Advanced ThermodynamicsTAEEL5511
1) (2)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
(70 ) (30 ) 60
10 30 12C208 [email protected]. (ac.jp)
Applied heat transfer engineeringTAEEL5512
1
2 Units
3 Density
4 Moisture Content
5 Temperature
6 Pressure
7 Phase diagram of water
8 Thermodynamics
9 Energy
10 Energy Balance
11 Fluid flow in food processing
12 Heat Transfer in food processing
13 Preservation Process
14 Psychrometrics
15
Introduction to Food Engineering, 5th Edition Elsevier
(50 ) (50 ) 60
9 30 10 30C202 [email protected]. (ac.jp)
Transport PhenomenaTAEEL5513
1
2 1
3 2
4
1 1
6 2
7 3
8 4
9 5
10 6
11 1 3
12 2 Navier-Stokes
13 3
14
15
R. B. Bird W. E. Stewart and E. N. Lightfoot 'Transport
Phenomena', John Wiley & Sons, Inc.
60
16 18C207 [email protected]. (ac.jp)
Advanced Computational Fluid DynamicsTAEEL5514
1
2
3
4
5
6 Von Neumann
7 1 MAC
8
9
10
11
12
13
14
15
60
C Fortran
15 17E201 [email protected]. (ac.jp)
System dynamicsTASDL5521
1
2
3 (1)
4 (2)
5 (3)
6 (1)
7 (2)
8 (3)
9 (1)
10 (2)
11 (3)
12 (1)
13 (2) Householder
14 (3)
15
16 30 18C212 [email protected]. (ac.jp)
Optical Diagnosis and Evaluation EngineeringTASDL5522
Optical Coherence Tomography
Photo-mechanics
1
2 13 24 35 46 57 68 19 2 DIC PIV10 311 412 113 2
14 315 4
II C
14 30 16G204 [email protected]. (ac.jp)
Advanced Power Train System EngineeringTASDL5523
1
2
3
4 LQ
5 (1)
6 (2)
7 (1)
8 (2)
9 LQ
10 (1)
11 (2)
12 (1)H
13 (2)
14 AI
15
web
60
C211 [email protected].(ac.jp)
MechatronicsTASDL5525
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
WEB
( : DC )
60
10 40 12 10C210 [email protected]. (ac.jp)
Interactions Between Materials and OrganismsTAMDL5532
12
3
45 16 278 19 2101112 113 21415
35 65
9 10 30C216 [email protected]. (ac.jp)
Composite Materials EngineeringTAMDL5533
1 1
2 2
3 1
4 2
5 3
6
7 1 1
8 2 2
9 3 3 1
10 4 4 2
11 1
12 2
13 3 1
14 4 2
15
10 40 11 40C223 [email protected]. (ac.jp)
Advanced Composite Materials Engineering
TAMDL5534
1
2 (1)
3 (2)
4 (3)
5 (4)
6 (5)
7 (6) -
8 (1)
9 (2)
10 (3)
11 (1)
12 (2)
13 (3)
14 (4)
15
60
16 18E208 [email protected]. (ac.jp)
Strength and Plasticity of CrystalsTAMDL5535
1
2 1
3 2
4 3
5 1
6 2
7 3 X FIM
8 1
9 2
10 3
11 1
12 2
13 3
14 4
15
60
Power Point
G502 [email protected]. (ac.jp)
Elastoplastic MechanicsTAMDL5538
1
2
3
4
5
6
6
7
8
9
10
11
12
13
14
15
10 30 16G501 [email protected]. (ac.jp)
Material Science for BionicsTAMDL5536
1 1 1
2 2
3 3
4 4
5 5
6 6
7 6
8 6
9 2
10 2
11 3
12 3
13 2
14 3
15
13 14 30G505 [email protected]. (ac.jp)
Strength of Polymer SolidsTAMDL5537
1
2 1
3 2
4 1
5 2
6 3
7
8 1
9 2
10 3 -
11 4
12
13 1
14 2
15
2 1
13 18C214 [email protected]. (ac.jp)
Introduction to Molecular DynamicsTAMDL5540
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
60
k.kiyohara@aist. (go.jp)
Precision Machining
TAMDL5541
,
,
1
2 3
3
4 PC5 IBM PC IBM 6 PC Windows Apple7
8
9 WWW OS2 9
10
11
12 5
13
14 :
15 :
10 , , ,
,
,
[email protected].(ne.jp)
Modern AnalysisTAAML5501
1 .
2 I
3 II
4 III
5 I
6 II
7
8 I
9 II
10 I
11 II
12 III
13
14
15
60
, ,
14 17C219 [email protected]. (ac.jp)
Nonlinear AnalysisTAAML5504
1
2
3 1
4 2
5
6 1 KdV
7 2 KdV
8 3
9 1
10 2
11
12 1
13 2 -
14 3
15
60
14 17C219 [email protected]. (ac.jp)
Special LectureTASPL5591
1 5
1 X
2 X
3 X X Bragg
4 sin2 cos
5 RESA PF SPring8 SOI
6 10
6
7
8
9
10
11 15
11
12
13
14
15
Special Exercise Advanced ThermodynamicsTAMSE5511
(1)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
W.D.
10 30 12C208 [email protected]. (ac.jp)
Special Exercise Applied Heat TransferTAMSE5512
1
2
3
4 IoT
5
6
7
8
9
10
11
12
13
14
15
9 30 10 30C202 [email protected]. (ac.jp)
Special Exercise Transport Phenomena
TAMSE5513
1
2 Stokes
3 Stokes
4 Stokes
5
6
7
8
9 cf
10
11 Nu Nu cf
12
13
14
15
60
16 18C207 [email protected]. (ac.jp)
