工学研究工学研究工学研究工学研究工学研究工学研究工学研究
March 2 019
No. 2
TECHNOLOGY REPORTS, KANAGAWA UNIVERSITY
ISSN-2433-5169
March 2 019
No. 2
TECHNOLOGY REPORTS, KANAGAWA UNIVERSITY
ISSN-2433-5169
1.巻頭言
工学研究所長就任にあたって ·············································································································································································今井 崇雅········· 1
2.新任者の研究紹介
2 1 企業価値と従業員関連指標に関する研究 ·························································································································································平井 裕久········· 3
2 2 写像空間,冪空間と無限次元多様体 ·································································································································································越野 克久········· 6
2 3 架橋高分子の易加工化を可能にするジスルフィド結合の組換え反応 ···········································································································高橋 明······· 13
2 4 「翻訳後修飾によるトリプトファン残基のイソプレニル化」························································································································岡田 正弘······· 18
2 5 船内向け自主改善活動の研究 ·············································································································································································久宗 周二······· 21
2 6 ソーシャル案内ロボットの自律移動制御に関する研究 ········································································································································ 張 斌······· 26
2 7 Design of UAV - Embedded Microphone Array System for Sound Source Localization in Outdoor Environments
························································································································································································································· Kotaro HOSHIBA······· 34
2 8 固体界面における高分子の構造と物性 ·································································································································································犬束 学······· 42
2 9 Expansions of the Schwartz distribution by means of the Hermite functions···························································································· Toshinao KAGAWA······· 47
2 10 不確かさを含む大規模複合システムに対する分散可変ゲインロバストコントローラの構成法 ··························································永井 駿也······· 52
2 11 A Branch-and-price Approach with MILP Formulation to Modularity Density Maximization on Graphs ····················· Keisuke SATO,Yoichi IZUNAGA······· 58
3.受賞研究の紹介
3 1 国際会議 ICOR2017 で Best Paper Award を受賞して ·······································································································································片桐 英樹······· 69
3 2 ACMSA2017 ワークショップ最優秀論文賞を受賞して ········································································································ 松浦 春樹,浅田 明子······· 71
3 3 日本経営分析学会における学会賞 ( 論文の部 ) を受賞して ·························································································································平井 裕久······· 75
3 4 「わが国の住宅の近代化に関する一連の歴史研究」について······················································································································内田 青蔵······· 77
3 5 音響管の共鳴現象を利用した発破超低周波音消音装置の開発····················································································································安田 洋介······· 83
4.工学部特別予算重要機器整備費関連研究
4 1 音響強度測定装置による超音波プローブの音場測定 ·············································································· 土屋 健伸,干場 功太郎,遠藤 信行······· 87
