Acoustic imaging system architecture

What is claimed is: 1. An acoustic imaging sensor, the acoustic imaging sensor comprising: a master controller; a distribution of transducers disposed to circumscribe a portion of a substrate, each transducer of the distribution of transducers operable to: operate in a drive mode in which the transducer mechanically deforms in response to a drive signal; and operate in a sense mode in which the transducer produces an electronic signal when a section of the substrate adjacent the transducer mechanically deforms as a result of a mechanical wave propagating over or through the section; a set of subgroup controllers, each communicably coupled to the master controller and conductively coupled each transducer of a respective subgroup of the distribution of transducers, each subgroup controller configured to: generate at least one drive signal to cause a mechanical wave to be generated by the respective subgroup of the distribution of transducers, the mechanical wave directed across a top surface of and/or within the substrate toward the circumscribed portion of the substrate; and communicate to the master controller an electrical signal received from at least one transducer of the respective subgroup of the distribution of transducers; and an image resolver in communication with the master controller, the image resolver configured to construct an image of at least a portion of an object engaging the top surface of the substrate based on one or more electronic signals received by the master controller. 2. The acoustic imaging sensor of claim 1 , wherein each subgroup controller of the set of subgroup controllers is disposed below the distribution of transducers. 3. The acoustic imaging sensor of claim 1 , wherein each subgroup controller of the set of subgroup controllers comprises: a drive circuit configured to generate the at least one drive signal; and a sense circuit configured to receive the electronic signal. 4. The acoustic imaging sensor of claim 3 , wherein each respective sense circuit is disposed below the distribution of transducers. 5. The acoustic imaging sensor of claim 3 , wherein each respective sense circuit is disposed adjacent to the drive circuit. 6. The acoustic imaging sensor of claim 1 , wherein each of the distribution of transducers are coupled to a bottom surface of the substrate. 7. The acoustic imaging sensor of claim 1 , wherein: the substrate is rectangular; and the distribution of transducers is arranged as a row adjacent to an upper perimeter of the circumscribed portion. 8. The acoustic imaging sensor of claim 7 , wherein the distribution of transducers is a first distribution of transducers and the acoustic imaging sensor further comprises: a second distribution of transducers, the second distribution of transducers arranged as a column adjacent to a side perimeter of the circumscribed portion. 9. The acoustic imaging sensor of claim 1 , the distribution of transducers is arranged as a row adjacent a rectilinear edge of the substrate. 10. The acoustic imaging sensor of claim 1 , the distribution of transducers is arranged as multiple parallel rows adjacent a rectilinear edge of the substrate. 11. The acoustic imaging sensor of claim 1 , wherein the substrate is formed from glass, sapphire, or metal. 12. The acoustic imaging sensor of claim 1 , wherein a transducer of the distribution of transducers is formed from a material configured to expand and contract in response to a voltage signal.