MEASUREMENTS OF INTERMEDIATE-FREQUENCY ELECTRIC AND MAGNETIC FIELDS IN HOUSEHOLDS.
Aerts S, Calderon C, Valič B, Maslanyj M, Addison D, Mee T, Goiceanu C, Verloock L, Van den Bossche M, Gajšek P, Vermeulen R, Röösli M, Cardis E, Martens L, Joseph W.
Environ Res. 2017;154:160-170.
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METHODOLOGY OF A STUDY ON THE FRENCH POPULATION EXPOSURE TO 50 HZ MAGNETIC FIELDS.
Bédja M, Magne I, Souques M, Lambrozo J, Le Brusquet L, Fleury G, Azoulay A, Deschamps F, Carlsberg A.
Radiat Prot Dosimetry. 2010; 142(2-4): 146-152.
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EXPOSURE TO ELECTROMAGNETIC FIELDS FROM LAPTOP USE OF “LAPTOP” COMPUTERS.
Bellieni CV, Pinto I, Bogi A, Zoppetti N, Andreuccetti D, Buonocore G.
Arch Environ Occup Health. 2012; 67: 31-36.
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METHODS USED TO ESTIMATE RESIDENTIAL EXPOSURE TO 50 HZ MAGNETIC FIELDS FROM OVERHEAD POWER LINES IN AN EPIDEMIOLOGICAL STUDY IN FRANCE.
Bessou J, Deschamps F, Figueroa L, Cougnaud D.
J Radiol Prot. 2013;33(2):349-365.
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URBAN EXPOSURE TO ELF MAGNETIC FIELD DUE TO HIGH-, MEDIUM- AND LOW-VOLTAGE ELECTRICITY SUPPLY NETWORKS.
Bottura V, Cappio Borlino M, Carta N, Cerise L, Imperial E.
Radiat Prot Dosimetry. 2009; 137(3-4): 214-217.
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AN INTEGRATED JOB EXPOSURE MATRIX FOR ELECTRICAL EXPOSURES OF UTILITY WORKERS.
Bracken TD , Kavet R , Patterson RM , Fordyce TA .
J Occup Environ Hyg. 2009;6(8):499-509.
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CHARACTERIZATION OF INDOOR EXTREMELY LOW FREQUENCY AND LOW FREQUENCY ELECTROMAGNETIC FIELDS IN THE INMA-GRANADA COHORT.
Calvente I, Dávila-Arias C, Ocón-Hernández O, Pérez-Lobato R, Ramos R, Artacho-Cordón F, Olea N, Núñez MI, Fernández MF4.
PLoS One. 2014; 9(9):e106666.
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FETAL EXPOSURE TO LOW FREQUENCY ELECTRIC AND MAGNETIC FIELDS.
Cech R, Leitgeb N, Pediaditis M.
Phys Med Biol. 2007; 52 : 879-888.
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CURRENT DENSITIES IN A PREGNANT WOMAN MODEL INDUCED BY SIMULTANEOUS ELF ELECTRIC AND MAGNETIC FIELD EXPOSURE.
Cech R, Leitgeb N, Pediaditis M.
Phys Med Biol. 2008; 7:177-186.
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EXPOSURE TO MAGNETIC FIELDS OF RAILWAY ENGINE DRIVERS: A CASE STUDY IN ITALY.
Contessa GM, Falsaperla R, Brugaletta V, Rossi P.
Radiat Prot Dosimetry. 2010; 142(2-4): 160-167.
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MEASUREMENTS OF PROFESSIONAL EXPOSURE TO ELF FIELDS IN SOME PRODUCTION AREAS WITHIN THE TERRITORY OF REGIONE CAMPANIA AND COMPARISON WITH THE ACTION VALUES ACCORDING TO 2004/40/CE DIRECTIVE.
d’Angelo R, Russo E, Attaianese L, Niutta F.
G Ital Med Lav Ergon. 2007; 29 (3 Suppl): 774-776.
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24-H PERSONAL MONITORING OF EXPOSURE TO POWER FREQUENCY MAGNETIC FIELDS IN ADOLESCENTS – RESULTS OF A NATIONAL SURVEY.
Eliyahu I, Hareuveny R, Riven M, Kandel S, Kheifets L.
Environ Res. 2017 Jun 29;158:295-300.
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REVIEW OF STUDIES CONCERNING ELECTROMAGNETIC FIELD (EMF) EXPOSURE ASSESSMENT IN EUROPE: LOW FREQUENCY FIELDS (50 HZ-100 KHZ).
Gajšek P, Ravazzani P, Grellier J, Samaras T, Bakos J, Thuróczy G.
