In-situ cutting on wing-to-fuselage attachment of aircraft using on-wing tool

What is claimed is: 1. An on-wing method for in-situ cutting on a wing-to-fuselage attachment of a wing and a fuselage of an aircraft, the on-wing method comprising: attaching a first mount plate to the aircraft in vicinity of the wing-to-fuselage attachment, a first linear bearing being disposed on the first mount plate to provide movement in a first linear direction with respect to the first mount plate; attaching a second mount plate to the first linear bearing to move with the first linear bearing, a second linear bearing being disposed on the second mount plate to provide movement in a second linear direction with respect to the second mount plate; attaching a tool mounting member to the second linear bearing to move with the second linear bearing; attaching a cutter to the tool mounting member to be adjustable relative to the second linear bearing; adjusting a depth position of a cut to be made on the wing-to-fuselage attachment, by adjusting one of (i) the first linear bearing in the first linear direction and (ii) the second linear bearing in the second linear direction, along a depth direction of the cut; adjusting a width position of the cut by adjustment of the cutter with respect to the second linear bearing in a width direction of the cut which is perpendicular to the depth direction; and moving the other one of (i) the first linear bearing in the first linear direction and (ii) the second linear bearing in the second linear direction, along a length direction of the cut which is perpendicular to the depth direction and the width direction, to make the cut on the wing-to-fuselage attachment along the length direction at the adjusted depth position and the adjusted width position; wherein: the cutter is attached to the tool mounting member to be adjustable, relative to the second linear bearing, in a tool mount rotational direction around an adjustment axis; the depth direction is parallel to the adjustment axis; and the width position of the cut is adjusted by a rotational adjustment of the cutter with respect to the second linear bearing in the tool mount rotational direction around the adjustment axis. 2. The on-wing method of claim 1 , wherein: attaching the tool mounting member to the second linear bearing comprises attaching a center portion to the second linear bearing to move with the second linear bearing, and rotatably attaching a first side panel to the center portion, to rotate the first side panel relative to the center portion around the adjustment axis; attaching the cutter to the tool mounting member comprises attaching the cutter to the first side panel to move with the first side panel; and adjusting the width position of the cut comprises releasably fastening the first side panel to the center portion via at least one first slot, at any first position of a plurality of first positions along the at least one first slot, the plurality of first positions being selectable along the at least one first slot by rotational adjustment of the first side panel relative to the center portion around the adjustment axis, the at least one first slot being provided in the center portion or the first side panel. 3. The on-wing method of claim 1 , wherein: attaching the tool mounting member to the second linear bearing comprises attaching a center portion to the second linear bearing to move with the second linear bearing, rotatably attaching a first side panel to a first side of the center portion, to rotate the first side panel relative to the center portion around the adjustment axis, and rotatably attaching a second side panel to a second side of the center portion, to rotate the second side panel relative to the center portion around the adjustment axis; attaching the cutter to the tool mounting member comprises: (i) for the first mount plate that is attached to a right side wing of the aircraft, attaching the cutter to the first side panel to move with the first side panel that is rotatably attached to the center portion, for cutting the wing-to-fuselage attachment located at the right side wing on an inboard side thereof, or attaching the cutter to the second side panel to move with the second side panel that is rotatably attached to the center portion, for cutting the wing-to-fuselage attachment located at the right side wing on an outboard side thereof, or (ii) for the first mount plate that is attached to a left-side wing of the aircraft, attaching the cutter to the second side panel to move with the second side panel that is rotatably attached to the center portion, for cutting the wing-to-fuselage attachment located at the left-side wing on an inboard side thereof, or attaching the cutter to the first side panel to move with the first side panel that is rotatably attached to the center portion, for cutting the wing-to-fuselage attachment located at the left-side wing on an outboard side thereof; and adjusting the width position of the cut comprises (i) for the cutter that is attached to the first side panel, releasably fastening the first side panel to the center portion via at least one first slot, at any first position of a plurality of first positions along the at least one first slot, the plurality of first positions being selectable along the at least one first slot by rotational adjustment of the first side panel relative to the center portion around the adjustment axis, the at least one first slot being provided in the center portion or the first side panel, or (ii) for the cutter that is attached to the second side panel, releasably fastening the second side panel to the center portion via at least one second slot, at any second position of a plurality of second positions along the at least one second slot, the plurality of second positions being selectable along the at least one second slot by rotational adjustment of the second side panel relative to the center portion around the adjustment axis, the at least one second slot being provided in the center portion or the second side panel. 4. The on-wing method of claim 1 , wherein attaching the cutter to the tool mounting member comprises: attaching a rotary motor to the tool mounting member to be adjustable, relative to the second linear bearing, in the tool mount rotational direction around the adjustment axis, the rotary motor providing rotational drive to a drive shaft oriented along a rotary motor axis; perpendicularly coupling an endmill shank to the drive shaft to be driven by the drive shaft, the endmill shank being oriented along a rotational cutter axis, the rotational cutter axis being oriented parallel to the adjustment axis; and attaching a cutting bit at an end of the endmill shank. 5. The on-wing method of claim 4 , wherein attaching a cutting bit includes: attaching an endmill cutting bit to the end of the endmill shank to cut an exposed area of the wing-to-fuselage attachment; and attaching an undercut cutting bit to the end of the endmill shank to cut an overlapped area of the wing-to-fuselage attachment between a trailing-edge wing attachment fitting and a fuselage attachment fitting. 6. The on-wing method of claim 1 , wherein: the wing-to-fuselage attachment includes a trailing-edge wing attachment fitting attached to a fuselage attachment fitting; and attaching the first mount plate to the aircraft comprises mounting the first mount plate, along a plurality of edges of the first mount plate, to a flange of the trailing-edge wing attachment fitting, for making the cut on the fuselage attachment fitting. 7. An on-wing method for in-situ cutting on a wing-to-fuselage attachment of a wing and a fuselage of an aircraft, the on-wing method comprising: attaching a first mount plate to the aircraft in vicinity of the wing-to-fuselage attachment, a first li