4 2 擬定常状態光伝導度測定システム ·····································································································································································松木 伸行······· 91
4 3 デジタルファブリケーションシステムを活用した教育・研究·············髙野倉 雅人,片桐 英樹,松本 光広,西川 昌宏,酒井 裕介······· 93
5.工学研究所共同研究
5 1 軽量・高性能ハイブリッドロケットエンジンの研究・開発 ··································································································· 高野 敦,船見 祐揮······· 97
5 2 無機触媒/半導体ハイブリッド型水素・酸素生成太陽光熱電池の創製
································································································································松木 伸行,山口 栄雄,本橋 輝樹,米田 征司,佐藤 知正····· 101
5 3 次世代型医薬品開発を目指した希少糖や核酸誘導体の合成と活性評価 ····················································· 赤井 昭二,實吉 尚郎,小野 晶····· 105
5 4 複合金属酸化物 Ba-Zn-Nb-In-O の合成と熱重量分析 ······················································································ 齋藤 美和,貝掛 勝也,安川 雪子····· 110
5 5 二酸化炭素資源化のための光電極材料の探索························································································································ 松原 康郎,田邉 豊和····· 114
5 6 炭素ナノ材料に内包された水の分子ダイナミクス ··············································································································· 客野 遥,佐々木 志剛····· 118
6.工学研究所プロジェクト研究
6 1 障がい者支援施設における地域交流活動について
···· 吉岡 寛之,曽我部 昌史,内田 青蔵,山家 京子,中井 邦夫,重村 力,丸山 美紀,長谷川 明,小幡 知之,香山 篤美·····127
6 2 高周波回路の解析・設計理論の整備と対応ソフト開発 ―方形断面光導波路電磁界・実効屈折率の高精度計算―
·············································································································································································································· 平岡 隆晴,許 瑞邦····· 128
6 3 高安心超安全交通研究所(KU-WIRF)活動報告(2017)―社会化するドライブレコーダー―
························································································齊藤 隆弘,堀野 定雄,久保 登,石川 博敏,龍 重法,石倉 理有,北島 創····· 130
6 4 “ 新たな低炭素エネルギー社会に対応した新型電池の開発 (3)”
··························································松本 太,池原 飛之,田邉 豊和,大坂 武男,長澤 浩,入井 友海太,安東 信雄,郡司 貴雄·····132
目 次
工学研究所長就任にあたって ·············································································································································································今井 崇雅········· 1
2.新任者の研究紹介
2 1 企業価値と従業員関連指標に関する研究 ·························································································································································平井 裕久········· 3
2 2 写像空間,冪空間と無限次元多様体 ·································································································································································越野 克久········· 6
2 3 架橋高分子の易加工化を可能にするジスルフィド結合の組換え反応 ···········································································································高橋 明······· 13
2 4 「翻訳後修飾によるトリプトファン残基のイソプレニル化」························································································································岡田 正弘······· 18
2 5 船内向け自主改善活動の研究 ·············································································································································································久宗 周二······· 21
2 6 ソーシャル案内ロボットの自律移動制御に関する研究 ········································································································································ 張 斌······· 26
2 7 Design of UAV - Embedded Microphone Array System for Sound Source Localization in Outdoor Environments
························································································································································································································· Kotaro HOSHIBA······· 34
