A Microwave Radio Thermometer for Measuring the Depth Temperatures of Biological Objects by a Noninvasive Method; Measurement Techniques; Vol. 58, iss. 4

A Microwave Radio Thermometer for Measuring the Depth Temperatures of Biological Objects by a Noninvasive Method; Measurement Techniques; Vol. 58, iss. 4

Bibliografske podrobnosti
Parent link:	Measurement Techniques.— , 1958- Vol. 58, iss. 4.— 2015.— [P. 438-445]
Glavni avtor:	Filatov A. V. Aleksandr Viktorovich
Corporate Authors:	Национальный исследовательский Томский политехнический университет Институт кибернетики Кафедра интегрированных компьютерных систем управления, Национальный исследовательский Томский политехнический университет Институт неразрушающего контроля Кафедра физических методов и приборов контроля качества
Drugi avtorji:	Lekhanov A. G. Aleksandr Gennadjevich, Ubaychin (Ubaichin) A. V. Anton Viktorovich
Izvleček:	Title screen A microwave radio thermometer for determining the temperature of local sections inside a biological medium is described. The basic operating principle is a modification of the zero-measurements method. Режим доступа: по договору с организацией-держателем ресурса
Jezik:	angleščina
Izdano:	2015
Teme:	труды учёных ТПУ электронный ресурс биологические среды радиотермические печи
Online dostop:	http://dx.doi.org/10.1007/s11018-015-0731-1
Format:	MixedMaterials Elektronski Book Chapter
KOHA link:	https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=647708

Podobne knjige/članki

Upgraded microwave radio thermometer input unit for remote temperature measurement of a biological object; Measurement Techniques; Vol. 60, iss. 3
Izdano: (2017)

Portable Meter for Measuring the Modulus of the Reflectivity of Various Material Objects Over a Broad High-Frequency Band; Measurement Techniques; Vol. 62, iss. 8
od: Filatov A. V. Aleksandr Vladimirovich
Izdano: (2019)

Prepared Radio Measurements With Sele-Computing Charts
od: Batcher R .R. Ralph R.
Izdano: (New York, Wireless Press, 1921)

Measuring the temperature of a rapidly evaporating water droplet by Planar Laser Induced Fluorescence; Measurement; Vol. 135
od: Volkov R. S. Roman Sergeevich
Izdano: (2019)

Patch Antenna for Measuring the Internal Temperature of Biological Objects Using the Near-Field Microwave Radiometric Method; Journal of Physics: Conference Series; Vol. 671 : Innovations in Non-Destructive Testing (SibTest 2015)
Izdano: (2016)

Кн. 2: Строительство печей; Сооружение промышленных печей
Izdano: (2006)

A New Method for the Improvement of Frequency Resolution of Microwave Hyperspectrometers; Measurement Techniques; Vol. 62, iss. 6
od: Ubaychin (Ubaichin) A. V. Anton Viktorovich
Izdano: (2019)

Noninvasive Vascular Diagnosis A Practical Textbook for Clinicians /
Izdano: (2021)

A Pragmatic Perspective of Measurement
od: Torres Irribarra, David
Izdano: (2021)

Noninvasive bunch length measurements exploiting Cherenkov diffraction radiation; Physical Review Accelerators and Beams; Vol. 23, iss. 2
Izdano: (2020)

Biological Measures of Human Experience across the Lifespan Making Visible the Invisible /
Izdano: (2016)

A Course in Rasch Measurement Theory Measuring in the Educational, Social and Health Sciences /
od: Andrich, David, et al.
Izdano: (2019)

Measuring displacement of local conductive objects using traveling magnetic field; KORUS 2005
od: Goldstein (Goldshtein) A. E. Aleksandr Efremovich
Izdano: (2005)

Microwave Measurements of Complex Permittivity by Free Space Methods and Their Applications
od: Musil J. Jindrich
Izdano: (Amsterdam, Academia PraGue, 1986)

Pacific Rim Objective Measurement Symposium (PROMS) 2015 Conference Proceedings
Izdano: (2016)

A Simple Digital Thermometer; Instruments and Experimental Techniques; Vol. 63, iss. 3
Izdano: (2020)