Int J Environ Res Public Health. 2016;13(9).
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EXPOSURE TO EXTREMELY LOW AND INTERMEDIATE-FREQUENCY MAGNETIC AND ELECTRIC FIELDS AMONG CHILDREN FROM THE INMA-GIPUZKOA COHORT.
Gallastegi M, Jiménez-Zabala A, Santa-Marina L, Aurrekoetxea JJ, Ayerdi M, Ibarluzea J, Kromhout H, González J, Huss A.
Environ Res. 2017; 157:190-197.
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OCCUPATIONAL AND ENVIRONMENTAL EXPOSURE TO EXTREMELY LOW FREQUENCY-MAGNETIC FIELDS: A PERSONAL MONITORING STUDY IN A LARGE GROUP OF WORKERS IN ITALY.
Gobba F, Bravo G, Rossi P, Contessa GM, Scaringi M.
J Expo Sci Environ Epidemiol. 2011; 21: 634-645.
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EVALUATING EXPOSURE FROM ELECTRIC FIELDS IN A HIGH VOLTAGE SWITCHYARD ACCORDING TO THE EU DIRECTIVE.
Hamnerius Y, Nilsson T, Friman E.
J Radiol Prot. 2019 Mar;39(1):150-160.
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Occupational exposure to electromagnetic fields. The situation in Greece.
Gourzoulidis GA, Tsaprouni P, Skamnakis Ν, Tzoumanika C, Kalampaliki E, Karastergios E, Gialofas A, Achtipis A, Kappas C, Karabetsos E.
Phys Med. 2018 May;49:83-89.
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MEASUREMENT AND ANALYSIS OF ELECTROMAGNETIC FIELDS FROM TRAMS, TRAINS AND HYBRID CARS.
Halgamuge MN, Abeyrathne CD, Mendis P.
Radiat Prot Dosimetry. 2010; 141: 255-268.
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EXPOSURE OF WORKERS TO ELECTROMAGNETIC FIELDS. A REVIEW OF OPEN QUESTIONS ON EXPOSURE ASSESSMENT TECHNIQUES.
Hansson Mild K, Alanko T, Decat G, Falsaperla R, Gryz K, Hietanen M, Karpowicz J, Rossi P, Sandström M.
Int J Occup Saf Ergon. 2009;15: 3-33.
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EXPOSURE TO 50 HZ MAGNETIC FIELDS IN APARTMENT BUILDINGS WITH INDOOR TRANSFORMER STATIONS IN ISRAEL.
Hareuveny R, Kandel S, Yitzhak NM, Kheifets L, Mezei G.
J Expo Sci Environ Epidemiol. 2011 ; 21(4):365-371.
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DOES APARTMENT’S DISTANCE TO AN IN-BUILT TRANSFORMER ROOM PREDICT MAGNETIC FIELD EXPOSURE LEVELS?
Huss A, Goris K, Vermeulen R, Kromhout H.
J Expo Sci Environ Epidemiol. 2013;23(5):554-558.
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INDOOR TRANSFORMER STATIONS AS PREDICTORS OF RESIDENTIAL ELF MAGNETIC FIELD EXPOSURE.
Ilonen K, Markkanen A, Mezei G, Juutilainen J.
Bioelectromagnetics. 2008; 29: 213-218.
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MAGNETIC FIELD MEASUREMENTS NEAR STAND-ALONE TRANSFORMER STATIONS.
Kandel S, Hareuveny R, Yitzhak NM, Ruppin R.
Radiat Prot Dosimetry. 2013;157(4):619-622.
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SURVEY OF RESIDENTIAL POWER-FREQUENCY MAGNETIC FIELDS IN MELBOURNE, AUSTRALIA.
Karipidis KK.
Radiat Prot Dosimetry. 2015 Jan;163(1):81-91.
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RESIDENTIAL MAGNETIC FIELDS AND MEASURES OF NEUTRAL-TO-EARTH VOLTAGE: VARIABILITY WITHIN AND BETWEEN RESIDENCES.
Kavet R , Hooper HC .
Health Phys. 2009; 97(4):332-342.
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THE RELATIONSHIP BETWEEN RESIDENTIAL MAGNETIC FIELDS AND CONTACT VOLTAGE: A POOLED ANALYSIS.
Kavet R, Hooper C, Buffler P, Does M.
Radiat Res. 2011; 176: 807-815.
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EXPOSURE ASSESSMENT AND OTHER CHALLENGES IN NON-IONIZING RADIATION STUDIES OF CHILDHOOD LEUKAEMIA.
Kheifets L, Oksuzyan S.