2 8 固体界面における高分子の構造と物性 ·································································································································································犬束 学······· 42
2 9 Expansions of the Schwartz distribution by means of the Hermite functions···························································································· Toshinao KAGAWA······· 47
2 10 不確かさを含む大規模複合システムに対する分散可変ゲインロバストコントローラの構成法 ··························································永井 駿也······· 52
2 11 A Branch-and-price Approach with MILP Formulation to Modularity Density Maximization on Graphs ····················· Keisuke SATO,Yoichi IZUNAGA······· 58
3.受賞研究の紹介
3 1 国際会議 ICOR2017 で Best Paper Award を受賞して ·······································································································································片桐 英樹······· 69
3 2 ACMSA2017 ワークショップ最優秀論文賞を受賞して ········································································································ 松浦 春樹,浅田 明子······· 71
3 3 日本経営分析学会における学会賞 ( 論文の部 ) を受賞して ·························································································································平井 裕久······· 75
3 4 「わが国の住宅の近代化に関する一連の歴史研究」について······················································································································内田 青蔵······· 77
3 5 音響管の共鳴現象を利用した発破超低周波音消音装置の開発····················································································································安田 洋介······· 83
4.工学部特別予算重要機器整備費関連研究
4 1 音響強度測定装置による超音波プローブの音場測定 ·············································································· 土屋 健伸,干場 功太郎,遠藤 信行······· 87
4 2 擬定常状態光伝導度測定システム ·····································································································································································松木 伸行······· 91
4 3 デジタルファブリケーションシステムを活用した教育・研究·············髙野倉 雅人,片桐 英樹,松本 光広,西川 昌宏,酒井 裕介······· 93
5.工学研究所共同研究
5 1 軽量・高性能ハイブリッドロケットエンジンの研究・開発 ··································································································· 高野 敦,船見 祐揮······· 97
5 2 無機触媒/半導体ハイブリッド型水素・酸素生成太陽光熱電池の創製
································································································································松木 伸行,山口 栄雄,本橋 輝樹,米田 征司,佐藤 知正····· 101
5 3 次世代型医薬品開発を目指した希少糖や核酸誘導体の合成と活性評価 ····················································· 赤井 昭二,實吉 尚郎,小野 晶····· 105
5 4 複合金属酸化物 Ba-Zn-Nb-In-O の合成と熱重量分析 ······················································································ 齋藤 美和,貝掛 勝也,安川 雪子····· 110
5 5 二酸化炭素資源化のための光電極材料の探索························································································································ 松原 康郎,田邉 豊和····· 114
5 6 炭素ナノ材料に内包された水の分子ダイナミクス ··············································································································· 客野 遥,佐々木 志剛····· 118
6.工学研究所プロジェクト研究
6 1 障がい者支援施設における地域交流活動について
···· 吉岡 寛之,曽我部 昌史,内田 青蔵,山家 京子,中井 邦夫,重村 力,丸山 美紀,長谷川 明,小幡 知之,香山 篤美·····127
6 2 高周波回路の解析・設計理論の整備と対応ソフト開発 ―方形断面光導波路電磁界・実効屈折率の高精度計算―
·············································································································································································································· 平岡 隆晴,許 瑞邦····· 128
6 3 高安心超安全交通研究所(KU-WIRF)活動報告(2017)―社会化するドライブレコーダー―
························································································齊藤 隆弘,堀野 定雄,久保 登,石川 博敏,龍 重法,石倉 理有,北島 創····· 130
