研究生: |
翁伯凱 Po-kai Weng |
---|---|
論文名稱: |
穿透器數位訊號處理模組電路設計與製作 Design and Fabrication of the Digital Signal Processor in a Penetrator |
指導教授: |
邱士軒
Shih-Hsuan Chiu |
口試委員: |
黃衡宇
none 邱顯堂 Hsien-Tang Chiu 彭勝宏 none |
學位類別: |
碩士 Master |
系所名稱: |
工程學院 - 材料科學與工程系 Department of Materials Science and Engineering |
論文出版年: | 2005 |
畢業學年度: | 93 |
語文別: | 中文 |
論文頁數: | 96 |
中文關鍵詞: | 辨識 、數位訊號處理器 、模組電路 、穿透器 |
外文關鍵詞: | Distinguish., Digital Signal Processor, Group's Circuit, Penetrator |
相關次數: | 點閱:224 下載:0 |
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 |
研究中針對穿透器模組電路的設計與製作,考慮穿透器模組電路內體積的重要性與功能性,參考德州儀器的數位訊號處理器(Digital Signal Processor, DSP)F2812晶片手冊,設計以DSP為核心的基本模組電路,規劃相關的穿透器模組電路,具有RS422通訊模組、記憶體模組、類比/數位訊號轉換模組等功能,並測試驗證各模組電路正確性,加以整合後有效辨識出穿透狀態,適合應用於穿透器內的專用模組電路。
In this paper, we propose design and fabrication of the group's circuit in a penetrator, consider the importance and functionality of the volume in the group's circuit in a penetrator, consult the digital signal processor(DSP) of the Texas Instrument F2812 chip manual, designs the basic group's circuit taking DSP as the core, plans the relevant group's circuit in a penetrator, have RS422 communication group's circuit, memory of storing group's circuit, analog/digital signal change group's circuit, etc. function, test and verify group's circuit exactness, distinguish out and pierce through the state effectively after integration, suitable for applying to the special-purpose group's circuit in a penetrator.
1.黃衡宇,「智慧型攻堅引信關鍵技術整合先前研究報告」,民國90年。
2.Walz; Mark, Schoon, Richard J., “Explosively forged elongated penetrator”, U.S. Patent 5349908, September 27, 1994.
3.Parsons, Gary H., Glenn, Joseph Gregory, “Hard target penetrator with multi-segmenting casing cutter”, U.S. Patent 5698814, December 16, 1997.
4.Schmacker, Bruce E. , “Rocket-boosted guided hard target pnentrator”, U.S. Patent 6276277, August 21, 2001.
5.U.S. Patent S5255608, “Real-time identification of a medium for a high-speed penetrator”.
6.Stauers, Juris, Alfaro, Vincent R., “ Programmable fuze for projectile”, U.S. Patent 4237789, December 9, 1980.
7.Abt, Edgar J., Ramsey, Arlie A., “Fuze actuating system having a variable impact delay”, U.S. Patent 4580498, April 8, 1986.
8.Cesulka, John L., Williamson, Kenneth J., “Munitions success information system”, U.S. Patent 6453790, September 24, 2002.
9.Bruzzone, L., Roli, F., Serpico, S.B.Structured , “Neural networks for signal classification”, Signal Processing Volume: 64, Issue: 3, February, 1998, pp. 271-290.
10.Khandetsky, V., Antonyuk, I., “Signal processing in defect detection using back-propagation neural networks”, NDT and E International Volume: 35, Issue: 7, October, 2002, pp. 483-488.
11.Fantoni, P. F., Mazzola, A., “A pattern recognition-artificial neural networks based model for signal validation in nuclear power plants”, Annals of Nuclear Energy Volume: 23, Issue: 13, September, 1996, pp. 1069-1076.
12.Ciocan, R., Petulescu, P., Ciobanu, D., Roth, D.J., “The use of the neural networks in the recognition of the austenitic steel types”, NDT & E International Volume: 33, Issue: 2, March, 2000, pp. 85-89.
13.Dauce, Emmanuel, Quoy, Mathias, Cessac, Bruno, Doyon, Bernard; Samuelides, Manuel, “Self-organization and dynamics reduction in recurrent networks: stimulus presentation and learning”, Neural Networks Volume: 11, Issue: 3, April, 1998, pp. 521-533.
14.Serrano-Gotarredona, Teresa, Linares-Barranco, Bernabe, “A real-time clustering microchip neural engine”, Microelectronics and Reliability Volume: 37, Issue: 8, August, 1997, pp. 1285.
15.S. Senda, M. Minoh, I. Katsuo, “A fast algorithm for the minimum distance classifier and its application to Kanji character recognition”, Vol.1, pp.283 – 286(1995).
16.H. Lin, A.N. Venetsanopoulos, “A weighted minimum distance classifier for pattern recognition”, Vol.2, pp.904 – 907(1993).
17.C.A. Murthy, N. Chatterjee, B.U. Shankar, D.D. Majumder, “IRS image segmentation minimum distance classifier approach”, pp.781 – 784(1992).
18.李易儒,「多層介質即時辨識系統之研究─應用類神經網路」,碩士論文,台北,台灣科技大學,高分子工程研究所,民國92年。
19.彭啟忠,「以數位訊號處理器為基礎的多層介質穿透即時辨識系統之研究」,碩士論文,台北,台灣科技大學,高分子工程研究所,民國93年。
20.“TMS320F28x Serial Communication Interface(SCI) Peripheral Reference Guide”,Texas Instrument(2002).
21.“TMS320F28x Analog-to-Digital Converter(ADC) Peripheral Reference Guide”, Texas Instrument(2002).
22.探矽工作室,「2002嵌入式系統開發聖經」,民國91年。
23.“TPS767D301 Data Manual Reference Guide”,Texas Instrument(2004).
24.“TMS320F28x TMS320F28x Digital Signal Processors Data Manual Reference Guide”,Texas Instrument(2002).
25.“JTAG/MPSD Emulation Technical Reference”,Texas Instrument(1994).
26.“RS-422 and RS485 Application Note”,B&B Electronics(1997).
27. “eZdsp F2812 Technical Reference”, Spectrum Digital(2004).
28. “TMS320F28x Analog-to-Digital Converter(ADC) Peripheral Reference Guide”, Texas Instrument(2002).
29.Rafael C. Gonzalez, Richard E. Woods, “Digital Image Processing 2nd.”,pp.698 – 700(2003).