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研究生:張芳青
研究生(外文):Fang Qing Zhang
論文名稱:無線通訊之電磁波對人體健康影響的應用分析
論文名稱(外文):Analysis of the Electromagnetic Wave of Wireless Communication on Halth
指導教授:黃秀園黃秀園引用關係
指導教授(外文):Huang Shiow Yuan
學位類別:碩士
校院名稱:臺中健康暨管理學院
系所名稱:電腦與通訊學系碩士班
學門:工程學門
學類:電資工程學類
論文種類:學術論文
論文出版年:2005
畢業學年度:93
語文別:中文
論文頁數:83
中文關鍵詞:無線通訊電磁波健康
外文關鍵詞:Wireless Communication、Electromagnetic Waves、Health
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隋著無線通訊的來臨,個人的隨身配備也都逐漸往無線化邁進,在使用的同時,這些產品所產生的電磁波也威脅到人體健康,本論文主要是研究現有的無線通訊技術所產生的電磁波,藉由與現有的國內外研究報告來比較,探討電磁波的規範值、測量值以及對人體健康的影響。

以目前的國內外的數千篇研究報告中,仍然無法針對電磁波對人體健康有無影響做一個明確的解釋,而本篇研究是想要讓國人能對電磁波有所進一步的認知,最後再針對電磁波的防範來減少人體吸收電磁波,使健康多一層保障。
Following the arrival of wireless communication era , most of the personal equipments are wireless. Human health is subjected to electromagnetic waves by adapting these products. This paper is mainly to investigate some typical factors of the electromagnetic waves of current wireless communication technologies in comparison with the reports proposed by the other group.
中文摘要……………………………………………………………..……I
Abstract……………………………………………………………………II
目錄………………………………………………………………..………III
圖目錄……………………………………………………………………..V
表目錄…………………………………………….…………………….…VI
第一章、緒論………………………………………………………………1
1.1 研究背景…………………………………..………………………1
1.2 研究動機……………………………………..……………………3
1.3 研究目的…………………………………..………………………5
1.4 章節引導…………………………………..………………………7
第二章、電磁波的相關知識及對健康影響的文獻探討…………………8
2.1 電磁波的概念…………………………………………..…………8
2.1.1 電磁波的形成……………………………….……………8
2.1.2 電磁波的種類………………………………….…………9
2.1.3 電磁波的分布及簡介……………………………………10
2.2 電磁波的規範………………………………………………….…14
2.2.1 國外對電磁波的規範……………………………………14
2.2.2 國內對電磁波的規範……………………………………21
2.3 電磁波對健康影響的探討……………………………….………23
2.3.1 極低頻(50-60Hz)的磁場對於人體的健康效應…..…23
2.3.2 使用行動電話可能造成的健康危害……………………24
2.3.3 電磁波可能造成的健康疾病……………………………27
2.3.4 針對齧齒類動物-老鼠做電磁波的相關實驗影響…..…33
第三章、研究分析………………………………………………..………36
3.1 電信通訊系統………………………………………….…………37
3.1.1 電磁波單位-SAR值……………..………………………37
3.1.2 基地台……………………………………………………40
3.1.3 手機大哥大………………………………………………43
3.2 短距離無線傳輸標準………………….…………………………44
3.2.1 IrDA標準…………………………………………………44
3.2.2 IEEE802.11標準…………………………………………46
3.2.3 Bluetooth標準……………………………………………48
3.2.4 其他無線傳輸標準………………………………………50
3.3 常用無線通訊-總整………………………………………………57
第四章、研究成果……………………………………..…………………59
4.1 電磁波實驗報告……………………………….…………………59
4.2 無線通訊影響健康的參數值……….……………………………61
4.3 無線通訊的干擾…………………………….……………………62
第五章、總結………………………………………………..……………63
5.1 電磁波的防範………………………….…………………………63
5.2 研究討論與結論……………………..……………………………65

參考文獻…………………………………………………..………………66
[1] 施幸宏,“環保署非屬原子能游離輻射污染之防制策略報告”,通訊雜誌,第三十三期,民國89年11月。
[2] 金忠孝,致病的吸引力‧電磁波,安立出版社,2000年9月。
[3] 李亞琳、林依萍、張武修,“日常環境電磁波風險認知調查”,通訊雜誌,第三十七期,90年8月。
[4] 蘇明俊、陳輝樺,”電磁波頻譜”,國立自然科學博物館簡訊,第164期,民國90年7月。
[5] International Commission on Non-Ionizing Radiation Protection: Guidelines for limiting exposure to time-varying electric, magnetic and electromagnetic fields. Health Physics 74:494-522, 1998.
