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access icon free Development of compact directional antenna utilising plane of symmetry for wideband brain stroke detection systems

© The Institution of Engineering and Technology
Received 19/02/2014, Published 29/05/2014
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Microwave-based brain stroke detection demands low profile, compact, directive and wideband antennas for efficient imaging using portable systems. Using image theory of electromagnetics, the magnetic symmetry plane of a folded antenna is utilised for its miniaturisation to half of its original volume without sacrificing its penetration capability or radiation directivity. The antenna achieves 63% fractional bandwidth (1.25–2.4 GHz) with 3.5 dBi average gain along the direction of radiation. Both the near-field and far-field radiations are characterised to ensure the antenna's applicability in the detection system. Moreover, the radiation safety is also analysed since the antenna has to operate in close proximity to the head. The overall dimensions of the proposed antenna are 0.29λ 0 × 0.12λ 0 × 0.06λ 0 (λ 0 = lowest operating wavelength).

Inspec keywords: near-field communication; broadband antennas; directive antennas; brain; medical image processing; antenna radiation patterns

Other keywords: image theory; penetration capability; far-field radiations; radiation directivity; radiation safety; folded antenna; electromagnetic image theory; magnetic symmetry plane; compact directional antenna; fractional bandwidth; near-field radiations; wideband antennas; portable systems; wideband brain stroke detection systems; microwave based brain stroke detection

Subjects: Optical, image and video signal processing; Single antennas; Patient diagnostic methods and instrumentation; Medical and biomedical uses of fields, radiations, and radioactivity; health physics; Biomedical measurement and imaging; Biology and medical computing; Computer vision and image processing techniques

References

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      • 3. Mobashsher, A.T., Abbosh, A.: ‘Three-dimensional folded antenna with ultra-wideband performance, directional radiation and compact size’, IET Microw. Antennas Propag., 2014, 8, (3), pp. 171179.
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      • 8. IEEE Standard C95.1-2005: ‘IEEE standard for safety levels with respect to human exposure to radio frequency electromagnetic fields, 3 kHz to 300 GHz’, 19 April 2006.
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