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ⴭ ⴭ  ᭩ 1. 㰻⸨ග௦㸪௚ 2 ྡ㸭㝣ᇦࡢᆅᙧ࡜ᆅୗỈὶື࡟ᇶ࡙ࡃᾏᗏ‪Ỉࡢホ౯, ᑠ㊰῟࣭ᮡ ᮏு࣭ᐩỌಟ㸦⦅㸧ᆅୗỈ࣭‪Ỉࢆ௓ࡋࡓ㝣㸫ᾏࡢࡘ࡞ࡀࡾ࡜ே㛫♫఍㸭᪥ᮏỈ⏘ Ꮫ఍㸭2017 ᖺ 3 ᭶ 2. ᕝᮏඞஓ㸭බᐖ㜵Ṇࡢᢏ⾡࡜ἲつ ⦅㞟ጤဨ఍⦅㸸᪂࣭බᐖ㜵Ṇࡢᢏ⾡࡜ἲつ 2017 ࢲ࢖࢜࢟ࢩࣥ㢮⦅, ศᢸᇳ➹㸦Ϫ.1.4 ྾╔ฎ⌮㸧, pp.399-419㸭㸦୍♫㸧⏘ᴗ⎔ቃ⟶ ⌮༠఍㸭2017 ᖺ 1 ᭶ 3. ᕝᮏඞஓ㸭ᕷᕝ຾(┘ಟ)㸸ࣂ࢖࣐࢜ࢫࣜࣇ࢓࢖ࢼ࣮ࣜゐ፹ᢏ⾡ࡢ᪂ᒎ㛤ࠓᬑཬ∧ࠔ, ศᢸᇳ➹㸦2 ࣂ࢖࣐࢜ࢫࡢゐ፹࢞ࢫ໬ᢏ⾡㸧, pp.78-89㸭㸦ᰴ㸧ࢩ࣮࢚࣒ࢩ࣮ฟ∧㸭 2017 ᖺ 5 ᭶ 4. 㜿㒊ᏹྐ㸪Ặཎᓅே㸭⮬↛⅏ᐖ : ῶ⅏࣭㜵⅏࡜᚟ᪧ࣭᚟⯆࡬ࡢᥦゝ㸦ᢸᙜ❶㸸ὠ Ἴ㠀ᖖくᆅᇦࡢ㜵⅏ព㆑࡜ഛ࠼㸧㸭ᢏሗᇽ㸭2017 ᖺ 9 ᭶ 5. 䬢ཱྀ㍤ஂ㸪಴ᩜࡪࢇ࠿೜ᴦ㒊㸦ศᢸᇳ➹㸧㸭ᒸᒣᩥᗜ 306 ̿ᒸᒣࡢ㏆௦໬㑇⏘෌ Ⓨぢ㸭᪥ᮏᩥᩍฟ∧㸭2017 ᖺ 5 ᭶ ཎⴭㄽᩥ㸦ᰝㄞ࠶ࡾ㸧

1. K. Kimoto, K. Nakahata, T. Saitoh 㸭 An elastodynamic computational time-reversal method for shape reconstruction of traction-free scatterers 㸭 Wave Motion, vol.72, pp.23-40㸭2017 ᖺ 2. ẚỤᓥៅ஧㸪㧗ᯇᏹᙲ㸪኱⇃ᗈᶞ㸪ୖ⏣๛ឿ㸭ࢠࣕࣟࢵࣆࣥࢢ᣺ືࢆ⏝࠸ࡓ᣺ࡾᏊ ᘧỈὶⓎ㟁㸭ᅵᮌᏛ఍ㄽᩥ㞟 B3(ᾏὒ㛤Ⓨ)㸪Vol.73, No.1㸭2017 ᖺ 3. ⸨ཎᩧ㸪୰ᒣᩔ㑻㸪⸨஭㝯ྐ㸪⥤㔝ඞ⣖㸭㧗⅔ࢫࣛࢢࡀࢥࣥࢡ࣮ࣜࢺ୰ࡢ㗰ᮦ⭉㣗 ࡟୚࠼ࡿᙳ㡪㸭ࢥࣥࢡ࣮ࣜࢺᵓ㐀≀ࡢ⿵ಟ㸪⿵ᙉ㸪࢔ࢵࣉࢢ࣮ࣞࢻㄽᩥሗ࿌㞟㸪Vol. 17㸭᪥ᮏᮦᩱᏛ఍㸭2017 ᖺ

4. T. Fujii, M. Yamauchi, T. Ayano㸭Effect of Curing and Admixture on Freeze-Thaw Resistance of BFS Concrete㸭Proceedings of ICCM2017㸭ICCM2017㸭2017 ᖺ

5. T. Fujii, H. Fujiwara, T. Ayano㸭The effect of granulated blast furnace slag on chloride diffusivity of concrete㸭Advances in Construction Materials and Systems (Proceedings of

an International Conference (ICACMS 2017)), Vol. 3㸭ICACMS 2017㸭2017 ᖺ

6. ⥤㔝ඞ⣖㸪⸨஭㝯ྐ㸭㧗⅔ࢫࣛࢢ⣽㦵ᮦࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢ෾⤖⼥ゎస⏝ᚋࡢ Ỉ୰⑂ປ࡟㛵ࡍࡿ◊✲㸭ᮦᩱ㸪Vol.66㸪No.8㸭᪥ᮏᮦᩱᏛ఍㸭2017 ᖺ

7. T. Ayano, T. Fujii, K. Niitani, K. Takahashi, K. Hosotani㸭Improvement of Durability of Precast Concrete Member by Granulated Blast Furnace Slag Sand㸭Journal of Disaster Research, Vol.12, No.3㸭ᐩኈᢏ⾡ฟ∧㸭2017 ᖺ

8. ᒣෆᏲ㸪㔝ཱྀග᫂㸪⸨஭㝯ྐ㸪⥤㔝ඞ⣖㸭㧗⅔ࢫࣛࢢ⣽㦵ᮦࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺ ࡢ෾⤖⼥ゎ᢬ᢠᛶ࡟୚࠼ࡿ㣴⏕᪉ἲ࠾ࡼࡧቑ⢓๣ࡢᙳ㡪㸭ࢥࣥࢡ࣮ࣜࢺᕤᏛᖺḟ ㄽᩥ㞟㸪Vol.39㸪No.1㸭᪥ᮏࢥࣥࢡ࣮ࣜࢺᕤᏛ఍㸭2017 ᖺ 9. ᾆ㔝┿ḟ㸪⏣୰༤୍㸪⸨஭㝯ྐ㸪⥤㔝ඞ⣖㸭㧗⅔ࢫࣛࢢ⣽㦵ᮦࡀࢥࣥࢡ࣮ࣜࢺࡢࣇ ࣞࢵࢩࣗᛶ≧࡟ཬࡰࡍᙳ㡪㸭ࢥࣥࢡ࣮ࣜࢺᕤᏛᖺḟㄽᩥ㞟㸪Vol.39㸪No.1㸭᪥ᮏࢥ ࣥࢡ࣮ࣜࢺᕤᏛ఍㸭2017 ᖺ 10. ⸨஭㝯ྐ㸪⥤㔝ඞ⣖㸭㧗⅔ࢫࣛࢢᚤ⢊ᮎ࠾ࡼࡧࣇࣛ࢖࢔ࢵࢩࣗࡀ㧗⅔ࢫࣛࢢ⣽㦵ᮦ ࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢ෾⤖⼥ゎ᢬ᢠᛶ࡟୚࠼ࡿᙳ㡪㸭ࢭ࣓ࣥࢺࢥࣥࢡ࣮ࣜࢺㄽ ᩥ㞟㸪Vol.70㸭ࢭ࣓ࣥࢺ༠఍㸭2017 ᖺ 11. ᑠᯇ‶㸪すཎ┤ஓ㸪᪂ᮧ༟ஓ㸪⯓ᕝ㐓ᮁ㸪すᇉㄔ㸭ᆅ┙ෆࡢᙅⅬ⟠ᡤࢆㄪᰝࡍࡿ✵ Ẽᅽ㐃㏻ヨ㦂࡟㛵ࡍࡿỈᖹ୍ḟඖ࣒࢝ࣛࢆ⏝࠸ࡓᇶ♏ⓗᐇ㦂㸭ᆅ┙࡜ᘓタ㸪Vol.35㸪 No.1㸭ᆅ┙ᕤᏛ఍୰ᅜᨭ㒊㸭2017 ᖺ 12. ᑠᯇ‶㸪႐ከᾈᚿ㸪ᑠἨᆂ࿃㸭ヨ㦂Ꮝෆ࡛ࡢὀỈ࡟ࡼࡿ⌧ሙ㣬࿴≧ែཬࡧ᭷ຠ㛫㝽 ⋡ࡢ ᐃ᪉ἲ࡟㛵ࡍࡿ◊✲㸭ᆅ┙࡜ᘓタ㸪Vol.35㸪No.1㸭ᆅ┙ᕤᏛ఍୰ᅜᨭ㒊㸭2017 ᖺ

13. K. Koizumi, K. Sakuradani, K. Oda, M. Komatsu, S. Itoh 㸭 Relationship between quasi-saturated volumetric water content and rainfall-induced slope deformation based on a model slope experiment㸭Journal of GeoEngineering㸭Taiwan Geotechnical Society㸭 2017 ᖺ