[6] Guidelines for Evaluating the Environmental Effects of Radiofrequency Radiation (FCC 96-326), Federal Communications Commission, Washington, D.C., 1996. Available from the FCC web page.
[7] 程惠生,“輻射頻率電磁場標準簡介”,通訊雜誌,第二十九期,2000年3月。
[8] IEEE Standard for Safety level with Respect to Human Exposure to Radio Frequency Electromagnetic Fields, 3kHz to 300GHz, 1999.
[9] 環署空字3219號公告,”非游離輻射環境建議值”,民國90年1月12日。
[10] 交通部電信總局,”低功率射頻電機技術規範”,民國94年4月。
[11] Wertheimer N, L.E., Electrical wiring configurations and childhood cancer. American Journal of Epidemiology 1979 ; 109: 273-84.
[12] Matilainen P, J.J., Saarikoski S, Laara E, Suonio S., Early pregnancy loss and exposure to 50-Hz magnetic fields. Kuopio (Finland). Proceedings of the URSI/IEEE XVI national convention on radio science, 1990.
[13] Juutilainen J, M.P., Saarikoski S, Laara E, Suonio S., Early pregnancy loss and exposure to 50-Hz magnetic fields. Bioelectromagnetics 1993; 14: 229-236, 1993.
[14] Robert E, Birth defects and high voltage power lines: An exploratory study based on registry data. Reprod Toxicol 7: 283-287, 1993.
[15] Van Leeuwen, G.M., et al., Calculation of change in brain temperatures due to exposure to a mobile phone. Physics in Medicine & Biology 1999 Oct; 44(10): 2367-79.
[16] Hocking, B. and R. Westerman, Neurological abnormalities associated with mobile phone use. Occupational Medicine (Oxford) 2000 Jul; 50(5): 366-8.
[17] Oftedal, G., et al., Symptoms experienced in connection with mobile phone use. Occupational Medicine (Oxford) 2000 May; 50(4): 237-45.
[18] Hardell, L., et al., Use of cellular telephones and the risk for brain tumours: A case-control study [see comments]. International Journal of Oncology 1999 Jul; 15(1): 113-6.
[19] Urban, P., E. Lukas, and Z. Roth, Does acute exposure to the electromagnetic field emitted by a mobile phone influence visual evoked potentials? A pilot study. Central European Journal of Public Health 1998 Nov; 6(4): 288-90.
[20] de Seze, R., P. Fabbro-Peray, and L. Miro, GSM radiocellular telephones do not disturb the secretion of antepituitary hormones in humans. Bioelectromagnetics 1998;19(5): 271-8.
[21] MH Repacholi: Radiofrequency field exposure and cancer: What do the laboratory studies suggest? Environ Health Perspec 105:1565-1568, 1997.
[22] Vijayalaxmi et al: Frequency of micronuclei in the peripheral blood and bone marrow of cancer-prone mice chronically exposed to 2450 MHz radiofrequency radiation. Radiat Res 147: 495-500, 1997.
[23] Vijayalaxmi et al: Proliferation and cytogenetic studies in human blood lymphocytes exposed in vitro to 2450 MHz radiofrequency radiation. Int J Rad Biol 72:751-757, 1997.
