Improvement of the Algorithm of Determination Parameter of Photography in the Conditions of Light Sensitivity

“…The search of opportunity to fulfill Eq. ( 6) involves following hardware and algorithmic solutions: (1) constructive improvements [4,5] in using multi-camera observation devices [6] (which, however, complicate the design of observation devices); (2) a decrease in the size of an elementary receiver to the diffraction limit, so more receivers can be placed on a unit of surface matrix [7,8] (the implementation of which is technologically complicated and limited by theoretical limits of applicability); (3) consideration of the design of the real tasks of a receiver for observing objects [9] (it reduces the possibility of observing all objects in the image); (4) taking into account the spectral properties of objects of observation and using additional signs of their recognition [10,11] (during the hyper-spectral observation of an object, a large amount of information is accumulated, and its interpretation requires a high and specific operator qualifications); (5) use of regularly changing (controlled) density of elementary receiversmatrices (RCDOER-matrices) in the structure of the species tool (RCDOER-matrices is only declared, the tasks and conditions of effective work are not formulated); and (6) application of special procedures for processing observation results [12][13][14][15][16] (the possibilities of algorithmic processing are a posterior, and they are always limited to the results of apparatus observation).…”

Features of hardware implementation of quasi-continuous observation devices with discrete receivers

“…The search of opportunity to fulfill Eq. ( 6) involves following hardware and algorithmic solutions: (1) constructive improvements [4,5] in using multi-camera observation devices [6] (which, however, complicate the design of observation devices); (2) a decrease in the size of an elementary receiver to the diffraction limit, so more receivers can be placed on a unit of surface matrix [7,8] (the implementation of which is technologically complicated and limited by theoretical limits of applicability); (3) consideration of the design of the real tasks of a receiver for observing objects [9] (it reduces the possibility of observing all objects in the image); (4) taking into account the spectral properties of objects of observation and using additional signs of their recognition [10,11] (during the hyper-spectral observation of an object, a large amount of information is accumulated, and its interpretation requires a high and specific operator qualifications); (5) use of regularly changing (controlled) density of elementary receiversmatrices (RCDOER-matrices) in the structure of the species tool (RCDOER-matrices is only declared, the tasks and conditions of effective work are not formulated); and (6) application of special procedures for processing observation results [12][13][14][15][16] (the possibilities of algorithmic processing are a posterior, and they are always limited to the results of apparatus observation).…”

Features of hardware implementation of quasi-continuous observation devices with discrete receivers