion of the reinforcement material depositable thereon as part of the layer; a camera configured to capture an image of the fabrication bed; a computer having a processor and software executable by the processor, wherein the computer is configured to process the image to identify the reinforcement material within the layer of the fabrication bed, the computer further being configured to dynamically determine a toolpath based on an arrangement of the identified reinforcement material in the layer; a tool configured to activate the raw material of the fabrication bed, wherein the tool can be controlled to operate along the determined toolpath. 11. The system of claim 10 , further including another reinforcement material reservoir containing another reinforcement material, the fabrication bed further having a portion of the another reinforcement material depositable thereon as part of the layer, wherein the computer is further configured to process the image to identify the another reinforcement material and determine the toolpath based on an arrangement of both reinforcement materials within the layer.