Design and Full-Wave Analysis of Piezoelectric Micro-Needle Antenna Sensors for Enhanced Near-Field Detection of Skin Cancer

Caratelli, Diego; Yarovoy, Alexander; Massaro, Alessandro; Lay-Ekuakille, and Aime

doi:10.2528/pier11101205

Cited by 10 publications

(5 citation statements)

References 22 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The in vivo experiment set up, which was composed of a network analyzer and differential active probe (Agilent, 1141A Differential Probe), is shown in Figure 2(a) while the corresponding flow chart is displayed in Figure 2(b). Also the input impedance matching issues [29] related to changes of body electrical parameter can be ignored in Figure 1 because of our high input impedance (1 MΩ) of differential probe and operation of sub-MHz low frequency region. Then, the high input impedance bio-amplifier is utilized to extract the conduction current for further processing.…”

Section: Transfer Function Of Galvanic-type Ibcmentioning

confidence: 99%

Study of Channel Characteristics for Galvanic-Type Intra-Body Communication Based on a Transfer Function from a Quasi-Static Field Model

Chen

Mak

Pun

et al. 2012

Sensors

View full text Add to dashboard Cite

Intra-Body Communication (IBC), which modulates ionic currents over the human body as the communication medium, offers a low power and reliable signal transmission method for information exchange across the body. This paper first briefly reviews the quasi-static electromagnetic (EM) field modeling for a galvanic-type IBC human limb operating below 1 MHz and obtains the corresponding transfer function with correction factor using minimum mean square error (MMSE) technique. Then, the IBC channel characteristics are studied through the comparison between theoretical calculations via this transfer function and experimental measurements in both frequency domain and time domain. High pass characteristics are obtained in the channel gain analysis versus different transmission distances. In addition, harmonic distortions are analyzed in both baseband and passband transmissions for square input waves. The experimental results are consistent with the calculation results from the transfer function with correction factor. Furthermore, we also explore both theoretical and simulation results for the bit-error-rate (BER) performance of several common modulation schemes in the IBC system with a carrier frequency of 500 kHz. It is found that the theoretical results are in good agreement with the simulation results.

show abstract

Section: Transfer Function Of Galvanic-type Ibcmentioning

confidence: 99%

Study of Channel Characteristics for Galvanic-Type Intra-Body Communication Based on a Transfer Function from a Quasi-Static Field Model

Chen

Mak

Pun

et al. 2012

Sensors

View full text Add to dashboard Cite

show abstract

“…As commonly done in the realm of ground penetrating radar (GPR) applications [8][9][10], the footprint can be determined as the normalized peak-value distribution of the electric field tangential along the observation plane z = −d ≥ 0, namely: numerically found that, for significant depths of observation in the skin, ρ F P tends to reduce as r g becomes larger. Although the computed maps are not shown here for the sake of brevity, this property can be readily inferred by considering the Fourier-transform relationship holding between a given aperture current distribution and the relevant far-field pattern [11]. So, one can conclude that the size of the footprint can be adjusted by varying the effective aperture of the structure.…”

Section: Sensor Radiation Properties and Circuital Characteristicsmentioning

confidence: 99%

“…9). The computed diagrams provide useful information in a reflectometry-based detection procedure of the skin cancer [11].…”

Section: Sensor Radiation Properties and Circuital Characteristicsmentioning

confidence: 99%

Non-Invasive Reflectometry-Based Detection of Melanoma by Piezoelectric Micro-Needle Antenna Sensors

Caratelli¹,

Lay-Ekuakille²,

Vergallo³

2013

PIER

Self Cite

View full text Add to dashboard Cite

Abstract-The electromagnetic characterization of piezoelectric micro-needle antenna sensors for fully non-invasive detection of cancerrelated anomalies of the skin is presented. To this end, a fullwave finite-difference time-domain procedure is adopted to analyze the performance of the considered class of devices in terms of circuital characteristics and near-field radiation properties as a function of the curvature radius of the relevant sensing probe. This analysis is, in turn, useful to gain a physical insight into the processes which affect the behavior of the structure and, hence, the accuracy in the detection of possible malignant lesions of the skin. In particular, by using the mentioned modeling approach, an extensive parametric study is carried out to analyze the effect produced on the sensor response by variations of the complex permittivity of the skin due to the presence of anomalous cells and, in this way, obtain useful discrimination diagrams for the heuristic evaluation of the exposure level to the cancer risk.

show abstract

“…Research found that the risk of brain cancer doubled in adults with overuse of mobile phone and five times among youngsters [11]. Recently, the World Health Organization (WHO) have stated that the mobile phone potentially leads to brain cancer [12][13][14][15][16][17]. The International Agency of Research Cancer (IARC) has grouped electromagnetic fields into Group 2B which is carcinogenic towards human.…”

Section: Introductionmentioning

confidence: 99%

Effects of Electromagnetic Absorption Towards Human Head Due to Variation of Its Dielectric Properties at 900, 1800 and 1900 MHZ With Different Antenna Substrates

Husni

Islam²,

Faruque

et al. 2013

PIER

View full text Add to dashboard Cite

Abstract-This paper analyzes and discusses the effect of the electromagnetic absorption by human head against variation of head dielectric properties at 900, 1800 and 1900 MHz. The characteristics of helical antenna and its substrates with variation in human head dielectric properties are simulated by implementing finite-difference time-domain (FDTD) method using CST Microwave studio. The variations in human head dielectric properties were manipulated by increasing and decreasing 10% and 20% of each of the human head dielectric properties. In this paper, SAR values increase with increment of head conductivity, and increment of head permittivity and head density lead to decrement of SAR values. Helical antenna with substrate of FR4 results in higher SAR values in all frequency exposures. The head SAR values are higher with higher frequency exposures. The helical antenna with substrate of Rogers RO3006 (loss free) is found to be better over FR4 and Rogers RO4003 (loss free), which contributes towards much lower SAR values in all GSM frequency bands exposure.

show abstract

Design and Full-Wave Analysis of Piezoelectric Micro-Needle Antenna Sensors for Enhanced Near-Field Detection of Skin Cancer

Cited by 10 publications

References 22 publications

Study of Channel Characteristics for Galvanic-Type Intra-Body Communication Based on a Transfer Function from a Quasi-Static Field Model

Study of Channel Characteristics for Galvanic-Type Intra-Body Communication Based on a Transfer Function from a Quasi-Static Field Model

Non-Invasive Reflectometry-Based Detection of Melanoma by Piezoelectric Micro-Needle Antenna Sensors

Effects of Electromagnetic Absorption Towards Human Head Due to Variation of Its Dielectric Properties at 900, 1800 and 1900 MHZ With Different Antenna Substrates

Contact Info

Product

Resources

About