Mount attachment for an electronic device

What is claimed is: 1. An attachment mechanism for mounting an electronic device to a surface, comprising: a mounting plate configured to attach to the surface, the mounting plate having at least one projection; and a base configured to releasably couple to the mounting plate, the base comprising: a first biasing member; a second biasing member; a first arm pivotably coupled to the base and biased toward a first direction by the first biasing member, the first arm configured to interlock with the at least one projection when the base is coupled to the mounting plate, the first arm being concealed by the base and the mounting plate when the base is coupled to the mounting plate; a second arm pivotably coupled to the base and biased toward the first arm by the second biasing member, the second arm configured to interlock with the at least one projection when the base is coupled to the mounting plate, the second arm being concealed by the base and the mounting plate when the base is coupled to the mounting plate; and a release mechanism coupled to the first arm such that actuation of the release mechanism when the base is coupled to the mounting plate in a secured engagement causes movement of the first arm in a second direction to disengage the first arm from the at least one projection to enable detachment of the base from the mounting plate. 2. The attachment mechanism of claim 1 , wherein actuation of the release mechanism when the base is coupled to the mounting plate in a secured engagement causes movement of the second arm away from the at least one projection to enable detachment of the base from the mounting plate. 3. The attachment mechanism of claim 1 , wherein the first arm is pivotable about a first axis and includes a first lever, wherein the second arm is pivotable about a second axis and includes a second lever, and wherein the release mechanism comprises a cam pivotable about a third axis, the cam being configured to apply a force on the first lever and the first lever being configured to apply a force to the second lever when the release mechanism is actuated. 4. The attachment mechanism of claim 3 , wherein the cam is coupled to a keyed opening configured to receive a tool through an external surface of the base. 5. The attachment mechanism of claim 4 , wherein the release mechanism is configured to be actuated when the tool is rotated while received within the keyed opening. 6. The attachment mechanism of claim 5 , wherein the cam is configured to pivot about the third axis as the tool is rotated while received within the keyed opening, wherein a portion of the cam is configured to push the first lever against the second lever when the cam is pivoted about the third axis to cause the first arm and the second arm to pivot away from each other. 7. The attachment mechanism of claim 1 , wherein the first biasing member is configured to apply a force to an outer side of the first arm, and wherein the first arm includes an inner side that is opposite the outer side having an engagement edge configured to contact the at least one projection when the base is coupled to the mounting plate. 8. The attachment mechanism of claim 7 , wherein the engagement edge includes a beveled or chamfered surface that is shaped and configured to translate a force impinging on the beveled or chamfered surface into a lateral force to move the first arm in the second direction. 9. The attachment mechanism of claim of claim 8 , wherein the at least one projection includes a beveled or radiused surface which is configured to contact the beveled or chamfered surface of the engagement edge when the base is being coupled to the mounting plate. 10. The attachment mechanism of claim 7 , wherein the at least one projection defines a groove, and wherein the engagement edge is received within the groove when the base is coupled to the mounting plate. 11. The attachment mechanism of claim 10 , wherein the release mechanism is configured to cause the engagement edge to separate from the groove when the release mechanism is actuated. 12. The attachment mechanism of claim 7 , wherein the inner side of the first arm includes a concavely curved portion which at least partially defines an opening for receiving the at least one projection. 13. The attachment mechanism of claim 12 , wherein the at least one projection comprises a wall on the mounting plate having a convexly curved exterior contour, and wherein the concavely curved portion of the first arm is shaped to at least partially fit around and abut against the convexly curved exterior contour. 14. The attachment mechanism of claim 13 , wherein the mounting plate includes a cable opening sized to receive one or more electronic cables, and wherein the wall is positioned at least partially around the cable opening. 15. The attachment mechanism of claim 1 , wherein the mounting plate includes one or more keyed features which are configured to mate with one or more corresponding features on the base when the base is coupled to the mounting plate. 16. The attachment mechanism of claim 15 , wherein the one or more keyed features are configured to prevent the base from coupling with the mounting plate if the base is not in one of one or more predetermined orientations with respect to the mounting plate. 17. The attachment mechanism of claim 16 , wherein when the base is in one of the one or more predetermined orientations with respect to the mounting plate, the base is configured to be coupled to the mounting plate through a linear movement of the base toward the mounting plate in a direction that is substantially perpendicular to the surface. 18. A camera for mounting onto a surface comprising: a head portion having a housing containing a camera module; a mounting plate configured to attach to the surface, the mounting plate having at least one projection; and a base connected to the head portion and configured to releasably couple to the mounting plate, the base comprising: a first biasing member; a second biasing member; a first arm pivotably coupled to the base and biased toward a first direction by the first biasing member, the first arm configured to interlock with the at least one projection when the base is coupled to the mounting plate, the first arm being concealed by the base and the mounting plate when the base is coupled to the mounting plate; a second arm pivotably coupled to the base and biased toward the first arm by the second biasing member, the second arm configured to interlock with the least one projection when the base is coupled to the mounting plate, the second arm being concealed by the base and the mounting plate when the base is coupled to the mounting plate; and a release mechanism coupled to the first arm such that actuation of the release mechanism when the base is coupled to the mounting plate in a secured engagement causes movement of the first arm in a second direction to disengage the first arm from the at least one projection to enable detachment of the base from the mounting plate. 19. The camera of claim 18 , further comprising a hinge assembly connecting the head portion to the base, the hinge assembly configured to allow the head portion to move relative to the base in at least two degrees of freedom. 20. An attachment mechanism for mounting an electronic device to a surface, comprising: a mounting plate configured to attach to the surface, the mounting plate having at least one projection; and a base configured to releasably couple to the mounting pl