Information Technology Reference
In-Depth Information
technology presents distributed data storage in a network computer system including many
services and subdivisions of farm enterprises. There is a unified system of rules, the data
representation, storage, coding, and communication in the CIMLS-technology. A main
principle of CIMLS is the fact that information generated at any stages of the life cycle is
stored in CIMLS and is made accessible to every participant of this stage and other ones in
concordance with available access permissions to these data. It enables to avoid duplication,
unauthorized data substitution, falsification, imitation, changing, and errors of the control
system, to abridge the labour, cut time and finances. Actions of government officials are
opened to public scrutiny, so there is an integrated logistic control process with the
intelligent system of decision-, provision-, decree-, law making. Information in the CIMLS-
technology is generated, transformed, encoded, stored, and transmitted using intelligent
softwares, e.g., Agro, ADAMIS, ADMOS with a “electronic description” of all the life-cycle
objects, and human embellishment or information hiding is eliminated, minimized
completely and identified [18].
We developed mathematical models of a controlled process of the complex agricultural
production for intelligent precision agriculture, but also the intelligent system “ISAG” is
developed for the control of farm enterprises. One of the important directions of precision
agriculture is the improvement of control algorithms, the use of steering functions including
the nonlinear constraint, the acceleration of a controlled variable, information about
characteristics of the controllable system, actuators, sensors, etc.
5. Conclusion
The intelligent microsensory systems presented in this chapter are intended for the recognition
of optical information patterns of a technology, a product or environment external conditions
in the space of multidimensional sensory data on the basis of the LED technology e-eye. These
ones enable to solve important practical problems in an agro-industrial complex, e.g., in
intelligent precision agriculture and for the control of the biosafety of farm products, soils,
plant, and animal foods. The developed intelligent system “ISLB” can inform users about
probable homeostatic threats and recognize timely any changes in functioning the human
organism by means of self-learning on optical data of biomatters, e.g., using systems on a chip
of the type “electronic eye”. The application of the intelligent systems developed by us in
mobile retransmitters (smartphones, watch and mobile phones, communicators, iPads, PDAs,
wristwatches, etc.) enables the fast and individual monitoring of the human biosafety, to detect
whether there is the departure from the norm and quality standards in the production process,
give other important information about the quality of the agricultural production and
environmental conditions. At the same time, the developed microsensory systems can function
not only using satellite technologies, but also local in mobile retransmitters or in pilotless
vehicles. It makes possible to produce electronic and virtual maps of soil, crop yield, foods,
information-microbial patterns, intellect-maps for the maintenance of intelligent precision
agriculture with the CIMLS-technology. The intelligent systems with the LED e-eye can be
used in micro-nanoelectronics, biotechnology, agriculture, medicine, food industry, computer
and communication systems and networks.
6. References
[1]
Koleshko V.M. (1979, 1980, 1982, 1983, 1984, 1985, 1987, 1988, 1989, 1992).
Certificate of
USSR Authorship
for Invention
№ 491824, № 677586, № 683475, № 722449, №