Special Exercise Fluid MechanicsTAMSE5514
1
2
3
4 1
4 2
5 3
6 4
7 5
8 6
9 1
10 2
11 3
12 4
13 1
14 2
15
P. G.
1998
60
15 17E201 [email protected]. (ac.jp)
SSpecial Exercise VVibration EngineeringTAMSE5521
Matlab
1 Matlab
2 Matlab Matlab
3 Matlab Matlab m
4 Matlab )
5 Matlab )
6 Matlab )
7 Matlab )
8 Matlab )
9 Matlab )
10 Matlab
11 Openmodelica Openmodelica
12 Openmodelica Openmodelica Modelica
13 Openmodelica
14 Openmodelica
15
Matlab
16 30 18C212 [email protected]. (ac.jp)
Special Exercise Optical DiagnosisTAMSE5522
1 OCT OCT
2
3
4
5
6 OCSA)
7 OCSA)
8 OCSA)
9 OCSA
10 OCDV)
11 OCDV)
12 OCDV)
13 OCDV
14 I
15
II C
14 30 16G204 [email protected]. (ac.jp)
Special Exercise System ControlTAMSE5526
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16 30 18C213 [email protected]. (ac.jp)
Special Exercise Metallic Materials and MicrobesTAMSE5532
1 1
2 2
3 3
4 4
5 (1)
6 (2)
7 (3)
8 (4)
9 (5)
10 (6)
11 (1)
12 (2)
13 (3)
14 (1)
15 (2)
9 10 30C216 [email protected]. (ac.jp)
Special ExerciseEngineering Programming
TAMSE5523
(i)web : (ii)GUI
: (iii) CAD HDD
3
1
2 CGI , /Qt , /scilab:
3 HTML /Qtcreator /scilab:
4 html /Qtdesigner /scilab:
5 html:CSS /Qtcreator:GUI I/scilab:
6 perl , /Qtcreator:GUI II/scilab:
I
7 perl /C++ : /scilab: II
8 perl /C++ :/scilab: III
9 perl /Qt:signal&slot /scilab:
IV
10 perl /Qt:xml /scilab: V
11 ssh /Qt:HTML5 /scilab VI
12 CGI /Qt :xml (1)/scilab
VII
13 web : /Qt :xml (2)/scilab
VIII
14
15
Web60
C211 [email protected].(ac.jp)
(( )) Special Exercise Actuator TechnologyTAMSE5525
FPGA
DC
DC
1
2 FPGA
3 (VHDL)
4 FPGA
5 DC
6 MOSFET
7
8
9 MOSFET
10
11
12 VHDL
13 MOSFET VHDL
14 DC VHDL
15
( FPGA )
60
C210 [email protected]. ac.jp
Special Exercise Composite Materials EngineeringTAMSE5533
1
2 1
3
4
5
6
7
8
9
10
11
12 10
13 11
14 12
15
13 14C223 [email protected]. (ac.jp)
Special Exercise Advance CComposite
Materials Engineering
TAMSE5534
FEM FEM
1
2 (1)
3 (2)
4 (3)
5 (4)
6 (1)
7 (2)
8 (3)
9 (4)
10 (5) CFRP
11 (6) CFRP
12 (1) CFRP
13 (2) CFRP
14 (3) /
15
60
16 18E208 [email protected]. (ac.jp)
Special Exercise Wave TheoryTAMSE5524
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
60
16 30 18G503 [email protected]. (ac.jp)
Special Exercise Metallic Materials EngineeringTAMSE5535
Windows
1
2
3
4 Visual Basic
5
6
7
8
9
10
11
12
13
14
15
60
G502 [email protected]. (ac.jp)
Special Exercise Solid Continuum MechanicsTAMSE5538
1
2
3
4
5
6
6 DIC
7 DIC
8 DIC
9
10
11
12 DIC
13
14
15
10 30 16G501 [email protected]. (ac.jp)
Special Exercise Materials Physics and ChemistryTAMSE5536
1
2
3
4
5
6
7
8
9
10
11
12
13 (
14
15
13 14 30G505 [email protected]. (ac.jp)
Special Exercise Nonlinear Differential EquationsTAMSE5503
1
2 I
3 II
4 III
5 I
6 II
7
8 I
9 II
10
11 I:
12 II:
13 III:
14
15
I, II, III 2018
14 17C219 [email protected]. (ac.jp)
Special Exercise Partial Differential EquationsTAMSE5502
1
2 I
3 II
4 III
5 I
6 II
7
8 I
9 II
10
11 I:
12 II:
13 III:
14
15
I, II, III 2017
14 17C219 [email protected]. (ac.jp)
Special Exercise Strength of Polymer SolidsTAMSE5537
1
2
3 DTA
4 DSC
5
6
7 TMA
8 DMA
9
10
11
12
13
14
15
1
13 18C214 [email protected]. (ac.jp)
Advanced Electron and Ion Beam OpticsTBEE05501
electron optics
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
70 30 60
2 3
-F117 3030
kobayasi(at)a-phys.eng.osaka-cu.ac.jp
Advanced Ultrafast OptoelectronicsTBEE05502
2
(1)
(2)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
( )
( )
50% 50% 60
B520 3089
[email protected].(ac.jp)
Advanced Lecture on Nano-MaterialEngineeringTBEE05503
1
2
3
4
5 bright dark
6
7
8
9
10
11
12
13
14
15
V. I. Klimov ” Semiconductor and Metal Nanocrystals” (Marcel Dekker Inc., 2004) C. Klingshirn ”Semiconductor Optics” 3rd Edition (Springer, 2006)
, 2010
F120 3087
[email protected].(ac.jp)
Advanced Semiconductor Power
EElectronics Devices
TBEE05504
(1) CMOS
(2)
(3)
1
2
3 MOSFET (1)
4 MOSFET (2)
5 CMOS
6 CMOS CMOS
7
8 FinFET
9
10 (1) MOS
11 (2) IGBT
12 GaN SiC
13 HEMT HBT
14
15
50% 50% 60
B315
[email protected].(ac.jp)
Smart Energy
TBEE05505
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
60
B317 2685 B323 2690
[email protected].(ac.jp) [email protected].(ac.jp)
CControl of Discrete-EEvent Systems
TBEE05506
Discrete-event systems are ubiquitous in engineering: manufacturing systems, communication protocols, transportation networks, and logistics. The course will cover discrete-event system modeling, supervisory control design, distributed control by supervisor localization, and control under partial observation.
Be able to model discrete-event systems and design controllers for them. Be able to build different control architectures.Be able to use software TCT for control design.
1 Introduction to discrete-event systems: examples and control architectures2 Automata model: finite-state automata, language representation of behavior3 Supervisory control theory basics: control technology, concept of controllability4 Supervisory control synthesis: centralized supervisor synthesis, use of TCT design software5 Supervisory control examples: small factory, transfer line6 Supervisor reduction: state reduction of centralized supervisor7 Distributed control architecture: concept of distributed control, concept of localization8 Distributed control by localization: supervisor localization theory and design method9 Distributed control examples: small factory, transfer line10 Decentralized supervisory control: decentralized control architecture, problem of conflicting11 Decentralized control and coordination: coordination of decentralized supervisors12 Localization of large systems: combining decentralized control and supervisor localization13 Partial observation: partial observation of events, concept of observability14 Partially observed supervisory control: control design with partial observation15 Timed discrete-event systems
Before each lecture, review the content of the previous lecture.
After each lecture, work out the problems in the homework assignment.
W.M. Wonham, “Supervisory Control of Discrete-Event Systems”, University of Toronto1. Six homework assignments 60% (each assignment 10%)
2. Final project 40% (report 20%, presentation 20%)
The course emphasizes systematic approach to problem solving; no prerequisite.
(other time by email appointment)
F 610 2703
[email protected].(ac.jp)
SSpecial Lecture on Fundamental Informatics
TNB003301
Alexander Carballo
2
LRF LRF
Carballo
1
2 3DCAD 3D
3 3D
4 3D
5 3D
6
7
8 LRF(Laser Range Finder) LRF LRF
9 LRF LRF
10 LRF Carballo
11 Carballo
12 SLAM Simultaneous Localization and Mapping
Carballo
13 HRI(Human Robot Interaction) Carballo
14 Carballo
F
Applied ElectronicsTBEE05508
2
MEMS
1 : CMOS
2 CMOS :
3 (1):
4 (2):
5 (3): RIE
6 (4):
7 (5): DOF
8 (6):
9 (1): 4.0
10 (2):
11 (3): OC
12 (4): APC
13 (5):
14 (1):
15 :MEMS
60
B422
Advanced Lecture on Optical Properties and
FFunctions of Materials
TBAP05501
/
1 :
2 :
3
4
5
6 :
7 :
8
9
10 :
11
12 :
13 :
14 : :
15
( )
50 50
( : )/
4 6:00PM
B515 2174
Advanced Quantum Mechanics
TBAP05503
(1)(2)(3)
1 Brown
2 Einstein
3 Green-
4
5
6
7
8 Cooper
9 BCS
10 BCS
11
12
13 Meissner Ochsenfeld
14 Josephson
15
R.P. Feynman
[email protected].(ac.jp)
Advanced Vacuum Engneering
TBAP05504
2
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
web
(70%) (30%)
,
B514 2738
[email protected].(ac.jp)
Advanced Semiconductor PhysicsTBAP05505
2
(1) (2) k p
(3)
(4)
12
3
4 Transfer-Matrix5 Luttinger6 k p7
8
9
10
1112
13
14
15
, 2013
70 30 60
5B B510 2739
[email protected].(ac.jp)
Advanced Mathematical PhysicsTBAP05506
1.
2.
3.