6 4 “ 新たな低炭素エネルギー社会に対応した新型電池の開発 (3)”
··························································松本 太,池原 飛之,田邉 豊和,大坂 武男,長澤 浩,入井 友海太,安東 信雄,郡司 貴雄·····132
目 次
6 5 燃料噴射ポンプ筐体の低振動低騒音構造初期設計 ··············································· 山崎 徹,武田 章善,池田 和正,中村 弘毅,菊地 通····· 134
6 6 多分岐ポリマー系ナノハイブリッド材料の開発と応用 ····································· 横澤 勉,池原 飛之,山田 保治,花畑 誠,工藤 宏人····· 136
6 7 振動を用いたDNA増幅法···································································································································· 山口 栄雄,米田 征司,鈴木 温····· 138
6 8 グリーンイノベーションの基盤となるナノ構造制御触媒の開発研究
···························································引地 史郎,内藤 周弌,上田 渉,中澤 順,Shigeo T. Oyama,宮尾 敏広,赤間 弘,星野 真樹·····139
6 9 車両等に装備するためのポリカーボネート窓の表面改質に関する研究(4)
·············································································· 新中 新二,井上 成美,大越 昌幸,野尻 秀智,植田 博臣,岩井 和史,中村 先男·····141
6 10 微細構造創成用水静圧スピンドルの温度変化の検討 ·········································································································中尾 陽一,Sangkee MIN····· 143
6 11 鋼モルタル板を用いた座屈拘束ブレースの二段載荷予備実験
······································································································· 小谷野 一尚,岩田 衛,荏本 孝久,緑川 光正,中込 忠男,大熊 武司····· 146
6 12 潮流発電ユニット開発の最先端技術:相反回転化 - 2018 年度報告 ······················································ 中西 裕二,船見 祐揮,金元 敏明····· 148
6 13 パルスレーザー光を利用した反応開発および機構解析 ·····················岩倉 いずみ,赤井 昭二,藪下 篤史,岡村 幸太郎,織作 恵子····· 149
6 14 疎表現理論に基づく知能的視覚情報処理システムに関する研究 - 動画像疎表現統計的モデリングとその応用 - ······················齊藤 隆弘····· 150
6 15 ミリ波・テラヘルツ波帯のおける金属フォトニック結晶構造デバイスの解析と応用に関する研究(研究成果報告書)
····················································································································································································· 穴田 哲夫,陳 春平,中山 明芳····· 152
6 16 新規物質の自己組織化を基盤とした界面制御···························································································································· 亀山 敦,川口 春馬····· 154
6 17 毒性金属イオン検出・除去システムの開発研究 ···········································································小野 晶,友利 貴人,長澤 浩,實吉 尚郎····· 156
6 18 企業ロボットの概念 ················································································································································ 松井 正之,石井 信明,山田 哲····· 158
6 19 ポリペプチドのフォールディングと集積化により形成される高次構造と機能 ········································· 亀山 敦,岩岡 道夫,森井 尚之····· 160
6 20 高性能スターリングエンジンの開発 –– プロジェクト「加熱器・冷却器を一方向にバイパスするスターリングエンジンの開発」の進捗
···································································································································································································································原村 嘉彦····· 162
6 21 戸建住宅における全館空調の一次エネルギー消費量に関する研究 (1) ··············································· 岩本 靜男,傳法谷 郁乃,児保 茂樹····· 164
7.工学研究所テクノサークル
7 1 環境科学テクノサークル 2018 年活動報告 ···························································································································································井川 学····· 165
7 2 ドライブレコーダー・テクノサークル活動報告(2017)“ 自転車の居場所がない !”:” リンレコ ” とウェアラブルカメラ搭載 日常サイクリングで判った曖昧な道路交通安全
································································································································齊藤隆弘,堀野定雄,松田 洋,後藤航太,金澤優太,浮穴浩二····· 166
7 3 テクノサークル「けんちくをつくる会」2017 年度活動報告 ······························································································ 吉岡 寛之,佐塚 将太····· 170