Radiat Prot Dosimetry. 2008;132: 139-147.
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EVALUATION OF CURRENT DENSITIES AND TOTAL CONTACT CURRENTS IN OCCUPATIONAL EXPOSURE AT 400 KV SUBSTATIONS AND POWER LINES.
Korpinen LH , Elovaara JA , Kuisti HA .
Bioelectromagnetics. 2009;30(3):231-240.
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OCCUPATIONAL EXPOSURE TO ELECTRIC FIELDS AND INDUCED CURRENTS ASSOCIATED WITH 400 KV SUBSTATION TASKS FROM DIFFERENT SERVICE PLATFORMS.
Korpinen LH, Elovaara JA, Kuisti HA.
Bioelectromagnetics 2011; 32: 79-83.
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CURRENT DENSITIES AND TOTAL CONTACT CURRENTS FOR 110 AND 220 KV POWER LINE TASKS.
Korpinen L, Kuisti H, Elovaara J.
Bioelectromagnetics. 2014; 35(7):531-535.
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CURRENT DENSITIES AND TOTAL CONTACT CURRENTS ASSOCIATED WITH 400 KV POWER LINE TASKS.
Korpinen L, Kuisti H, Elovaara J.
Bioelectromagnetics. 2013; 34(8):641-644.
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OCCUPATIONAL EXPOSURE TO ELECTRIC AND MAGNETIC FIELDS WHILE WORKING AT SWITCHING AND TRANSFORMING STATIONS OF 110 KV.
Korpinen L, Kuisti H, Pääkkönen R, Vanhala P, Elovaara J.
Ann Occup Hyg. 2011; 55(5):526-36.
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OCCUPATIONAL EXPOSURE TO ELECTRIC AND MAGNETIC FIELDS DURING TASKS AT GROUND OR FLOOR LEVEL AT 110 KV SUBSTATIONS IN FINLAND.
Korpinen L, Pääkkönen R.
Int J Occup Saf Ergon. 2016;22(3):384-388.
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EXAMPLES OF OCCUPATIONAL EXPOSURE TO ELECTRIC AND MAGNETIC FIELDS AT 110-KV GAS-INSULATED SUBSTATIONS (GISS).
Korpinen L, Pääkkönen R.
Radiat Prot Dosimetry. 2015 Feb;163(3):394-7.
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OCCUPATIONAL EXPOSURE TO ELECTRIC AND MAGNETIC FIELDS DURING WORK TASKS AT 110 KV SUBSTATIONS IN THE TAMPERE REGION.
Korpinen LH, Pääkkönen RJ.
Bioelectromagnetics. 2010; 31: 252-254.
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WORKERS’ EXPOSURE TO ELECTRIC FIELDS DURING THE TASK ‘MAINTENANCE OF AN OPERATING DEVICE OF CIRCUIT BREAKER FROM A SERVICE PLATFORM’ AT 110-KV SUBSTATIONS.
Korpinen L, Pääkkönen R.
Int J Occup Saf Ergon. 2018 Feb 26:1-4.
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PRELIMINARY BACKGROUND INDOOR EMF MEASUREMENTS IN GREECE.
Kottou S, Nikolopoulos D, Yannakopoulos PH, Vogiannis E, Petraki E, Panagiotaras D, Koulougliotis D.
Phys Med. 2015;31(7):808-816.
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INDUCED ELECTRIC FIELDS IN WORKERS NEAR LOW-FREQUENCY INDUCTION HEATING MACHINES.
Kos B1, Valič B, Kotnik T, Gajšek P.
Bioelectromagnetics. 2014; 35(3):222-226.
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DOSIMETRIC ASSESSMENT OF SIMULTANEOUS EXPOSURE TO ELF ELECTRIC AND MAGNETIC FIELDS.
Leitgeb N, Cech R.
IEEE Trans Biomed Eng. 2008; 55: 671-674.
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MAGNETIC EMISSIONS OF ELECTRIC APPLIANCES.
Leitgeb N, Cech R, Schröttner J, Lehofer P, Schmidpeter U, Rampetsreiter M.
Int J Hyg Environ Health. 2008; 211: 69-73.
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PERSONAL POWER-FREQUENCY MAGNETIC FIELD EXPOSURE IN WOMEN RECRUITED AT AN INFERTILITY CLINIC: ASSOCIATION WITH PHYSICAL ACTIVITY AND TEMPORAL VARIABILITY.
Lewis RC, Hauser R, Wang L, Kavet R, Meeker JD.
Radiat Prot Dosimetry. 2016;168(4):478-488.
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ANALYSIS OF INDIVIDUAL- AND SCHOOL-LEVEL CLUSTERING OF POWER FREQUENCY MAGNETIC FIELDS.