1
2
3
4
5 qubit
6 No-cloning
7
8
9
10
11
12
13
14
15
M. A. Nielsen and I. L. Chuang, “Quantum Computation
and Quantum Information”, (Cambridge University Press, 2000)
B509 2904
[email protected].(ac.jp)
Advanced Plasma ProcessingTBAP05507
2
(1) (2) (3)
1 :
2 : E×B
3 :
4 :
5 :
6 :
7 RF :
8 RF :
9 :
10 :
11 (1):
12 (2): a-Si:H
13 (1):
14 (2):
15
Web
3 60
B313 2681
[email protected].(ac.jp)
Plasma MedicineTBAP05510
2
(1)(2)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
I
II
I
II
I
II
I
II
III
Web
60
Advanced Photonics
BAP05508
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15 ,
70 30 60
B414 2877
miyazaki@ elec.eng.osaka-cu.(ac.jp)
科目名(和/英) 応用数理特論/Applied Mathematics and Physics
科目ナンバー TBAP05509
担当教員 岩野 薫 授業形態 講義 開講期 後期集中
単位数 2単位
科目の主題 光物性の基礎から始め、強相関電子系の新奇な光応答や光誘起相転移
などの最先端の光物性を概観する
授業の到達目標 まずは光物性の基礎的なことを理解して貰う。その後、それを踏まえ
て、最先端の光物性で話題になっていること、たとえば、強相関電子
系や光誘起相転移などを主として理論の立場から紹介し、現代物理の
数理的側面や方向性などを理解して頂く。
授 業 内 容 ・ 授 業 計 画
第 1回 光と電子の相互作用
第 2回 励起子 (フレンケル励起子、ワニア励起子、振電相互作用)
第 3回 光励起後の格子緩和 I (局在電子系)
第 4回 光励起後の格子緩和 II (遍歴電子系;自己束縛励起子,ポーラロンなど)
第 5回 擬 1次元系の光物性 I (ポリアセチレン、MX Chain; CDW、モット絶縁体)
第 6回 擬 1次元系の光物性 II (分子性結晶;TTF-CA,(EDO-TTF)2PF6など)
第 7回 光物性理論手法 I (平均場、single-CI,RPA)
第 8回 光物性理論手法 II(厳密対角化、DDMRGなど)
第 9回 光物性理論手法 III (第一原理計算)
第 10回 擬 2次元系の光物性 (α-(BEDT-TTF)2I3など)
第 11回 光誘起相転移 I (CDW中のソリトン光生成,中性イオン性相転移)
第 12回 光誘起相転移 II(モット絶縁体の金属化)
第 13回 光誘起相転移 III (強磁性体、強誘電体の光制御)
第 14回 ごく最近の話題 I (コヒーレント振動、電子位相、位相制御など)
第 15回 ごく最近の話題 II (強励起の物理;フロケ理論,動的局在など)
事前・事後学習の内容 事前:次回の授業内容の予習
事後:当日の授業内容の復習
教材 授業中に指示する
評価方法・評価基準 レポート50%、出席50%
受講者へのコメント 量子力学の基本的なことを履修済みなら受講可能です
オフィス・アワー 電子メールにて対応
室番号・内線番号
メールアドレス 授業の際にお知らせします。
- 67 -
IInformation Processing
TBIC05501
2
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
(100 ) 60
B-316 2679 F-506 2778 F-505 3081
[email protected].(ac.jp)
[email protected].(ac.jp) ( ),
[email protected].(ac.jp)
IInformation processing
TBIC05502
1
2 I
3
4
5
6
7
8
9
10
11
12
13
14
15
C
100% (30%) (40%)
(30%) 60
C
F504 2684 F503 2683
[email protected].(ac.jp)
[email protected].(ac.jp)
CCommunication Systems
TBIC05504
1
2
3
4 MIMO5
6
7
8
9
10
11
12
13 BCH RS14
15
(70 ), (30 ) 60
15 18 13 18F-606 2795 F-603 2796 F-608 [email protected].(ac.jp) [email protected].(ac.jp)
[email protected].(ac.jp)
Information Networking
TBIC05505
TCP/IP
Software Defined Network
1
2
3
4
5
6
7
8 TCP/IP
9
10
11
12
13 SDN Software Defined Network
14
15
2
50 50
60
F-605 2772 F-604 2191
[email protected].(ac.jp) [email protected].(ac.jp)
Knnowledge and Information Systems
TBIC05507
2
2
1
2
3
4
5
6
7
8 Web
9 Web
10
11
12
13
14
15
(100 ) 60
PC
10J 3375 10L 3382
[email protected].(ac.jp)
[email protected].(ac.jp)( )
NNetwork Systems
TBIC05508
2
P2P
1 1
2 2
3 3
4 1
5 2
6 3
7 4 IDS
8
9
10
11
12 P2P P2P Gnutella
13 P2P P2P BitTorrent
14 P2P P2P
15
(100 ) 60
10H 3384 10M 3377
k-abe@osaka-cu.(ac.jp)
h-ishibashi@osaka-cu.(ac.jp) ( )
Advanced Lecture on Optical MeasurementsTBIC05503
(1)
(2)
(3)
1
2
3
4
5
6
7
8
9
10
11
12 2
13 3
14
15
75% 25% 60
[email protected].(ac.jp)
Special Lecture on Fundamental Informatics
TBIC05506
2
1
2 ( )
3
4
5
6 ( )
7 ( )
8
9
10
11
12
13
14 :
15
2 (40 % 60 %) 60
( ) 072-254-9675
[email protected].(ac.jp)
(( )) Special Exercise Electric and Information Engineering ITBPR06501
1
2 , (1)
3 , (2)
4 , (3)
5 , (4)
6 , (5)
7 , (6)
8 , (7)
9 , (8)
10 , (9)
11 (1)
12 (2)
13 (3)
14 (4)
15 (5)
C
(30%) (40%) (30%)
C
F503 2683
[email protected].(ac.jp)
(( )) Special Exercise Electric and Information Engineering IITBPR06502
1 PowerPoint (1)
2 PowerPoint (2)
3 PowerPoint (1)
4 PowerPoint (2)
5 PowerPoint (3)
6 (1)
7 (2)
8 (3)
9 (4)
10 (5)
11 (6)
12 (7)
13 (8)
14 (9)
15 (10)
PowerPoint
(30%) (50%) (20%)
F603 2796
[email protected].(ac.jp)
I Special Exercise Applied Physics ITBPR06503
2
LabVIEW
PC
1
2 :
3 :
4 :
5 LabVIEW :
6 LabVIEW :
7 LabVIEW :
8 LabVIEW :
9 LabVIEW :
10 :
11 :
12 :
13 :
14 :
15 :
LabVIEW LabVIEW ( 2 )
( 2 2016)
60
LabVIEW (
) PC
LabVIEW
B515, 2147; B312 2976; B321, 2973
: [email protected]. ; : [email protected].