7 4 テクノサークル KURAFT17-18 シーズン活動報告 ················································································································ 中村 弘毅,山口 光弘····· 171
7 5 「神奈川大学宇宙ロケット部」活動報告(2017)·················································································································································高野 敦····· 173
7 6 神奈川大学ロボットプロジェクト活動報告··································································································· 江上 正,中村 嘉孝,野中 祐太郎····· 175
7 7 ものづくり・電子工作テクノサークル活動報告 ············································································································································土屋 健伸····· 177
8.随想
8 1 研究者生活を振り返って ― 私の研究者心得···················································································································································齊藤 隆弘····· 179
8 2 生産管理の基礎構築を目指した 10 年間 ···························································································································································松浦 春樹····· 181
9.工学部通信
1.研究活動(2017 年 10 月~ 2018 年 9 月)·············································································································································································· A-1
2.講演会開催記録(2017 年 10 月~ 2018 年 9 月)································································································································································ A-42
3.研究分野紹介および 2017 年度博士論文・修士論文・卒業論文テーマ一覧 ··············································································································· A-44
10.工学研究所 2017 年度 ( 平成 28 年度 ) 年次報告 ··························································································································································· A-63
11.編集後記
6 6 多分岐ポリマー系ナノハイブリッド材料の開発と応用 ····································· 横澤 勉,池原 飛之,山田 保治,花畑 誠,工藤 宏人····· 136
6 7 振動を用いたDNA増幅法···································································································································· 山口 栄雄,米田 征司,鈴木 温····· 138
6 8 グリーンイノベーションの基盤となるナノ構造制御触媒の開発研究
···························································引地 史郎,内藤 周弌,上田 渉,中澤 順,Shigeo T. Oyama,宮尾 敏広,赤間 弘,星野 真樹·····139
6 9 車両等に装備するためのポリカーボネート窓の表面改質に関する研究(4)
·············································································· 新中 新二,井上 成美,大越 昌幸,野尻 秀智,植田 博臣,岩井 和史,中村 先男·····141
6 10 微細構造創成用水静圧スピンドルの温度変化の検討 ·········································································································中尾 陽一,Sangkee MIN····· 143
6 11 鋼モルタル板を用いた座屈拘束ブレースの二段載荷予備実験
······································································································· 小谷野 一尚,岩田 衛,荏本 孝久,緑川 光正,中込 忠男,大熊 武司····· 146
6 12 潮流発電ユニット開発の最先端技術:相反回転化 - 2018 年度報告 ······················································ 中西 裕二,船見 祐揮,金元 敏明····· 148
6 13 パルスレーザー光を利用した反応開発および機構解析 ·····················岩倉 いずみ,赤井 昭二,藪下 篤史,岡村 幸太郎,織作 恵子····· 149
6 14 疎表現理論に基づく知能的視覚情報処理システムに関する研究 - 動画像疎表現統計的モデリングとその応用 - ······················齊藤 隆弘····· 150
6 15 ミリ波・テラヘルツ波帯のおける金属フォトニック結晶構造デバイスの解析と応用に関する研究(研究成果報告書)
····················································································································································································· 穴田 哲夫,陳 春平,中山 明芳····· 152
6 16 新規物質の自己組織化を基盤とした界面制御···························································································································· 亀山 敦,川口 春馬····· 154
6 17 毒性金属イオン検出・除去システムの開発研究 ···········································································小野 晶,友利 貴人,長澤 浩,實吉 尚郎····· 156