14. 㔠⛃὚㸪ᑠᯘᘯᫀ㸪ຍ⸨ṇྖ㸪ᮔᐏ᏶㸪➉ୗ♸஧㸭⣽⢏ศྵ᭷⋡ࡀἙᕝሐ㜵ࡢᏳ඲ ᛶ࡟ཬࡰࡍᙳ㡪࡟㛵ࡍࡿ◊✲㸭ᆅ┙࡜ᘓタ, ᆅ┙ᕤᏛ఍୰ᅜᨭ㒊ㄽᩥሗ࿌㞟㸪 Vol.35㸪No.1㸭ᆅ┙ᕤᏛ఍୰ᅜᨭ㒊㸭2017 ᖺ

15. H. S. Park, B. S. Kim, S. W. Park㸭A simple method for estimating wetting path of soil water characteristic curve on unsaturated soils㸭Journal of Korean Geotechnical Society, Vol.33, No.6, pp. 37-48. (in Korean)㸭Korean Geotechnical Society㸭2017 ᖺ

16. ㉥✠Ⰻ㍜㸪๓㔝リᮁ㸪ྜྷ⏣ᆂ௓㸭‽୕ḟඖὥỈὶゎᯒࣔࢹࣝࢆ⏝࠸ࡓᾋᏊほ ὶ㔞 ࡢ㧗⢭ᗘ໬ᡭἲࡢᵓ⠏㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ)㸪Vol.73, No.4, I_517-I_522㸭ᅵ ᮌᏛ఍㸭2017 ᖺ 17. ྜྷ⏣ᆂ௓㸪๓㔝リᮁ㸪㛫㔝⪔ྖ㸪ᒣཱྀ⳹✑㸪㉥✠Ⰻ㍜㸭ALB ࢆ⏝࠸ࡓἙ㐨ᆅᙧィ  ࡢ⢭ᗘ᳨ド࡜ὶἣゎᯒࡢᨵၿຠᯝࡢ᳨ウ㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ)㸪Vol.73㸪 No.4㸪I_565-I_570㸭ᅵᮌᏛ఍㸭2017 ᖺ 18. ᕤ௦೺ኴ㸪๓㔝リᮁ㸪㉥✠Ⰻ㍜㸪ྜྷ⏣ᆂ௓㸭ࣇ࣮࢚ࣜゎᯒࢆ⏝࠸ࡓᒸᒣᕷἢᓊ࡟࠾ ࡅࡿὠἼࣆ࣮ࢡࡢࣜ࢔ࣝࢱ࢖࣒ண ἲࡢ᳨ウ㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ)㸪Vol.73㸪 No.4㸪I_1027-I_1032㸭ᅵᮌᏛ఍㸭2017 ᖺ 19. ᖹ஭ᗣ㝯㸪๓㔝リᮁ㸪ྜྷ⏣ᆂ௓㸪ᒾᇛᬛᗈ㸪ᑠᕝಟᖹ㸪㉥✠Ⰻ㍜㸭㐺ṇ࡞ศὶ㔞ࢆ

⥔ᣢࡍࡿࡓࡵࡢⓒ㛫ᕝศὶ㒊ࡢᅛᐃሖ࿘㎶࡟࠾ࡅࡿ᳜⏕⟶⌮᪉⟇ࡢ᳨ウ㸭ᅵᮌᏛ ఍ㄽᩥ㞟 B1㸦ỈᕤᏛ㸧㸪Vol.73㸪I_1081-I_1086㸭ᅵᮌᏛ఍㸭2017 ᖺ 20. ▼ᕝᛅᬕ㸪㉥✠Ⰻ㍜㸪ᑠᯘ⿱㈗㸭ᩘ್ࢩ࣑࣮ࣗࣞࢩࣙࣥ࡟ࡼࡿ᪥ᮏሐࢩࢫࢸ࣒ࡢὥ Ỉㄪᩚᶵ⬟ࡢホ౯㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ)㸪Vol.73㸪No.4㸪I_1387-I_1392㸭ᅵ ᮌᏛ఍㸭2017 ᖺ 21. 㣤ᖸᐩᗈ㸪๓㔝リᮁ㸪ྜྷ⏣ᆂ௓㸪㉥✠Ⰻ㍜㸪⏣஭♸௓㸭⫼㠃┒ᅵෆ࡟ࢪ࢜ࢸ࢟ࢫࢱ ࢖ࣝࢆేタࡋࡓ⢓ࡾᙉ࠸ᾏᓊሐ㜵ᵓ㐀ࡢ᳨ウ㸭ᅵᮌᏛ఍ㄽᩥ㞟 B2㸦ᾏᓊᕤᏛ㸧㸪 Vol.73(ᥖ㍕ணᐃ㸧㸭ᅵᮌᏛ఍㸭2017 ᖺ

22. R. Akoh, T. Ishikawa, T. Kojima, M. Tomaru, S. Maeno㸭High-resolution modeling of tsunami run-up flooding: A case study of flooding in Kamaishi City, Japan, induced by the 2011 Tohoku Tsunami 㸭 Nat. Hazards Earth Syst. Sci., 17, 1871-1883 㸭 European Geosciences Union㸭2017 ᖺ 23. ྜྷ⏣ᆂ௓㸪๓㔝リᮁ㸪㛫㔝⪔ྖ㸪ᒾᇛᬛ኱㸪ᑠᕝಟᖹ㸪㉥✠Ⰻ㍜㸭⯟✵࣮ࣞࢨ࣮  ῝ࢆ⏝࠸ࡓἙ㐨ࡢ᳜✀ศᕸࡢุᐃᡭἲࡢ᳨ウ㸭ᅵᮌᏛ఍ㄽᩥ㞟 A2㸦ᛂ⏝ຊᏛ㸧≉ 㞟ྕ(ᥖ㍕ணᐃ㸧㸭ᅵᮌᏛ఍㸭2018 ᖺ 24. ㉥✠Ⰻ㍜㸪๓㔝リᮁ㸪㧗ᶫᕦṊ㸪ྜྷ⏣ᆂ௓㸪▼ᕝᛅᬕ㸭ᚤᆅᙧࢆ⪃៖ࡋࡓỏ℃ゎᯒ ᡭἲࡢ᳨ウ࡜㨣ᛣᕝὥỈỏ℃ᇦࢆᑐ㇟࡜ࡋࡓᩘ್ᐇ㦂㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(Ỉᕤ Ꮫ)㸪Vol.74㸪No.4㸪㸦ᥖ㍕ணᐃ㸧㸭ᅵᮌᏛ఍㸭2018 ᖺ 25. ㉥✠Ⰻ㍜㸪๓㔝リᮁ㸪ᑠᕝಇ㸪ྜྷ⏣ᆂ௓㸭㒔ᕷỏ℃ゎᯒ࡟⏝࠸ࡿᘓ≀⩌ࡢ✵㝽⋡ࡢ タᐃ᪉ἲ࡟㛵ࡍࡿᐇ㦂ⓗ᳨ウ㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ)㸪Vol.74㸪No.4㸪㸦ᥖ㍕ண ᐃ㸧㸭ᅵᮌᏛ఍㸭2018 ᖺ 26. ᕤ௦೺ኴ㸪๓㔝リᮁ㸪㉥✠Ⰻ㍜㸪ྜྷ⏣ᆂ௓㸭⏝Ỉ㊰⥙ࡀ༡ᾏࢺࣛࣇᆅ㟈ୗࡢὠἼỏ ℃࡟୚࠼ࡿᙳ㡪ࡢ᳨ウ㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ)㸪Vol.74㸪No.4㸪㸦ᥖ㍕ணᐃ㸧㸭 ᅵᮌᏛ఍㸭2018 ᖺ 27. ྜྷ⏣ᆂ௓㸪๓㔝リᮁ㸪ᑠᕝಟᖹ㸪஭㛵⚞அ㸪㉥✠Ⰻ㍜㸭ALB Ⅼ⩌ࢆ⏝࠸ࡓᶞᮌ⩌ ࡢᐦ⏕ᗘ⟬ᐃἲࡢ᳨ウ㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ)㸪Vol.74㸪No.4㸪㸦ᥖ㍕ணᐃ㸧㸭 ᅵᮌᏛ఍㸭2018 ᖺ

28. L. Budinski, J. Fabian, K. Okubo, S. .RODNRYLü㸭Method for the Estimation of Dilution (IILFLHQF\IRU:DWHU4XDOLW\&RQWURO/DNH3DOLü&DVH6WXG\㸭Ergonomics Int Jࠊ1(1)㸭 Medwin Publishers㸭2017 ᖺ 29. ᑠ㔝ᑎ┿୍㸪ΎỈ⿱ኴ㸪㰻⸨ග௦㸪ఀ⸨ᾈᏊ㸪௚ 1 ྡ㸭኱㜰ᖹ㔝࡟࠾ࡅࡿὸᒙᆅୗ Ỉ㸫ୗỈ㐨஺ὶ㔞ࡢ᥎ᐃ㸭Kansai Geo-Symposium 2017 ㄽᩥ㞟㸭ᆅ┙ᕤᏛ఍㛵すᨭ 㒊㸭2017 ᖺ 30. ཭⃝⿱௓㸪ᑠ㔝ᑎ┿୍㸪㰻⸨ග௦㸪௚ 1 ྡ㸭኱㜰ἢᓊᆅୗỈ࡟࠾ࡅࡿỈ⣲࣭㓟⣲Ᏻ ᐃྠ఩యẚ࡜ሷ໬≀࢖࢜ࣥ⃰ᗘࡢศᕸ≉ᛶ㸭Kansai Geo-Symposium 2017 ㄽᩥ㞟㸭 ᆅ┙ᕤᏛ఍㛵すᨭ㒊㸭2017 ᖺ