(( )) SSpecial Exercise (Applied Physics
))
TBPR06504
2
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
(50%) (50%)
I SSpecial
Exercise (Power Electronics // Particle Detector II)
TBPR06505
,
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
40% (60%) 60
II SSpecial
Exercise (Power Electronics // Particle DDetector III)
TBPR06506
I
1 p-n
2
3 MOS
4 TLM
5
6 FET
7 -
8 -
9
10
11
12
13
14
15
40% (60%) 60
I
Special Exercise (Optoelectronics )
TBPR06509
1 (1)
2 (2)
3 (3)
4 (4)
5 (5)
6 (6)
7 (7)
8 (8)
9 (1)
10 (2)
11 (3)
12 (4)
13 (5) 3
14 (6)
15 (7)
10 50 40
B414 2877
miyazaki@ elec.eng.osaka-cu.(ac.jp)
III Special Exercise (Optoelectronics III)
TBPR06510
1 (1)
2 (2)
3 (3)
4 (4)
5 (5)
6 (6)
7 (7)
8 (8)
9 (1)
10 (2)
11 (3)
12 (4)
13 (5) 3
14 (6)
15 (7)
10 50 40
B414 2877
miyazaki@ elec.eng.osaka-cu.(ac.jp)
Special Exercise Electro--magnetic device Smart ennergy
engineering
TBPR06511
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
60
B317 2685 B323 2690
[email protected].(ac.jp) [email protected].(ac.jp)
Special
EExercise EElectro-mmagnetic device SSmart energy eengineering
TBPR06512
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
60
B317 2685 B323 2690
[email protected].(ac.jp) [email protected].(ac.jp)
ISpecial Exercise Optical Properties and Functions of Materials ITBPR06513
2
(1)(2)
(3)
1 (1)2 (2)3 (3)4 (4)5 (5)6 (6)7 (1)8 (2)9 (3)10 (1)11 (2)12131415
50% 50%60
5B510 2739
[email protected].(ac.jp)
Special Exercise Optical Properties and Functions of Materials IITBPR06514
2
(1)(2)
(3)
1 (1)2 (2)3 (3)4 (4)5 (1)6 (2)7 (3)8 (1)9 (2) 10 (3)11 (4)12 (1)13 (2)14 (3)15 (4)
50% 50%60
5B510 2739
[email protected].(ac.jp)
(( ))
SSpecial Exercise (Functional Thin--Film Synthesis )
TBPR06515
2
(1)
(2) (3)
(4) (5)
12 (1)3 (2)4 (3)5 (1)6 (2)7 (3)8 (4)9 (5)10 (1)11 (2)12 (3)13 (1)14 (2)15 (3)
(50%) (50%) 60
B514 2738
[email protected].(ac.jp)
(( ))
SSpecial Exercise (Functional Thin--Film SSynthesis )
TBPR06516
2
1 (1)2 (2)3 (PVD) (CVD)4 (1) PVD5 (2) PVD6 (3)7 CVD8 (1)9 (2)10 (3)11 (1)12 (2) X13 (3) (RBS)14 (4)15 (5)
(50%) (50%)
B514 2738
[email protected].(ac.jp)
II Special Exercise Advanced Physical
EElectronics I
TBPR06517
2
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
( )
( )
(50%) (50%) 60
B-520 3089
[email protected].(ac.jp)
III SSpecial Exercise AAdvanced Physical
Electronics III
TBPR06517
2
I
I
1
3
4
5
6
7
8
9
10
11
12
13
14
15
( )
( )
(50%) (50%) 60
B-520 3089
[email protected].(ac.jp)
II Special Exercise Nano--material
EEngineering I
TBPR06519
1 III-V
2 II-VI
3
4
5
6
7 II-VI
8 IV-VI
9
10 /
11
12
13 SAM
14 Layer-by-layer
15
(50%) (50%) 60
F120 3087
[email protected].(ac.jp)
III SSpecial Exercise
NNano-mmaterial Engineering II
TBPR06519
1
2
3
4
5
6
7
8
9
10
11 bright dark
12
13
14
15
(50%) (50%) 60
I
F120 3087
[email protected].(ac.jp)
ISpecial Exercise Advanced Spectroscopy and Measurements ITBPR06521
2
123456789101112131415
50% 50% 60
5F117 3030
kobayasi(at)a-phys.eng.osaka-cu.(ac.jp)
Special Exercise Advanced Spectroscopy and Measurements IITBPR06522
2
123456789101112131415
50% 50% 60
5F117 3030
kobayasi(at)a-phys.eng.osaka-cu.(ac.jp)
Special Exercise Mathematical Physics )
TBPR06523
1
2 15
50 50
[email protected].(ac.jp)
[email protected].(ac.jp)
SSpecial Exercise MMathematical Physics ))
TBPR06524
1
2 15
50 50
[email protected].(ac.jp)
[email protected].(ac.jp)
Special Exercise (Information
SSystem Engineering ))
TBPR06525
MATLAB
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
60
B-316 2679
[email protected].(ac.jp)
SSpecial Exercise (Information
System Engineering )
TBPR06526
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
60
B-316 2679
[email protected].(ac.jp)
(( )) Special Exercise Algorithm and Data StructureTBPR06527
,
1
2 , (1)
3 , (2)
4 , (3)
5 , (4)
6 , (5)
7 , (6)
8 , (7)
9 , (8)
10 , (9)
11 (1)
12 (2)
13 (3)
14 (4)
15 (5)
C
(30%), (40%), (30%)
C
F506 2684 F503 2683
[email protected].(ac.jp)
[email protected].(ac.jp)
(( )) SSpecial Exercise AAlgorithm and Data
Structure
TBPR06528
,
1
2 , (1)
3 , (2)
4 , (3)
5 , (4)
6 , (5) SVM
7 , (6)
8 , (7)
9 , (8)
10 , (9) RBF
11 (1)
12 (2)
13 (3) SVM
14 (4)
15 (5) RBF
C
(30%), (40%), (30%)
C
F506 2684 F503 2683
[email protected].(ac.jp)
[email protected].(ac.jp)
SSpecial Exercise AArtificial
Intelligence
TBPR06529
2
1 SLAM2 SLAM3 SLAM4 SLAM5 SLAM6
7
8
9
101112131415
F-506 2778 F-505 3081
[email protected].(ac.jp)
[email protected].(ac.jp)
Special Exercise Artificial
IIntelligence
TBPR06530
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
F-506 2778 F-505 3081
[email protected].(ac.jp)
[email protected].(ac.jp)
SSpecial Exercise-IInformation Networking
TBPR06531
1
2 (1)
3 (2)
4 (3)
5 (4)
6 (5)
7 (6)
8 (7)
9 (8)
10 (9)
11 (10)
12 (11)
13 (1)
14 (2)
15 (3)
2
50 50
60
F-605 2779
[email protected].(ac.jp)
Special Exercise--Information Networking
TBPR06532
1
2 (1) FDMA TDMA
3 (2) ALOHA
4 (3) Slotted ALOHA
5 (4)
6 (5) CSMA
7 (6) CSMA/CD
8 (7) CSMA/CA
9 (8) DCF
10 (9) RTS CTS
11 (10) CDMA
12 (1) FDMA TDMA ALOHA Slotted ALOHA
13 (2) CSMA CSMA/CD
14 (3) CSMA/CA DCF
15 (4) RTS CTS CDMA
2
50 50
60
F-605 2779
[email protected].(ac.jp)
Special Exercise((Multimedia
EEngineering I))
TBPR06533
1
2 VoIP (Voice over IP) 3
4 QoS QoE5
6
7
8
9
101112131415
[email protected].(ac.jp)
Special Exercise Multimedia
EEngineering II
TBPR06534
1
2 P2P3
4
5
6 OpenFlow7
8 SDN9
1011 IoT M2M12131415
[email protected].(ac.jp)
Special Exercise (Information
CCommunications Engineering ))
TBPR06536
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
