1. | Hiroaki Niitsuma and Hiroyuki Saito, Evaluation of the Three-dimensional Configuration of a Subsurface Artificial Fracture by the Triaxial Shear Shadow Method,
Geophysics, Vol. 56 (1991), pp. 2118-2128. |
2. | Hiroaki Niitsuma and Hiroyuki Saito, Characterization of a Subsurface Artificial Fracture by the Triaxial Shear Shadow Method,
Geophysical Journal International, Vol. 107 (1991), pp.485-491. |
3. | Koji Nagano, Hiroyuki Saito and Hiroaki Niitsuma, Guided Waves Trapped in an Artificial Subsurface Fracture,
Geothermal Science and Technology, Vol. 5 (1995), pp. 63-70. |
4. | Hiroyuki Saito, Kazuo Hayashi, A. S. P. Green and R. H. Jones, Characterization of Fracture Permeability with Hydrophone VSP Data during Borehole Pumping,
Geothermal Resources Council Transactions, Vol. 22 (1998), pp.219-222. |
5. | Hiroyuki Saito and Kazuo Hayashi, Detection of a Reservoir Fracture by the Use of Sonic Log Data in EE-4, Higashi-Hachimantai,
Geothermal Resources Council Transactions, Vol. 23 (1999), pp.433-437. |
6. | Kazuo Hayashi, Shin Ito, Yoshiaki Tada, Hiroyuki Saito and Kazuhiko Tezuka, Fracture Characterization from Microseismic Events by using Fluid-Filled Crack Model with Fluid Leakage,
Geothermal Resources Council Transactions, Vol.24 (2000), pp. 137-142.. |
7. | Hiroyuki Saito, Satoru Suzuki and Kazuo Hayashi, Comparison of Traveltime Delay with Well Pressure Decline Sonic Logs in the Higashi-Hachimantai Geothermal Field,
Geothermal Resources Council Transactions, Vol.24 (2000), pp. 703-707.. |
8. | Hiroyuki Saito and Kazuo Hayashi, Sonic Log in a Fluid-filled Borehole with a Fracture Resulting from Hydraulic Fracturing,
Proceedings of the World Geothermal Congress 2000, (2000), pp. 2833-2838, Kyushu-Tohoku, Japan. |
9. | Hiroyuki Saito and Kazuo Hayashi, Dynamic Response of a Fluid-Filled Fracture by the Two-Dimensional Finite-Difference Method,
Geothermal Resources Council Transactions, Vol. 25 (2001), pp. 237-241.. |
10. | Shin Ito, Kazuo Hayashi and Hiroyuki Saito, Elastic Waves Radiating from a Penny-Shaped Reservoir Crack, Geothermal Resources Council Transactions, Vol. 26 (2002), pp. 303-308.. |
11. | Hiroyuki Saito and Kazuo Hayashi, Hydraulic Properties from Stoneley Wave Attenuation by using Permeable Fracture Zone Model, Geothermal Resources Council Transactions, Vol. 26 (2002), pp. 319-323.. |
12. | 伊藤 伸・林 一夫・齊藤玄敏・浅沼 宏・新妻弘明,地下き裂の振動特性を用いたき裂評価法と東八幡平フィールドへの応用,日本機会学会論文集(A編), 68巻 (2002), pp.1460-1465.. |
13. | Hiroyuki Saito and Kazuo Hayashi, A Method to Detect Formation Boundary and Permeable Fracture Based on Frequency Domain Stoneley Wave Logs, Proceedings of 6th SEGJ International Symposium -Imaging Technology-, (2003), pp. 59-64., Tokyo, Japan. |
14. | 飯倉善和・齊藤玄敏,システム補正されたランドサットTM画像の幾何的な精度,日本リモートセンシング学会誌,Vol.23,No.3(2003),pp.249-253.. |
15. | 飯倉善和・齊藤玄敏・丹波澄雄,放射照度の空間的な変動を考慮した衛星画像の地形効果補正,日本リモートセンシング学会誌,Vol.23,No.4(2003),pp.386-392.. |
16. | Hiroyuki Saito, Kazuo Hayashi and Yoshikazu Iikura, Detection of Formation Boundaries and Permeable Fractures Based on Frequency-Domain Stoneley Wave Logs, Exploration Geophysics, Vol.35, Butsuri-Tansa, Vol.57, No.1, Mulli-Tamsa, Vol.7, No.1, (2004), pp.45-50. |
17. | 飯倉善和・齊藤玄敏・飛田洋輔,海と陸の標本点の簡便な識別に基づく幾何補正の最適化,日本リモートセンシング学会誌,Vol.24,No.4(2004),pp.378-386.. |