6 18 企業ロボットの概念 ················································································································································ 松井 正之,石井 信明,山田 哲····· 158
6 19 ポリペプチドのフォールディングと集積化により形成される高次構造と機能 ········································· 亀山 敦,岩岡 道夫,森井 尚之····· 160
6 20 高性能スターリングエンジンの開発 –– プロジェクト「加熱器・冷却器を一方向にバイパスするスターリングエンジンの開発」の進捗
···································································································································································································································原村 嘉彦····· 162
6 21 戸建住宅における全館空調の一次エネルギー消費量に関する研究 (1) ··············································· 岩本 靜男,傳法谷 郁乃,児保 茂樹····· 164
7.工学研究所テクノサークル
7 1 環境科学テクノサークル 2018 年活動報告 ···························································································································································井川 学····· 165
7 2 ドライブレコーダー・テクノサークル活動報告(2017)“ 自転車の居場所がない !”:” リンレコ ” とウェアラブルカメラ搭載 日常サイクリングで判った曖昧な道路交通安全
································································································································齊藤隆弘,堀野定雄,松田 洋,後藤航太,金澤優太,浮穴浩二····· 166
7 3 テクノサークル「けんちくをつくる会」2017 年度活動報告 ······························································································ 吉岡 寛之,佐塚 将太····· 170
7 4 テクノサークル KURAFT17-18 シーズン活動報告 ················································································································ 中村 弘毅,山口 光弘····· 171
7 5 「神奈川大学宇宙ロケット部」活動報告(2017)·················································································································································高野 敦····· 173
7 6 神奈川大学ロボットプロジェクト活動報告··································································································· 江上 正,中村 嘉孝,野中 祐太郎····· 175
7 7 ものづくり・電子工作テクノサークル活動報告 ············································································································································土屋 健伸····· 177
8.随想
8 1 研究者生活を振り返って ― 私の研究者心得···················································································································································齊藤 隆弘····· 179
8 2 生産管理の基礎構築を目指した 10 年間 ···························································································································································松浦 春樹····· 181
9.工学部通信
1.研究活動(2017 年 10 月~ 2018 年 9 月)·············································································································································································· A-1
2.講演会開催記録(2017 年 10 月~ 2018 年 9 月)································································································································································ A-42
3.研究分野紹介および 2017 年度博士論文・修士論文・卒業論文テーマ一覧 ··············································································································· A-44
10.工学研究所 2017 年度 ( 平成 28 年度 ) 年次報告 ··························································································································································· A-63
11.編集後記
1
工学研究所長就任にあたって
今井 崇雅*
Message from the Director of Research Institute for Engineering
Takamasa IMAI*
2018 年度 4 月より 2 年間、工学研究所所長を務めさせて頂くこと
となりました。工学研究所は、歴代所長をはじめ多くの方々により、
整備された規程類や体制のもとで、円滑に機能を果しています。現
在はその機能を生かし、より工学の発展に資する拠点となることを
目指しています。本稿で、今年度の研究所活動概要をご紹介するこ
とで、就任の挨拶に代えさせて頂きます。
今に始まったことではありませんが、科学技術の急速な進展によ
