Development of the descriptive binary model and its application for identification of clumps of toxic cyanobacteria

“…Paper [9] report results that demonstrate a possibility to highlight, based on the remotely determined colorimetric attributes, the areas in an ocean with a different character of bioproduction processes related to the functions and forms of carbon compounds. Work [10] proposed a new mathematical model for detection of accumulations of toxic cyanobacteriaa descriptive binary model (DBM). Even though a given model is designed for describing dynamic systems whose components are measured at the simplest scale, dichotomous, it has several important advantages.…”

“…The model makes it possible, based on the observations, which lost a temporal arrangement, to restore that order, and to describe the relationships among components that generate the dynamics of the system. Applied to the task on detecting CTC, a given model, as shown in [10], identifies a cluster based on a digital image taken under conditions of poor visibility. However, the structure of the cluster, which reflects the dynamics of bioproduction processes, cannot be identified.…”

Development of a spatial­dynamical model of the structure of clumps of toxic cyanobacteria for biosafty purposes

“…Paper [9] report results that demonstrate a possibility to highlight, based on the remotely determined colorimetric attributes, the areas in an ocean with a different character of bioproduction processes related to the functions and forms of carbon compounds. Work [10] proposed a new mathematical model for detection of accumulations of toxic cyanobacteriaa descriptive binary model (DBM). Even though a given model is designed for describing dynamic systems whose components are measured at the simplest scale, dichotomous, it has several important advantages.…”

“…The model makes it possible, based on the observations, which lost a temporal arrangement, to restore that order, and to describe the relationships among components that generate the dynamics of the system. Applied to the task on detecting CTC, a given model, as shown in [10], identifies a cluster based on a digital image taken under conditions of poor visibility. However, the structure of the cluster, which reflects the dynamics of bioproduction processes, cannot be identified.…”

Development of a spatial­dynamical model of the structure of clumps of toxic cyanobacteria for biosafty purposes

“…Computer processing can be implemented using a new class of mathematical models, known as discrete models of dynamic systems (DMDS) [6]. DMDS allow formalized description of various aspects of behavior of biological systems of various nature [7], including the structure and dynamics of colorometric parameters of plant communities [8]. Research [9] proposed interpretation of DMDS as a tool of the formalized description of diverse strategies of functioning of biological systems of various nature.…”

Mathematical modeling of systemic colorometric parameters unmasking wild waterfowl

Geospatial Modeling of Radon-Prone Areas