Topological Methods in Nonlinear Analysis.
Juliusz Schauder Center for Nonlinear Analysis.
Vol. 55.
2020.
P. 141-167
Studies of a Microwave Radiometer Based on Integrated Circuits
Microwave thermometry provides noninvasive detection of thermal inhomogeneity in biological tissues, early diagnosis of oncological diseases, and correction of treatment based on changes in the parameters of the body’s electromagnetic radiation. We present an analytical review of developments in medical radiometers. Challenges hindering the development of radiometry are identified, as are proposed solutions. © 2020, Springer Science+Business Media, LLC, part of Springer Nature.
Authors
Gudkov A.G.1
,
Leushin V.Y.1
,
Vesnin S.G.2
,
Sidorov I.A.3
,
Sedankin M.K.4
,
Solov’ev Y.V.5
,
Agasieva S.V.
6
,
Chizhikov S.V.
1
,
Gorbachev D.A.3
,
Vidyakin S.I.1
Journal
Publisher
Springer New York LLC
Number of issue
6
Language
English
Pages
413-416
Status
Published
Link
Volume
53
Year
2020
Organizations
- 1 Bauman Moscow State Technical University, Moscow, Russian Federation
- 2 RES Company, Moscow, Russian Federation
- 3 JSC Radio Engineering Corporation “Vega”, Moscow, Russian Federation
- 4 Burnazyan Federal Medical Biophysical Center, Federal Medical Biological Agency of the Russian Federation, Moscow, Russian Federation
- 5 AO Svetlana Electronpribor, St. Petersburg, Russian Federation
- 6 Peoples’ Friendship University of Russia, Moscow, Russian Federation
Keywords
Electromagnetic waves; Microwave devices; Radiometers; Timing circuits; Analytical reviews; Biological tissues; Early diagnosis; Microwave radiometers; Non-invasive detection; Oncological disease; Thermal inhomogeneity; Diagnosis; Article; filtration; frequency modulation; microwave radiation; radiometry; signal detection; signal noise ratio; temperature measurement
Date of creation
02.11.2020
Date of change
02.11.2020
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Notices of the American Mathematical Society.
American Mathematical Society.
Vol. 67.
2020.
P. 373-381