り技術分野は日を追うごとにますます複雑多岐に分化されつつあり
ます。そのなかで今まで異分野と考え、交流のなかった複数の専門
分野との連携により、新たな進歩が得られるケースは今後もさらに
増えていくことでしょう。
本研究所の大きな役割の一つは、このような科学技術の急速な進
展への対応も念頭に置いた、既存組織の枠を超えた研究活動推進に
資することです。今年度は、グリーンイノベーション、医療・健康
をはじめとした 21 世紀に解決を求められている各種課題に取り組
む合計 27 テーマへの支援を行っています。内訳としては、共同研究
4 テーマ、学内外の人材を招聘して遂行するプロジェクト研究 18
テーマ、課題研究所を設立して実行するプロジェクト研究 5 テーマ
です。研究テーマごとに、幅広い人材や各種資源の研究所への結集
することで、効率な研究の進展を図っています。
研究所の第 2 の役割は、研究活動で得られた成果やその母体とな
る研究組織の活動を情報発信することです。代表例としては、工学
部の協力を得て編纂されている本誌工学研究が挙げられます。テク
ノフェスタでは、研究成果の発信のみならず、企業との連携を含む
新たな研究体制の構築も念頭に置いた交流の場も設けています。学
外の関連分野の組織との連携の促進も念頭に置いた、工学部・工学
研究科の各研究室を紹介した工学系紹介冊子も刊行しています。み
なとみらいの KU ポートスクエアにおいては、今年度も「暮らしの
なかのサイエンス」として、一般の方々に親しんで頂ける題材にて
講演会を開催します。今年度は「Scratch2.0 ではじめるプログラミン
グ入門」と題して、ゲーム作成を演習題材としたプログラミングに
取り組んで頂きます。
第 3 の役割として、共同利用機器・設備の管理運営が挙げられま
す。冒頭に述べたとおり科学技術の進展に伴い、より高度な機能を
もつ装置や設備活用の必要性が高まっている中、より効率的な共同
利用のしくみがますます求められると想定されます。課題を抽出の
上、利用者の意見も踏まえてより活用しやすい仕組みの整備を図っ
て参ります。
このほかテクノサークル支援の活動も行っています。テクノサー
クルは「研究者・技術者の卵」ともいえる工学部生を中心とした学
生が関心をもった課題ごとにあつまり、工学知識を活用して課題解
決に向けた研究活動を行うサークルです。学生自らが課題を解決し
ていくなかで、さらなる研究や技術開発への意欲を醸成することも
ねらいとしています。今年度は 7 件のサークル活動を支援していま
す。
ご紹介させて頂きました活動には、工学部、工学研究科と連携し
たものも多数あります。研究所としては、既存組織の枠を超えた活
動推進をはじめとした研究所らしい機能を生かすことで、今後想定
される課題解決への貢献も図りたいと考えております。
ご紹介させて頂きました研究活動推進、成果やそれを育んでいる
組織情報の発信など、数々の機能をあわせもつ工学研究所は、運営
委員、研究支援委員、大型装置管理委員をはじめとした研究所員、
ならびに学部、研究科と連携したテクノフェスタ企画委員・実行委
員、工学研究編集委員、工学系冊子編集委員の皆さまの活動により
成り立っています。今後、研究所の目的に沿った活動のより効率的
な推進に向け、多くの皆様からのご提案やアイデアを頂きたいと考
えています。そのようなアイデアを頂くためにも、工学研究所のし
くみや活動概要をよりわかりやすく発信していきたいと考えており
ます。関連委員会の皆様のみならず所員の皆様のご協力を改めてお
願い申し上げます。
*工学研究所所長
Director, Research Institute for Engineering
1
工学研究所長就任にあたって
今井 崇雅*
Message from the Director of Research Institute for Engineering
Takamasa IMAI*
2018 年度 4 月より 2 年間、工学研究所所長を務めさせて頂くこと
となりました。工学研究所は、歴代所長をはじめ多くの方々により、
整備された規程類や体制のもとで、円滑に機能を果しています。現
在はその機能を生かし、より工学の発展に資する拠点となることを
目指しています。本稿で、今年度の研究所活動概要をご紹介するこ
とで、就任の挨拶に代えさせて頂きます。
今に始まったことではありませんが、科学技術の急速な進展によ
り技術分野は日を追うごとにますます複雑多岐に分化されつつあり
ます。そのなかで今まで異分野と考え、交流のなかった複数の専門
分野との連携により、新たな進歩が得られるケースは今後もさらに
増えていくことでしょう。
本研究所の大きな役割の一つは、このような科学技術の急速な進
展への対応も念頭に置いた、既存組織の枠を超えた研究活動推進に
資することです。今年度は、グリーンイノベーション、医療・健康
をはじめとした 21 世紀に解決を求められている各種課題に取り組
む合計 27 テーマへの支援を行っています。内訳としては、共同研究
4 テーマ、学内外の人材を招聘して遂行するプロジェクト研究 18
テーマ、課題研究所を設立して実行するプロジェクト研究 5 テーマ
です。研究テーマごとに、幅広い人材や各種資源の研究所への結集
することで、効率な研究の進展を図っています。
研究所の第 2 の役割は、研究活動で得られた成果やその母体とな
る研究組織の活動を情報発信することです。代表例としては、工学
部の協力を得て編纂されている本誌工学研究が挙げられます。テク
ノフェスタでは、研究成果の発信のみならず、企業との連携を含む
新たな研究体制の構築も念頭に置いた交流の場も設けています。学
外の関連分野の組織との連携の促進も念頭に置いた、工学部・工学
研究科の各研究室を紹介した工学系紹介冊子も刊行しています。み
なとみらいの KU ポートスクエアにおいては、今年度も「暮らしの
なかのサイエンス」として、一般の方々に親しんで頂ける題材にて
講演会を開催します。今年度は「Scratch2.0 ではじめるプログラミン
グ入門」と題して、ゲーム作成を演習題材としたプログラミングに
取り組んで頂きます。
第 3 の役割として、共同利用機器・設備の管理運営が挙げられま
す。冒頭に述べたとおり科学技術の進展に伴い、より高度な機能を
もつ装置や設備活用の必要性が高まっている中、より効率的な共同
利用のしくみがますます求められると想定されます。課題を抽出の
上、利用者の意見も踏まえてより活用しやすい仕組みの整備を図っ
て参ります。
このほかテクノサークル支援の活動も行っています。テクノサー
クルは「研究者・技術者の卵」ともいえる工学部生を中心とした学
生が関心をもった課題ごとにあつまり、工学知識を活用して課題解
決に向けた研究活動を行うサークルです。学生自らが課題を解決し
ていくなかで、さらなる研究や技術開発への意欲を醸成することも
ねらいとしています。今年度は 7 件のサークル活動を支援していま
す。
ご紹介させて頂きました活動には、工学部、工学研究科と連携し
たものも多数あります。研究所としては、既存組織の枠を超えた活
動推進をはじめとした研究所らしい機能を生かすことで、今後想定
される課題解決への貢献も図りたいと考えております。
ご紹介させて頂きました研究活動推進、成果やそれを育んでいる
組織情報の発信など、数々の機能をあわせもつ工学研究所は、運営
委員、研究支援委員、大型装置管理委員をはじめとした研究所員、
ならびに学部、研究科と連携したテクノフェスタ企画委員・実行委
員、工学研究編集委員、工学系冊子編集委員の皆さまの活動により
成り立っています。今後、研究所の目的に沿った活動のより効率的
な推進に向け、多くの皆様からのご提案やアイデアを頂きたいと考
えています。そのようなアイデアを頂くためにも、工学研究所のし
くみや活動概要をよりわかりやすく発信していきたいと考えており
ます。関連委員会の皆様のみならず所員の皆様のご協力を改めてお
願い申し上げます。
*工学研究所所長
Director, Research Institute for Engineering
1
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