대표
청구항
▼
1. A system, comprising: a detonation component configured to cause an ordnance to detonate;an image acquisition component configured to cause a capture of a plurality of images; anda radio frequency identification component configured to: identify a radio frequency identifier information set;evaluate the radio frequency identifier information set to produce an evaluation result; andmake a determination on if the ordnance should detonate based, at least in part, on the evaluation result, where the detonation component causes the ordnance to detonate in r...
1. A system, comprising: a detonation component configured to cause an ordnance to detonate;an image acquisition component configured to cause a capture of a plurality of images; anda radio frequency identification component configured to: identify a radio frequency identifier information set;evaluate the radio frequency identifier information set to produce an evaluation result; andmake a determination on if the ordnance should detonate based, at least in part, on the evaluation result, where the detonation component causes the ordnance to detonate in response to the determination being that the ordnance should detonate,where the radio frequency identification component is configured to prevent the detonation component from causing the ordnance to detonate when a detonation instruction is identified for the ordnance and when the determination is that the ordnance should not detonate. 2. The system of claim 1, where a housing retains the ordnance, where the plurality of images are sent from the housing to the handheld device by way of the physical link, and where individual images of the plurality of images are visual images. 3. The system of claim 2, comprising: a sensor component configured to obtain a contextual information set, where the housing retains the sensor component and where the contextual information set is information about surroundings of the housing after deployment; anda sensor analysis component configured to analyze the contextual information set to produce a sensor analysis result;a setting selection component configured make a selection of a setting set for the image acquisition component, where the selection of the setting set is based, at least in part, on the sensor analysis result; andan implementation component configured to cause the capture of the plurality of images to occur in accordance with the setting set. 4. The system of claim 1, comprising: an obtainment component configured to obtain an operator instruction from the handheld device by way of the physical link;an evaluation component configured to perform an evaluation of the operator instruction; andan instruction component configured to make a determination on if the operator instruction is to cause the ordnance to detonate, where the determination is based, at least in part, on a result of the evaluation, where the detonation component is configured to cause the ordnance to detonate in response to the determination being that the operator instruction is to cause the ordnance to detonate, where a housing retains the obtainment component, where the housing retains the evaluation component, and where the housing retains the instruction component. 5. The system of claim 2, where the plurality of images cover an area of about 360 degrees around the housing, where the handheld device is configured to perform an image stitch of the plurality of images to create a composite image and where the composite image covers the area of about 360 degrees around the housing. 6. The system of claim 1, where the plurality of images are captured by use of a light illumination and where the light illumination is of a level sufficient to cause at least partial visual impairment to a person. 7. The system of claim 1, where the radio frequency identifier information set is that a person without an authorized radio frequency identification tag is handling the ordnance and where the determination is that the ordnance should detonate because the person without the authorized radio frequency identification tag is handling the ordnance. 8. The system of claim 1, comprising: a creation component configured create a composite image, where a housing retains the creation component, where the housing retains the detonation component, where the housing retains the image acquisition component, where the creation component employs an algorithm to create the composite image, where the algorithm is configured to manipulate at least one individual image of the plurality of images to produce a manipulated image set, and where the creation component creates the composite image by combining individual images of the manipulated image set. 9. The system of claim 1, comprising: a gyroscopic component configured to stabilize a housing while a camera captures the plurality of images, where the housing retains the gyroscopic component, where the housing retains the camera, where the housing is a handheld housing, and where the image acquisition component causes the camera to capture the plurality of images. 10. The system of claim 1, comprising: a self-correction component, where a housing retains the self-correction component, the detonation component, the image acquisition component, and the radio frequency identification component, the self-correction component is configured to: make a determination that the housing is in a non-desired position; andcause a movement of the housing to a desired position when the determination is that the housing is in the non-desired position,where the image acquisition component functions, at least in part, after the movement of the housing to the desired position. 11. The system of claim 10, where the movement of the housing comprises a movement of the housing itself. 12. The system of claim 10, where the movement of the housing comprises a movement of a camera retained in the housing. 13. The system of claim 1, comprising: a selection component configured to select a camera for use capture of the plurality of images,where selection is made from a first camera, a second camera, or a combination thereof,where the first camera and the second camera are different camera types,where the housing retains the first camera,where the housing retains the second camera, andwhere the image acquisition component captures the plurality of images, at least in part, through use of the camera that is selected. 14. The system of claim 1, where the detonation component, the image acquisition component, and the radio frequency identification component, and the ordnance are retained in a housing. 15. The system of claim 1, where the detonation instruction is provided from a user by way of the handheld device. 16. A handheld device, comprising: a display configured to display a compound image, where the compound image is an image stitched from a plurality of images, where the compound image is of a higher resolution level then a resolution level of individual images of the plurality of images and where the plurality of images are obtained from an grenade tethered by a physical link to the handheld device;an interface configured to obtain an input and configured to present a command portion, where the command portion is configured to direct movement of the grenade;a processor; anda computer-readable medium configured to store computer-executable instructions that when executed by the processor cause the processor to perform a method, the method comprising: performing an analysis of the input;making a determination on if the input is an instruction to cause an ordnance of the grenade to detonate, where the determination is based, at least in part, on a result of the analysis; andcausing the ordnance of the grenade to detonate in response to the input being the instruction to cause the ordnance of the grenade to detonate. 17. The system of claim 16, where the movement is directed after the grenade is deployed and while the grenade is non-airborne. 18. A method, performed at least in part by a projectile with an ordnance and an image capture component, comprising: collecting an image set comprising a first image and a second image;transferring the image set to a handheld device, where an image, based at least in part on the image set that is transferred, is presented on a display of the handheld device;receiving a remote control movement command from the handheld device; andcausing movement of the projectile in accordance with the remote control movement command. 19. The method of claim 18, comprising: collecting a third image; andidentifying that the third image is not appropriate for the stitched image,where the image is a stitched image of the first image with the second image,where the third image is a replacement image for the first image,where the third image is collected before the first image, andwhere the remote control movement command is a command to move the projectile such that the first image is an improved image over the third image. 20. The method of claim 18, where transferring the image set to a handheld device occurs wirelessly.