31. H. M. Giang, T. Fujiwara, P. P. S. Toan㸭Municipal waste generation and composition in a tourist city ̽ Hoi An, Vietnam㸭 Journal of JSCE, 5(1)㸭ᅵᮌᏛ఍㸭2017 ᖺ

32. M. G. Hoang, T. Fujiwara, S. T. Pham, K. T. N. Thi㸭Waste generation predicting model with Bayesian model averaging㸭Global J. Environ. Sci. Manage., 3(4)㸭ISWA㸭2017 ᖺ 33. C. M. Mah, T. Fujiwara, C. S. Ho㸭Concrete Waste Management Decision Analysis Based

on Life Cycle Assessment㸭 Chemical Engineering Transactions (CET), 6(56)㸭IACE㸭 2017 ᖺ

34. C. M. Mah, T. Fujiwara, C. S. Ho㸭Construction and Demolition Waste Generation Rates for High-Rise Building in Malaysia㸭Waste Management & Research, 34(12)㸭ISWA㸭 2017 ᖺ

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36. N. H. Dang, L. T. T. Vi, T. V. C. Mai, Y. Matsui㸭Scenario analysis on operation efficiency for waste collection and transport: A case study in Da Nang city, Vietnam㸭J Environ Soc Sci. 2018;5(1), ISSN: 2454-5953㸦ᥖ㍕ணᐃ㸧㸭Open Science Publications㸭2018 ᖺ 37. Y. Matsui, L. H. Son, D. T. T. Trang, N. H. Dang, T. V. C. Mai, N. P. Thanh㸭An

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38. L. H. Son, Y. Matsui 㸭 Scenario Analysis on Greenhouse Gas Emission for Waste-to-Energy Alternatives in Japan㸭Sustainability in Environment 2018; 3(1), ISSN 2470-637X (Print), ISSN 2470-6388 (Online)㸦ᥖ㍕ணᐃ㸧㸭Scholink Inc.㸭2018 ᖺ 39. T. V. C. Mai, Y. Matsui㸭Behavior and attitudes on household solid waste recycling in Da

Nang city, Vietnam㸭Proceedings of 4th International Conference on Final Sinks (ICFS 2017)㸭International Solid Waste Association (ISWA), Japan Society of Material Cycles and Waste Management (JSMCWM), Kyoto University, National Taiwan University, and Vienna University of Technology㸭2017 ᖺ

40. ⚟Ọ⩧ኴ㸪⏣ෆ⿱ே㸪Ụ✀ఙஅ㸪ᖹ⏣೺ṇ㸪ᕝᮏඞஓ㸭ከ✀㢮ࡢ᥹Ⓨᛶ᭷ᶵ໬ྜ≀ ࡟ởᰁࡉࢀࡓᖏỈᒙ࡟࠾ࡅࡿཎ఩⨨ࣂ࢖࣓࢜ࣞࢹ࢕࢚࣮ࢩࣙࣥࡢί໬ຠᯝ㸭ᅵᮌ Ꮫ఍ㄽᩥ㞟 B(ỈᕤᏛ), Vol.73, No.4㸭ᅵᮌᏛ఍㸭2017 ᖺ

41. B. Lu, Y. Jub, T. Abe, K. Kawamoto㸭Hydrogen-enriched producer gas production and chemical conversion to useable gas product through biomass gasification using nano NiO particle dispersed on SBA-15㸭Journal of Nanoscience and Nanotechnology, Vol.17, No.9 㸭American Scientific Publishers㸭2017 ᖺ

42. B. Lu, Y. Jub, T. Abe, K. Kawamoto㸭Direct SEM observation of the dispersion of transition metal ion on mesoporous silica support 㸭 Journal of Nanoscience and Nanotechnology, Vol.17, No.9㸭American Scientific Publishers㸭2017 ᖺ

43. ᕝᮏඞஓ㸪ඖᮌಇᖾ㸭ప⃰ᗘⰾ㤶᪘⣔ VOC ࡟ᑐࡍࡿ⥲ᣓⓗ ᐃ᪉ἲ࡜ࡑࡢ㐺⏝㸭 ⎔ቃ໬Ꮫ,Vol.27, No.4㸭᪥ᮏ⎔ቃ໬Ꮫ఍㸭2017 ᖺ

44. A. Sano, H. Kuramochi, J. Kobayashi, R. Inaba, K. Kawamoto㸭Simulation of bioenergy technologies for different regional categories and technological assessment of combined system using ASPEN PLUS㸭Journal of Chemical Engineering of Japan, Vol.50, No.11㸭 ໬ᏛᕤᏛ఍㸭2017 ᖺ

45. I. Tamura, Y. Yasuda, K. Kagota, S. Yoneda, N. Nakada, V. Kumar, Y. Kameda, K. Kimura, N. Tatarazako, H. Yamamoto㸭Contribution of pharmaceuticals and personal care products

(PPCPs) to whole toxicity of the water samples collected in effluent-dominated urban streams㸭Ecotoxicology and Environmental Safety, vol.144, pp.338-350㸭Elsevier㸭2017 ᖺ 46. ୰ᓥ㑣ᯞ, ᶫᮏᡂோ㸭ࢥ࣑ࣗࢽࢸ࢕ࢧ࢖ࢡࣝࡢᑟධࡀࡲࡕࡢ㨩ຊ࡟୚࠼ࡿຠᯝ࡟ 㛵ࡍࡿ◊✲㸭㒔ᕷィ⏬ㄽᩥ㞟, Vol.52㸭᪥ᮏ㒔ᕷィ⏬Ꮫ఍㸭2017 ᖺ 47. ୰ᓥ㑣ᯞ, ᶫᮏᡂோ㸭㠀฼⏝⪅࡟╔┠ࡋࡓࢥ࣑ࣗࢽࢸ࢕ࢧ࢖ࢡࣝࡢࡲࡕࡢ㨩ຊ࡟ ୚࠼ࡿᙳ㡪࡟㛵ࡍࡿ◊✲㸭ᅵᮌᏛ఍ㄽᩥ㞟 D3 (ᅵᮌィ⏬Ꮫ), Vol.73㸭ᅵᮌᏛ఍㸭 2017 ᖺ 48. ᾏ㔝㐶㤶, ᶫᮏᡂோ㸭⏕ά㐨㊰㉮⾜᫬ࡢṌ⾜⪅ࡍࢀ㐪࠸࡟ࡼࡿࢻࣛ࢖ࣂ࣮ࡢࢫࢺ ࣞࢫ཯ᛂࡢせᅉ࡟㛵ࡍࡿ◊✲㸭ᅵᮌᏛ఍ㄽᩥ㞟 D3 (ᅵᮌィ⏬Ꮫ), Vol.73㸭ᅵᮌᏛ఍ 㸭2017 ᖺ 49. ㇂ᮏ⩧ᖹ㸪బ⸨ඞဢ㸪Ặཎᓅே㸪㜿㒊ᏹྐ㸭୰ᚰᕷ⾤ᆅ࡟࠾ࡅࡿ኱つᶍၟᴗ᪋タࡢ ฟᗑ࡟ࡼࡿṌ⾜⪅㏻⾜㔞࡬ࡢᙳ㡪㸭㒔ᕷィ⏬ㄽᩥ㞟, Vol.52-3, pp.255-262㸭㒔ᕷィ ⏬Ꮫ఍㸭2017 ᖺ 50. ࿴Ềᝆ㸪Ặཎᓅே㸪㜿㒊ᏹྐ㸭͆ఫᏯᆅࡢࡘࡃࡽࢀ᪉͇࠿ࡽࡳࡓ᧔㏥ࣃࢱ࣮ࣥࡢࣔ ࢹࣝ໬㸭㒔ᕷィ⏬ㄽᩥ㞟, Vol.52-3, pp.1029-1035㸭㒔ᕷィ⏬Ꮫ఍㸭2017 ᖺ 51. ⏣㑓ಙ⏨㸪㜿㒊ᏹྐ㸪Ặཎᓅே㸭ᕷẸࣇ࢓ࣥࢻࡢᐤ௜ࣉࣟࢢ࣒ࣛࡢ㐠Ⴀᐇែ࡜㢮ᆺ ໬࡟ࡼࡿഴྥศᯒ㸭㒔ᕷィ⏬ㄽᩥ㞟, Vol.52-3, pp.668-675㸭㒔ᕷィ⏬Ꮫ఍㸭2017 ᖺ 52. ᡞ㇂ᐋ㈗㸪䬢ཱྀ㍤ஂ㸪㤿ሙಇ௓㸭㧗ᱱᕝᮾす⏝Ỉ࡟࠾ࡅࡿྛ⏝Ỉ㊰࡜㓇ὠ䬢㛛ࡢタ ィ㐣⛬㸭ᅵᮌᏛ఍ㄽᩥ㞟 D2㸦ᅵᮌྐ㸧㸪Vol.73,No.1㸭ᅵᮌᏛ఍㸭2017 ᖺ ཎ ཎⴭㄽᩥ㸦ᰝㄞ࡞ࡋ㸧 1. ẚỤᓥៅ஧㸭ࢠࣕࣟࢵࣆࣥࢢࡢཎ⌮ࢆ฼⏝ࡋࡓ㠉᪂ⓗ࡞ࢱ࣮ࣅࣥࣈ࣮ࣞࢻ㸭ᅵᮌ Ꮫ఍ᖺḟᏛ⾡ㅮ₇఍ㅮ₇ᴫせ㞟㸪➨ 1 㒊㸪Vol.72㸭2017 ᖺ

