Algorithmic Approach to Design New Medical Equipment.

: pp. 6 - 12
Lviv Polytechnic National University, Computer Engineering Department
Lviv Polytechnic National University, Department of Theoretical Radio Engineering and Radio Measurement

The article investigates the possibility of algorithmic design of complex electronic medical equipment. Such equipment is considered as an element of the biotechnical system, which is a separate variant of the cyber-physical system. A biotech system is a complex that includes a biological object, electronic medical equipment, and a potential user. The design of electronic medical equipment is complex and depends on the characteristics of the biotechnical system. Each new development requires an individual approach, but the analysis of possible generalized structures of biotechnical systems and features of their elements makes it possible to systematize the sequence of operations necessary for their creation and to propose a design algorithm that allows to obtain the desired result. An example of using an algorithmic approach in the design of electroimpedance medical equipment is considered. The obtained results can be used in the design of biotechnical systems for therapeutic purposes.

  1. Jones J. K. Design methods. M.: Мир, 1986, 328 p.
  2. Akhutin V. M., Lurie O.B., Nemirko A. P., Popechitelev E. P. Theory and design of diagnostic medical equipment. Tutorial. L.: Iz-in Leningrad University, 1980, 146 p.
  3. Edward Lee. Cyber-Physical Systems: Design Challenges // University of California, Berkeley Technical Report No USB / EECS – 2008 – 86 January 23, 2008.
  4. Melnik A. Cyber-physical systems multilayer platform and research framework. Advances in cyber-physical systems, 2016, vol. 1, no. 1, p. 1–6.
  5. Berezko L., Sokolov S. Biotechnical components of cyber-physical systems // Advances in cyber-physical systems, Lviv Polytechnic National University, 2017, vol. 2, no. 1, p. 1–5.
  6. Popechitelev E. P. A systematic approach to solving the problems of biomedical research. // In collection: System analysis in design and management. – 2014, vol. 1, part 1, p. 137–145.
  7. Popechitelev E. P. Problems of the synthesis of biotechnical systems. // Medical technology, 2013, No. 2,p. 1–6.
  8. Sokolov S. Osnovnye svojstva biotekhnicheskikh sistem // Materialy XII Mizhnarodnoi naukovo-praktychnoi konferencii Suchasni informatsiini ta electronni tekhnologii, Odessa, 2011, s. 340.
  9. Sokolov S. E. Development of medical equipment from the point of view of philosophy of science and technology. // Philosophical jokes, Institute of Philosophy, Logic and Sociology. Lviv: Liga-Pres, 2014, vip. 2, p. 116–131.
  10. Sokolov Sergey. Medical biotechnical systems are a special area of science // Philosophical poses, 2018, vip. 1 (7), Lviv: Liga-Pres, p. 31–36.
  11. Berezko L. O., Sokolov S. Є. Special features of the design of electronic biomedical equipment. // Bulletin of the National University “Lvivska Politechnika”, 2014, No. 806 Computer systems and measures, p. 10–14.
  12. Stupko A. I., Smerdov A. A., Sokolov S. E., Bobrovskaya N. I. A sensor for determining the dynamics of resorption of liquids in biological tissues. A. S. No. 589965, 1978. Bul. fig. No. 4, A61B 5/05.
  13. Berezko L., Sokolov S., Yuzchak J. Development features of biotechnical components of cyber-physical systems. 2019 IEEE XVth International conference on the perspective technologies and methods in MEMS Design (MEMSTECH), Lviv, 2019, p. 37–40.
  14. Smerdov A. A., Stupko A. I., Sokolov S. E. Study of the dynamics of resorption of liquids in biological tissues // Medical technology, 1983, No. 1, p. 44–47.
  15. Berezovsky V. A., Matskevich G. V., Smerdov A. A., Stupko A. I., Sokolov S. E. Method of coating needle electrodes. A.S. No. 1409220, 1985, Bul. fig. No. 26, A61B 5/04.
  16. Smerdov A. A., Stupko A. I., Sokolov S. E. Method for testing chemicals that change tissue-vascular permeability. A.S. No. 1268144, 1986, Bul. fig. No. 41, A61B 5/04.