[24] Vijayalaxmi, BZ Leal et al: Primary DNA damage in human blood lymphocytes exposed in vitro to 2450 MHz radiofrequency radiation. Radiat. Res. 153:479-486, 2000.
[25] CD Cain et al: Focus formation of C3H/10T1/2 cells and exposure to a 836.55 MHz modulated radiofrequency field. Bioelectromag 18:237-243, 1997.
[26] A Antonopoulos et al: Effects of high-frequency electromagnetic fields on human lymphocytes in vitro. Mutat Res 395:209-214, 1997.
[27] P Gos et al: No mutagenic or recombinogenic effects of mobile phone fields at 900 MHz detected in the yeast Saccharomyces cerevisiae. Bioelectromag 21:515-523, 2000.
[28] A Maes, M Collier et al: Cytogenetic investigations on microwaves emitted by a 455.7 MHz car phone. Folia Biol (Praha) 46:175-180, 2000.
[29] JL Roti Roti, RS Malyapa et al: Neoplastic transformation in C3H 10T1/2 cells after exposure to 835.62 MHz FDMA and 847.74 MHz CDMA radiations. Radiat Res 155:239-247, 2001.
[30] Vijayalaxmi, WF Pickard et al: Cytogenetic studies in human blood lymphocytes exposed in vitro to radiofrequency radiation at a cellular telephone frequency (835.62 MHz, FDMA). Radiat Res 155:113-121, 2001.
[31] A Maes and MVL Collier: Cytogenetic effects of 900 MHz (GSM) microwaves on human lymphocytes. Bioelectromag 22:91-96, 2001.
[32] JF Spalding et al: Effects of 800-MHz electromagnetic radiation on body weight, activity, hematopoiesis and life span in mice. Health Phys 20:421-424, 1971.
[33] S Szmigielski et al: Accelerated development of spontaneous and benzopyrene-induced skin cancer in mice exposed to 2450 MHz microwave radiation. Bioelectromag 3:179-191, 1982.
[34] RB Stagg, L Hawel et al: Effect of immobilization and concurrent exposure to a pulse-modulated microwave field upon core body temperature, plasma ACTH and corticosteroid and brain ornithine decarboxylase, c-fos, and c-jun mRNA. Radiat Res 155:584-592, 2001.
[35] RD Saunders, CI Kowalczuk et al: Studies on the induction of dominant lethals and translocations in male mice after chronic exposure to microwave radiation. Int J Radiat Biol 53:983-992, 1988.
[36] CG Liddle et al: Alteration of life span of mice chronically exposed to 2.45 GHz CW microwaves. Bioelectromag 15:177-181, 1994.
[37] CK Chou et al: Long-term, low-level microwave irradiation of rats. Bioelectromag 13:469-496, 1992.
[38] RY Wu et al: Effects of 2.45 GHz microwave radiation and phorbol ester 12-O-tetradecanoylphorbol-13-acetate on dimethylhydrazine-induced colon cancer in mice. Bioelectromag 15:531-538, 1994.
[39] JC Toler et al: Long-term low-level exposure of mice prone to mammary tumors to 435 MHz radiofrequency radiation. Radiat Res 148:227-234, 1997.
[40] MR Frei et al: Chronic exposure of cancer-prone mice to low-level 2450 MHz radiofrequency radiation. Bioelectromag. 19, 20-31, 1998.
[41] MR Frei et al: Chronic low-level (1.0 W/Kg) exposure of mammary cancer-prone mice to 2450 MHz microwaves. Rad Res 150:568-576, 1998.
[42] K Imaida et al: Lack of promoting effects of the electromagnetic near-field used for cellular phones (929.2 MHz) on rat liver carcinogenesis in a medium-term liver bioassay. Carcinogenesis 19:311-314, 1998.
[43] K Imaida et al: The 1.5 GHz electromagnetic near-field used for cellular phones does not promote rat liver carcinogenesis in a medium-term liver bioassay. Jap J Cancer Res 89:995-1002, 1998.
