Avila-Olivera. A .J. and V. H. Garduño-Monroy, 2008, A GPR study of subsidence-creep-fault processes in Morelia, Michoacán, Mexico:
Engineering Geology no.100, p.69-81.
Bai, D., Meju, M.A., and Liao, Z., Magnetotelluric images of deep crustal structure of the Rehai geothermal field near Tengchong, southern China, Geophys. J. Int., 147, 677-687, 2001.
Bulter. D. K., H. Benneet and J. H. Ballard, 2006,Overview of multimethod geophysical system developmentfor enhanced near-surface target detection, discrimination, and characterization:THE LEADING EDGE,march, p.352-356.
Carcione. J. M., Marcak. H, G.Seriani and G. Padoan., 2000:
geophysics, vol. 65, no.2, p.521-525.
Chang, C.R.Y., Ramey, H.J., 1979. Well interference test in the Chingshui geothermal field. Paper presented at Fifth Geothermal Reservoir Engineering Workshop, Stanford University, Stanford, CA, 64–76.
Chen, C.-S., Y. Jeng and L.-C. Chen, 2011, A new processing scheme for the ground penetrating radar technology to image geological features: Taiwan Mining Industry. (In Chinese with English abstract) ( In-press)
Chamberlain, A. T., W. Sellers, C. Proctor and R. Coard., 2000, Cave Detection in Limestone using Ground Penetrating Radar: Journal of Archaeological Science, vol.27, p. 957-964.
Clement. W. P., W. Barrash and M. D. Knoll, 2006, Reflectivity modeling of a ground-penetrating-radar profile of a saturated fluvial formation: Geophysics, vol.71, no.3,k59-k66.
Dabas. M., C. Camerlynck and P. F. Camps, 2000, Simultaneous use of electrostatic quadrupole and GPR in urban context: Geophysics, no.65, p.526-532.
Da Silva Cezar. G., P. L. Ferrucio da Rocha, A. Buarque, A. da Costa, 2001, Two Brazilian archaeological sites investigated by GPR: Journal of Journal of Applied Geophysics, no.47, p.227-240.
Dentith. M., A. O'Neill and D. Clark, 2010, Ground penetrating radar as a means of studying palaeofault scarps in a deeply weathered terrain, southwestern Western Australia: Journal of Applied Geophysics, no.72, p.92-101.
Gianni, V., Adele, M., Adolfo F., Investigation of geothermal structures by magnetotellurics (MT): an example from the Mt. Amiata area, Italy, Geothermics, 32, 131-145, 2003.
Harinarayana, T., Abdul Azeez, K.K., Naganjaneyulu, K., Manoj,C., Veeraswamy, K., Murthy, D.N., and Rao, S.P.E. , 2006, Exploration of geothermal structure in Puga geothermal field, Ladakh Himalayas, India by magnetotelluric studies, Journal of Applied Geophysics, 58, 280-295.
Hulsmeyer, C., 1904. German Patent Number 165546.
Jeng. Y., L.-C. Lin, Y.-W. Li, C.-S. Chen and H.-M. Yu, 2011, Application of sub-image multiresolution analysis of Ground-penetrating radar data in a study of shallow structures: Journal of Applied Geophysics, no.73, p.251-260.
Lester. J.and L. E. Bernold, 2007, Innovative process to characterize buried utilities using Ground Penetrating Radar: Automation in Construction, no.16, p.546-555
Mao. M-L Chan. Y-K, 2006 Geothermal energy potential in Taiwan p2.
McClymont. A. F., A. G. Green, A. Kaiser, H. Horstmeyer and R.
Langridge, 2010, Shallow fault segmentation of the Alpine fault zone,
New Zealand revealed from2- and 3-D GPR surveying: Journal of Applied Geophysics, no.70, p.343-354.
McMechan, G. A., R. G. Loucks, P. Mescher and X. Zeng., 2002, Characterization of a coalesced, collapsed paleocave reservoiranalog using GPR and well-core data: Geophysics, vol. 67, no. 4 p.1148–1158.
Neal, A., 2004, Ground-penetrating radar and its use in sedimentology:
principles, problems and progress: Earth-Science Reviews, vol.66, no.3-4, p.261-330.
Nuzzo, L., G. Leucci, S. Negri, M. T. Carrozzo and T. Quarta., 2002, Application of 3D visualization techniques in the analysis of GPR data for archaeology: Annals of Geophysics, vol.45, no.2, p.321-337.
Sato, M., Y. Hamada, X. Feng, F.-N. Kong, Z. Zeng and G. Fang, 2004 GPR using an array antenna for landmine detection: Near Surface Geophysics, vol.2, no.1, p.3-9.
Whiting. B.M., D. P.McFarland and S. Hackenberger, 2001, Three-dimensional GPR study of a prehistoric site in Barbados, West Indies: Journal of Applied Geophysics, no.47, p.217-226.
Xu. X., Q. Zeng, D. Li, J. Wu, X. Wu and J. Shen., 2010,
GPR detection of several common subsurface voids inside dikes and dams: Engineering Geology, vol.111, p.31-42.
Yen, Tsang-Po, etc., 1960, A stratigraphical study on the Tananao Schist innorthern Taiwan, Bulletin of the Geological Survey of Taiwan, 12, 53-66.
吳明儒,2001:透地雷達於污染及廢棄物之檢測應用:國立中央大 學應用地質研究所碩士論文,共 136 頁。
徐亞明與劉宗星,2004:GPR 在地下管線探測中的應用:繪測信息
馬公勉,2011:我國再生能源發展目標及其影響,共 30 頁。
唐周宜,2002:透地雷達測勘之小波與希伯特轉換整合分析:國立 臺灣師範大學碩士論文,共 97 頁。
楊潔豪,陳兆粘,王仲孙,林銘郎,1997:透地雷達探測技術與其 在土木工程上之非破壞檢測應用:檢測技術,第 15 期,106-119。
賴以平,2005:透地雷達數據之 S 轉換時頻譜解析與應用: 國立臺 灣師範大學碩士論文,共 86 頁。
江協堂,2008:清水地熱,蘭陽博物第 44 期,09 月電子報。
何春蓀,1975:臺灣地質概論,中華民國經濟部,118 頁。
林啟文、林偉雄,1993:五萬分之一台灣地質圖:南澳圖幅,經濟部 中央地質調查所。
林啟文、林偉雄,1995:五萬分之一台灣地質圖:三星圖幅,經濟部 中央地質調查所。
曾長生,1978:宜蘭縣清水及土場區地質及地熱產狀,台灣石油地質,
15,11-23。
張麗旭,1974:臺灣變質區第三系基於小型有孔蟲之生物地層學研究
(四:中央山脈最北部),中國地質學會會刊,17,85-93。
中央地質調所網站(網址:http://www.moeacgs.gov.tw)