Abstract: A system to capture a two dimensional digital source image of a scene by a user, including a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a digital image capture device in communication with the processor, said processor configured to capture a first two dimensional digital source image of the scene, said processor configured to execute an instruction to generate a second two dimensional digital image of the scene from said first two dimensional digital image of the scene via a camera angle rotation of between 1-180 degrees of said first two dimensional digital image of the scene, and a display in communication with the processor, the display configured to display a multidimensional digital image.

Abstract: A system to capture a two dimensional digital source image of a scene or event by a user, including a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a digital image capture device in communication with the processor, said processor configured to capture a first two dimensional digital source image of the scene, said processor configured to execute an instruction to generate a second two dimensional digital image of the scene from said first two dimensional digital image of the scene via a camera angle rotation of between 1-180 degrees of said first two dimensional digital image of the scene, and a display in communication with the processor, the display configured to display a multidimensional digital image, of an event.

Abstract: A system to capture a plurality of two dimensional digital source images of a scene by a user, including a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a plurality of digital image capture devices in communication with the processor and each image capture device configured to capture a digital image of the scene, the plurality of digital image capture devices positioned linearly in series within approximately an interpupillary distance, wherein a first digital image capture devices is centered proximate a first end of the interpupillary distance, a second digital image capture devices is centered on a second end of the interpupillary distance, and any remaining the plurality of digital image capture devices are evenly spaced therebetween, and a display in communication with the processor, the display configured to display a multidimensional digital image.

Abstract: A system to capture a plurality of two dimensional digital source images of a scene/event by a user, including a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a digital image capture device in communication with the processor configured to capture a digital image of the scene, the processor configured to execute an instruction to generate a plurality of two dimensional digital images of the scene from said first two dimensional digital image of the scene via a camera angle rotation of between 1-180 degrees of said first two dimensional digital image of the scene for each of said plurality of two dimensional digital image of the scene as a sequence, and a display in communication with the processor, the display configured to display a multidimensional digital image sequence of an event.

Abstract: A system to capture a plurality of two dimensional digital source images of scene by user, a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a plurality of digital image capture devices in communication with the processor and each image capture device configured to capture a digital image of the scene, the plurality of digital image capture devices positioned linearly in series within approximately an interpupillary distance, wherein a first digital image capture devices is centered proximate a first end of the interpupillary distance, a second digital image capture devices is centered on a second end of the interpupillary distance, and any remaining the plurality of digital image capture devices are evenly spaced therebetween, a display in communication with the processor, display configured to display multidimensional digital image sequence and add audio file thereto.

Abstract: A system to capture a plurality of two dimensional digital source images of a scene by a user, including a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a digital image capture device in communication with the processor configured to capture a digital image of the scene, the processor configured to execute an instruction to generate a plurality of two dimensional digital images of the scene from said first two dimensional digital image of the scene via a camera angle rotation of between 1-180 degrees of said first two dimensional digital image of the scene for each of said plurality of two dimensional digital image of the scene as a sequence, and a display in communication with the processor, the display configured to display a multidimensional digital image sequence, add audio file thereto, and create a NFT.

Abstract: A system to capture a plurality of two dimensional digital source images of a scene by a user, including a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a digital image capture device in communication with the processor configured to capture a digital image of the scene, the processor configured to execute an instruction to generate a plurality of two dimensional digital images of the scene from said first two dimensional digital image of the scene via a camera angle rotation of between 1-180 degrees of said first two dimensional digital image of the scene for each of said plurality of two dimensional digital image of the scene as a sequence, and a display in communication with the processor, the display configured to display a multidimensional digital image sequence.

Abstract: A system to capture a two dimensional digital source image of a scene by a user, including a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a digital image capture device in communication with the processor, said processor configured to capture a first two dimensional digital source image of the scene, said processor configured to execute an instruction to generate a second two dimensional digital image of the scene from said first two dimensional digital image of the scene via a camera angle rotation of between 1-180 degrees of said first two dimensional digital image of the scene, and a display in communication with the processor, the display configured to display a multidimensional digital image, add audio file thereto, and create a NFT.

Abstract: To simulate a 3D image of a subsurface below a surface, the system having a memory device for storing an instruction, a processor in communication with the memory device configured to execute the instruction, and a subsurface image capture module in communication with the processor, the subsurface image capture module having one or more wave generating device and one or more sensor affixed to a vehicle to capture a series of digital image datasets of the subsurface with a coordinate reference data, wherein the processor executes an instruction to generate a digital model of the series of digital image datasets of the subsurface while maintaining the coordinate reference data, wherein the processor executes an instruction to determine a depth map of the digital model, and wherein the processor executes an instruction to identify a key subject point in the digital model, where subsurface includes an internal biology, below ground, underwater.

Abstract: A system to capture a plurality of two dimensional digital source images of scene by user, a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a plurality of digital image capture devices in communication with the processor and each image capture device configured to capture a digital image of the scene, the plurality of digital image capture devices positioned linearly in series within approximately an interpupillary distance, wherein a first digital image capture devices is centered proximate a first end of the interpupillary distance, a second digital image capture devices is centered on a second end of the interpupillary distance, and any remaining the plurality of digital image capture devices are evenly spaced therebetween, a display in communication with the processor, display configured to display multidimensional digital image and add audio file thereto.

