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2018-03-06
俗文學與民間藝術(上) / Popular literature and folk art (1)--曾永義
source: 臺灣通識網General Education TW 上傳日期:2018年9月19日
1 1:11:51 week01 0913
2 1:31:42 week02 0920
3 1:36:52 week03 0927
4 1:24:32 week04 1004
5 1:05:46 week05 1011
6 44:13 week06 1101
文學創作與導論--李癸雲 / 清大
# 播放清單: 請點按影片右上角之清單標誌
source: NTHUOCW 2016年8月29日
文學與創作導論開放式課程 http://ocw.nthu.edu.tw/ocw/index.php?...
01 17:57 學期課程公告_L1_A
02 17:54 開場簡介:作者已死?L1_B
03 19:53 作者已死? 是誰在寫作?L1_C
04 11:00 影片:真愛伴我行*少年的戀愛心理 佛洛伊德L1_D
05 17:20 L2A mulic R
06 26:45 L2B mulic
07 35:37 L2C mulic R
08 25:00 L2D mulic
09 37:21 L2M 1
10 40:14 L2M 2
11 47:42 L2M 3
12 27:37 第4C講 散文的紀實與虛構 /、「出位」與「文類界線」
13 20:09 第4D講 散文的紀實與虛構 /一則虛構與紀實的文學獎公案
14 25:59 第5A講 如何閱讀一首詩/這是一首詩,請詮釋之……
15 21:00 第10D講 開始與結局
16 24:09 第10C講 開始與結局
17 19:26 第10B講 開始與結局
18 23:06 第10A講 開始與結局
19 7:31 第9D講 譬喻的生成
20 13:26 第9C講 譬喻的生成
21 22:46 第9B講 譬喻的生成
22 26:27 第9A講 譬喻的生成
23 9:23 第8D講 電影的動態語言
24 15:13 第8C講 電影的動態語言
25 13:42 第8B講 電影的動態語言
26 13:23 第8A講 電影的動態語言
27 25:41 第7D講 電影與文學
28 19:08 第7C講 電影與文學
29 27:17 第7B講 電影與文學
source: NTHUOCW 2016年8月29日
文學與創作導論開放式課程 http://ocw.nthu.edu.tw/ocw/index.php?...
01 17:57 學期課程公告_L1_A
02 17:54 開場簡介:作者已死?L1_B
03 19:53 作者已死? 是誰在寫作?L1_C
04 11:00 影片:真愛伴我行*少年的戀愛心理 佛洛伊德L1_D
05 17:20 L2A mulic R
06 26:45 L2B mulic
07 35:37 L2C mulic R
08 25:00 L2D mulic
09 37:21 L2M 1
10 40:14 L2M 2
11 47:42 L2M 3
12 27:37 第4C講 散文的紀實與虛構 /、「出位」與「文類界線」
13 20:09 第4D講 散文的紀實與虛構 /一則虛構與紀實的文學獎公案
14 25:59 第5A講 如何閱讀一首詩/這是一首詩,請詮釋之……
15 21:00 第10D講 開始與結局
16 24:09 第10C講 開始與結局
17 19:26 第10B講 開始與結局
18 23:06 第10A講 開始與結局
19 7:31 第9D講 譬喻的生成
20 13:26 第9C講 譬喻的生成
21 22:46 第9B講 譬喻的生成
22 26:27 第9A講 譬喻的生成
23 9:23 第8D講 電影的動態語言
24 15:13 第8C講 電影的動態語言
25 13:42 第8B講 電影的動態語言
26 13:23 第8A講 電影的動態語言
27 25:41 第7D講 電影與文學
28 19:08 第7C講 電影與文學
29 27:17 第7B講 電影與文學
Statistical Physics - VIII (2017)--Bangalore School / ICTS, Bengaluru
source: International Centre for Theoretical Sciences 2017年7月4日
Bangalore School on Statistical Physics - VIII
DATE: 28 June 2017 to 14 July 2017
VENUE: Ramanujan Lecture Hall, ICTS, Bengaluru
This advanced level school is the eighth in the series.
This is a pedagogical school, aimed at bridging the gap between masters-level courses and topics in statistical physics at the frontline of current research. It is intended for Ph.D. students, post-doctoral fellows and interested faculty members at the college and university level. The following courses will be offered.
