In-body path loss model for homogeneous human muscle, brain, fat and skin

EuCAP 2010 - The 4th European Conference on Antennas and Propagation

Volumn , Issue , 2010, Pages

  Kurup, Divya ^a   Joseph, Wout ^a   Vermeeren, Günter ^a   Martens, Luc ^a  

^a GHENT UNIVERSITY   (Belgium)

Author keywords

[No Author keywords available]

Indexed keywords

ANTENNA RESONANCE; FAT LAYER; HUMAN BODIES; HUMAN MUSCLES; HUMAN TISSUES; INSULATION THICKNESS; MUSCLE TISSUES; OPTIMAL COMMUNICATION; PATH LOSS; PATH LOSS MODELS;

COMPUTER SIMULATION; HISTOLOGY; MUSCLE; RESONANCE; WAVE PROPAGATION;

DIPOLE ANTENNAS;

EID: 77955340343     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: None     Document Type: Conference Paper

References (6)

1. FCC OET Bulletin 65, Revised Supplement C, "Evaluating Compliance with FCC Guidelines for Human Exposure to Radiofrequency Electromagnetic Fields," Federal Communication Commission, Office of Engineering and Technology, June 2001.
2. R. W. P. King, G. S. Smith, M. Owens, and T. T. Wu, Antennas in matter fundamentals, theory and applications. Cambridge, MA : MIT Press, 1981.
3. D. Kurup, W. Joseph, G. Vermeeren, and L. Martens, "Path loss model for in-body communication in homogeneous human muscle tissue," IET Electronics Letters, pp. 453-454, April 2009.
4. CENELEC EN50383, "Basic standard for the calculation and measurement of electromagnetic field strength and SAR related to human exposure from radio base stations and fixed terminal stations for wireless telecommunication systems (110 MHz - 40 GHz)," Sept 2002.
5. Federal Communications Commission, "Body tissue dielectric parameters tool [online]. available:http://www.fcc.gov/oet/rfsafety/dielectric. html.".
6. J. A. Stratton, Electromagnetic Theory. McGraw-Hill Book Company Inc., 1941.