Abstract: To simulate a 3D image of a subsurface below a surface, the system having a memory device for storing an instruction, a processor in communication with the memory device configured to execute the instruction, and a subsurface image capture module in communication with the processor, the subsurface image capture module having one or more wave generating device and one or more sensor affixed to a vehicle to capture a series of digital image datasets of the subsurface with a coordinate reference data, wherein the processor executes an instruction to generate a digital model of the series of digital image datasets of the subsurface while maintaining the coordinate reference data, wherein the processor executes an instruction to determine a depth map of the digital model, and wherein the processor executes an instruction to identify a key subject point in the digital model, where subsurface includes an internal biology, below ground, underwater.

Abstract: A system to capture a plurality of two dimensional digital source images of a scene by a user, including a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a plurality of digital image capture devices in communication with the processor and each image capture device configured to capture a digital image of the scene, the plurality of digital image capture devices positioned linearly in series, wherein a first digital image capture devices, a second digital image capture devices, and any remaining the plurality of digital image capture devices are evenly spaced therebetween, and a display in communication with the processor, the display configured to display a multidimensional digital image sequence.

Abstract: A system to capture a plurality of two dimensional digital source images of a scene by a user, including a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a plurality of digital image capture devices in communication with the processor and each image capture device configured to capture a digital image of the scene, the plurality of digital image capture devices positioned linearly in series within approximately an interpupillary distance, wherein a first digital image capture devices is centered proximate a first end of the interpupillary distance, a second digital image capture devices is centered on a second end of the interpupillary distance, and any remaining the plurality of digital image capture devices are evenly spaced therebetween, and a display in communication with the processor, the display configured to display a multidimensional digital image.

Abstract: A system to capture a plurality of two dimensional digital source images of a scene by a user, including a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a plurality of digital image capture devices in communication with the processor and each image capture device configured to capture a digital image of the scene, the plurality of digital image capture devices positioned linearly in series within approximately an interpupillary distance, wherein a first digital image capture devices is centered proximate a first end of the interpupillary distance, a second digital image capture devices is centered on a second end of the interpupillary distance, and any remaining the plurality of digital image capture devices are evenly spaced therebetween, and a display in communication with the processor, the display configured to display a multidimensional digital image.

Abstract: A system to capture a plurality of two dimensional digital source images of a scene by a user, including a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a plurality of digital image capture devices in communication with the processor and each image capture device configured to capture a digital image of the scene, the plurality of digital image capture devices positioned linearly in series within approximately an interpupillary distance, wherein a first digital image capture devices is centered proximate a first end of the interpupillary distance, a second digital image capture devices is centered on a second end of the interpupillary distance, and any remaining the plurality of digital image capture devices are evenly spaced therebetween, and a display in communication with the processor, the display configured to display a multidimensional digital image.

Abstract: A system to capture a plurality of two dimensional digital source images of scene by user, a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a plurality of digital image capture devices in communication with the processor and each image capture device configured to capture a digital image of the scene, the plurality of digital image capture devices positioned linearly in series within approximately an interpupillary distance, wherein a first digital image capture devices is centered proximate a first end of the interpupillary distance, a second digital image capture devices is centered on a second end of the interpupillary distance, and any remaining the plurality of digital image capture devices are evenly spaced therebetween, a display in communication with the processor, display configured to display multidimensional digital image and add audio file thereto.

Abstract: A system to capture a plurality of two dimensional digital source images of scene by user, a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a plurality of digital image capture devices in communication with the processor and each image capture device configured to capture a digital image of the scene, the plurality of digital image capture devices positioned linearly in series within approximately an interpupillary distance, wherein a first digital image capture devices is centered proximate a first end of the interpupillary distance, a second digital image capture devices is centered on a second end of the interpupillary distance, and any remaining the plurality of digital image capture devices are evenly spaced therebetween, a display in communication with the processor, display configured to display multidimensional digital image sequence and add audio file thereto.

Abstract: A method for simulating a 3-D image sequence from a sequence of 2-D image frames (110), the method comprising: capturing a plurality of 2-D image frames (110) of a scene from a plurality of different observation points, wherein a first, proximal plane and a second, distal plane is identified within each image frame (110) in the sequence, and wherein each observation point maintains substantially the same first, proximal image plane for each image frame; determining a depth estimate for the first, proximal and second, distal plane within each image frame in the sequence; aligning the first, proximal plane of each image frame (110) in the sequence and shifting the second, distal plane of each subsequent image frame (110) in the sequence based on the depth estimate of the second, distal plane for each image frame (110), to produce a modified image frame corresponding to each 2-D image frame; and displaying the modified image frames sequentially.

Abstract: A system to capture a plurality of two dimensional digital source images of a scene by a user, including a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a plurality of digital image capture devices in communication with the processor and each image capture device configured to capture a digital image of the scene, the plurality of digital image capture devices positioned linearly in series, wherein a first digital image capture devices, a second digital image capture devices, and any remaining the plurality of digital image capture devices are evenly spaced therebetween, and a display in communication with the processor, the display configured to display a multidimensional digital image sequence.

Abstract: To simulate a 3D image of a subsurface below a surface, the system having a memory device for storing an instruction, a processor in communication with the memory device configured to execute the instruction, and a subsurface image capture module in communication with the processor, the subsurface image capture module having one or more wave generating device and one or more sensor affixed to a vehicle to capture a series of digital image datasets of the subsurface with a coordinate reference data, wherein the processor executes an instruction to generate a digital model of the series of digital image datasets of the subsurface while maintaining the coordinate reference data, wherein the processor executes an instruction to determine a depth map of the digital model, and wherein the processor executes an instruction to identify a key subject point in the digital model, where subsurface includes an internal biology, below ground, underwater.