S. Stein J. J. Jones “ ”(70 ) (30 ) 60
15 18 13 18F-606 2795 F-603 2796 F-608 [email protected].(ac.jp) [email protected].(ac.jp)
[email protected].(ac.jp)
Special Exercise (Information
CCommunications Engineering ))
TBPR06536
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
S. Stein J. J. Jones “ ”(70 ) (30 ) 60
15 18 13 18F-606 2795 F-603 2796 F-608 [email protected].(ac.jp) [email protected].(ac.jp)
[email protected].(ac.jp)
Special Exercise Syystems Control
TBPR06537
2
geometric control, optimal control, nonlinear control
1 Geometric control Introduction of research trends of geometric control2 Geometric control Geometric control topic: disturbance rejection3 Geometric control Geometric control topic: tracking and regulation4 Geometric control Geometric control topic: noninteracting5 Geometric control Presentations on selected topics of geometric control6 Optimal control Introduction of research trends of optimal control7 Optimal control Optimal control topic: convex optimization8 Optimal control Optimal control topic: semidefinite programming9 Optimal control Optimal control topic: nonconvex optimization10 Optimal control Presentations on selected topics of optimal control11 Nonlinear control Introduction of research trends of nonlinear control12 Nonlinear control Nonlinear control topic: advanced stability analysis13 Nonlinear control Nonlinear control topic: perturbation theory14 Nonlinear control Nonlinear control topic: nonlinear observers15 Nonlinear control Presentations on selected topics of nonlinear control
F-610 2703
[email protected].(ac.jp)
SSpecial Exercise SSystems Control
TBPR06538
2
multi-agent
control, distributed control, discrete-event control
1 Multi-agent control Introduction of research trends of multi-agent control2 Multi-agent control Multi-agent control topic: consensus3 Multi-agent control Multi-agent control topic: synchronization4 Multi-agent control Multi-agent control topic: formation5 Multi-agent control Presentations on selected topics of multi-agent control6 Distributed control Introduction of research trends of distributed control7 Distributed control Distributed control topic: load balancing8 Distributed control Distributed control topic: decision-making networks9 Distributed control Distributed control topic: distributed optimization10 Distributed control Presentations on selected topics of distributed control11 Discrete-event control Introduction of research trends of discrete-event control12 Discrete-event control Discrete-event control topic: supervisor localization13 Discrete-event control Discrete-event control topic: state-tree structures 14 Discrete-event control Discrete-event control topic: temporal logics15 Discrete-event control Presentations on selected topics of discrete-event control
F-610 2703
[email protected].(ac.jp)
Special Exercise Information
IInfrastructure Engineering
TBPR06539
2
1
2
3
4
5 Ad hoc6
7 SDN8
9
10
11121314 Web15
(40%) (30%) (30%) 60
10M 3377
h-ishibashi@osaka-cu.(ac.jp)
SSpecial Exercise IInformation
Infrastructure EEngineering
TBPR06540
2
1 (1)2 (2)3 (3)4 (4)5
6
7
8 SDN (1)9 SDN (2)10 (1)11 (2)12 (3)13 (4)14 (5) ( ) 15 (6)
(50%) (50%) 60
10M 3377
h-ishibashi@osaka-cu.(ac.jp)
SSpecial Exercise IInformation
RRetrieval I
TBPR06541
2
II
1
2 13 14 15 2 Web API 6 2 Web API 7
8 2 Web API 9 310 3 tf-idf11 312131415
60
10J 3375
[email protected].(ac.jp)
Special Exercise Innformation
Retrieval
TBPR06542
I
Web
1 Web
2 Web
3 Web
4
5
6
7
8 1
9 1
10 1
11 2
12 2
13 2
14
15
60
10J 3375
[email protected].(ac.jp)
(( II)
SSpecial Exercise SSpatial Information Engineering I
TBPR06543
2
1
2
3 1
4 2
5 3
6 1
7 2
8 GIS
9 GIS
10 GIS 1
11 GIS 2
12 GIS 3 GIS
13 GIS 4 WebGIS
14 GIS 5 WebGIS
15
60 (100 )
10L 3382
[email protected].(ac.jp)( )
(( III))
SSpecial Exercise SSpatial Information Engineering II
TBPR06544
2
GNSS
2D/3D Web GIS
1
2 GNSS
3 GNSS
4 GNSS 1
5 GNSS 2
6 GNSS 3
7
8 1
9 2 3D
10 GIS 1 WebGIS
11 GIS 2 WebGIS 3D
12 GIS 3 WebGIS
13 GIS 4 WebGIS GIS
14
15
60 (100 )
10L 3382
[email protected].(ac.jp)( )
Special EExercise DDistributed
Systems
TBPR06545
2
1
2
3
5
6
7
8
9
10111213 Web1415
(30%) (40%) (30%)
10H 3384
k-abe@osaka-cu.(ac.jp)
II SSpecial Exercise Distributed
SSystems II
TBPR06546
2
1
2
3
4
5 Socket6 RPC7
8
9
101112131415
(50%) (50%)
10H 3384
k-abe@osaka-cu.(ac.jp)
Special Lecture
TBSL05504
ICT
1 IoT ITS
2 C-ITS(V2X)
3 ADAS
4
5 IT
6 HMI
7
60
[email protected].(ac.jp)
Advanced Inorganic Materials for EnergyTCIME1501
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
5
B404 2693 B407 [email protected].(ac.jp)[email protected].(ac.jp)
Advanced Physical Properties of PolymerTCPPP1501
1
1
2
3
4
5 Tg Tm
6 Tm
7 (SP )
8
9
10
11
12
13
14 g/i
15
B308 [email protected].(ac.jp)
Advanced Polymer SynthesisTCPSY1501
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
2
B302 [email protected].(ac.jp)
Advanced Instrumental AnalysisTCIAN1501
X XX
12345 267 X X8 X MCA SDD9 X KB FZP10 X11 212 X ISO131415
X 2
5 e-mailB110 [email protected].(ac.jp)
Advanced Laser Chemistry Separation EngineeringTCLSE1501
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
e-mailB105 2984 F306 2699
[email protected].(ac.jp)[email protected].(ac.jp)
Advanced Heterogeneous CatalysisTCAHC1501
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
5
B404 2693
[email protected].(ac.jp)
Advanced ElectrochemistryTCECH1501
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
B407
B407 [email protected].(ac.jp)
Advanced Laser ChemistryTCLCH1501
1
2 Q
3
4
5
6
7
8
9
10
11
12
13
14
15