2. S. T. P. Phu, M. G. Hoang, T. Fujiwara㸭Commercial Solid Waste Generation and Composition Practice in a Tourism City ̽ Hoi An, Vietnam㸭7th IconSWM 2017 (International Conference on Solid Waste Management)㸭International Society of Waste Management, Air and Water (SWMAW)㸭2017 ᖺ

3. S. T. P. Phu, M. G. Hoang, T. Fujiwara㸭A Comparison of Solid Waste Generation between Types of Hotel in Hoian Ancient City, Vietnam㸭➨ 28 ᅇᗫᲠ≀㈨※ᚠ⎔Ꮫ఍◊✲Ⓨ⾲ ㅮ₇㞟, 28㸭ᗫᲠ≀㈨※ᚠ⎔Ꮫ఍㸭2017 ᖺ

4. N. T. V. Phuoc, T. Fujiwara㸭Scenario Evaluation of Waste Composting and Incineration with Separation in Hoi An city㸭⎔ቃ⾨⏕ᕤᏛ◊✲, 31(3)㸭ி㒔኱Ꮫ⎔ቃ⾨⏕ᕤᏛ◊ ✲఍㸭2017 ᖺ

5. ᒣୗᬛ⩏㸪⸨ཎ೺ྐ㸭ᆅᇦᚠ⎔ᆺ♫఍ᙧᡂ࡟ྥࡅࡓᮌ㉁⣔ࣂ࢖࣐࢜ࢫࣜࢧ࢖ࢡࣝ஦ ᴗࡢᣢ⥆ྍ⬟ᛶホ౯㸭➨ 45 ᅇ⎔ቃࢩࢫࢸ࣒◊✲ㄽᩥⓎ⾲఍ㅮ₇㞟㸭ᅵᮌᏛ఍㸭 2017 ᖺ

6. S. T. P. Phu, T. Fujiwara, G. H. Minh㸭Waste Separation at Source Practice and Recycling Potential of The Hotel Industry in Hoi An Ancient City, Vietnam㸭Conference book of 4th International Conference on Final Sinks㸭4th International Conference of Final Sinks㸭

2017 ᖺ

7. 㕥ᮌ࿴ᑗ㸪⸨ཎ೺ྐ㸪ᕝᮏඞஓ㸭࢞ࢫ໬ᨵ㉁ᢏ⾡࡟ࡼࡿ࢞ࢫ⏕⏘ࢆ᰾࡜ࡋࡓᗫᲠ≀ ฎ⌮࣭࢚ࢿࣝࢠ࣮ᅇ཰ࢩࢫࢸ࣒࡟㛵ࡍࡿ◊✲㸭Ꮨห඲ᅜ⎔ቃ◊఍ㄅ, Vol.42, No.3㸭 ඲ᅜ⎔ቃ◊༠㆟఍㸭2017 ᖺ

8. S. Hashimoto, N. Atsumi, S. Yoshiki㸭Relation between Willingness for Out-of-the-home Leisure.㸭The International Conference on Engineering and Applied Sciences 2017㸭The International Conference on Engineering and Applied Sciences㸭2017 ᖺ

9. T. Nishiura, S. Hashimoto㸭Evaluation of Colored Pavement on Residential Streets㸭The International Conference on Engineering and Applied Sciences 2017㸭The International Conference on Engineering and Applied Sciences㸭2017 ᖺ

10. S. Hashimoto, N. Atsumi, S. Yoshiki 㸭 Relationship between Willingness for Out-of-the-Home Leisure Activities and Subjective Well-Being of Elderly People 㸭 International Research Symposium on Engineering and Technology 2017㸭International Research Symposium on Engineering and Technology㸭2017 ᖺ

11. Y. Zhang, H. Uno, S. Hashimoto㸭Factors Influencing Driver Safety Awareness of Hands-Free Cell Phone Use While Driving 㸭 International Research Symposium on Engineering and Technology 2017㸭International Research Symposium on Engineering and Technology㸭2017 ᖺ

12. H. Uno, Y. Zhang, S. Hashimoto㸭Relation between Driver Features and Safe Driving㸭 International Research Symposium on Engineering and Technology 2017㸭International Research Symposium on Engineering and Technology㸭2017 ᖺ

13. 䬢ཱྀ㍤ஂ㸪ᶓᡭㄹ㸪㤿ሙಇ௓㸭಴Ỉ㛛ࡢ᧔ཤ࡟࠶ࡓࡗ࡚㸭ᅵᮌྐ◊✲㸦ㅮ₇㞟㸧㸪 Vol.37㸭ᅵᮌᏛ఍㸭2017 ᖺ 14. 䬢ཱྀ㍤ஂ㸪ᒣ⛉┤⏕㸪⛅⏣ဴᚿ㸭㏆ୡ᭱኱ࡢ◁㜵᪋タ⩌ู͆ᡤ◁␃͆㸦➨஧ሗ㸧̿ ୐ ␒◁␃ࡢಟ᚟࡜௒ᚋࡢ⥔ᣢ⟶⌮࡟ࡘ࠸࡚̿㸭ᅵᮌྐ◊✲㸦ㅮ₇㞟㸧㸪Vol.37㸭ᅵᮌᏛ ఍㸭2017 ᖺ ⥲ ⥲ㄝ➼ 1. ⥤㔝ඞ⣖㸪஧஭㇂ᩍ἞㸪⣽㇂ከ៞㸪㧗ᶫඞ๎㸭㧗⅔ࢫࣛࢢ⣽㦵ᮦࢆ⏝࠸ࡓࣉࣞ࢟ࣕ ࢫࢺ㒊ᮦࡢ◊✲㛤Ⓨ㸭ࣉࣞࢫࢺࣞࢫࢺࢥࣥࢡ࣮ࣜࢺ㸪Vol.59㸪No.6㸭ࣉࣞࢫࢺࣞࢫ ࢺࢥࣥࢡ࣮ࣜࢺᕤᏛ఍㸭2017 ᖺ 2. ᑠᯇ‶㸭⌧ሙ㏱Ỉヨ㦂㸭ᆅ㉁࡜ㄪᰝ㸪148 ྕ㸭඲ᅜᆅ㉁ㄪᰝᴗ༠఍㐃ྜ఍㸭2017 ᖺ 3. ⸨ཎ೺ྐ㸭ᮾ༡࢔ࢪ࢔࡟࠾ࡅࡿᗫᲠ≀࣐ࢿࢪ࣓ࣥࢺࡢ᭱㏆ࡢືྥ㸭⎔ቃᢏ⾡, 46(6) 㸭⎔ቃᢏ⾡Ꮫ఍㸭2017 ᖺ 4. ᯇ஭ᗣᘯ㸭3R࣭4R య㦂࢖࣋ࣥࢺ࡟ࡼࡿᬑཬၨⓎຠᯝ࡜ࡑࡢ㛵㐃せᅉࡢ᳨ウ㸭㒔ᕷ Ύᤲ, ➨ 70 ᕳ➨ 337 ྕ㸭බ┈♫ᅋἲே඲ᅜ㒔ᕷΎᤲ఍㆟㸭2017 ᖺ 5. ᕝᮏඞஓ㸭ᖺ㢌ᡤឤ, ᢏ⾡࡜ᗫᲠ≀㈨※ᚠ⎔㸭ᗫᲠ≀㈨※ᚠ⎔Ꮫ఍ㄅ, Vol.28, No.1 㸭ᗫᲠ≀㈨※ᚠ⎔Ꮫ఍㸭2017 ᖺ 6. ᕝᮏඞஓ㸭ࢲ࢖࢜࢟ࢩࣥ㢮ࡢ⏕ᡂ࣭᤼ฟ࠾ࡼࡧࡑࡢᢚไᑐ㸫ࡇࡢ 20 ᖺࢆ᣺ࡾ㏉ࡿ 㸭⏕ά࡜⎔ቃ, Vol.62, No.3㸦㏻ᕳ 731 ྕ㸧㸭᪥ᮏ⎔ቃ⾨⏕ࢭࣥࢱ࣮㸭2017 ᖺ

