Junji Higashiyama scite author profile

Junji Higashiyama

5Publications

49Citation Statements Received

39Citation Statements Given

How they've been cited

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Affiliations

NTT (Japan), DoCoMo Communications Laboratories Europe GmbH, Tokyo Denki University

Publications

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Skin Temperature Elevation for Incident Power Densities From Dipole Arrays at 28 Ghz

et al. 2020

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The relationship between skin temperature elevation and incident power density (IPD) from radio-frequency near-field exposure at 28 GHz for different angles of incidence is evaluated computationally in this study. The averaging scheme of the IPD is crucial for determining the maximum allowable exposure levels of wireless equipment to comply with certain standards/regulations. However, it is still unclear which component of the IPD (i.e., the norm or normal component to the human body) is more related the temperature elevation. In the case of four-element dipole arrays, the distances between the model and the antenna were 15 and 30 mm in transverse-electric-and transverse-magnetic-like polarized waves, respectively, and in the case of eight-element dipole arrays, the distances were 45 mm from the center of the array. From our computational results for four-and eight-element dipole arrays, we confirmed that the normal component of the IPD provides better correlation with the surface skin temperature, regardless of angle of incidence, particularly for smaller angles of incidence (<30 •). The enhancement of the ratio of the temperature increase to IPD was observed around the Brewster's angle, which is mainly attributable to the difference in transmittance at the body surface. This exposure scenario may not occur as the antennahuman distance was too large to consider compliance at the closest distance. In terms of output power, the most restrictive condition for compliance is shown to be normal incidence, suggesting the importance of compliance for such exposure scenarios. Furthermore, the absorbed power density proved to be an appropriate metric to monitor in relation to skin temperature elevation.

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Experimental study of exhaust noise generated by pulsating flow downstream of pipe end

Higashiyama

Iwamoto

1999

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Method for measuring radiated electric field excited by linear array antenna using near field to far field transformation

Higashiyama¹,

Tarusawa²

2007

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Accuracy of Incident Power Density Measured Using Reconstructing Algorithm for Compliance Assessment of Devices in Near-Field at Millimeterwave Frequencies

Sasaki

Wake

et al. 2019

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Electromagnetic interference with medical devices from mobile phones using high-speed radio access technologies

et al. 2012

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Abstract:This paper clarifies the Electromagnetic Interference (EMI) with medical devices from mobile phones that use high-speed radio access technologies including those in Release 8 specified by the 3 rd Generation Partnership Project (3GPP) in a hospital environment. The Single Carrier Frequency Division Multiple Access (SC-FDMA) technique used in Release 8 has a higher Peak to Average Power Ratio (PAPR) than previous techniques such as Wideband Code Division Multiple Access (W-CDMA), and it may incur higher levels of EMI. The EMI is evaluated with respect to 32 medical devices that are typically used in hospitals. The evaluation results show that effect of increasing PAPR is not found significantly. The EMI strongly depends on the average transmission power of mobile phones. The maximum EMI distance is 80 and 8 cm when the average transmission power is the nominal maximum (23 or 24 dBm) and 10 dBm, respectively.

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