Method and system for fabricating a porous structure based on extrusion-based additive manufacturing, and porous structure thereof

1 . A method of fabricating a porous structure based on extrusion-based additive manufacturing using at least one processor, the method comprising: controlling a print head of an extruder to move along a print path for extruding a material along the print path on a print bed for fabricating the porous structure; and controlling an extrusion flow rate of the extruder, while the print head is being controlled to move along the print path for extruding the material, for forming a plurality of pores of the porous structure, wherein for each pore of the plurality of pores, said controlling the extrusion flow rate comprises adjusting the extrusion flow rate with respect to a first section of the print path to form a first extruded material portion along the first section of the print path and adjusting the extrusion flow rate with respect to a second section of the print path to form a second extruded material portion along the second section of the print path, the second extruded material portion formed being adjacent to and opposing the first extruded material portion formed, such that a space is formed therebetween constituting the pore. 2 . The method according to claim 1 , wherein said adjusting the extrusion flow rate with respect to the first section of the print path comprises decreasing the extrusion flow rate with respect to the first section of the print path, and said adjusting the extrusion flow rate with respect to the second section of the print path comprises decreasing the extrusion flow rate with respect to the second section of the print path. 3 . The method according to claim 2 , wherein said decreasing the extrusion flow rate with respect to the first section of the print path forms the first extruded material portion along the first section of the print path having a thickness less than an extruded material portion formed along the print path immediately prior to and/or after the first extruded material portion, and said decreasing the extrusion flow rate with respect to the second section of the print path forms the second extruded material portion along the second section of the print path having a thickness less than an extruded material portion formed along the print path immediately prior to and/or after the second extruded material portion. 4 . The method according to claim 2 , wherein said decreasing the extrusion flow rate with respect to the first section of the print path and said decreasing the extrusion flow rate with respect to the second section of the print path are each performed based on a function having an output corresponding the extrusion flow rate. 5 . The method according to claim 4 , wherein said decreasing the extrusion flow rate with respect to the first section of the print path comprises setting the extrusion flow rate with respect to a first plurality of positions along the first section of the print path based on a first plurality of outputs of the function with respect to the first plurality of positions, respectively, and said decreasing the extrusion flow rate with respect to the second section of the print path comprises setting the extrusion flow rate with respect to a second plurality of positions along the second section of the print path based on a second plurality of outputs of the function with respect to the second plurality of positions, respectively. 6 . The method according to claim 5 , wherein the function is a polynomial function, and the method further comprises controlling a profile shape of the pore formed based on a first input parameter for configuring a degree of the polynomial function. 7 . (canceled) 8 . The method according to claim 6 , further comprising configuring the polynomial function based on a second input parameter for setting a maximum extrusion flow rate and a third input parameter for setting a minimum extrusion flow rate. 9 . The method according to claim 5 , wherein said controlling the extrusion flow rate of the extruder comprises controlling a feed rate of the extruder for feeding a filament of the material to the print head, and said setting the extrusion flow rate with respect to the first plurality of positions comprises setting the feed rate with respect to the first plurality of positions along the first section of the print path based on the first plurality of outputs of the function with respect to the first plurality of positions, respectively, and said setting the extrusion flow rate with respect to the second plurality of positions comprises setting the feed rate with respect to the second plurality of positions along the second section of the print path based on the second plurality of outputs of the function with respect to the second plurality of positions, respectively. 10 . The method according to claim 9 , further comprising: for each of the first plurality of positions along the first section of the print path, controlling a print speed of the print head with respect to the position so as to have an inverse relationship to the feed rate set with respect to the position; and for each of the second plurality of positions along the second section of the print path, controlling the print speed of the print head with respect to the position so as to have the inverse relationship to the feed rate set with respect to the position. 11 . The method according to claim 1 , wherein the plurality of pores is arranged to form one or more mechanical property varied portions of the porous structure, each mechanical property varied portion being configured to facilitate bending or fracturing thereat. 12 . (canceled) 13 . (canceled) 14 . (canceled) 15 . A system for fabricating a porous structure based on extrusion-based additive manufacturing, the system comprising: at least one memory; and at least one processor communicatively coupled to the at least one memory and configured to: control a print head of an extruder to move along a print path for extruding a material along the print path on a print bed for fabricating the porous structure; and control an extrusion flow rate of the extruder, while the print head is being controlled to move along the print path for extruding the material, for forming a plurality of pores of the porous structure, wherein for each pore of the plurality of pores, said control the extrusion flow rate comprises adjusting the extrusion flow rate with respect to a first section of the print path to form a first extruded material portion along the first section of the print path and adjusting the extrusion flow rate with respect to a second section of the print path to form a second extruded material portion along the second section of the print path, the second extruded material portion formed being adjacent to and opposing the first extruded material portion formed, such that a space is formed therebetween constituting the pore. 16 . The system according to claim 15 , wherein said adjusting the extrusion flow rate with respect to the first section of the print path comprises decreasing the extrusion flow rate with respect to the first section of the print path, and said adjusting the extrusion flow rate with respect to the second section of the print path comprises decreasing the extrusion flow rate with respect to the second section of the print path. 17 . The system according to claim 16 , wherein said decreasing the extrusion flow rate with respect to the first section of the print path forms the first extruded material portion along the first section of the print path having a thickness less than an extruded material portion fo