Lin IF , Li CY , Wang JD.
Bioelectromagnetics. 2008; 29: 564-570.
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CHILDREN’S PERSONAL EXPOSURE MEASUREMENTS TO EXTREMELY LOW FREQUENCY MAGNETIC FIELDS IN ITALY.
Liorni I, Parazzini M, Struchen B, Fiocchi S, Röösli M, Ravazzani P.
Int J Environ Res Public Health. 2016;13(6).
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MAGNETIC FIELD EXPOSURE IN A NONDESTRUCTIVE TESTING OPERATION.
Lippert JF, Lacey SE, Kennedy KJ, Esmen NA, Buchanich JM, Marsh GM.
Arch Environ Occup Health. 2007; 62: 187-193.
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EXPOSURE OF CHILDREN TO EXTREMELY LOW FREQUENCY MAGNETIC FIELDS IN FRANCE: RESULTS OF THE EXPERS STUDY.
Magne I, Souques M, Bureau I, Duburcq A, Remy E, Lambrozo J.
J Expo Sci Environ Epidemiol. 2016 Nov 9.
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POWER FREQUENCY MAGNETIC FIELDS AND RISK OF CHILDHOOD LEUKAEMIA: MISCLASSIFICATION OF EXPOSURE FROM THE USE OF THE ‘DISTANCE FROM POWER LINE’ EXPOSURE SURROGATE.
Maslanyj M , Simpson J , Roman E , Schüz J.
Bioelectromagnetics. 2009;30(3):183-188.
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OCCUPATIONAL EXPOSURE OF UK ADULTS TO EXTREMELY LOW FREQUENCY MAGNETIC FIELDS.
Mee T , Whatmough P , Broad L , Dunn C , Maslanyj M , Allen S , Muir K , McKinney PA , van Tongeren M .
Occup Environ Med. 2009; 66(9):619-627.
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INDOOR TRANSFORMER STATIONS AND ELF MAGNETIC FIELD EXPOSURE: USE OF TRANSFORMER STRUCTURAL CHARACTERISTICS TO IMPROVE EXPOSURE ASSESSMENT.
Okokon EO, Roivainen P, Kheifets L, Mezei G, Juutilainen J.
J Expo Sci Environ Epidemiol. 2014; 24(1):100-104.
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A COMPARISON OF MAGNETIC FIELDS INSIDE AND OUTSIDE HIGH-VOLTAGE URBAN 110-KV POWER SUBSTATIONS WITH THE EXPOSURE RECOMMENDATIONS OF THE UKRAINIAN REGULATORY AUTHORITIES.
Okun O, Shevchenko S, Korpinen L.
Radiat Prot Dosimetry. 2012; 31:856-862.
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LOW FREQUENCY MAGNETIC FIELDS INSIDE CARS.
Pääkkönen R, Korpinen L.
Radiat Prot Dosimetry. 2019 Nov 7.
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OCCUPATIONAL EXPOSURE TO INTERMEDIATE FREQUENCY AND EXTREMELY LOW FREQUENCY MAGNETIC FIELDS AMONG PERSONNEL WORKING NEAR ELECTRONIC ARTICLE SURVEILLANCE SYSTEMS.
Roivainen P1, Eskelinen T, Jokela K, Juutilainen J.
Bioelectromagnetics. 2014; 35(4):245-250.
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MEASUREMENT OF THE MAGNETIC FIELDS OF HIGH-VOLTAGE SUBSTATIONS (230 KV) IN TEHRAN (IRAN) AND COMPARISON WITH THE ACGIH TRESHOLD LIMIT VALUES.
Sharifi Fard M, Nasiri P, Monazzam MR.
Radiat Prot Dosimetry. 2011;145(4):421-425.
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EXPOSURE TO EXTREMELY LOW FREQUENCY ELECTROMAGNETIC FIELDS DURING LESSONS IN SECONDARY SCHOOLS.
Silangam W, Yoosook W, Kongtip P, Kongtawelert A, Theppeang K.
Radiat Prot Dosimetry. 2017 Dec 5:1-5.
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THE REVISED ELECTROMAGNETIC FIELDS DIRECTIVE AND WORKER EXPOSURE IN ENVIRONMENTS WITH HIGH MAGNETIC FLUX DENSITIES.
Stam R.
Ann Occup Hyg. 2014; 58(5):529-541.
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Occupational exposure to electromagnetic fields from medical sources.
Stam R, Yamaguchi-Sekino S.
Ind Health. 2018 Apr 7;56(2):96-105.