7. ᕝᮏඞஓ㸭పⅣ⣲♫఍࡟ྥࡅࡓᗫᲠ≀ฎ⌮࠾ࡼࡧ㈨※࣭࢚ࢿࣝࢠ࣮෌⏕ᢏ⾡ࡢᒎ㛤 㸭㒔ᕷΎᤲ, Vol.70, No.338㸭඲ᅜ㒔ᕷΎᤲ఍㆟㸭2017 ᖺ 8. 䬢ཱྀ㍤ஂ㸭ᒸᒣࡢᩥ໬㈈ࢩ࣮ࣜࢬ 139 ̿ ᮾす⏝Ỉ㓇ὠ䬢㛛㸭ࡁࡧ㔝㸪Vol.144㸭ᒸ ᒣ┴㒓ᅵᩥ໬㈈ᅋ㸭2017 ᖺ 9. 䬢ཱྀ㍤ஂ㸭ูᡤ◁␃ ̿ఫẸ࡟ࡼࡗ࡚Ⓨぢࡉࢀࡓ㏆ୡ᭱኱ࡢ◁㜵ሖሐ⩌̿㸭ᅵᮌᏛ ఍ㄅ, Vol.102, No.2㸭ᅵᮌᏛ఍㸭2017 ᖺ 10. 䬢ཱྀ㍤ஂ㸭ᖹᡂࡢᬑㄳࠕูᡤ◁␃ࢆᏲࡿ఍ࠖࡢάື ̿㏆ୡ᭱኱ࡢ◁㜵᪋タࢆᏲࡾࠊ ᆅᇦࡢάᛶ໬ࢆᅗࡿ̿㸭ᅵᮌᏛ఍ㄅ, Vol.102, No.12㸭ᅵᮌᏛ఍㸭2017 ᖺ ᣍ ᣍᚅㅮ₇ࡲࡓࡣᇶㄪㅮ₇ 1. ẚỤᓥៅ஧㸭㔛ᾏ࢚ࢿࣝࢠ࣮㸦ࣈ࣮࢚ࣝࢿࣝࢠ࣮㸧ࡢά⏝㸭࠾࠿ࡸࡲ࢚ࢿࣝࢠ࣮ࡢ ᮍ᮶ࢆ⪃࠼ࡿ఍(࢚ࢿ࣑ࣛ) ேᮦ⫱ᡂㅮᗙ㸭ᒸᒣᕷ㸭2017 ᖺ 6 ᭶ 2. ẚỤᓥៅ஧㸭℩ᡞෆᾏࡢ₻ὶ฼⏝㸭㈨※࢚ࢿࣝࢠ࣮ࢩ࣏ࣥࢪ࣒࢘㸭ᮾᗈᓥᕷ㸭 2017 ᖺ 7 ᭶ 3. 㰻⸨ග௦㸪௚ 2 ྡ㸭ἢᓊᾏὒᏛ࡜Ỉᩥ⛉Ꮫࡢ⼥ྜ࡟㛵ࢃࡿ◊✲ࡢ⌧≧࡜௒ᚋࡢᒎᮃ 㸭᪥ᮏỈᩥ⛉Ꮫ఍Ꮫ⾡኱఍㸭㥖⃝኱Ꮫ㸭2017 ᖺ 10 ᭶

4. T. Fujiwara㸭Regional Sound Material Cycle Activities of Biomass Waste in Japan㸭The 3rd ATiGB 2017 (National Scientific Conference on Applying New Technology in Green Buildings)㸭College of technology, the University of Da Nang, Vietnam㸭2017 ᖺ

5. K. Kawamoto㸭Biomass and waste management and energy recovery㸭The Eighth Jordan International Chemical Engineering Conference㸭Amman, ࣚࣝࢲࣥ㸭2017 ᖺ 11 ᭶ 6. ᶫᮏᡂோ㸭஺㏻ィ⏬⟇ᐃ࡟࠾ࡅࡿ␃ពⅬ㸭ᅜᅵ஺㏻኱Ꮫ㸭ᗈᓥᕷ㸭2017 ᖺ 7. ᶫᮏᡂோ㸭Ꮚ࡝ࡶࡢ஺㏻஦ᨾࢆ㜵ࡄ஺㏻Ᏻ඲ᩍ⫱࣭஺㏻Ᏻ඲ᑐ⟇㸭ᒸᒣ┴㸭ᒸᒣᕷ 㸭2017 ᖺ 8. 䬢ཱྀ㍤ஂ㸭ࢃࡀᅜࡢ◁㜵ྐ࡟࠾ࡅࡿูᡤ◁␃ࡢ఩⨨࡙ࡅ㸭ഛ㝧ྐ᥈ゼࡢ఍㸭ᗈᓥ ┴❧ⲡᡞ༓㌺༤≀㤋㸭2017 ᖺ 1 ᭶ 9. 䬢ཱྀ㍤ஂ㸭ᅵᮌ㑇⏘ࡢಖᏑ࡜ά⏝㸭⏘ᴗ⪃ྂᏛ఍㸭಴ᩜᕷ❧⨾⾡㤋ㅮᇽ㸭2017 ᖺ 9 ᭶ ◊✲ㅮ₇࣭Ⓨ⾲ 1. ᮌᮏ࿴ᚿ㸪బ⸨ᛅಙ㸭ᒾ▼ᮦᩱ୰ࢆ㏱㐣ࡍࡿἼືࡢ఩┦≉ᛶ㸭ᛂ⏝ຊᏛࢩ࣏ࣥࢪ࢘ ࣒㸭ி㒔኱Ꮫ㸭2017 ᖺ 5 ᭶ 2. Ἑ㔝㞙ஓ㸪ᮌᮏ࿴ᚿ, ᮌ಴ᏹᡂ㸭⇞ᩱࢹࣈࣜࡢᙧ≧෌ᵓ⠏࡟ྥࡅࡓ㉸㡢Ἴྍど໬ᢏ ⾡ࡢ㛤Ⓨ㸭᪥ᮏཎᏊຊᏛ఍ 2017 ᖺ⛅ࡢ኱఍㸭໭ᾏ㐨኱Ꮫ㸭2017 ᖺ 9 ᭶ 3. ୰ᓥ၏୍㸪ᮌᮏ࿴ᚿ㸭㛫㝽Ỉศᕸࡢ⪃៖ࡋࡓ୙㣬࿴ከᏍ㉁యࡢ⇕ఏᑟゎᯒ㸭ᅵᮌᏛ ఍୰ᅜᨭ㒊◊✲Ⓨ⾲఍㸭ᗈᓥ኱Ꮫ㸭2017 ᖺ 5 ᭶ 4. ᘅ⏣ᙲஂ㸪ᮌᮏ࿴ᚿ㸭࣐࢖ࢡࣟࢡࣛࢵࢡࡀⰼᓵᒾࡢᙎᛶἼఏ᧛≉ᛶ࡟ཬࡰࡍᙳ㡪㸭 ᅵᮌᏛ఍୰ᅜᨭ㒊◊✲Ⓨ⾲఍㸭ᗈᓥ኱Ꮫ㸭2017 ᖺ 5 ᭶ 5. ᘅ⏣ᙲஂ㸪ᮌᮏ࿴ᚿ㸪ᮌᮧ㥴㸪ᮌ಴ᏹᡂ㸭㣬࿴࣋ࣥࢺࢼ࢖ࢺࡢྵỈ㔞࡜ᙎᛶἼ㏿ᗘ

ࡢ㛵ಀ㸭ᅵᮌᏛ఍୰ᅜᨭ㒊◊✲Ⓨ⾲఍㸭ᗈᓥ኱Ꮫ㸭2017 ᖺ 5 ᭶ 6. Ἑ㔝㞙ஓ㸪ᮌᮏ࿴ᚿ, ᮌ಴ᏹᡂ㸭⇞ᩱࢹࣈࣜࡢᙧ≧෌ᵓ⠏࡟ྥࡅࡓ㉸㡢Ἴྍど໬ᢏ ⾡ࡢ㛤Ⓨ㸭ᅵᮌᏛ఍୰ᅜᨭ㒊◊✲Ⓨ⾲఍㸭ᗈᓥ኱Ꮫ㸭2017 ᖺ 5 ᭶ 7. ୰ᮧ㝯ྐ㸪ᮌᮏ࿴ᚿ㸭ࣛࢫࣅ࣮ࢬࢆ⏝࠸ࡓᐇ㦂࡟ࡼࡿ୙㣬࿴◁ࡢ⇕ఏᑟ≉ᛶࡢ◊✲ 㸭ᅵᮌᏛ఍୰ᅜᨭ㒊◊✲Ⓨ⾲఍㸭ᗈᓥ኱Ꮫ㸭2017 ᖺ 5 ᭶ 8. ᮌᮧ㥴㸪໭ᒣ୍⨾㸪㧗ᶫ⚽἞㸪ᮌᮏ࿴ᚿ㸪Ἑᮧ㞝⾜㸪ᮌ಴ᏹᡂ㸭㉸㡢Ἴ㡢㏿ࢆ⏝࠸ ࡓᅽ⦰࣋ࣥࢺࢼ࢖ࢺ⦆⾪ᮦࡢྵỈẚཬࡧᙎᛶ≉ᛶィ ࡟㛵ࡍࡿᇶ♏◊✲㸭ᅵᮌᏛ ఍୰ᅜᨭ㒊◊✲Ⓨ⾲఍㸭ᗈᓥ኱Ꮫ㸭2017 ᖺ 5 ᭶ 9. ᯇ஭⿱ဢ㸪ᑿᓮ⿱௓㸪ᮌᮏ࿴ᚿ㸪ᕷᕝᗣ᫂㸭⾲㠃Ἴィ ࡟ࡼࡿ⤖ᬗ㉁ᒾࡢ≀ᛶホ౯ ࡟ྥࡅࡓᇶ♏ⓗ᳨ウ㸭➨ 66 ᅇ᪥ᮏᮦᩱᏛ఍Ꮫ⾡ㅮ₇఍㸭ྡᇛ኱Ꮫ㸭2017 ᖺ 5 ᭶ 10. ᯇ஭⿱ဢ㸪ᑿᓮ⿱௓㸪ᮌᮏ࿴ᚿ㸪ᕷᕝᗣ᫂㸭⇞ᩱࢹࣈࣜࡢᙧ≧෌ᵓᡂࢆ┠ⓗ࡜ࡋࡓ 3 ḟඖ㛤ཱྀྜᡂἲࡢ㛤Ⓨ㸭➨ 64 ᅇ⌮ㄽᛂ⏝ຊᏛㅮ₇఍㸭ᶵᲔ᣺⯆఍㤋㸭2017 ᖺ 8 ᭶ 11. ⸨஭㝯ྐ㸪ᇼỈ⣖㸪⸨ཎᩧ㸪⥤㔝ඞ⣖㸭ⷧ∦౪ヨయࢆ⏝࠸ࡓࣔࣝࢱࣝ୰ࡢሷ໬≀࢖ ࢜ࣥࡢぢ࠿ࡅࡢᣑᩓಀᩘヨ㦂᪉ἲࡢ᳨ウ㸭➨ 71 ᅇࢭ࣓ࣥࢺᢏ⾡኱఍㸭ᮾி㒔㸭 2017 ᖺ 5 ᭶ 12. 㔠⛃὚㸪ᑠᯘᘯᫀ㸪ຍ⸨ṇྖ㸪➉ୗ♸஧㸭⣽⢏ศྵ᭷⋡ࡀἙᕝሐ㜵ࡢᏳ඲ᛶ࡟ཬࡰ ࡍᙳ㡪࡟㛵ࡍࡿ◊✲㸭ᆅ┙ᕤᏛ఍➨ 52 ᅇᆅ┙ᕤᏛ◊✲Ⓨ⾲఍, pp.975-976㸭ྡྂᒇ 㸭2017 ᖺ 7 ᭶ 13. ➉ୗ♸஧㸪∦ᒣ㡴ᔞ㸪ὠᅧ㑈ኴ㑻㸪㔠⛃὚㸪ඣᏊ┿ஓ㸭₃ỈࡀⓎ⏕ࡋ࡚࠸ࡿἙᕝሐ 㜵࡟࠾ࡅࡿᾐ㏱ᣲືࡢィ ஦౛㸭ᆅ┙ᕤᏛ఍➨ 52 ᅇᆅ┙ᕤᏛ◊✲Ⓨ⾲఍, pp. 863-864㸭ྡྂᒇ㸭2017 ᖺ 7 ᭶ 14. 㔠⛃὚㸪⋞⩝ᙲஂ㸪ຍ⸨ṇྖ㸪➉ୗ♸஧㸭㐃⥆ຍᅽ᪉ᘧࢆ⏝࠸ࡓぶỈ࣭␯Ỉᛶᆅ┙ ᮦᩱࡢಖỈ≉ᛶ࡟㛵ࡍࡿ◊✲㸭ᆅ┙ᕤᏛ఍➨ 52 ᅇᆅ┙ᕤᏛ◊✲Ⓨ⾲఍㸪pp.607-608 㸭ྡྂᒇ㸭2017 ᖺ 7 ᭶

