Configuration and transfer of image data using a mobile device

What is claimed is: 1. A processing server, comprising: a network interface; a processor; a memory storing executable instructions that, when executed by the processor, cause the processing server to: determine one or more image instructions, each image instruction indicating one or more particular sections of a vehicle of which at least one image should be captured; transmit, via the network interface, the one or more image instructions to a mobile device; receive, via the network interface, one or more first images from the mobile device corresponding to the one or more particular sections of the vehicle; determine a minimum criteria associated with images received via the network interface; analyze the one or more first images; based on a determination that at least one first image of the one or more first images does not meet the determined minimum criteria, transmit, via the network interface, a request for one or more additional images; receive, via the network interface, one or more second images from the mobile device corresponding to the request for one or more additional images; analyze the one or more second images; based on a determination that one or more third images from the one or more first images and/or the one or more second images meet the determined minimum criteria, generate, via edge detection logic of the processing server, one or more edge-enhanced images corresponding to the one or more third images; receive, via a database, one or more reference images corresponding to the one or more third images; identify one or more characteristics of the one or more edge-enhanced images indicative of damage to the vehicle; determine, by comparing the one or more edge-enhanced images to the one or more reference images, image data corresponding to a damaged area of the vehicle; extract, via the processing server, the image data corresponding to the damaged area of the vehicle; based on the one or more characteristics and the image data, generate a response; and transmit, via the network interface, the response to the mobile device. 2. The processing server of claim 1 , wherein when the processing server is unable to identify the one or more characteristics indicative of damage in a particular edge-enhanced image, the executable instructions that cause the processing server to transmit the response to the mobile device cause the processing server to: transmit a response to the mobile device indicating another image of a particular section of the vehicle corresponding to the particular edge-enhanced image should be captured. 3. The processing server of claim 1 , wherein the response comprises a damage estimate. 4. The processing server of claim 3 , wherein the memory stores additional executable instructions that further cause the processing server to: generate the damage estimate based at least in part on the one or more characteristics identified in the one or more edge-enhanced images, the image data, and the one or more reference images stored in the database. 5. The processing server of claim 3 , further comprising a damage template database, the damage estimate being generated in part based on the one or more characteristics and at least one damage template in the damage template database. 6. The processing server of claim 1 , wherein the response comprises an acceptability of at least one of the one or more first images. 7. The processing server of claim 1 , wherein identifying the one or more characteristics comprises determining whether the one or more edge-enhanced images meets a predefined set of criteria. 8. The processing server of claim 7 , wherein the predefined set of criteria includes a criterion related to blurriness. 9. A method comprising: determining, by a processing server, one or more image instructions, each image instruction indicating one or more particular sections of a vehicle of which at least one image should be captured; transmitting, via a network interface of the processing server, the one or more image instructions to a mobile device; receiving, via the network interface of the processing server, one or more first images from the mobile device corresponding to the one or more particular sections of the vehicle; determining, by the processing server, a minimum criteria associated with images received via the network interface of the processing server; analyzing, by the processing server, the one or more first images; based on a determination that at least one first image of the one or more first images does not meet the determined minimum criteria, transmitting, via the network interface of the processing server, a request for one or more additional images; receiving, via the network interface of the processing server, one or more second images from the mobile device corresponding to the request for one or more additional images; analyzing, by the processing server, the one or more second images; based on a determination that one or more third images from the one or more first images and/or the one or more second images meet the determined minimum criteria, generating, via edge detection logic of the processing server, one or more edge-enhanced images corresponding to the one or more third images; receiving, via a database, one or more reference images corresponding to the one or more third images; identifying one or more characteristics of the one or more edge-enhanced images indicative of damage to the vehicle; determining, by comparing the one or more edge-enhanced images to the one or more reference images, image data corresponding to a damaged area of the vehicle; extracting, via the processing server, the image data corresponding to the damaged area of the vehicle; based on the one or more characteristics and the image data, generating a response; and transmitting, via the network interface, the response to the mobile device. 10. The method of claim 9 , wherein the response is selected from a group consisting of an additional image instruction indicating a type of image to re-capture, a damage estimate, and an acceptability of at least one of the one or more first images. 11. The method of claim 10 , wherein the method further comprises, generating, by the processing server, the damage estimate based at least in part on the one or more characteristics identified in the one or more edge-enhanced images, the image data, and the one or more reference images stored in the database. 12. The method of claim 10 , further comprising a damage template database, the damage estimate being generated in part based on the one or more characteristics and at least one damage template in the damage template database. 13. The method of claim 9 , wherein identifying the one or more characteristics comprises determining whether the one or more edge-enhanced images meets a predefined set of criteria. 14. The method of claim 13 , wherein the predefined set of criteria includes a criterion related to blurriness. 15. One or more non-transitory computer-readable media storing computer-executable instructions that, when executed by a processor of a computing device, cause the computing device to: determine one or more image instructions, each image instruction indicating one or more particular sections of a vehicle of which at least one image should be captured; transmit, via a network interface, the one or more image instructions to a mobile device; receive, via the network interface, one or more first images from the mobile device corresponding to the one or more particular sections of the vehicle; determine a minimum criteria associated with