Apparatus, systems, and methods for automated part installation

The invention claimed is: 1. An apparatus for placing a part, the apparatus comprising: an installation head, wherein the installation head is configured to provide multiple axes of movement of the part relative to a target such that the installation head is configured to automatically align the part with respect to the target, responsive to engagement between one or more part surfaces of the part and one or more target surfaces of the target, wherein the installation head comprises: a first mechanism configured to facilitate self-aligning movement of the installation head along a first dimension of the part, wherein the installation head is configured to self-align the part in a direction normal to at least one of the one or more target surfaces; and a second mechanism configured to self-normalize the part with respect to at least one of the one or more target surfaces when placing the part, wherein the apparatus is configured such that the second mechanism is engaged when at least one of the one or more part surfaces contacts at least one of the one or more target surfaces; and a retaining portion configured to selectively support and retain the part in association with the installation head as the part is moved from a first location towards the target, via the apparatus, wherein the first location is located apart from the target, wherein the retaining portion is configured to selectively release the part once the part is automatically aligned with and operatively at the target, via the apparatus. 2. The apparatus according to claim 1 , wherein the installation head comprises a plurality of installation heads spaced apart from one another along a length of the part, wherein the retaining portion comprises a plurality of retaining portions, each respective retaining portion of the plurality of retaining portions being configured to selectively support and retain the part in association with a respective installation head of the plurality of installation heads, and wherein each respective installation head of the plurality of installation heads is configured to move relative to and to articulate independently of other respective installation heads of the plurality of installation heads. 3. The apparatus according to claim 2 , wherein the plurality of installation heads are linked together such that the apparatus is configured to selectively move the plurality of installation heads together, relative to the part when the part is not retained by the retaining portion, and relative to the target. 4. The apparatus according to claim 1 , wherein the apparatus is configured to selectively pick up the part from the first location, via the retaining portion, and wherein the apparatus is configured to place the part at the target, such that at least one of the one or more part surfaces contacts at least one of the one or more target surfaces. 5. The apparatus according to claim 1 further comprising a locking mechanism configured to selectively and releasably lock the part into position by selectively substantially preventing self-aligning movement of the installation head, wherein the locking mechanism is configured to selectively prevent activation of the first mechanism when the locking mechanism is engaged. 6. The apparatus according to claim 1 wherein the retaining portion is supported and suspended from the installation head via the second mechanism such that the retaining portion is configured to pivot with respect to the installation head. 7. The apparatus according to claim 6 , wherein the second mechanism comprises one or more compression springs that are spaced apart relative to the retaining portion such that each respective compression spring is positioned substantially equidistantly from adjacent respective compression springs within a peripheral region of the retaining portion. 8. The apparatus according to claim 1 , wherein the apparatus is configured to apply substantially uniform downward compactive loading to the part, towards at least one of the one or more target surfaces. 9. A system for placing a part, the system comprising: an apparatus, comprising: an installation head, wherein the installation head is configured to provide multiple axes of movement of the part relative to a target such that the installation head is configured to automatically align the part with respect to the target, responsive to engagement between one or more part surfaces of the part and one or more target surfaces of the target, wherein the installation head comprises: a first mechanism configured to facilitate self-aligning movement of the installation head along a first dimension of the part, wherein the installation head is configured to self-align the part in a direction normal to at least one of the one or more target surfaces; and a second mechanism configured to self-normalize the part with respect to at least one of the one or more target surfaces when placing the part, wherein the apparatus is configured such that the second mechanism is engaged when at least one of the one or more part surfaces contacts at least one of the one or more target surfaces; and a retaining portion configured to selectively support and retain the part in association with the installation head as the part is moved from a first location towards the target, via the apparatus, wherein the first location is located apart from the target, wherein the retaining portion is configured to selectively release the part once the part is automatically aligned with and operatively at the target, via the apparatus; and the part. 10. The system according to claim 9 , wherein the part comprises a stringer for an aircraft. 11. The system according to claim 10 , further comprising the target, wherein the target comprises a mandrel for assembling an aircraft fuselage, and wherein the one or more target surfaces of the target are complementary to the one or more part surfaces of the part such that the target is configured to receive the part within a cavity defined by the one or more target surfaces. 12. A method for placing a part, the method comprising: engaging the part with a retaining portion via an installation head, wherein the engaging the part is performed while the part is located at a first location, wherein the installation head is configured to provide multiple axes of movement of the part relative to a target such that the installation head is configured to automatically align the part with respect to the target, responsive to engagement between one or more part surfaces of the part and one or more target surfaces of the target, wherein the retaining portion is configured to selectively support and retain the part in association with the installation head as the part is moved from the first location towards the target, and wherein the first location is located apart from the target; transferring the part from the first location towards the target; automatically aligning the part with the target as the part is placed with respect to the target, responsive to engagement between one or more part surfaces of the part and one or more target surfaces of the target, wherein the automatically aligning the part comprises: moving the installation head along a first dimension of the part via a first mechanism of the installation head, wherein the first mechanism is configured to facilitate self-aligning movement of the installation head along the first dimension of the part such that the installation head is configured to self-align the part in a direction normal to at least one of the one or more target surfaces; and self-normalizing the part with respect to at least one of the one or more target surfaces when placing