e-mailB105 [email protected].(ac.jp)
Advanced Functional Organic SynthesisTCFOS2501
1
2
3
4
5
6
7 Diels-Alder
8
9
10
11
12
13
14
15
( )
B 3 B305 2980
[email protected].(ac.jp).
Advanced Supramolecular ChemistryTCSCH2501
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
2
F403 [email protected].(ac.jp)
Advanced Chemistry of Molecular CatalysisTCCMC2501
, 1 - ,
2
, 3
-
, 4 ,
,
1
2
3
4 13
5 13
6 14
7 14
8 11
9 12
10
11
12
13
14
15
B-303E 2979
[email protected].(ac.jp)
Organic Photochemistry for Advanced MaterialsTCOPM2501
1
2
3
4
5
6
7
8 EL9
10
11
12
13
14
15
2
e-mailB207 [email protected].(ac.jp)
Design of Advanced MaterialsTCDAM2501
1
2
3 (1)4 (2)5 (3)6 (1)
7 (2)
8 X (1)
9 X (2)
10 X (3) EXAFS11 X (4) XANES12
13
14
15
e-mail 236 3627
[email protected].(ac.jp)
Advanced Genetic EngineeringTCGEN3501
ES iPS
123 DNA DNA4 RNA5 DNA DNA DNA6 DNA78 DNA910 DNA DNA11 DNA121314 PCR DNA PCR PCR15
e-mail F312 [email protected].(ac.jp)
Advanced Protein EngineeringTCPEN3501
1
2
3
4
5
6
7
8
9
10
11
12
13
14 (1)
15 (2)
F302 2783
[email protected].(ac.jp)
Advanced Drug Discovery and Biomolecular EngineeringTCDBE3501
1 (XP)2
3
4
5
6
7
8 SELEX9
10
11
12
13
14
15
50% 50%
B303W 2167, F405 [email protected].(ac.jp)
[email protected].(ac.jp)
Advanced Enzyme EngineeringTCEEN3501
1 : ,
2 :
3 :
4 :
5 pH : pH
6 :
7 :
8 :
9 :
10 : , ,
11 :
12 :
13 :
14 :
15 :
9:00 17 30
06-6963-8065omt@omtri.(or.jp)
Advanced Cell EngineeringTCCEN3501
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
B210E 3092 B209 [email protected].(ac.jp)
[email protected].(ac.jp)
Advanced Cell SignalingTCCSI3501
1
2 (XP) DNA3
4 CAG5
6 iPS ES7 RNA8
9
10
11
12
13
14
15
1
e-mailB311 [email protected].(ac.jp)
Advanced Biomolecular EngineeringTCBEN3501
2
1
2
3
4
5
6
7
8 SELEX9
10
11
12
13
14
15
50% 50%
F405F405 [email protected].(ac.jp)
Advanced Separation andBiochemical EngineeringTCSBE3501
1 (1)
2 (2)
3 (3)
4 (4) (1)
5 (5) (2)
6
7 X
8
9
10 (1)
11 (2)
12 (3)
13 (4)
14 (5)
15
Web
100
F306 2699
[email protected].(ac.jp)
Special LectureTCSLE4504
, ,
(1) ,
, (2) 0.5-1.0 GPa
( ) (3)
( , , ) ( , )
B105 2984
[email protected].(ac.jp)
Special LectureTCSLE4506
1953 DNA DNA
1988
PCR
NGS
2012
CRISPR-Cas9
(20%) (80%)
e-mail F312 2782
[email protected].(ac.jp)[email protected].(ac.jp)
Special LectureTCSLE4507
Bio-Inspired
“ ” “ ” Bio-Inspired
( ) ( )
F306 2699
[email protected].(ac.jp)
Special LectureTCSLE4520
2017 6 7
Axcelead Drug Discovery Partners
B210E 3092
[email protected].(ac.jp)
Special LectureTCSLE4514
, ,
(1) ,
, (2) 0.5-1.0 GPa
( ) (3)
( , , ) ( , )
B105 2984
[email protected].(ac.jp)
Special LectureTCSLE4516
1953 DNA DNA
1988
PCR
NGS
2012
CRISPR-Cas9
(20%) (80%)
e-mail F312 2782
[email protected].(ac.jp)[email protected].(ac.jp)
Special LectureTCSLE4517
Bio-Inspired
“ ” “ ” Bio-Inspired
( ) ( )
F306 2699
[email protected].(ac.jp)
Special LectureTCSLE4520
2017 6 7
Axcelead Drug Discovery Partners
B210E 3092
[email protected].(ac.jp)
科 目 名 担 当 者 頁数
[計画系講義科目]
建築計画特論 横山俊祐・徳尾野徹 180
建築デザイン特論 宮本佳明 181
都市・建築史 倉方俊輔 182
都市計画特論 嘉名光市 183
都市デザイン特論 蕭 閎偉 184
生態環境都市論 (増田 昇) 185
都市基盤計画特論 吉田長裕 186
交通計画特論 内田 敬 187
システムビルディング論 石山央樹・(本多友常) 188
[環境系講義科目]
視聴覚環境論 梅宮典子 189
温熱・空気環境論 梅宮典子 190
都市エネルギ-工学特論 鍋島美奈子 191
地域環境工学特論 西岡真稔 192
環境情報処理特論 瀧澤重志 193
水処理工学特論 貫上佳則 194
水圏生態系工学特論 相馬明郎 195
都市資源リサイクル工学特論 水谷 聡 196
沿岸環境工学特論 遠藤 徹 197
[構造系講義科目]
空間構造学 谷口与史也・吉中進 198
鋼構造学特論 山口隆司 199
コンクリート構造学特論 角掛久雄 200
複合構造学 鬼頭宏明 201
最適設計・耐震設計論 (上谷宏二)・(辻聖晃) 202
地盤工学特論 大島昭彦 203
風工学特論 谷口徹郎・ガヴァンスキ江梨 204
流体環境・水防災工学特論 重松孝昌・中條壮大 205
地盤防災工学特論 山田 卓 206
[その他講義科目]
空間情報学特論 ベンカテッシュラガワン・米澤 剛 207
[演習科目]
特別演習(建築設計演習Ⅰ) 横山俊祐 208
特別演習(建築設計演習Ⅱ) 宮本佳明 209
特別演習(建築構法) 石山央樹 210
特別演習(建築史) 倉方俊輔 211
特別演習(都市計画) 嘉名光市・(中塚 一)・(竹内達也) 212
特別演習(都市デザイン) 蕭 閎偉 213
特別演習(都市基盤計画) 内田 敬 214
特別演習(交通計画) 吉田長裕 215
特別演習(建築環境工学Ⅰ) 梅宮典子 216
特別演習(建築環境工学Ⅱ) 梅宮典子 217
特別演習(環境図形科学) 瀧澤重志 218
都市系専攻科目目次
科 目 名 担 当 者 頁数
特別演習(都市エネルギー工学) 鍋島美奈子 219
特別演習(地域環境工学) 西岡真稔 220
特別演習(沿岸環境工学) 相馬明郎・遠藤 徹 221
特別演習(都市リサイクル工学Ⅰ) 貫上佳則 222
特別演習(都市リサイクル工学Ⅱ) 水谷 聡 223
特別演習(建築構造学Ⅰ) 吉中 進 224
特別演習(建築構造学Ⅱ) 鈴木裕介 225
特別演習(建築構造学Ⅲ) 谷口与史也 226
特別演習(橋梁工学Ⅰ) 山口隆司 227
特別演習(橋梁工学Ⅱ) 山口隆司 228
特別演習(構造工学Ⅰ) 角掛久雄 229
特別演習(構造工学Ⅱ) 鬼頭宏明 230
特別演習(地盤工学Ⅰ) 大島昭彦 231
特別演習(地盤工学Ⅱ) 山田 卓 232
特別演習(河海環境構造工学) 重松孝昌・中條壮大 233
特別演習(風工学) 谷口徹郎 234
特別演習(空間情報学) ベンカテッシュラガワン・米澤 剛 235
[建築士実務経験対応科目]
設計プロジェクトマネジメント特論 森一彦・(竹原義二)・(衛藤照夫) 236
特別演習(建築構造実験) ガヴァンスキ江梨・谷口徹郎 237
特別演習(建築構造設計演習) 吉中 進・鈴木祐介 238
特別演習(建築プログラム演習) 徳尾野徹・(原正二郎) 239
特別演習(建築工事監理実習) 徳尾野徹・(岡 憲司) 240
インターンシップⅠ(意匠) 宮本佳明 241
インターンシップⅠ(構造) 谷口与史也・谷口徹郎 242
インターンシップⅠ(設備) 梅宮典子 243
インターンシップⅡ(意匠) 横山俊祐 244
インターンシップⅡ(設備) 梅宮典子 245
インターンシップⅢ(意匠) 徳尾野徹 246
インターンシップⅢ(設備) 梅宮典子 247
インターンシップⅣ(設備) 梅宮典子 248
[特別研究科目]
前期特別研究 各教員 249
Advanced Architectural Planning and Design
TDPLL6501
1
2
3
4 vs
5
6
7
8
9
10
11
12
13
14 DIY
15
C418 2199( ) C419 2713( )
[email protected].(ac.jp),
tokuono@ arch.eng. osaka-cu.(ac.jp)
Advanced Architectural Design
TDPLL6502
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15 2
PPT
C417 2714
[email protected]. osaka-cu.(ac.jp)
HHistory of Cities and Architecture
TDPLL6503
1
2 —
3 —
4 —
5 —
6 —
7 —
8 —
9 —
10 —
11 —
12 —
13 — ADAN
14 —
15 —
1 4
10:30 12:00
C415 2176
[email protected].(ac.jp)
Advanced Urban Planning & Design
TDPLL6504
2
1 1
2 2
3 1
4 2
5 1
6 2
7 1
8 2
9 1
10 2
11 1
12 2
13 1
14 2
15
40% 60%
10 40 12 10
C422 [email protected].(ac.jp)
Advanced Urban Design
TDPLL6505
2
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
60 40% 60%
10 40 12 10
C423 2716
[email protected].(ac.jp)
Ecological Urban Planning
TDPLL6506
2
1
2
3 (1)
4 (2)
5
6
7
8
9
10
12
13
14
15
10 40 12 10
C423 2717
