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研究生: 陳俊宇
研究生(外文): Jun-Yu Chen
論文名稱: 整合雲端語音控制與OBD-II車輛診斷系統之應用與實作
論文名稱(外文): The Application and Implementation of OBD-II Vehicle Diagnosis System Integrated with Cloud Speech Controlled Interface
指導教授: 陳璽煌
學位類別: 碩士
校院名稱: 樹德科技大學
系所名稱: 資訊工程系碩士班
論文出版年: 2011
畢業學年度: 99
語文別: 中文
論文頁數: 68
中文關鍵詞: 車載資通訊系統OBD-II語音控制雲端計算
外文關鍵詞: TelematicsOBD-IISpeech-Controlled InterfaceCloud Computing
相關次數:
  • 被引用:0
  • 點閱:44
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基於便利性與安全性的考量,語音聲控已經成為現今車用資訊系統操作介面的主流;然而,傳統的車載資通訊平台必需安裝語音辨識軟體方可達成完成語音聲控功能,此作法將產生語音辨識程式與車載資通訊平台系統間相容性的問題。因此,本論文提出『整合雲端語音控制與OBD-II車輛診斷系統之應用與實作』來解決此一問題,本論文所提之系統整合了雲端聲控輸入、雲端語音合成輸出、OBD-II車載診斷系統、3.5G網路通訊等車載資通訊相關模組,除了可提供駕駛者便利安全的人性化語音控制OBD-II車載診斷介面之外,還具有主動將汽車數據與故障訊息以合成語音報知,並將取得的OBD-II車載診斷資訊,包括引擎轉速、車速、水箱溫度、故障碼等透過3.5G網路回傳至雲端監控主機,維修人員可以利用雲端監控主機,即時掌握車輛的動態行車診斷資訊。本研究所完成的『整合雲端語音控制與OBD-II車輛診斷系統之應用與實作』對於使用中車輛污染檢驗、了解行車狀態、即時警告與排除車輛故障或車廠檢修維護等均有極高的應用價值。

For safety and convenience reasons, the use of speech controlled interface has become one of the main telematics development directions. However, traditional method to set up a telematics platform with speech controlled interface is to install speech recognition software. This will lead to the compatibility problem between speech recognition software and hardware platform. To overcome this problem, this paper developed and implemented a speech controlled interface with cloud computing technology for vehicle on-board diagnostic (OBD) system. The proposed system combines with cloud speech recognition, cloud speech synthesis, OBD-II, and 3.5G wireless network. In addition to provide a convenient speech controlled interface, the proposed system could actively notify the user of vehicle condition as well as fault code number in synthesis speech format. Meanwhile, the vehicle equipped with the proposed system will consistently report its OBD-II data, including engine rpm, vehicle speed, coolant temperature, fault code number, to the vehicle surveillance server via 3.5G network. Therefore, the vehicle surveillance server can provide real-time vehicle information retrieve service for authorized servicemen. The proposed system is very useful for the detection of vehicle pollution, warning of vehicle malfunction, remote diagnosis, and roadside repair.

摘要  I
ABSTRACT  II
致謝  IV
目錄  V
表目錄  VII
圖目錄  VIII
一、緒論  1
1.1 背景簡介  1
1.2 相關研究  3
1.3 研究方法  4
1.4 論文架構  5
二、OBD-II車載診斷系統  6
2.1 OBD發展歷史  7
2.2 OBD-II系統特色  11
2.3 OBD-II系統運作解析(車輛引擎端)  14
2.4 OBD-II系統運作解析(檢測儀端)  20
2.5 OBD-II系統診斷模式解析  28
2.6 OBD-II系統故障碼解析  41
三、雲端語音辨識及雲端語音合成系統  43
3.1 AMR語音編碼器  43
3.2 雲端語音辨識模組  46
3.3 雲端語音合成模組  51
四、實驗結果  53
4.1 實驗環境  53
4.2 雲端聲控前處理子系統  56
4.3 雲端聲控語音辨認合成子系統  58
4.4 系統整合說明  60
五、結論與未來工作  65
參考文獻  66


