Modelling of innovative environment of Industrial complexes due to neural networks and genetic algorithm

One of key factors of innovative development is the availability of favorable innovative environment, ensuring the transformation of ideas and developments into market products, introduction of these products into most important branches of economics and social sphere, as well as allowing saving the unique set of scientific and engineering schools. But the key problem for implementation of effective innovations is the absence of favorable environment and innovative climate, promoting creation of innovations, ensuring the growth of global competitive ability, labor productivity and life quality of population. Thus the formation and development of innovative environment as the most important condition for implementation of effective innovations represents by itself the actual scientific task, having significant national economic meaning. There are considered the aspects of use of neural networks of attractors and genetic algorithm for the processes of industrial complexes innovative environment modelling. Key problem of implementation of effective industrial innovations is the absence of the favorable development and climate environment, stimulating the creation of innovations ensuring the growth of global competitive ability, labor efficiency and life quality of population. Thus, the managing of development environment of industrial complexes represents by itself an actual task.


Introduction
The authors adhere the view of group of researchers [1], in accordance to which it seems possible to speak about new approach, in frameworks of which it states that the institutes of regional business environment have certain energy (or energy potential).
From our point of view the submitted approach can be adjusted to problematics of this research and apply the concept of energy field not only to institutional environment, but general development environment as edges sets of development environment pyramid of industrial complexes (institutes, knowledge, culture, infrastructure, markets), considered in the first chapter of thesis research. Then it can be stated that the environment drivers set forms local energy field where innovative systems function and which affects parameters of their activity. Possibility of influence of power (energy) innovative field on innovative system is determined by the fact that the last has certain potential (charge). Energy potential of industrial complexes system isits innovative activity, need and ability to generate innovations and others. Parameters of energy charge of certain industrial complexes system are determined by the combination of determinants of its innovative potential: the availability of resources, degree of risk appetite, focusing on the approaching of results and others. But the process of innovative activity is accompanied with facing of limitations, which are imposed by the development environment, as the result of what the innovative system is influenced with certain energy affect and develops in certain direction.

Materials and methods
In terms of synergetic modelling we can speak about the fact, that in frameworks of power (energy) field it is possible the occurrence of as it is called drivers-attractors, i.e. energy space generating by drivers, which affection cumulative and complementary impels (forces) the innovative systems for choice of the certain activity direction.
In other words, driver-attractor zone represents by itself a kind of energy field (being the most active part of power (energy) field of the development environment of industrial complexes), having certain vectorial induction, affecting innovative systems with sufficient force and prevails them on functioning and developing in certain direction and values range.
Any configuration of innovative environment generates different drivers-attractors zones depends on energy field value. In most general form there can be identified positive, neutral and negative drivers-attractors zones.  Positive drivers-attractors zone is a kind of energy space, being generated by certain drivers combination of industrial complexes development environment the cumulative and complementary affect of which prevails innovative system for choice of positive direction of functioning;  Negative drivers-attractors zone prevails innovative systems for unproductive and destructive functioning directions. In this work by modelling of networks of drivers-attractors of industrial complexes development environment based on reviews of neurosimulators for PC and cluster computing [2,3] was chosen computer neurosimulator SimBrain (http://simbrain.net/index.html). The usage examples of nerusimulator SimBrain for different types of neural networks are introduced on image 1 and image 2 below.
Innovative environment levels are distinct in located in them subjects and objects of carrying out of innovative activity, localization degree and scales. Coordinated structural and functionally, they are forming based and intermediate (meso-) levels of vertical and horizontal interactions. Meso-spaces serves as intermediate layers and at the same time serve as generators of innovative environment based levels changes generators [5].
Experts BCG for purposes of structuring of terms of innovative environment have developed the innovative development pyramid, or brieflythe pyramid of innovations.
From the point of view of authors in conditions of digitization it is worthy to make actual the innovative environment pyramid BCG due to matrix of the National technological initiative (NTI)key element of National technological initiative, determining the logic of formation of interaction between all its participants [6].
In the center of focus of made actual innovative pyramid are six layers [7,8] An important indicator is degree of sustainability of pyramid which can be determined due to parameters variations indexes (institutes, knowledge, culture, technologies, infrastructure, markets) within frameworks of each innovative environment. Thus for target state of innovative environment innovative pyramid must be balanced.
The essence of innovative environment formation is the reaching of global competitive ability and outstripping development of social-economics system, maximization of labor productivity, whereof it results that cross-boarder effective interaction of business, scientificeducational community and state, development of high-technologies business based on traditional and high-technologies markets, increase of competitive ability on global market it is worthy to consider as the main aspect of goal-setting of innovative environment formation at all levels [9]. Under conditions of fourth industrial revolution the set of locomotive branches and with it connected technologies and scientific foundations is changing. Key meaning acquire technologies directed neither to production nor to distribution of goods and services but to the human self. These are biotechnologies, new medicine, robotechnics, nanotechnology, cognitive technologies, high-human technologies, new use of natural resources and line of others. All of this is much more orientated to human than technological priorities of previously structure. Nucleus of six technological structures may become NBICconvergence. Fig. 1. Kohonen Self-organizing map (in English-Self-organizing map -SOM)neural network with study without teacher, implementing the task of visualization and clustering (Source: http://simbrain.net/index.html).
Under NBIC-technologies (Nano-Bio-Info-Cogno-technologies) there are deemed breakthrough innovative technologies in the field of convergence of nanotechnology, ICT, biotechnologies and cognitive technologies. Many modern new technologies are located at joining point of group NBIC, for example, construction of cellular and tissue structures (nano+bio), new informational interfaces (info+cogno), bioinformatics (nano+info+bio).
Let us show drivers-attractors networks modelling of industrial complexes development environment in neurosimulator SimBrain at time of t = 500. On the image 3 there are positive drivers-attractors zones of industrial complexes development environment colored in red color, neutral are colored in white. It is assumed that there are no negative drivers-attractors in development environment. The energy field size of driver-attractor is set conventional quantitative and is displayed digitally in circle of attractors. The energy field size affects on intensity of coloring of attractorssince light pink till bright red. From the image 3 it is seen how changes drivers-attractors energy field, their type and form over time.
In third-dimensional phase space of smooth flow it is arose the Lorenz attractor. Lorenz differential equation system (1) [10,11,12]: Defines the three variables time change x(t), y(t) and z(t), system dynamics is defined by parametric indexes , r and b.
For creation of model we will write the Lorenz system by equations in finite decrements x, y, z after output coordinates (Ikonnikova et al, 2015): where iis number of current point: tis finite decrement in time.

Conclusion
In the frameworks of developed model there are considered general contours of methodological approach. The development logic assumes furthering development and research of quantitative and qualitative parameters of drivers-attractors zones, drivers energy efficiency of industrial complexes development environment, i.e. the level of drivers energy potential use rationality and so on. The solution of these items allows reaching new theoretical-applied level in solution of applied tasks of industrial complexes development environment managing. Thus it was implemented the modelling of process forecasting of industrial complexes development environment management. However it is worthy to be noticed that the evaluation items and risks management items connected with digital transformation require more detailed and deep researching as conducted researches have shown, at the present time there are absent methodological foundations and methodical tools of evaluation and risks management connected with transformation of industrial complexes development environment.