[44] WR Adey, CV Byus et al: Spontaneous and nitrosourea-induced primary tumors of the central nervous system in Fischer 344 rats chronically exposed to 836 MHz modulated microwaves. Radiat Res 152:293-302,1999.
[45] WR Adey, CV Byus et al: Spontaneous and nitrosourea-induced primary tumors of the central nervous system in Fischer 344 rats exposed to frequency-modulated microwave fields. Cancer Res. 60:1857-1863, 2000.
[46] JL Chagnaud, JM Moreau et al: No effect of short-term exposure to GSM-modulated low-power microwaves on benzo(a)pyrene-induced tumours in rat. Int J Radiat Biol 75:1251-1256, 1999.
[47] R Higashikubo, VO Culbreth et al: Radiofrequency electromagnetic fields have no effect on the in vivo proliferation of the 9L brain tumor. Radiat Res 152:665-671, 1999.
[48] CA Zook: The carcinogenicity of RF radiation to the brain of rats, Proc 11th Int Congress of Radiation Research, Radiation Research Society, Dublin, pg. 280, 1999.
[49] JR Jauchem, KL Ryan et al: Repeated exposure of C3H/HeJ mice to ultra-wideband electromagnetic pulses: Lack of effects on mammary tumors. Radiat Res 155:369-377, 2001.
[50] 胡漢升,”環境科學基本叢書之環境醫學”,科技圖書出版
[51] 沈豪,”環境科學基本叢書之環境物理”,科技圖書出版
[52] 吳霖堃,“電磁場、電磁波是否有害人體健康”,通訊雜誌,第三十七期,民國90年8月。
[53] 陳錦賢,“行動電話天線源發射與接收時之極低頻磁場鐵磁遮蔽量測與分析”,逢甲大學電機工程學系,民國93年5月,P.20
[54] IEEE Standards Coordinating Committee 28 on Non-Ionizing Radiation Hazards: Standard for safety levels with respect to human exposure to radio frequency electromagnetic fields, 3 kHz to 300 GHz (ANSI/IEEE C95.1-1991), The Institute of Electrical and Electronics Engineers, New York, 1992.
[55] 交通部電信總局,“行動電話業務無線電基地台審驗技術規範”,民國92年4月21日修訂。
[56] 李俊信,“非屬原子能游離輻射|桿上型變壓器、行動電話基地台及無線電視基地台產生電磁波之監測”,國立陽明大學放射醫學科學研究所,計畫編號:EPA-89-F106-03-1017
[57] 程惠生,“行動電話基地臺電磁波量測計畫”,通訊雜誌,第三十七期,民國90年8月。
[58] http://www.mcu.edu.tw/icwang/mobile/phs03.asp ,大眾電信PHS無線傳輸及MiMi行動通訊-電磁波的介紹與比較。
[59] Bluetooth SIG,工研院IEK-ITIS計畫,2004年11月。
[60] ZigBee Alliance,工研院經資中心ITIS計畫,2003年1月。
[61] ZigBee Alliance,工研院IEK,2004年2月。
[62] ZigBee Alliance,工研院經資中心ITIS計畫,2003年1月。
[63] 林山霖,”群蜂起舞 ZigBee技術發展現況”,零組件雜誌,第155期,民國92年9月。
[64] FCC,工研院IEK-ITIS計畫,2003年8月。
[65] MBOA、DS-CDMA,Philip,2004年1月。
[66] General Atomics,工研院IEK-ITIS計畫,2003年8月。
[67] 許績偉,”UWB技術發展特色”,IT IS產業服務網,2004年9月。
[68] 陳金德、錢嘉宏,”電磁干擾及電磁相容導論“,台大醫院醫學工程室。
[69] 程惠生,“台灣地區行動電話基地臺電磁波之調查”,通訊雜誌,第三十七期,民國90年8月。
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