Modular image capture systems

What is claimed is: 1. A system comprising: an image capture module; a connector; a mechanical stabilization system comprising gimbals that are configured to control an orientation of the image capture module relative to the connector, wherein one of the gimbals of the mechanical stabilization system is substantially flush with a surface of the connector and is movable relative to the connector; and an aerial vehicle configured to be removably attached to the image capture module by the connector, wherein the connector is keyed to a slot of the aerial vehicle and keyed to a slot of a handheld module so that the connector is removably connectable to the aerial vehicle via the slot and the handheld module via the slot. 2. The system of claim 1 , wherein the handheld module includes a battery and a display configured to display images received from the image capture module. 3. The system of claim 2 , wherein the handheld module includes a first fastening mechanism and a second fastening mechanism configured to secure the connector when the image capture module is attached to the handheld module. 4. The system of claim 2 , wherein the one of the gimbals of the mechanical stabilization system is substantially flush with a surface of the handheld module when the image capture module is attached to the handheld module. 5. The system of claim 1 , comprising: a beacon module configured to wirelessly transmit position data to the aerial vehicle to enable the aerial vehicle to follow the beacon module. 6. The system of claim 5 , wherein the aerial vehicle is configured to follow a user based on the position data from the beacon module and based on computer vision tracking of the user in images from the image capture module. 7. The system of claim 5 , comprising: a controller module configured to wirelessly communicate with the aerial vehicle to control motion of the aerial vehicle and to capture of images using the image capture module while the image capture module is attached to the aerial vehicle; and wherein the aerial vehicle is configured to communicate wirelessly with both the beacon module and the controller module. 8. The system of claim 1 , wherein the connector includes pairs of conductors respectively used to transfer power to the image capture module, bulk transfer data from the image capture module, transfer control signals to the image capture module, and transfer real-time video data from the image capture module. 9. The system of claim 1 , wherein the one of the gimbals is contained entirely within a body of the connector. 10. A method comprising: connecting an image capture module to an aerial vehicle via a connector, the image capture module including an integrated mechanical stabilization system comprising gimbals that are configured to control an orientation of the image capture module relative to the connector, wherein one of the gimbals is substantially flush with a surface of the connector; flying the aerial vehicle with the image capture module attached to the aerial vehicle and capturing a first image with the image capture module while flying; disconnecting the image capture module from the aerial vehicle; and connecting the image capture module to a handheld module via the connector, wherein the connector is keyed to a slot of the aerial vehicle and keyed to a slot of the handheld module. 11. The method of claim 10 , wherein the handheld module includes a battery and an integrated display; and the method further comprising: capturing a second image with the image capture module while the image capture module is attached to the handheld module and drawing power from the battery. 12. The method of claim 11 , comprising: transmitting the second image to the handheld module via conductors of the connector; and displaying the second image on the integrated display of the handheld module. 13. The method of claim 10 , comprising: instructing the aerial vehicle to follow a user bearing a beacon module that transmits position data to the aerial vehicle. 14. The method of claim 13 , comprising: transmitting commands via wireless communications from a controller module to the aerial vehicle to cause the aerial vehicle to follow the user bearing the beacon module; receiving image data at the controller module from the image capture module via wireless communications from the aerial vehicle; and displaying images of the user on an integrated display of the controller module. 15. The method of claim 10 , in which the integrated mechanical stabilization system includes the gimbals and motors that are controlled by proportional integral derivative controllers. 16. An image capture module comprising: an image sensor configured to capture images; a mechanical stabilization system that is integrated with the image sensor and configured to control an orientation of the image sensor with gimbals; and a connector configured to interchangeably connect the mechanical stabilization system to an aerial vehicle in a first usage scenario and to a handheld module in a second usage scenario; wherein one of the gimbals of the mechanical stabilization system extends into the connector and is substantially flush with an outer surface of the connector; and wherein the connector is keyed to a slot of the aerial vehicle and keyed to a slot of the handheld module. 17. The image capture module of claim 16 , comprising: a processing apparatus configured to track a user based on position data from a beacon module and based on computer vision tracking of the user in images from the image sensor when in the first usage scenario or in the second usage scenario. 18. The image capture module of claim 16 , wherein the connector includes a first fastening mechanism and a second fastening mechanism configured to secure the connector when the image capture module is attached to the handheld module. 19. The image capture module of claim 16 , wherein the connector includes pairs of conductors respectively used to transfer power to the image capture module, bulk transfer data from the image capture module, transfer control signals to the image capture module, and transfer real-time video data from the image capture module. 20. The image capture module of claim 16 , wherein the one of the gimbals is contained entirely within a body of the connector below a grade of the outer surface of the connector.