Title :
Electromagnetic compatibility in hospital corridors
Author :
Davis, D. ; Segal, B. ; Cinquino, A. ; Hoege, K. ; Mastrocola, R. ; Pavlasek, T.
Author_Institution :
Dept. of Otolaryngology, McGill Univ., Montreal, Que., Canada
Abstract :
The proposal that electromagnetic compatibility (EMC) in healthcare be fostered by using a free-space minimal-separation criterion between radio frequency (RF) sources of given power and medical devices of given immunity is evaluated. Electric fields within various corridors of a hospital were measured and the residuals of the fields from both slow-fade characteristics, and from free-space field predictions were computed. Measured fields tended to be similar to free-space predictions, except (1) within regions closer than about 7 m from the source, (2) within a below ground corridor, and (3) within a wood-furniture-filled corridor. Generally, the results supported the usage of the free-space minimal-separations, except in below ground corridors
Keywords :
biomedical engineering; electric field measurement; electromagnetic compatibility; EMC; RF sources; below ground corridor; electric fields; electromagnetic compatibility; free-space field predictions; free-space minimal-separation criterion; hospital corridors; radio frequency sources; slow-fade characteristics; wood-furniture-filled corridor; Antenna measurements; Biomedical measurements; Electric variables measurement; Electromagnetic compatibility; Floors; Hospitals; IEC standards; Immune system; Medical services; Radio frequency;
Conference_Titel :
Electromagnetic Compatibility, 1999 IEEE International Symposium on
Conference_Location :
Seattle, WA
Print_ISBN :
0-7803-5057-X
DOI :
10.1109/ISEMC.1999.812908