[email protected]. ac.jp
Advanced IInfrastructure Planning Theory and
PPractice
TDPLL6507
1
2
3
4
5
6
7
8
9 1
10 2
11 3
12 4
13 5
14 6
15
(30 )
(70 ) 60
10:00 12:00
C325 2731
[email protected]. (ac.jp)
Advanced Transportation Planning
TDPLL6508
1 (1)
2 (2)
3 (1)
4 (2) Logit
5 (3) Logit
6 (4) t
7 (5) Logit
8 (6)
9 Logit (1) Probit
10 Logit (2) Nested Ordered
11 (1) Activity-based
12 (2) SP(Stated Preference)
13 (3)
14 (4)
15
1.5
Exercise( ) 2.5
: )
10 Exercise( )
60
12:15 12:50C-316 [email protected].(ac.jp)
TTheory of System Building
TDPLL6509
RC S
RC
( )
1
2 1
3 2
4 RC 1
5 RC 2
6 S 1
7 S 2
8 1
9 2
10 3
11 4
12 5
13
14
15
C-418 2199
[email protected].(ac.jp)
Design of Visual and Auditory EnvironmentTDENL6501
2
1 -
2 :
3 :
4 :
5 :
6 :
7 : Weber-Fechner
8 :
9 :
10 :
11 :
12 :
13 :
14 :
15 :
80 20
13
C411 2710
[email protected].(ac.jp)
Thermal-aerial Environmental EngineeringTDENL6502
2
1
2 13 24 35 46 5 Navier-Stokes7 RANS LES DNS8 19 2 k- 2
10 3 k- 2
11 412 5 RANS13
14
15
60 40
30C411 [email protected].(ac.jp)
Advanced Urban Thermal Energy
EEngineering
TDENL6503
1
2
3 ZEB ZEH
4
5 1
6 2
7
8
9 1 HASPEE 1
10 2 HASPEE 2
11 3 HASPEE 3
12 4 NewHASP 1
13 5 NewHASP 2
14 6 NewHASP 3
15
50 50
G403 [email protected].(ac.jp)
Advanced Regional Environmental Engineering
TDENL6504
2
1 (1)
2 (2)
3 (1)
4 (2)
5 (1)
6 (2)
7 (1)
8 (2)
9 (1)
10 (2)
11 (1)
12 (2)
13 (3)
14 (4)
15
( )
(60%), (40%)
16:30 18:00
G402 2718
[email protected].(ac.jp)
Advanced Environmental Information Processing
TDENL6505
2
1
2 1
3 2
4 3
5 4
6 5
7 1
8 2
9 3
10 4
11 5
12 6
13 7
14
15
( )
(60%), (40%)
13:00 16:30 14:30 16:30
C428 2712
[email protected].(ac.jp)
Advanced Water and Wastewater Treatment EngineeringTDENL6506
1
2
3 2
4 3
5 4
6 5
7
8 2
9
10
11 3
12 4
13 5
14 6
15 7
Metcalf & Eddy Wastewater Engineering
70 30
60
16:30 18:00
G405 2728
[email protected].(ac.jp)
Advanced Aquatic Ecosystem EngineeringTDENL6507
(1) (2)
(3)
(1) (3)
1
2
3
4
5
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7
8
9
10
11
12
13
14
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60 40
60
10:40 12 10
C321 2075
[email protected].(ac.jp)
Advanced Recycling Engineering for Urban
Resources
TDENL6508
Michael D. LaGrega “Hazardous Waste Management” 11 ”Stabilization and Solidification ”
12 Introduction:3 Mechanisms14 Mechanisms25 Technology1 16 Technology2 27 Testing18 Testing29 Testing310 Testing411 Field implementation112 Field implementation213 Design14 Case study15
5 10
M.LaGrega, P.Buckingham, J.Evans: ”Hazardous Waste Management” (Mcgraw-Hill ISBN-13: 978-0070195523) Chapter 11 [ ]
50% 50 60%
12:10 13:00
G404 2727
[email protected].(ac.jp)
Advanced Estuarine and Coastal Environmental EngineeringTDENL6509
12 Ri -34 DO56 Chl.a78910111213 CO2
1415
12:20 12 50C320 [email protected](.ac.jp)
Structural Engineering for Spatial Structures
TDSTL6501
1
2
3
4
5
6
7
8
9 TMD
10
11
12
13
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15
50 (50)
C407 2709
[email protected].(ac.jp)
Steel Structural Engineering, AdvancedTDSTL6502
1
2 1
3 2
4 1 1
5 (2) 2
6
7
8
9
10
11 (1)
12 (2)
13
14 (1)
15 (2)
IA MacLead : Modern Structural Analysis ISBN 072773279X
(75%)
25% 60%
12:00 12:20
C310 2765
[email protected].(ac.jp)
Advanced Concrete Structural Engineering
TDSTL6503
2
1
2 (1)
3 (2)
4 (3)
5 (4)
6 (5)
7 (6)
8 (7)
9 (8)
10 (1)
11 (2)
12 (3)
13 (4)
14 (5)
15 (6)
3
(40%) 60%60%
10:00 13:00C-307E [email protected].(ac.jp)
Steel-Concrete Composite ConstructionTDSTL6504
( )
1234567 -8 (1)9 (2)10 (1)11 (2)12 (1) ( ) 13 (2)1415
16:30-17:30C-306 [email protected].(ac.jp)
科目名(和/英) 最適設計・耐震設計論
/ Advanced Structural Engineering for Optimum & Seismic Design
科目ナンバー TDSTL6505
担当教員 辻聖晃 授業形態 講義 開講期 後期
単位数 2単位
科目の主題 現代の建築構造は制振,免震など多様な機能を備える一方,計画・意
匠面からの様々な要求を満たすように設計することが求められる。複
雑多様なシステムに対し,コストや資源とのバランスを適切に図りつ
つ優れた設計を行うため,最適化などの数理的手法の導入が期待され
ている。本講では先ず最適設計法と耐震設計に関する基礎的事項につ
いて講述し,建物に要求される力学的機能は何であるか,その力学的
機能を達成するためにどのような構造計画がなされるのか,構造計画
に応じて地震時挙動がどのように異なるのかなどについて解説する。
授業の到達目標 最新の最適設計と耐震設計について広く学び,構造設計の要点を理解
できる能力を身に付けることを目標とする。
授 業 内 容 ・ 授 業 計 画
第 1回:授業の目的と内容の説明
第 2回~第 7回:『建築構造物の耐震設計』 建築物の地震被害とこれに伴う耐震設計法の変
遷について展望する。鋼構造,鉄筋コンクリート造,合成構造などの各構造種について,中
低層及び高層建築物,制振・免震構造物について現行の耐震設計の基本的考え方を解説する。
耐震設計で用いられる静的弾塑性解析法,動的応答解析について解説する。幾何学的非線形
効果(PΔ効果)によって生じる下層部変形集中現象など不安定要因について論じる。
第 8回~第 13回:『最適設計』 一般的な最適設計問題について説明し,設計変数,目的関
数,制約関数を解説する。次に,線形計画法,逐次2次計画法,勾配射影法などの最適化ア
ルゴリズムを概説し,問題の特徴を分析し適切な手法を選択するための基本的な考え方を解
説する。さらに,計画面,意匠面からの要求を満たす建築物の最適設計事例を紹介し,将来
に向けての課題を論じる。
第 14回:『性能操作型設計』 最適設計問題・多目的最適化法の限界と問題点について論じ,
対話型設計法の必要性を説く。「性能」という概念,価値の相対性,数量化の困難な性能の取
り入れ方,性能操作アルゴリズムなどについて解説する。事例として,形状パラメータを設
計変数とする立体トラス屋根の設計,免震構造物の設計を紹介する。
第 15回:『レポートの発表および講評』 授業の理解度を判定し,まとめの講義を行う。
事前・事後学習の内容 事前に配布資料を熟読し,理解できない箇所を明らかにする。講義
の後は演習レポート等を用いて理解を深めること。
教材 講義資料を配布する 評価方法・評価基準 出席,レポート
受講者へのコメント 建築構造設計が今日抱える問題点を正しく認識し,将来に向けての
課題と解決の道筋について自分なりに考えてほしい。
オフィス・アワー 授業時間の前後
室番号・内線番号 C-405室・内線 2708
メールアドレス [email protected].(ac.jp)
Advanced Geotechnical EngineeringTDSTL6506
1 12 2 UU, CU CU3 3 CD4 45 56 17 28 39 410 111 212 313 414 515
70 30 60
13 15C114 [email protected].(ac.jp)
Advanced Wind Engineering
TDSTL6507
1
2 ( )
3 ( )
4 ( )
5 ( )
6
7 ( )
8 ( )
9 ( )
10 ( )
11 ( )
12 ( )
13 ( )
14 ( )
15 ( )
(20) (80) 60
C409 2764 C410 2707
[email protected].(ac.jp)
[email protected].(ac.jp)
Environmental Fluid Mechanics and
NNear-sshore Disaster Prevention Engineering
TDSTL6508
1 (1)
2 (2)
3 (1)
4 (2)
5 (1)
6 (2)
7
8 (1)
9 (2)
10 (1)
11 (2)
12 (1)
13 (2)
14 (1):
15 (2)
60%40%
10:00 12:00 C-322 3078 C-311 2780shige@eng. osaka-cu.(ac.jp), nakajo@eng. osaka-cu.(ac.jp)
