Stabilization of an end of an extended-reach apparatus in a limited-access space

The invention claimed is: 1. An extended-reach assembly comprising: an articulated arm comprising a first arm segment, a second arm segment pivotably coupled to said first arm segment by means of a first multi-axis pivotable coupling having at least two degrees of rotational freedom, and a third arm segment pivotably coupled to said second arm segment by means of a second multi-axis pivotable coupling having at least two degrees of rotational freedom; an end effector pivotably coupled to a distal end of said third arm segment by means of a third multi-axis pivotable coupling having at least two degrees of rotational freedom; and a plurality of extendible stabilizing finger assemblies mounted to said third arm segment, wherein each of said stabilizing finger assemblies can be actuated to transform from a first configuration, in which a portion of said stabilizing finger assembly is a first radial distance from said third arm segment, into a second configuration, in which said portion of said stabilizing finger assembly is a second radial distance from said third arm segment, said second radial distance being greater than said first radial distance. 2. The extended-reach assembly as recited in claim 1 , further comprising a pressure switch arranged to measure an external pressure exerted on one of said stabilizing finger assemblies during actuation and configured to issue an output signal in response to the measured external pressure equaling or exceeding a preset threshold. 3. The extended-reach assembly as recited in claim 1 , wherein each of said stabilizing finger assemblies comprises a link assembly and a contact pad supported by said link assembly, wherein said link assembly comprises first and second links which are pivotably coupled to each other. 4. The extended-reach assembly as recited in claim 3 , wherein said contact pad is pivotably coupled to said link assembly. 5. The extended-reach assembly as recited in claim 3 , further comprising: a support block affixed to said third arm segment, said first link having one end which is pivotably coupled to said support block; a carriage which is translatable along said third arm segment and comprises a nut, said second link having one end which is pivotably coupled to said carriage; and a lead screw rotatably coupled to said support block and threadably coupled to said nut, wherein said contact pad is movable from a first position at said first distance to a second position at said second distance in response to rotation of said lead screw in one direction, and is movable from said second position to said first position in response to rotation of said lead screw in a direction opposite to said one direction. 6. The extended-reach assembly as recited in claim 1 , further comprising a camera mounted to said arm to provide situational awareness of a space in which said end effector is located. 7. The extended-reach assembly as recited in claim 1 , further comprising a tool attached to said end effector. 8. The extended-reach assembly as recited in claim 7 , wherein said tool comprises a non-destructive inspection unit. 9. The extended-reach assembly as recited in claim 7 , wherein said tool comprises an automated tool for performing a maintenance function other than non-destructive inspection. 10. A system comprising: a hollow structure containing a limited-access space and having an opening; an extended-reach tool assembly that extends through said opening and into said limited-access space, wherein said extended-reach tool assembly comprises: an articulated arm comprising a first arm segment, a second arm segment pivotably coupled to said first arm segment by means of a first multi-axis pivotable coupling having at least two degrees of rotational freedom, and a third arm segment pivotably coupled to said second arm segment by means of a second multi-axis pivotable coupling having at least two degrees of rotational freedom, said third arm segment comprising a distal portion disposed in said limited-access space; an end effector coupled to said distal portion of said arm and disposed in said limited-access space; and a plurality of stabilizing finger assemblies mounted to said distal portion of said third arm segment, disposed in said limited-access space and actuatable for stabilizing said distal portion of said third arm segment by contact with said hollow structure in a plurality of contact areas. 11. The system as recited in claim 10 , wherein each stabilizing finger assembly comprises a respective link assembly and a respective contact pad supported by said respective link assembly, wherein said respective link assembly comprises respective first and second links which are pivotably coupled to each other. 12. The system as recited in claim 11 , wherein said respective contact pad is pivotably coupled to said respective link assembly. 13. The system as recited in claim 10 , wherein said extended-reach tool assembly further comprises a camera mounted to said distal portion of said third arm segment to provide situational awareness of a portion of said limited-access space in which said detachable tool is located. 14. The system as recited in claim 10 , wherein said detachable tool comprises a non-destructive inspection unit. 15. The system as recited in claim 10 , wherein said detachable tool comprises a tool for performing a maintenance function other than non-destructive inspection. 16. A method for performing a maintenance function in a limited-access space of a hollow structure using an extended-reach tool assembly comprising an articulated arm comprising a first arm segment, a second arm segment pivotably coupled to said first arm segment by means of a first multi-axis pivotable coupling having at least two degrees of rotational freedom, and a third arm segment pivotably coupled to said second arm segment by means of a second multi-axis pivotable coupling having at least two degrees of rotational freedom, said third arm segment comprising a distal portion, an end effector coupled to the distal portion of said third arm segment, and a plurality of stabilizing finger assemblies mounted to the distal portion of said third arm segment, comprising: (a) inserting the distal portion of said third arm segment through an opening in the hollow structure until the end effector and the plurality of stabilizing finger assemblies of the extended-reach tool assembly are located in the limited-access space; (b) actuating the plurality of stabilizing finger assemblies of the extended-reach tool assembly to cause the stabilizing finger assemblies to move into contact with an internal surface of the hollow structure in respective contact areas; and (c) actuating the end effector to move to a target location while the portion of the extended-reach tool assembly is stable. 17. The method as recited in claim 16 , further comprising actuating a tool mounted to the end effector while the portion of the extended-reach tool assembly is stable and the end effector is at the target location. 18. The method as recited in claim 16 , wherein operations (b) and (c) are initiated remotely by an operator interacting with a user interface located outside the hollow structure. 19. The method as recited in claim 16 , wherein the stabilizing finger assemblies extend in response to operation (b).