15. B. S. Kim, Y. Takeshita, S. Kato, S. W. Park㸭Verification of Thresh-old Line in Direct Shear Test using DEM Simulation㸭Proc. 19th International Conference on Soil Mechanics and Geotechnical Engineering (ICSMGE), pp.1043-1046㸭Seoul, Korea㸭2017 ᖺ 9 ᭶ 16. ᑠᕝಟᖹ㸪ྜྷ⏣ᆂ௓㸪๓㔝リᮁ㸪ᒾᇛᬛ኱㸪㉥✠Ⰻ㍜㸪㛫㔝⪔ྖ㸭ALB ࡟ࡼࡿ㧗 ゎീᗘࡢᆅᙧ࣭᳜⏕ࢹ࣮ࢱࢆ⏝࠸ࡓ᪫ᕝὥỈὶゎᯒࡢ⢭ᗘᨵၿ㸭ᅵᮌᏛ఍୰ᅜᨭ㒊 ➨ 69 ᅇ◊✲Ⓨ⾲఍㸭ᗈᓥ኱Ꮫ㸭2017 ᖺ 5 ᭶ 17. ᒾᇛᬛ኱㸪ྜྷ⏣ᆂ௓㸪㉥✠Ⰻ㍜㸪㛫㔝⪔ྖ㸪๓㔝リᮁ㸪ᒣཱྀ⳹✑㸭᪫ᕝศὶ㒊࿘㎶ ࡟࠾ࡅࡿ ALB ࡢィ ⢭ᗘ᳨ド࡜᳜⏕ศᕸุᐃᡭἲࡢ᳨ウ㸭ᅵᮌᏛ఍୰ᅜᨭ㒊➨ 69 ᅇ◊✲Ⓨ⾲఍㸭ᗈᓥ኱Ꮫ㸭2017 ᖺ 5 ᭶ 18. ᕤ௦೺ኴ㸪๓㔝リᮁ㸪㉥✠Ⰻ㍜㸪ྜྷ⏣ᆂ௓㸭༡ᾏࢺࣛࣇᆅ㟈ୗࡢ₻ộࢆ⪃៖ࡋࡓᒸ ᒣᕷἢᓊ࡟࠾ࡅࡿὠἼࣆ࣮ࢡࡢࣜ࢔ࣝࢱ࢖࣒ண ἲ㸭ᅵᮌᏛ఍୰ᅜᨭ㒊➨ 69 ᅇ◊ ✲Ⓨ⾲఍㸭ᗈᓥ኱Ꮫ㸭2017 ᖺ 5 ᭶ 19. ୗ㛫ᬛ༤㸪㉥✠Ⰻ㍜㸪๓㔝リᮁ㸪ྜྷ⏣ᆂ௓㸭ᘓ≀⩌ࢆ⏝࠸ࡓᕷ⾤ᆅỏ℃ゎᯒࡢ㏱㐣 ಀᩘ࡟㛵ࡍࡿᐇ㦂ⓗ᳨ウ㸭ᅵᮌᏛ఍୰ᅜᨭ㒊➨ 69 ᅇ◊✲Ⓨ⾲఍㸭ᗈᓥ኱Ꮫ㸭2017 ᖺ 5 ᭶ 20. ᖹୗៅஓ㸪㉥✠Ⰻ㍜㸪๓㔝リᮁ㸪ྜྷ⏣ᆂ௓㸭㧗ᱱᕝ࣭ᑠ⏣ᕝྜὶ㒊࿘㎶࡟࠾ࡅࡿᖹ

ᡂ 18 ᖺ 7 ᭶ὥỈࡢᩘ್ࢩ࣑࣮ࣗࣞࢩࣙࣥ㸭ᅵᮌᏛ఍୰ᅜᨭ㒊➨ 69 ᅇ◊✲Ⓨ⾲఍㸭 ᗈᓥ኱Ꮫ㸭2017 ᖺ 5 ᭶

21. R. Akoh, S. Maeno, K. Yoshida㸭Improvement of float measurement method for river discharge using quasi-3D flood analysis㸭4th ISSF㸭Eindhoven, The Netherlands㸭2017 ᖺ 6 ᭶

