Particulate filter and methods for removing particulates from a particulate filter

What is claimed is: 1. A filter system, comprising: a particulate filter comprising: a porous filter substrate comprising a first surface and a second surface, wherein the porous filter substrate is configured to filter a gas flowing through the porous filter substrate in a direction from the first surface toward the second surface, and a plurality of conductors coupled to the porous filter substrate, wherein the plurality of conductors are approximately parallel to each other along the porous filter substrate, wherein the plurality of conductors are configured to generate an electric field on at least one of the first surface or the second surface of the porous filter substrate in response to a voltage signal from an input signal source; and a gas recirculation system comprising a duct having an inlet and an outlet, wherein the inlet of the duct is configured to receive, into the duct, the gas exiting the particulate filter at the second surface, wherein the outlet of the duct is configured to output the gas from the duct to the particulate filter at the first surface; and a controller in communication with the input signal source, wherein the controller is configured to: cause the input signal source to provide a first voltage signal to the plurality of conductors while the gas flows through the porous filter substrate a first time, and after the gas is recirculated by the gas recirculation system from the inlet to the outlet, cause the input signal source to provide a second voltage signal to the plurality of conductors while the gas flows through porous filter substrate a second time, wherein the first voltage signal differs from the second voltage signal such that the electric field is adjusted between the first time the gas flows through the porous filter substrate the first time and the second time the gas flows through the porous filter substrate. 2. The filter system of claim 1 , wherein the first voltage signal has a first voltage level and a first waveform, wherein the second voltage signal has a second voltage level and a second waveform, and wherein the first voltage level is different than the second voltage level. 3. The filter system of claim 1 , wherein the first voltage signal has a first voltage level and a first waveform, wherein the second voltage signal has a second voltage level and a second waveform, and wherein the first waveform is different than the second waveform. 4. The filter system of claim 1 , further comprising an actuator configured to adjust a shape of the porous filter substrate from a first shape to a second shape, wherein the controller is in communication with the actuator, and wherein the controller is configured to: cause the actuator to arrange the porous filter substrate in the first shape while the gas flows through the porous filter substrate the first time, and after the gas is recirculated by the gas recirculation system, cause the actuator to arrange the porous filter substrate in the second shape while the gas flows through porous filter substrate the second time. 5. The filter system of claim 4 , wherein the porous filter substrate has a plurality of accordion-folded pleats comprising a plurality of panels and a plurality of fold lines between respective ones of the plurality of panels, and wherein the actuator is configured to move at least one panel of the plurality of panels relative to at least another panel of the plurality of panels to adjust the shape of the porous filter substrate from the first shape to the second shape. 6. The filter system of claim 1 , wherein the gas recirculation system further comprises a damper that is actuatable between a first position and a second position, wherein, when the damper is in the first position, the damper is configured to direct the gas toward the inlet of the duct of the gas recirculation system, wherein, when the damper is in the second position, the damper is configured to allow the gas to flow away from the inlet of the duct of the gas recirculation system, wherein the controller is in communication with the damper, and wherein the controller is configured to actuate the damper from the first position to the second position after the gas flows through porous filter substrate the second time. 7. The filter system of claim 1 , wherein the gas recirculation system further comprises a first damper downstream of the inlet and a second damper upstream of the outlet, wherein the controller is in communication with the first damper and the second damper, and wherein the controller is configured to actuate the first damper and the second damper to control a flow path of the gas in the gas recirculation system. 8. The filter system of claim 7 , wherein the first damper is actuatable between a first position and a second position, wherein, when the first damper is in the first position, the first damper is configured to direct the gas from the second surface toward the inlet of the duct of the gas recirculation system, wherein, when the first damper is in the second position, the first damper is configured to allow the gas to flow away from the inlet of the duct of the gas recirculation system, wherein the second damper is actuatable between a first position and a second position, wherein, when the second damper is in the first position, the second damper is configured to direct the gas from the outlet of the duct toward the first surface of the porous filter substrate, and wherein the second damper is in the second position, the second damper is configured to allow the gas to flow past the outlet of the duct to the first surface of the porous filter substrate. 9. The filter system of claim 1 , wherein the gas recirculation system comprises a recirculation fan configured to increase a flow of the gas from the inlet to the outlet. 10. The filter system of claim 9 , wherein the recirculation fan is positioned in the duct between the inlet and the outlet. 11. The filter system of claim 1 , further comprising a particulate collection receptacle at a periphery of the porous filter substrate and configured to collect particulates removed from the porous filter substrate by the electric field. 12. A filter system, comprising: a particulate filter comprising: a porous filter substrate comprising a first surface and a second surface, wherein the porous filter substrate is configured to filter a gas flowing through the porous filter substrate in a direction from the first surface toward the second surface, and a plurality of conductors coupled to the porous filter substrate, wherein the plurality of conductors are approximately parallel to each other along the porous filter substrate, wherein the plurality of conductors are configured to generate an electric field on at least one of the first surface or the second surface of the porous filter substrate in response to a voltage signal from an input signal source; and a gas recirculation system comprising a duct having an inlet and an outlet, wherein the inlet of the duct is configured to receive, into the duct, the gas exiting the particulate filter at the second surface, wherein the outlet of the duct is configured to output the gas from the duct to the particulate filter at the first surface; an actuator configured to adjust a shape of the porous filter substrate from a first shape to a second shape; and a controller in communication with the actuator, wherein the controller is configured to: cause the actuator to arrange the porous filter substrate in the first shape while the gas flows through the porous filter substrate a first time, and after the gas is recirculated by the gas recirculation sy