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ELF-MAGNETIC FLUX DENSITIES MEASURED IN A CITY ENVIRONMENT IN SUMMER AND WINTER.
Straume A, Johnsson A, Oftedal G.
Bioelectromagnetics. 2008; 29: 20-28.
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ANALYSIS OF PERSONAL AND BEDROOM EXPOSURE TO ELF-MFS IN CHILDREN IN ITALY AND SWITZERLAND.
Struchen B, Liorni I, Parazzini M, Gängler S, Ravazzani P, Röösli M.
J Expo Sci Environ Epidemiol.2016;26(6):586-596.
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RELATIVE ACCURACY OF GRID REFERENCES DERIVED FROM POSTCODE AND ADDRESS IN UK EPIDEMIOLOGICAL STUDIES OF OVERHEAD POWER LINES.
Swanson J, Vincent TJ, Bunch KJ.
J Radiol Prot. 2014; 34(4):N81-86.
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OCCUPATIONAL EXPOSURE TO ELECTROMAGNETIC FIELDS OF UNINTERRUPTIBLE POWER SUPPLY INDUSTRY WORKERS.
Teşneli NB, Teşneli AY.
Radiat Prot Dosimetry. 201; 162(3):289-298.
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EXPOSURE TO 50 HZ MAGNETIC FIELD IN APARTMENT BUILDINGS WITH BUILT-IN TRANSFORMER STATIONS IN HUNGARY.
Thuróczy G , Jánossy G , Nagy N , Bakos J , Szabó J , Mezei G .
Radiat Prot Dosimetry. 2008;131: 469-473.
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USE OF MACHINE LEARNING IN THE ANALYSIS OF INDOOR ELF MF EXPOSURE IN CHILDREN.
Tognola G, Bonato M, Chiaramello E, Fiocchi S, Magne I, Souques M, Parazzini M, Ravazzani P.
Int J Environ Res Public Health. 2019 Apr 6;16(7).
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CLUSTER ANALYSIS OF RESIDENTIAL PERSONAL EXPOSURE TO ELF MAGNETIC FIELD IN CHILDREN: EFFECT OF ENVIRONMENTAL VARIABLES.
Tognola G, Chiaramello E, Bonato M, Magne I, Souques M, Fiocchi S, Parazzini M, Ravazzani P.
Int J Environ Res Public Health. 2019 Nov 8;16(22)
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TRENDS IN RESIDENTIAL EXPOSURE TO ELECTROMAGNETIC FIELDS FROM 2006 TO 2009.
Tomitsch J, Dechant E.
Radiat Prot Dosimetry. 2012; 149 :384-391.
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CURRENT DENSITY IN A MODEL OF A HUMAN BODY WITH A CONDUCTIVE IMPLANT EXPOSED TO ELF ELECTRIC AND MAGNETIC FIELDS.
Valič B, Gajsek P, Miklavcic D.
Bioelectromagnetics. 2009; 30(7): 591-599.
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TYPICAL EXPOSURE OF CHILDREN TO EMF: EXPOSIMETRY AND DOSIMETRY.
Valič B, Kos B, Gajšek P.
Radiat Prot Dosimetry. 2015 Jan;163(1):70-80.
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MAGNETIC FIELD EXPOSURE ASSESSMENT IN ELECTRIC VEHICLES.
Vassilev A, Ferber A, Wehrmann C, Pinaud O, Schilling M, Ruddle AR.
IEEE Trans Electromagn Compat 2015;57(1):35-43.
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ESTIMATING MAGNETIC FIELDS OF HOMES NEAR TRANSMISSION LINES IN THE CALIFORNIA POWER LINE STUDY.
Vergara XP, Kavet R, Crespi CM, Hooper C, Silva JM, Kheifets L.
Environ Res. 2015 ;140:514-523.
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SURVEY OF ELF MAGNETIC FIELD LEVELS IN HOUSEHOLDS NEAR OVERHEAD POWER LINES IN SERBIA.
Vulevic B, Osmokrovic P.
Radiat Prot Dosimetry. 2011; 145(4):385-388.
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MEASURING EXPOSED MAGNETIC FIELDS OF WELDERS IN WORKING TIME.
Yamaguchi-Sekino S, Ojima J, Sekino M, Hojo M, Saito H, Okuno T.
Ind Health. 2011;49(3):274-279.
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TIME DEPENDENCE OF 50 HZ MAGNETIC FIELDS IN APARTMENT BUILDINGS WITH INDOOR TRANSFORMER STATIONS.
Yitzhak NM, Hareuveny R, Kandel S, Ruppin R.
Radiat Prot Dosimetry. 2012; 149: 191-195.
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