22. ᒣୗᬛ⩏㸪⸨ཎ೺ྐ㸭ᒸᒣ┴㒔ᕷ㒊࡟࠾ࡅࡿᮌ㉁ᗫᲠ≀ࡢฎ⌮ᐇែㄪᰝ࡟ࡘ࠸࡚㸭 ᅵᮌᏛ఍୰ᅜᨭ㒊➨ 69 ᅇ◊✲Ⓨ⾲఍㸭ᗈᓥ኱Ꮫ㸭2017 ᖺ 5 ᭶

ҡಅᛯ૨ᴾ

⎔ቃࢩࢫࢸ࣒ゎᯒᏛ㸦ᣦᑟᩍဨ㸸Ἑᮧ㞝⾜࣭すᒣဴ࣭ᮌᮏ࿴ᚿ㸧 1. ࣐࢖ࢡࣟࢡࣛࢵࢡࡀⰼᓵᒾࡢᙎᛶἼఏ᧛≉ᛶ࡟ཬࡰࡍᙳ㡪 2. ୙㣬࿴ᅽ⦰࣋ࣥࢺࢼ࢖ࢺࡢྵỈ㔞࡜ᙎᛶἼ㏿ᗘࡢ㛵ಀ 3. ࢞ࣛࢫࣅ࣮ࢬࢆ⏝࠸ࡓᐇ㦂࡟ࡼࡿ୙㣬࿴◁ࡢ⇕ఏᑟ≉ᛶࡢ⪃ᐹ 4. ▼⅊ᒾ࡟࠾ࡅࡿ୙ᆒ㉁ᛶ࡜ᙎᛶἼఏ᧛≉ᛶࡢ㛵ಀ 5. ⇞ᩱࢹࣈࣜࡢᙧ≧ࢆホ౯ࡍࡿࡓࡵࡢ㉸㡢Ἴྍど໬ᢏ⾡ࡢ㛤Ⓨ 6. 㛫㝽Ỉศᕸࢆ⪃៖ࡋࡓ୙㣬࿴ከᏍ㉁యࡢ⇕ఏᑟ≉ᛶゎᯒ ⎔ቃ᣺ື࢚ࢿࣝࢠ࣮Ꮫ㸦ᣦᑟᩍဨ㸸ẚỤᓥៅ஧㸧 7. ᴃ෇ᰕ᣺ࡾᏊࢆ⏝࠸ࡓ Hydro-VENUS ࡢ࢚ࢿࣝࢠ࣮ྲྀᚓᛶ⬟ 8. ᴃ෇ཬࡧⷧ⫗༙ᴃ෇᩿㠃ࡢ VENUS ࢱ࣮ࣅࣥࡢ࢚ࢿࣝࢠ࣮ྲྀᚓᛶ⬟ 9. ὶࢀ᪉ྥ࡟⨨࠿ࢀࡓ 2 ࡘࡢ VENUS ࢱ࣮ࣅࣥࡢ㓄⨨㛫㝸ࡀ࢚ࢿࣝࢠ࣮ྲྀᚓᛶ⬟ ࡟୚࠼ࡿᙳ㡪 ✵㛫ࢹࢨ࢖ࣥᏛ㸦ᣦᑟᩍဨ㸸⥤㔝ඞ⣖࣭⸨஭㝯ྐ㸧 10. 㣴⏕᪉ἲ㸪⤖ྜᮦ࠾ࡼࡧቑ⢓๣ࡀ㧗⅔ࢫࣛࢢ⣽㦵ᮦࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢ෾⤖⼥ ゎ᢬ᢠᛶ࡟୚࠼ࡿᙳ㡪 11. 㧗⅔ࢫࣛࢢ⣽㦵ᮦࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢࣇࣞࢵࢩࣗᛶ≧ᨵၿ࡟㛵ࡍࡿ◊✲ 12. 㧗⅔ࢫࣛࢢࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢ㕲➽⭉㣗࡟㛵ࡍࡿ◊✲ 13. ෾⤖⼥ゎస⏝ࢆཷࡅࡓ BFS ࢥࣥࢡ࣮ࣜࢺࡢỈ୰⑂ປ࡟㛵ࡍࡿ◊✲ 14. 㧗⅔ࢫࣛࢢࡀࢥࣥࢡ࣮ࣜࢺࡢሷศᾐ㏱ᛶ࡟୚࠼ࡿᙳ㡪 ᆅୗỈᏛ㸦ᣦᑟᩍဨ㸸ᑠᯇ‶㸧 15. ୙㣬࿴ᆅ┙࡛㏱Ỉᒙࡢ㐃⥆ᛶࢆㄪᰝࡍࡿ✵Ẽᅽࢺࣔࢢࣛࣇ࢕࣮࡟㛵ࡍࡿᇶ♏ⓗ◊ ✲ 16. ㏱Ỉᛶᇶ♏ᆅ┙࡟㉳ᅉࡍࡿἙᕝሐ㜵ࡢ㐍⾜ᛶ◚ቯ࡟㛵ࡍࡿᐇ㦂ⓗ◊✲ ᆅ┙ᕤᏛ㸦ᣦᑟᩍဨ㸸➉ୗ♸஧࣭㔠⛃὚㸧 17. ࣉࣞࢵࢩ࣮ࣕ࢖ࣥࣇ࢕ࣝࢺ࣓࣮ࣟࢱἲ࡟ࡼࡿ⌧ሙ㣬࿴㏱Ỉಀᩘࡢ ᐃ⢭ᗘ࡟㛵ࡍ ࡿ◊✲ 18. ᪥ᖖⓗ࡞₃ỈࡀⓎ⏕ࡋ࡚࠸ࡿἙᕝሐ㜵࡟࠾ࡅࡿᾐ㏱ᣲືィ ࡟㛵ࡍࡿ◊✲ 19. 㐃⥆ຍᅽ᪉ᘧࢆ⏝࠸ࡓぶỈ࣭␯Ỉᛶᆅ┙ᮦᩱࡢಖỈᛶ≉ᛶ࡟㛵ࡍࡿ◊✲ 20. ⣽⢏ศྵ᭷⋡ࡀἙᕝሐ㜵ࡢᏳ඲ᛶ࡟ཬࡰࡍᙳ㡪࡟㛵ࡍࡿ◊✲ 㝣Ỉᚠ⎔ホ౯Ꮫ㸦ᣦᑟᩍဨ㸸኱ஂಖ㈼἞࣭㰻⸨ග௦㸧 21. ὸᾏᗏ‪Ỉ࡟ࡼࡿἢᓊᾏᇦࡢ஧㔜ᣑᩓᑐὶ࡟㛵ࡍࡿ◊✲ 22. ᮾ㒓ụࡢ†ᗏ‪Ỉ࡟㛵ࡍࡿ◊✲

23. ⍇⍈†໭†ࡢ㛗ᮇỈ㉁ኚື࡟㛵ࡍࡿ◊✲ Ỉᇦ⎔ቃタィᏛ㸦ᣦᑟᩍဨ㸸๓㔝リᮁ࣭ྜྷ⏣ᆂ௓࣭㉥✑Ⰻ㍜㸧 24. ᪫ᕝࡢࢣࣞࢵࣉỈไᇦ࡟࠾ࡅࡿᏘ⠇ⓗ࡞ሷỈᣲືࡢ᳨ウ 25. ᘓ≀⩌ࢆ⏝࠸ࡓᕷ⾤ᆅỏ℃ゎᯒࡢ㏱㐣ಀᩘ࡟㛵ࡍࡿᐇ㦂ⓗ᳨ウ  26. ALB ࡟ࡼࡿ㧗ゎീᗘࡢᆅᙧ࣭᳜⏕ࢹ࣮ࢱࢆ⏝࠸ࡓ᪫ᕝὥỈὶゎᯒࡢ⢭ᗘᨵၿ 27. ALB ࢹ࣮ࢱࢆ⏝࠸ࡓྜྷ㔝ᕝࡢὥỈゎᯒࡢᨵၿຠᯝ࡟㛵ࡍࡿ᳨ウ   ⎔ቃᙳ㡪ホ౯Ꮫ㸦ᣦᑟᩍဨ㸸⸨ཎ೺ྐ㸧 28. ᆅᇦᚠ⎔ᆺ♫఍ᙧᡂ࡟ྥࡅࡓᮌ㉁⣔ࣂ࢖࣐࢜ࢫࣜࢧ࢖ࢡࣝ஦ᴗࡢᣢ⥆ྍ⬟ᛶホ౯ 29. ᒸᒣ኱Ꮫ࡟࠾ࡅࡿࣂ࢖࣐࢜ࢫᗫᲠ≀ࡢⓎ⏕㔞᥎ィ࡜㈨※ᚠ⎔ࢩࢫࢸ࣒ᑟධࡢ᳨ウ 30. ᒸᒣ኱Ꮫ࡛Ⓨ⏕ࡍࡿࣂ࢖࣐࢜ࢫᗫᲠ≀ࡢሁ⫧໬ฎ⌮࡟㛵ࡍࡿ◊✲ 㸫Ꮨ⠇࡟ࡼࡿ㐪 ࠸ࡢ⪃ᐹ㸫  ⎔ቃᙳ㡪ホ౯Ꮫ㸦ᣦᑟᩍဨ㸸ᯇ஭ᗣᘯ㸧 31. ಴ᩜᕷ࡟࠾ࡅࡿࡈࡳ཰㞟࣭㐠ᦙࡢ㉮⾜㌶㊧ཬࡧసᴗᐇែ࡟ಀࡿࢹ࣮ࢱゎᯒ 32. ಴ᩜᕷ࡟࠾ࡅࡿࡈࡳῶ㔞┠ᶆぢ࠼ࡿ໬஦ᴗࡢຠᯝ࡟㛵ࡍࡿ◊✲ 33. ⏕༠Ꮿ㓄஦ᴗ࡟࠾ࡅࡿ࣮ࣜࣘࢫࡧࢇࡢᅇ཰࡜ࡑࡢ㛵㐃せᅉ࡟㛵ࡍࡿ◊✲ Ỉ⎔ቃᏛ㸦ᣦᑟᩍဨ㸸ᕝᮏඞஓ࣭⏣ᮧ⏕ᘺ㸧 34. 㐜ᘏⓎගࢆ⏝࠸ࡓࣂ࢖࢜࢔ࢵࢭ࢖࡟ࡼࡿᗫᲠ≀᭱⤊ฎศሙᾐฟỈࡢẘᛶᙳ㡪ホ౯ 35. ࢞ࢫ໬ྜᡂ࢞ࢫࡢゐ፹ኚ᥮࡟࠾ࡅࡿࣂ࢖࣓ࢱࣝゐ፹ࡢホ౯ 36. ᮌ㉁⣔ࣂ࢖࣐࢜ࢫࡢ࢞ࢫ໬ᨵ㉁ࣉࣟࢭࢫ࡟㛵ࡍࡿᇶ♏ⓗ◊✲ Ỉ⎔ቃᏛ㸦ᣦᑟᩍဨ㸸Ọ⚰ⱥ᫂㸧 37. Chlorella zofingiensis ࢆ⏝࠸ࡓࣛࢡࢺ࣮ࢫศゎཬࡧ㓟໬๣࡟ࡼࡿ࢔ࢫࢱ࢟ࢧࣥࢳࣥ ⏕ᡂ࡬ࡢᙳ㡪 38. ࣐࣊ࢺࢥࢵ࢝ࢫ⸴࠿ࡽࡢ࢔ࢫࢱ࢟ࢧࣥࢳࣥ࡜ࣜࣥྠ᫬ᅇ཰ἲࡢ᳨ウ 39. Chlorella zofigiensis ࢆ⏝࠸ࡓୗỈ୰ࡢᰤ㣴ሷࠊ᭷ᶵ≀㝖ཤ࡜࢜ࢰࣥฎ⌮ࡀ㝖ཤຠᯝ ࡟୚࠼ࡿᙳ㡪 ⎔ቃ≀⌮Ꮫ㸦ᣦᑟᩍဨ㸸ᒾ⏣ᚭ㸧 40. ⾨ᫍࢹ࣮ࢱࢆ฼⏝ࡋࡓ†἟⎔ቃࡢኚື≉ᛶゎᯒ 41. ྍᦙ࣭⡆᫆ᆺ⇕ࣇࣛࢵࢡࢫ ᐃ⿦⨨ࡢ㛤Ⓨ࡜⌧ሙ㐺⏝ 42. ⾨ᫍࢹ࣮ࢱࢆ฼⏝ࡋࡓἙ㐨ᶞᮌ⦾ⱱ᥎ᐃࡢ㐺⏝ྍ⬟ᛶ ᆅᇦ⎔ቃィ⏬Ꮫ㸦ᣦᑟᩍဨ㸸㜿㒊ᏹྐ࣭Ặཎᓅே㸧 43. ୰ᚰᕷ⾤ᆅ࡟࠾ࡅࡿ኱つᶍၟᴗ᪋タࡢฟᗑ࡟ࡼࡿṌ⾜⪅㏻⾜㔞࡬ࡢᙳ㡪 44. ࣇ࢓ࢪ࢔࣮ࣀᒸᒣࡢヨྜほᡓ⪅ࢆᑐ㇟࡜ࡋࡓࣔࣅࣜࢸ࢕࣭࣐ࢿࢪ࣓ࣥࢺࡢᇶ♏ⓗ᳨ ウ 45. ୰ᒣ㛫ᆅᇦ࡟࠾ࡅࡿ㉸ᑠᆺࣔࣅࣜࢸ࢕ࡢ฼⏝ࣃࢱ࣮ࣥཬࡧ㡰ᛂࣉࣟࢭࢫ࡟㛵ࡍࡿ