Approach to mathematical structure concerning Measurement Science: Pt. 1 : Mathematical Consideration of Measurement Science; Measurement Science: A Discussion
od: Muravyov (Murav’ev) S. V. Sergey Vasilyevich
Izdano: (2000)

Models and Measures in Measurements and Monitoring
od: Babak, Vitaliy P., et al.
Izdano: (2021)

A Political Economy of the Measurement of Inflation The case of France /
od: Jany-Catrice, Florence
Izdano: (2020)

Methodology to calculating the temperature around an evaporating droplet using a set of thermocouples; Measurement; Vol. 218
od: Volkov R. S. Roman Sergeevich
Izdano: (2023)

Rankings: are they useful for measurement practitioners? Are they in the scope of metrology and measurement science?; Metrology for a Sustainable Development
od: Muravyov (Murav’ev) S. V. Sergey Vasilyevich
Izdano: (2006)

Measuring and managing the value of a company учебно-методическое пособие
od: Chepyuk O.
Izdano: (Нижний Новгород, ННГУ им. Н. И. Лобачевского, 2020)

Pacific Rim Objective Measurement Symposium (PROMS) 2016 Conference Proceedings Rasch and the Future /
Izdano: (2018)

A nanosecond pulse-compression microwave radar; Telecommunications and Radio Engineering; Vol. 54, № 2
od: Yushkov Y. G. Yuri Georgievich
Izdano: (2000)

A Device for Measuring Electrical Parameters of Biological Tissues during Cryodestruction; Biomedical Engineering; Vol. 54, iss. 6
od: Brazovsky (Brazovskii) K. S. Konstantin Stanislavovich
Izdano: (2021)

A Computer System: Measurement of Welding Surge Currents; Measurement and Control; Vol. 42, iss. 2
od: Muravyov (Murav’ev) S. V. Sergey Vasilyevich
Izdano: (2009)

Some structural properties of a formal model of measurement procedure; Measurement; Vol. 18, iss. 2
od: Muravyov (Murav’ev) S. V. Sergey Vasilyevich
Izdano: (1996)

The development of a method for crack-depth estimation in concrete by the electric response parameters to pulse mechanical excitation; Measurement science and technology; Vol. 25, iss. 5
Izdano: (2014)

Temperature Distributions Comparison by the Clustering of Their Proximity Measure; Control and Communications (SIBCON)
Izdano: (2016)

Social Impact Measurement for a Sustainable Future The Power of Aesthetics and Practical Implications /
Izdano: (2022)

Risk Measurement From Quantitative Measures to Management Decisions /
od: Guégan, Dominique, et al.
Izdano: (2019)

Enlargement of measuring zone in laser gauges without sacrificing measurement accuracy; Measurement; Vol. 131
od: Chursin Yu. A. Yuri Alexandrovich
Izdano: (2019)

On the Measurement of Social Phenomena A Methodological Approach /
od: Delmastro, Marco
Izdano: (2021)

Measuring Regional Specialisation A New Approach /
od: Kopczewska, Katarzyna, et al.
Izdano: (2017)

Liquid calorimeters for measuring the energy of high-power microwave pulses; Instruments and Experimental Techniques; Vol. 58, iss. 4
Izdano: (2015)

A Calorimeter for High Power Microwave Pulse Measurement; 15th Symposium on High Current Electronics, September 21-26, 2008
Izdano: (2008)

Three-axis laser method for measuring the diameter of cylindrical objects; Dynamics of Systems, Mechanisms and Machines
od: Fedorov E. M. Evgeniy Mihailovich
Izdano: (2016)

Providing a New Perspective on Understanding and Measuring of Customer Inspiration
od: Stoll, Lisa
Izdano: (2022)

Resonant microwave compressor in a transmitter of nonlinear pulse radar; Telecommunications and Radio Engineering; Vol. 56, № 11
od: Novikov S. A. Sergey Avtonomovich
Izdano: (2001)

The measurement of the central-axis depth-dose curve of betatron electron beam in the phantom; Современные техника и технологии; Т. 3
od: Miloichikova I. A. Irina Alekseevna
Izdano: (2013)