簡易檢索 / 詳目顯示
| 研究生: |
呂御瑋 Yu-Wei Lu |
|---|---|
| 論文名稱: |
微型空氣汙染系統開發分析研究 Development and Analysis of Micro Air Pollution Sense System |
| 指導教授: |
陳伶志
Chen, Ling-Jyh |
| 學位類別: |
碩士 Master |
| 系所名稱: |
資訊工程學系 Department of Computer Science and Information Engineering |
| 論文出版年: | 2013 |
| 畢業學年度: | 101 |
| 語文別: | 中文 |
| 論文頁數: | 34 |
| 中文關鍵詞: | 感應器 、一氧化碳 、二氧化碳 、空氣品質量測 、微型氣體感應器 |
| 論文種類: | 學術論文 |
| 相關次數: | 點閱:347 下載:26 |
| 分享至: |
| 查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報 |
氣體採樣是量測空氣品質的主要方法,透過採樣氣體的濃度可以作為評
估目前周遭環境對人體健康影響的參考依據,因此,如何準確,有效率的氣
體採樣,是主要的關鍵。目前採樣的方式有許多種,但主要還是透過專業的
定點氣體採樣檢測器,而這些專業採樣檢測器除了檢測準確率高之外,在價
格、體積和使用方式上往往受到許多限制。像是體積過於龐大並不適合隨身
攜帶,也並必須要使用有限的電源供應,無法長時間在戶外無法充電的環境
持續進行採樣。因此有介於專業檢測器的缺點,透過微型氣體感應器來進
行氣體採樣是未來生活中不可或缺的一項技術,微型氣體感應器除了低成
本方便體積小、低耗電、更重要的是微型氣體感應器可應用的範圍非常多
元化。所以本論文基於此目標進而開發出微型氣體感應器系統(Micro Air
Pollution Sensing System, MAPS),透過專業檢測器的實驗分析,並根據本論文的評估,顯現MAPS 的實用性和可用性,此外MAPS 的操作方便、容
易攜帶適用於各種環境下進行汙染量測之外。
[1] 空氣品質管理法, 行政院環境保護署環署空字第0940106804 號. http:// ivy5.epa.gov.tw/ epalaw/ search/ LordiDisp-Full.aspx?ltype=04lname=4310.
[2] Arduino. http://www.arduino.cc/.
[3] Environmental Health Perspectives. http:// ehp.niehs.nih.gov/ 121-a242-3/.
[4] Hanwei Electronics MQ-7 CO Sensor. https:// www.sparkfun.com/datasheets/Sensors/Biometric/mq-7.pdf.
[5] Hanwei Electronics MQ811 CO2 Sensor. http://www.parallax.com/portals/0/downloads/docs/prod/sens/co2sensordatasheetmg811.pdf
[6] IAQ-CALC Indoor Air Quality Meter, IAQ-7545. http://www.geotechenv.com/manuals/tsimanuals/calc.pdf:
[7] Low-Power Op-Amp, TLC271. http://www.ti.com/lit/ds/symlink/tlc271.pdf
[8] LUTRON electronic CO Meter , GCO-2008. http://www.sunwe.com.tw/lutron/gco-2008.pdf.
[9] LUTRON electronic CO2 Meter , GC-2028. http://www.sunwe.com.tw/lutron/gc-2028.pdf.
[10] National Oceanic and Atmospheric Administration, Mauna Loa Observatory, Hawaii. http:// www.esrl.noaa.gov/ gmd/ ccgg/ trends/mlodata
[11] Relay, TRB-5V-SB3-CD. http://www.tai-shing.com.tw/images/prod/relay/relay-trbspec:pdf:
[12] Voltage Regulator IC, LM7806. http://www.synthdiy.com/files/2006/lm7812.pdf.
[13] F.-O. Madre Deus, N.-S. Borker, and Verna. Multi-purpose robot for hostile environment monitoring and aid to rescue operations. ICCCE, 2012.
[14] P. Dutta, P. Aoki, N. Kumar, A. Mainwaring, C. Myers, W. Willett, and A. Woodruff. Common sense: participatory urban sensing using a network of handheld air quality monitors. ACM SenSys, 2009.
[15] D. Hasenfratz, O. Saukh, S. Sturzenegger, and L. Thiele. Participatory air pollution monitoring using smartphones. Mobile Sensing, 2012.
[16] D. Hasenfratz, O. Saukh, and L. Thiele. On-the-fly calibration of lowcost gas sensors. Springer EWSN, 2012.
[17] R.-J. Honicky, E.-A. Brewer, E. Paulos, and R.-M. White. Networked suite of mobile atmospheric real-time sensors. ACM NSDR, 2008.
[18] M.-A. Hussein. Using inexpensive home alarm for computer based carbon minoxide monitoring. 2012.
[19] T. Lai, C. Lin, Y. Su, and H.-C. BikeTrack. Tracking stolen bikes through everyday mobile phones and participatory sensing. ACM PhoneSense, 2011.
[20] D. Mage, G. Ozolins, P. Peterson, A. Webster, R. Orthofer, V. Vandeweerd, and M. Gwynne. Urban air pollution in megacities of the world. Elsevier Atmospheric Environment, 1996.
[21] J.-R. Morante. Chemical nanosensors and microsystems for air pollution detection. IMCS2012, 2012.
[22] J.-S. Otto, J.-P. Rula, and F.-E. Bustamante. C3r participatory urban monitoring from your car. 2009.
[23] H. Cha S. Choi, N. Kim and R. Ha. Micro sensor node for air pollutant monitoring: Hardware and software issues. Sensors MEMS, 2009.
