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Ieee Transactions on Electromagnetic Compatibility

The IEEE Transactions on Electromagnetic Compatibility is a prestigious journal that focuses on the latest advancements in the field of electromagnetic compatibility. It covers research and developments related to the understanding, measurement, and control of electromagnetic interference and compatibility in electronic systems. The journal publishes high-quality articles, reviews, and technical notes, making it an essential resource for researchers, engineers, and practitioners in this specialized area.

Details
Abbr. IEEE Trans Electromagn Compat
Start 1964
End Continuing
p-ISSN 0018-9375
e-ISSN 1558-187X
Country United States
Language English
Metrics
h-index / Ranks: 2960 103
SJR / Ranks: 4580 886
CiteScore / Ranks: 5521 4.70
JIF / Ranks: 5004 2.1
Recent Articles
1.
Becker M, Frey M, Streett S, Remley K, Horansky R, Senic D
IEEE Trans Electromagn Compat . 2024 Oct; 66(10). PMID: 39444989
When reverberation chambers are loaded to increase the coherence bandwidth for modulated-signal measurements, a secondary effect is decreased spatial uniformity. We show that an appropriate choice of stirring sequence, consisting...
2.
Al Kalaa M, Balid W, Refai H, LaSorte N, Seidman S, Bassen H, et al.
IEEE Trans Electromagn Compat . 2022 Oct; 59(1):58-66. PMID: 36249676
The increasing use of shared, unlicensed spectrum bands by medical devices and nonmedical products highlights the need to address wireless coexistence to ensure medical device safety and effectiveness. This paper...
3.
Al Kalaa M, Seidman S, Refai H
IEEE Trans Electromagn Compat . 2022 Oct; 60(5):1546-1554. PMID: 36248761
Medical device manufacturers incorporate wireless technology in their designs to offer convenience and agility to both patients and caregivers. However, the use of unlicensed radio spectrum bands by both medical...
4.
Al Kalaa M, Seidman S
IEEE Trans Electromagn Compat . 2022 Feb; 62(4):1468-1476. PMID: 35210654
This article details the experimental work conducted at the Electromagnetic Compatibility and Wireless Laboratory, U.S. Food and Drug Administration, to investigate the use of LAA signals for wireless coexistence testing....
5.
Vu J, Nguyen B, Bhusal B, Baraboo J, Rosenow J, Bagci U, et al.
IEEE Trans Electromagn Compat . 2021 Dec; 63(5):1757-1766. PMID: 34898696
Interaction of an active electronic implant such as a deep brain stimulation (DBS) system and MRI RF fields can induce excessive tissue heating, limiting MRI accessibility. Efforts to quantify RF...
6.
Jeong H, Ntolkeras G, Grant P, Bonmassar G
IEEE Trans Electromagn Compat . 2021 Oct; 63(5):1748-1756. PMID: 34675444
This study investigates the radiofrequency (RF) induced heating in a pediatric whole-body voxel model with a high-density electroencephalogram (hd-EEG) net during magnetic resonance imaging (MRI) at 3 Tesla. A total...
7.
Remley K, Wang C, Williams D, Aan Den Toorn J, Holloway C
IEEE Trans Electromagn Compat . 2021 Jun; 58(1). PMID: 34135533
We develop a significance test that determines whether the component of uncertainty due to the finite number of stepped mode-stirring samples or the component due to the lack of spatial...
8.
Atefi S, Serano P, Poulsen C, Angelone L, Bonmassar G
IEEE Trans Electromagn Compat . 2019 Jun; 61(3):852-859. PMID: 31210669
This study investigates radiofrequency (RF)-induced heating in a head model with a 256-channel electroencephalogram (EEG) cap during magnetic resonance imaging (MRI). Nine computational models were implemented each with different EEG...
9.
Davis C, Beard B, Tillman A, Rzasa J, Merideth E, Balzano Q
IEEE Trans Electromagn Compat . 2018 Mar; 48(3):579-588. PMID: 29520117
This paper reports the results of an international intercomparison of the specific absorption rates (SARs) measured in a flat-bottomed container (flat phantom), filled with human head tissue simulant fluid, placed...
10.
Beard B, Kainz W, Onishi T, Iyama T, Watanabe S, Fujiwara O, et al.
IEEE Trans Electromagn Compat . 2018 Mar; 48(2):397-407. PMID: 29515260
The specific absorption rates (SAR) determined computationally in the specific anthropomorphic mannequin (SAM) and anatomically correct models of the human head when exposed to a mobile phone model are compared...