Information Technology Reference
In-Depth Information
4.4 Data security for precision agriculture and biosafety
To ensure the confidentiality of information and the data integrity during processing and
transferring in wireless self-learning intelligent sensory systems and networks, an antinoise
coding, the superencryption using a private key generated from biometric data, an
individual cryptographic data protection with an intelligent technique of the personal
authentication superprotection patented by us are used in the sensory systems “CDOT” and
“ISLB” for the recognition of the falsification, the imitation and an unauthorized use of
synthetic biometric data by means of the analysis of additional micro-nanoinformation
patterns of investigated biomatters (Fig. 34a,b,c) [1, 3-5, 16, 17].
A mobile application with a quick response (QR) encoding technique for mobile and watch
phones, smartphones, communicators, PDAs, iPads on the Android virtual platform is
developed to protect information patterns of bioobjects. A photo taken with the scanning
device, e.g., with an embedded microcamera is QR encoded parallel completely, stored in a
database including its QR code and divided into spectra (RGB) which are also QR encoded
in a transducer separately. More precise QR code can be generated by the analysis and the
comparison between the completely QR encoded pattern and the spectral ones. To read QR
code, the obtained QR codes of spectral images and the base QR code of the photo are
compared to produce the precise image pattern (Fig. 34).
Fig. 34.
Android virtual platform with QR encoding information patterns of bioobjects and
the superprotection technology of biometric data: (a) nanostructure of the fingerprint;
(b) bivariate / three-dimensional (с) cross-correlation function between the fingerprint
and the imaged reference one
Intelligent precision agriculture requires a wide use of CIMLS-technologies for the
continuous information support with an information security system at all the life-cycle
stages of the agricultural production, services sectors and all the levels of personal and
social activities in the process of mathematical and software modelling of perspectives and
consequences of managerial and technological decision making [1, 18]. Then functioning
systems are equipped with an intelligent interface and integral sensory micro-nanosystems
for sensing and the adaptive control, with the wireless identification of objects, products,
managerial decisions, services, etc. These principles are realized in accordance with
International Standard requirements at the same time regulating an electronic data
interchange with the nanotechnological biosafety and the information security. The CIMLS-