[1]中華民國交通部統計查詢網: http://stat.motc.gov.tw/mocdb/stmain.jsp?sys=100&funid=defjspa
[2]Diagnostic Trouble Code Definitions Equivalent to ISO/DIS 15031-6, SAE Standard J2012, 2002.
[3]E/E Diagnostic Test Modes — Equivalent to ISO/DIS 15031-5, SAE Standard J1979, 2002.
[4]Diagnostic Connector Equivalent to ISO/DIS 15031-3, SAE Standard J1962, 2002.
[5]BMW Technology Guide, iDrive:  http://www.bmw.com/com/en/insights/technology/technology_guide/articles/idrive.html
[6]Bentley Continental GTC: http://www.bentleymotors.com/models/continental_gtc/
[7]Ford SYNC: http://www.fordvehicles.com/technology/sync/
[8]Autoblog: http://www.autoblog.com/2007/01/07/detroit-auto-show-ford-sync/
[9]Shi-Huang Chen, Yu-Ru Wei, “A Study on Speech Control Interface for Vehicle On-Board Diagnostic System,” The Fourth International Conference on Genetic and Evolutionary Computing (ICGEC 2010), Dec. 13-15, 2010
[10]Chris Stock, VP Marketing, Environmental Systems Products, “Wireless OBDII and Remote Sensing Strategies for Next Generation Vehicle Inspection / Maintenance Programs, ” FACA Workgroup , Dec 13, 2006
[11]C. E. Lin, Y.-S. Shiao, C.-C. Li, S.-H. Yang, S.-H. Lin, C.-Y. Lin, “Real-Time Remote Onboard Diagnostics Using Embedded GPRS Surveillance Technology,” IEEE Trans. on Vehicular Technology, Vol. 56, No. 3, pp. 1108-1118, May 2007.
[12]C. E. Lin, C. C. Li, S. H. Yang, S. H. Lin; C. Y. Lin, “Development of On-Line Diagnostics and Real Time Early Warning System for Vehicles,” in Proc. IEEE Sensors for Industry Conference, pp. 45-51, Feb. 2005.
[13]Class B Data Communication Network Interface Equivalent to ISO-9141-2, SAE Standard J1850, 2001.
[14]Diagnostic System Part2: CARB requirement for interchange of digital information, ISO Standard 9141-2, 1994.
[15]L. R. Rabiner and B. H. Juang, Fundamentals of Speech Recognition, Prentice-Hall Inc., 1993.
[16]S.-N. Kim, I.-C. Hwang, Y.-W. Kim, S.-W. Kim, “A VLSI chip for isolated speech recognition system,” IEEE Trans. on Consumer Electronics, Vol. 42, No. 3, pp.458-467, Aug. 1996.
[17]M. Brown, R. Thorkildsen, Y. Oh, S. Ali, “The DTWP : An LPC based dynamic time warping processor for isolated word recognition,” In Proc. ICASSP’84, Vol. 9, Part 1, pp. 371-374, Mar 1984.
[18]Heiga Zen, Takashi Nose, Junichi Yamagishi, et al,” The HMM-basedSpeech Synthesis System (HTS) Version 2.0”,6th ISCA Workshop on Speech Synthesis, pp. 294-299,Aug 22-24, 2007.
[19]Satoshi Imai, “Cepstral Analysis Synthesis on the Mel Frequency Scale” , in Proc. of ICASSP, pp.93–96, 1983.
[20]3GPP TS 26.071: “AMR Speech Codec; General description.”
[21]3GPP TS 26.090: “Adaptive Multi-Rate (AMR) speech codec; Transcoding functions”.
[22]3GPP TS 26.101: “Adaptive Multi-Rate (AMR) speech codec frame structure.”
[23]B. Zheng, X. Q. Liu, H. L. Yang, “Research on the optimization of vehicle routing problem with multiconstraints based on improved ant algorithm,” IEEE/SOLI 2008, Vol. 2, pp.3042-3046, Oct. 2008.
[24]Bob Henderson and John Haynes, “OBD-II & Electronic Engine Management Systems (Haynes Techbook),” MOTORBOOKS INTL, 2006.
[25]H. Gilbert Miller and John Veiga, “Cloud Computing: Will Commodity Services Benefit Users Long Term?,” IT Professional, Vol. 11, No. 6, pp.57-59, Nov.-Dec. 2009.
[26]Jen-Tzung Chien, “Online hierarchical transformation of hidden Markov models for speech recognition,” IEEE Trans. on Speech and Audio Processing, Vol. 7, No. 6, pp.656-667, Nov. 1999.
[27]L. Rabiner and R. W. Schafer, Digital Processing of Speech Signals. New Jersey, Prentice-Hall, 1978.
[28]Roy Cox, “Introduction to OBD-II,” Cengage Learning, 2005.
[29]S. Gurumurthi, “Architecting Storage for the Cloud Computing Era,” IEEE Micro, Vol. 29, No. 6, pp. 68-71, Nov.-Dec. 2009.[27]Satoshi Imai, “Cepstral Analysis Synthesis on the Mel Frequency Scale” , in Proc. of ICASSP, pp.93–96, 1983.
[30]Scanmaster ELM v.0.4.0.0 - http://www.wgsoft.de
[31]Shawn M. Turner, William L. Eisele, Robert J. Benz, and Douglas J. Holdener, Travel Time Data Collection Handbook, Texas Transportation Institute, The Texas A&M University System College Station, Texas 77843-3135, 1998
[32]Wang Li, Wang Chuanjiu, Shen Xiaorong, and Fan Yuezu, “Probe vehicle sampling for real-time traffic data collection,” 2005 IEEE Intelligent Transportation Systems, pp.222-224, Sept. 2005.
[33]Y. Wang, G. Qin, Y. Dong, N. Huang, “Application and Simulation of Intelligent Ant Algorithm in Routing Choice,” WCICA 2006, Vol. 1, pp.1461-1464, 2006.
[34]安守中,進階GPS定位原理及應用, 全華圖書公司, 2005.
[35]黃靖雄、賴瑞海編著,電腦控制-現代汽油噴射引擎,全華圖書,2006年出版
[36]環保署環署空字第0950104861D號令『汽油及替代清潔燃料引擎汽車車型排氣審驗合格證明核發撤銷及廢止辦法』


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