Disaster Prevention Geotechnical EngineeringTDSTL6509
123456789101112131415
50% 50%60%
10:00 13:00C118 [email protected].(ac.jp)
AAdvanced Spatial Informatics
TDOTL6501
GISGIS
123 GIS45678910 Web-GIS 11121314 315
Open Source GIS: A GRASS GIS Approach. Third edition (Springer, New York)
(50) (50)
10A 3381 10C [email protected].(ac.jp)
[email protected].(ac.jp)
Special Exercise ArchitecturalDDesign StudioTDPLP6501
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5
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7
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9
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11
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C-418 2176
[email protected]. osaka-cu.(ac.jp)
Special Exercise Architectural
DDesign Studio
TDPLP6502
1 2
3 4
5 6
7 8
9 10
11 12
13 15
C417 2714
[email protected].(ac.jp)
SSpecial Exercise(BBuilding construction
mmethod)
TDPLP6503
2
1 London eye
2 3 Crystal Palace
4 5
6 7
8 9
10 11 BIM
12 13 Tensegrity
14 Formian-K
15
2 13 PPT
2 13
1 15 14
( )
(100)
10:00 18:00
AArchitectural History
TDPLP6504
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C415 2176
[email protected].(ac.jp)
Special Exercise Urban Planning & Design TDPLP6505
2
1
2 1
3 2
4 3
5 4
6 5
7 6
8 7
9 1
10 2
11 3
12 4
13 5
14 6
15 7
100%
10 40 12 10
C422 [email protected].(ac.jp)
SSpecial Exercise UUrban Design
TDPLP6506
2
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
2014
2012
60 40% 60%
10 40 12 10
C423 2716
[email protected].(ac.jp)
Special Exercise Infrastructure Planning
TDPLP6507
1
2
3 (1)
4 (2)
5 (3)
6 (4)
7 (5)
8
9 2
10 2 (1) Abstract
11 2 (2)
12 2 (3)
13 2 (4)
14 2 (5)
15 2
:
)
(50 ) (50 ) 60
12:15 12:50C-316 [email protected].(ac.jp)
Special Exercise Transportation Planning
TDPLP6508
1
2 (1)
3 (2)
4 (3)
5 (4)
6 1
7 2
8 3
9 4
10 1
11 2
12 3
13 4
14
15
(50 ) (30 )
(20 )
60
10:00 12:00
C325 2731
[email protected]. (ac.jp)
Special Exercise ArchitecturalEnvironmental Engineering
TDENP6501
2
1
2 :
3 :
4 :
5 :
6 :
7 :
8 9 :
10 :
11 14 :
15 :
50 30 20
13
C411 2710
[email protected].(ac.jp)
Special Exercise (Architectural Environmental Engineering II))TDENP6502
2
PAL
1
2
3 PAL4 PAL5
6
7
8
9
10
11
12
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14
15
10030cm
30C411 [email protected].(ac.jp)
Special Exercise Environmental
GGraphic Science
TDENP6503
2
1
2 1
3 2
4 Processing 1
5 2
6 3
7 4
8
9 Python 1
10 2
11 3
12 4
13 5
14
15
30% 70%
13:00 16:30 14:30 16:30
C428 2712
[email protected].(ac.jp)
SSpecial Exercise UUrban Energy
Engineering
TDENP6504
LCEM
1 LCEM
2 1
3 2
4 3
5 1
6 2
7 3
8 4 1
9 COP
10
11 1
12 2
13 3
14
15
50 50
G403 [email protected].(ac.jp)
)) SSpecial Exercise(Regional
EEnvironmental Engineering)
TDENP6505
2
Python
1 Python
2
3 (1)
4 import
5 (2)
6 (for if )
7 (1)
8 (2)
9
10
11
12 (1)
13 (2)
14 (3)
15
(80%) (20%)
16:30 18:00
G402 2718
[email protected].(ac.jp)
Special Exercise (Coastal & Estuarine Environmental Engineering)TDENP6506
123456789101112131415
12 20 12 50C320 [email protected].(ac.jp)
II SSpecial Exercise UUrban Recycling Engineering ITDENP6507
1
2
3 0 14 Michaelis-Menten Haldan5 MS6
7
8 BOD9
10 VBA11 RKF VBA12 BOD13 BOD14 BOD15
60% 40%
16:30 18:00
G405 2728
[email protected].(ac.jp)
IIISSpecial Exercise UUrban RRecycling EEngineering IITDENP6508
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
4/520 30 50
60
18:10 19:00
G404 [email protected].(ac.jp)
Special Exercise (SStructural Engineering for Architecture ))TDSTP6501
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
100
C-405 2708
[email protected].(ac.jp)
SSpecial Exercise (Structural Engineering for Architecture )TDSTP6502
22
1 2
1 1 22
3
4
5
6
7
8
9
10
11
12
13 1
14 2
15
1001
C-406 2658
[email protected].(ac.jp)
SSpecial Exercise SStructural
Engineering for Architecture
TDSTP6503
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
2
100
C407 2709
[email protected].(ac.jp)
Special Exercise Bridge Engineering ITDSTP6504
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
60 20 20
13 13 30
C310 2765
[email protected].(ac.jp)
Special Exercise Bridge Engineering TDSTP6505
1 (1)
2 (2
3 (3)
4 (4)
5 (1)
6 (2)
7 (3)
8 (4)
9 I (1)
10 I (2)
11 I (3)
12 (1)
13 (2)
14 (3)
15
4 60% (40%)
60
13 13 30
C310 2765
[email protected].(ac.jp)
(( )) SSpecial Exercise (SStructural Engineering
I))
TDSTP6506
2
1
2
3 VBA
4 M
5 (1) M-
6 (2) M- N
7 (1) (1),(2)
8 1
9 (3)
10 (4)
11 (2) (3),(4)
12
13 (5) 1
14 (6) 2
15 (3) (5),(6)
50 50 60
10:00 13:00C-307E [email protected].(ac.jp)
SSpecial Exercise SStructural Engineering
TDSTP6507
(1)
(2) (3)
12 (1)3 (2)456 1 (1) (Rankine)7 (2) (Tresca / von Mises)8 2 (1) Mohr-Coulomb9 (2) Drucker-Pragar1011 (1)12 (2) Prandlt-Ruess13 (3) Drucker-Pragar1415
16:30-17:30C-306 [email protected].(ac.jp)
(( )) Special Exercise Geotechnical EngineeringTDSTP6508
1
2
3
4
5
6 cv7 cv8
9
10
11
12
13
14
15
2/3 (100 ) 60Fortran
Fortran
15 18C114 [email protected].(ac.jp)
Special Exercise Geotechnical Engineering IITDSTP6509
123456789101112131415
30% (70%) 60%
1 PC
10:00 13:00C118 [email protected].(ac.jp)
SSpecial Exercise MMechanisms of Environment in Estuary and Coastal ZoneTDSTP6510
1 (1)2 (2)3 (3)4 (4)5 (1)6 (2)7 (1)8 (2)9 (1)10 (2)11 (3) ( ) 12 (4) ( ) 13 (5)14 (6)15
(60%)
(40%) 60%
10:00 12:00 C-322 3078 C-311 [email protected].(ac.jp), [email protected].(ac.jp)
SSpecial Exercise WWind Engineering
TDSTP6511
1
2 ( )
3 ( )
4 ( )
5 ( )
6 ( )
7 ( )
8 ( ) POD(Proper orthogonal decomposition)
9 ( ) POD
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