User Influence on Polarization Characteristics in Off-Body Channels

Turbic, Kenan; Särestöniemi, Mariella; Hämäläinen, Matti; Correia, Luıs M.

doi:10.1109/access.2020.3023248

Cited by 6 publications

(4 citation statements)

References 43 publications

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“…Signal depolarization [68], is caused by the polarization mismatch losses due to depolarization in the propagation environment [69], [70], antenna depolarization in the proximity of the lossy body tissue [71], and to the wearable antenna rotation during motion [64]. The polarization of wearable patch antennas is reported to change from a linear one in free space to an elliptical one when placed near the body, with a shorter distance from the body yielding a higher degree of depolarization.…”

Section: Body Area and External Networkmentioning

confidence: 99%

Bridging Nano and Body Area Networks: A Full Architecture for Cardiovascular Health Applications

Asorey-Cacheda

Correia

Garcia-Pardo

et al. 2023

IEEE Internet Things J.

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Cardiovascular events occurring in the bloodstream are responsible for about 40% of human deaths in developed countries. Motivated by this fact, we present a new global network architecture for a system for the diagnosis and treatment of cardiovascular events, focusing on problems related to pulmonary artery occlusion, i.e., situations of artery blockage by a blood clot. The proposed system is based on bio-sensors for detection of artery blockage and bio-actuators for releasing appropriate medicines, both types of devices being implanted in pulmonary arteries. The system can be used by a person leading an active life and provides bidirectional communication with medical personnel via nano-nodes circulating in the bloodstream constituting an in-body area network. We derive an analytical model for calculating the required number of nano-nodes to detect artery blockage and the probability of activating a bioactuator. We also analyze the performance of the body area component of the system in terms of path loss and of wireless links budget. Results show that the system can diagnose a blocked artery in about 3 hours and that after another 3 hours medicines can be released in the exact spot of the artery occlusion, while with current medical practices the average time for diagnosis varies between 5 to 9 days.

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Section: Body Area and External Networkmentioning

confidence: 99%

Bridging Nano and Body Area Networks: A Full Architecture for Cardiovascular Health Applications

Asorey-Cacheda

Correia

Garcia-Pardo

et al. 2023

IEEE Internet Things J.

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show abstract

“…In off-body communication, networking among body-worn devices and their surroundings is established for effective transmission/reception. Antenna structures for the off-body application typically must be compatible with clothing with consistent performance under bending and human proximity effects and comply to specific absorption rate (SAR) restrictions [1][2][3][4]. Since the antenna is utilized for off-body IoT devices therefore it is necessary to discuss its application in brief details [5].…”

Section: Introductionmentioning

confidence: 99%

A Metasurface-Based Single-Layered Compact AMC-Backed Dual-Band Antenna for Off-Body IoT Devices

et al. 2021

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“…Nowadays, off-body antenna for medical applications play a very critical role in improving the living abilities of patients. For radiocommunication between biomedical implementations and exterior display gadgets, a telecommunication scheme using a far-field antenna offers various benefits over its conservative near-field counterpart, such as long-distance communication and high data rates [ 11 , 12 , 13 , 14 , 15 , 16 ]. A dual-layer substrate-based dual resonating antenna for on- and off-body communications was presented in [ 17 ].…”

Section: Introductionmentioning

confidence: 99%

Compact Dual-Band Antenna with Paired L-Shape Slots for On- and Off-Body Wireless Communication

Ahmad

Ghaffar

Hussain

et al. 2021

Sensors

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A simple dual-band patch antenna with paired L-shap slots for on- and off-body communications has been presented in this article. The proposed antenna resonates in the industrial, scientific, and medical (ISM) band at two different frequencies, at 2.45 GHz and 5.8 GHz. At the lower frequency band, the antenna’s radiation pattern is broadsided directional, whereas it is omni-directional at the higher frequency band. The efficiency and performance of the proposed antenna under the influence of the physical body are improved, and the specific absorption rate (SAR) value is significantly reduced by creating a full ground plane behind the substrate. The substrate’s material is FR-4, the thickness of which is 1.6 mm and it has a loss tangent of tanδ = 0.02. The overall size of the proposed design is 40 mm × 30 mm × 1.6 mm. Physical phantoms, such as skin, fat and muscle, are used to evaluate the impact of physical layers at 2.45 GHz and 5.8 GHz. The SAR values are assessed and found to be 0.19 W/kg and 1.18 W/kg at 2.45 GHz and 5.8 GHz, respectively, over 1 gram of mass tissue. The acquired results indicate that this antenna can be used for future on- and off-body communications and wireless services.

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User Influence on Polarization Characteristics in Off-Body Channels

Cited by 6 publications

References 43 publications

Bridging Nano and Body Area Networks: A Full Architecture for Cardiovascular Health Applications

Bridging Nano and Body Area Networks: A Full Architecture for Cardiovascular Health Applications

A Metasurface-Based Single-Layered Compact AMC-Backed Dual-Band Antenna for Off-Body IoT Devices

Compact Dual-Band Antenna with Paired L-Shape Slots for On- and Off-Body Wireless Communication

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