◊✲ 46. 㒔ᕷࢫ࣏ࣥࢪ໬ࡢᐇែᢕᥱ࡜せᅉࣔࢹࣝࡢᵓ⠏ ⎔ቃࢩࢫࢸ࣒ィ⏬Ꮫ㸦ᣦᑟᩍဨ㸸ᶫᮏᡂோ㸧 47. ㉸ᑠᆺ EV ࢩ࢙࢔ࣜࣥࢢࡢᑟධ࡟ࡼࡿࡲࡕࡢ㨩ຊྥୖ࡟㛵ࡍࡿ◊✲ 48. ᒸᒣᕷ୰ᚰ㒊࡟࠾ࡅࡿ㥔㌴ሙࡢ❧ᆅ≧ἣ࡜ࡑࡢኚ㑄࡟㛵ࡍࡿ◊✲ 49. ఫẸ୺య࡛ࡢ⏕ά஺㏻㐠Ⴀ࡜⏕ά‶㊊ᗘࡢ㛵㐃ᛶ࡟㛵ࡍࡿ◊✲ ᬒほᕤᏛ㸦ᣦᑟᩍဨ㸸噮ཱྀ㍤ஂ㸧 50. ኱㜰ᗓ㇏୰ᕷ༡㒊࡟࠾ࡅࡿ✑✚࣭ᗉෆࡢᅖ࠸ሐ㜵࡟㛵ࡍࡿ⪃ᐹ 51. ⤮ᅗ࡟ぢࡿ⮻ᯂᇛୗ⏫ࡢṔྐⓗኚ㑄 52. ⓒ㛫ᕝࡢṔྐ ̿᪤Ꮡࡢㄆ㆑࡟ᑐࡍࡿ⪃ᐹ̿ 

̲ٟᛯ૨

⎔ቃࢩࢫࢸ࣒ゎᯒᏛ㸦ᣦᑟᩍဨ㸸Ἑᮧ㞝⾜࣭すᒣဴ࣭ᮌᮏ࿴ᚿ㸧㻌 1. ㉥እ྾཰ศගἲ࡟ࡼࡿỈ࿴ࣔࣥࣔࣜࣟࢼ࢖ࢺࡢᣲືほᐹ ⎔ቃ᣺ື࢚ࢿࣝࢠ࣮Ꮫ㸦ᣦᑟᩍဨ㸸ẚỤᓥៅ஧㸧 2. ᴃ෇ᙧ≧ࡢ᩿㠃ࢆᣢࡘ᣺ࡾᏊࢆ⏝࠸ࡓ Hydro-VENUS ࡢ࢚ࢿࣝࢠ࣮ྲྀᚓᛶ⬟ 3. ᣺ࡾᏊࡢ✵ຊ᣺ືࢆ⏝࠸ࡓ㢼ຊⓎ㟁ࡢࡓࡵࡢ᣺ࡾᏊ᩿㠃ᙧ≧࡟㛵ࡍࡿᐇ㦂  ✵㛫ࢹࢨ࢖ࣥᏛ㸦ᣦᑟᩍဨ㸸⥤㔝ඞ⣖࣭⸨஭㝯ྐ㸧㻌 4. 㧗⅔ࢫࣛࢢ⣽㦵ᮦࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢ⪏ஂᛶᨵၿ࡟㛵ࡍࡿ◊✲ 5. 㧗⅔ࢫࣛࢢࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢ⪏ሷᐖᛶ࡜ࡑࡢホ౯ᡭἲ࡟㛵ࡍࡿ◊✲ 6. ࢥࣥࢡ࣮ࣜࢺࡢ஝⇱཰⦰ࡦࡎࡳࡢ᭱⤊್࡟㣴⏕᫬ࡢ ᗘᒚṔࡀ୚࠼ࡿᙳ㡪 ᆅ┙ᕤᏛ㸦ᣦᑟᩍဨ㸸➉ୗ♸஧࣭㔠⛃὚㸧 7. ᩘ್ࢩ࣑࣮ࣗࣞࢩࣙࣥࢆ᥼⏝ࡋࡓἙᕝሐ㜵ࡢ₃Ỉ⌧㇟ゎᯒ࡟㛵ࡍࡿ◊✲ 㝣Ỉᚠ⎔ホ౯Ꮫ㸦ᣦᑟᩍဨ㸸኱ஂಖ㈼἞࣭㰻⸨ග௦㸧 8. ῾ᾏ࡟࠾ࡅࡿ㝣Ỉ࡜ᾏỈࡢΰྜ㐣⛬࡟㛵ࡍࡿ◊✲ Ỉᇦ⎔ቃタィᏛ㸦ᣦᑟᩍဨ㸸๓㔝リᮁ࣭ྜྷ⏣ᆂ௓࣭㉥✑Ⰻ㍜㸧 9. ⫼㠃┒ᅵࢆేタࡍࡿᾏᓊሐ㜵ࡢ⢓ࡾᙉ࠸ᵓ㐀タィࡢࡓࡵࡢᐇ㦂ⓗ◊✲ 10. ศྜὶࢆక࠺ᐇἙᕝࡢᖹ㠃 2 ḟඖἙᗋኚືゎᯒ࡜ࡑࡢᛂ⏝ 11. ᪫ᕝศὶ㒊࿘㎶ࡢ᳜⏕ఆ᥇ᇶ‽࡜ ALB ࢆ⏝࠸ࡓ᳜⏕ศᕸุᐃᡭἲࡢ᳨ウ ⎔ቃᙳ㡪ホ౯Ꮫ㸦ᣦᑟᩍဨ㸸⸨ཎ೺ྐ㸧

12. A study on applicability of municipal solid waste incinerator to Hoi An city 㸫View points of waste burnability, landfill waste reduction and CO2emission㸫 

⎔ቃᙳ㡪ホ౯Ꮫ㸦ᣦᑟᩍဨ㸸ᯇ஭ᗣᘯ㸧

13. A study on household solid waste characteristic and recycling behavior modeling: A case study in Da Nang city, Vietnam

14. 3R ࡟ಀࡿ⮬἞య᪋⟇࣭⾜ືኚᐜࣉࣟࢢ࣒ࣛࡢᨻ⟇ຠᯝ࡟㛵ࡍࡿ◊✲ 

⎔ቃ≀⌮Ꮫ㸦ᣦᑟᩍဨ㸸ᒾ⏣ᚭ㸧

15. Estimation of Gross Primary Production(GPP) of a small patch of tropical mangrove vegetation in Papua New Guinea using Satellite base Remote Sensing Model(SBRSM).  

⎔ቃࢩࢫࢸ࣒ィ⏬Ꮫ㸦ᣦᑟᩍဨ㸸ᶫᮏᡂோ㸧 16. Ᏻ඲࡞⾤㊰✵㛫ᩚഛࢆ┠ⓗ࡜ࡋࡓ⏕ά㐨㊰ࡢ࣮࢝ࣛ⯒⿦࡟㛵ࡍࡿ◊✲   ᬒほᕤᏛ㸦ᣦᑟᩍဨ㸸噮ཱྀ㍤ஂ㸧 17. 㧗ᱱᕝᨵಟ஦ᴗ࡟࠾ࡅࡿᕤ஦㐣⛬࡜ホ౯ࡢኚ㑄࡟㛵ࡍࡿ◊✲ 18. ูᡤ◁␃ࡢᐇែㄪᰝ࡜ᆅᇦఫẸ࡟ࡼࡿಖᏑᩚഛ࣭ಟ᚟సᴗ