Apparatus and method for splicing a web of material

What is claimed is: 1. A splicing assembly comprising: a first web support surface configured to support a traveling web having a trailing end thereon; a second web support surface configured to support a replacement web thereon; a first web end sensor; a web joiner; and a controller configured to: determine, via the first web end sensor, a position of the trailing end of the traveling web when the traveling web passes a detection point in a sensing area of the first web end sensor; in response to determining the position of the trailing end, cause a leading end of the replacement web to be positioned adjacently to the trailing end; and control the web joiner to create a joint coupling the trailing end to the leading end. 2. The splicing assembly of claim 1 , wherein the web joiner comprises a splice fastener applicator; and wherein the controller, in being configured to control the web joiner, is configured to apply a splice fastener to the trailing end and to the leading end while the traveling and replacement webs are traveling in a machine direction. 3. The splicing assembly of claim 1 , wherein the controller, in being configured to control the web joiner to create the joint, is configured to control the web joiner to create a butt joint between the trailing end and the leading end. 4. The splicing assembly of claim 1 , wherein the controller, in being configured to control the web joiner to create the joint, is configured to control the web joiner to create a lap joint between the trailing end and the leading end. 5. The splicing assembly of claim 1 , wherein the controller is further configured to: accelerate a speed of the replacement web from an initial speed to a second speed, the second speed faster than a traveling speed of the traveling web; and decelerate the second speed to a speed matching the traveling speed of the traveling web. 6. The splicing assembly of claim 1 , wherein the splice fastener comprises tape. 7. The splicing assembly of claim 1 , wherein the splice fastener applicator comprises: a wheel; a protrusion extending from the wheel; and wherein the protrusion comprises a fastener application surface configured to receive the splice fastener. 8. The splicing assembly of claim 7 , wherein the fastener application surface comprises a plurality of apertures coupled to a pressure source, wherein the pressure source is configured to create vacuum through the plurality of apertures. 9. The splicing assembly of claim 1 , wherein the first web end sensor comprises an optical camera. 10. A method for splicing a first web to a second web, the method comprising: detecting a position of a trailing edge of a traveling web traveling in a machine direction; positioning a leading edge of a supply web adjacently to the trailing edge; actuating a web joiner; and creating a joint between the trailing edge and the leading edge via the web joiner to couple the trailing edge of the traveling web to the leading edge of the supply web. 11. The method of claim 10 , wherein actuating the web joiner comprises actuating a splice fastener; and wherein creating the joint comprises actuating the splice fastener to apply a splice fastener to the trailing edge of the traveling web and the leading edge of the supply web to create a butt joint therebetween. 12. The method of claim 10 , wherein actuating the web joiner comprises actuating a bonding apparatus; wherein applying the joint comprises bonding the trailing edge of the traveling web and the leading edge of the supply web absent adhesive to create a lap joint; and wherein the trailing edge of the traveling web overlaps the leading edge of the supply web. 13. The method of claim 10 , wherein positioning the leading edge of the supply web adjacently to the trailing edge comprises accelerating the supply web from an initial speed to a second speed; and wherein the second speed is faster than a speed of the traveling web. 14. The method of claim 13 further comprising decelerating the second speed to a speed matching the speed of the traveling web. 15. A splicing system comprising: a first splicing assembly comprising: first and second support surfaces configured to support respective first and second material webs thereon; a fastener applicator configured to apply a first fastener to the first and second material webs; a second splicing assembly comprising: third and fourth support surfaces configured to support respective third and fourth material webs thereon; a fastener applicator configured to apply a second fastener to the third and fourth material webs; a web edge detection system; a receiving system configured to receive the first, second, third, and fourth material webs; and a controller configured to: determine, via the web edge detection system, a position of a trailing end of the first material web when the first material web passes a detection point in a sensing area of a first web end sensor; cause a leading end of the second material web to be positioned adjacently to the determined trailing end position of the first material web; control the fastener applicator of the first splicing assembly to couple the trailing end of the first material web to the leading end of the second material web via the first fastener; determine, via the web edge detection system, a position of a trailing end of the third material web when the third material web passes a detection point in a sensing area of a second web end sensor; cause a leading end of the fourth material web to be positioned adjacently to the determined trailing end position of the third material web; control the fastener applicator of the first splicing assembly to couple the trailing end of the third material web to the leading end of the fourth material web via the second fastener; and supply the joined first and second material webs and the joined third and fourth material webs to the receiving system. 16. The splicing system of claim 15 , wherein the receiving system comprises a fiberizer configured to fiberize the first, second, third, and fourth material webs. 17. The splicing system of claim 15 , wherein the first and second material webs comprise a pulp-based material. 18. The splicing system of claim 17 , wherein the third and fourth material webs comprise one of a eucalyptus-based material and a bamboo-based material. 19. The splicing system of claim 15 , wherein the controller is further programmed to supply the joined first and second material webs to the receiving system at a different speed than the joined third and fourth material webs. 20. The splicing system of claim 15 , wherein the first and second fasteners comprise tape.