Preparatory lectures by Abhishek Dhar (ICTS) and Sanjib Sabhapandit (RRI)
Critical dynamics by Uwe C Täuber (Virginia Tech, USA)
Thermalization in quantum systems by Subroto Mukerjee (IISc, Bangalore)
Non-equilibrium statistical physics: Introductory examples by Sidney Redner (Santa Fe USA)
Conformal field theory and statistical mechanics by John Cardy (UC Berkeley, USA)
Macroscopic fluctuation theory by Tridib Sadhu (TIFR, Mumbai)
Statistical physics of active matter by (Sriram Ramaswamy (IISc, Bangalore)
CONTACT US:bssp@icts.res.in
PROGRAM LINK: https://www.icts.res.in/program/bssp2017
1 1:32:23 Stochastic Processes (Lecture - 01) by Sanjib Sabhapandit
2 1:29:40 Random Walks (Lecture - 01) by Abhishek Dhar
3 1:31:36 Stochastic Processes (Lecture - 02) by Sanjib Sabhapandit
4 1:36:57 Random Walks (Lecture - 02) by Abhishek Dhar
5 1:37:16 Stochastic Processes (Lecture 03) by Sanjib Sabhapandit
6 1:48:20 Random Walks (Lecture 03) by Abhishek Dhar
7 1:06:57 Stochastic Processes (Lecture 04) by Sanjib Sabhapandit
8 1:27:22 Critical dynamics (Lecture - 01) by Uwe C Täuber
9 1:41:00 Thermalization in quantum systems (Lecture - 01) by Subroto Mukerjee
10 1:34:01 Non-equilibrium statistical physics: Introductory examples (Lecture - 01) by Sidney Redner
11 1:36:17 Critical dynamics (Lecture - 02) by Uwe C Täuber
12 1:31:40 Thermalization in quantum systems (Lecture - 02) by Subroto Mukerjee
13 1:27:53 Non-equilibrium statistical physics: Introductory examples (Lecture - 02) by Sidney Redner
14 1:28:58 Critical dynamics (Lecture - 03) by Uwe C Täuber
15 1:34:45 Thermalization in quantum systems (Lecture - 03) by Subroto Mukerjee
16 1:28:32 Non-equilibrium statistical physics: Introductory examples (Lecture - 03) by Sidney Redner
17 1:26:25 Critical dynamics (Lecture - 04) by Uwe C Täuber
18 1:24:56 Thermalization in quantum systems (Lecture - 04) by Subroto Mukerjee
19 1:33:26 Non-equilibrium statistical physics: Introductory examples (Lecture - 04) by Sidney Redner
20 1:29:34 Critical dynamics (Lecture - 05) by Uwe C Täuber
21 1:36:55 Thermalization in quantum systems (Lecture - 05) by Subroto Mukerjee
22 1:24:52 Non-equilibrium statistical physics: Introductory examples (Lecture - 05) by Sidney Redner
23 1:31:53 Conformal field theory and statistical mechanics (Lecture - 01)by John Cardy
24 1:25:28 Macroscopic fluctuation theory (Lecture - 01) by Tridib Sadhu
25 1:37:44 Statistical physics of active matter (Lecture - 01) by Sriram Ramaswamy
26 1:27:34 Conformal field theory and statistical mechanics (Lecture - 02) by John Cardy
27 1:22:42 Macroscopic fluctuation theory (Lecture - 02) by Tridib Sadhu
28 1:30:13 Statistical physics of active matter (Lecture - 02) by Sriram Ramaswamy
29 42:56 Non-equilibrium Relaxation and Aging Scaling in Driven Systems by Uwe C Täuber
30 47:08 Statistics of Basketball Scoring and Lead Changes by Sidney Redner
31 1:29:28 Macroscopic fluctuation theory (Lecture - 03) by Tridib Sadhu
32 1:30:55 Statistical physics of active matter (Lecture- 03) by Sriram Ramaswamy
33 1:31:18 Conformal field theory and statistical mechanics (Lecture - 04) by John Cardy
34 1:36:55 Macroscopic fluctuation theory (Lecture - 04) by Tridib Sadhu
35 1:37:11 Statistical physics of active matter (Lecture - 04) by Sriram Ramaswamy
36 1:32:49 Conformal field theory and statistical mechanics (Lecture - 05) by John Cardy
37 1:32:12 Macroscopic fluctuation theory (Lecture - 05) by Tridib sadhu
38 1:17:01 Statistical physics of active matter (Lecture - 05) by Sriram Ramaswamy
39 1:30:38 Conformal field theory and statistical mechanics (Lecture - 03) by John Cardy
Quantitative Systems Biology (2017)--Winter School / ICTS, Bengaluru
source: International Centre for Theoretical Sciences 2017年12月18日
Winter School on Quantitative Systems Biology
DATE: 04 December 2017 to 22 December 2017
VENUE: Ramanujan Lecture Hall, ICTS, Bengaluru
The International Centre for Theoretical Sciences (ICTS) and the Abdus Salam International Centre for Theoretical Physics (ICTP), are organizing a Winter School on Quantitative Systems Biology (QSB2017) from 4th to 22nd December 2017, as part of the ICTP - ICTS Programme in Biology. This is the sixth school in the series on Quantitative Systems Biology, held alternately at Trieste & Bengaluru. QSB2017 will be hosted in the ICTS campus in Bengaluru.
The School is targeted towards young researchers, particularly those at the PhD and post-doctoral level with backgrounds in the physical and mathematical sciences and engineering, who are working in biology or hope to do so. It will give participants a broad introduction to open problems in modern biology, and provide pedagogical instruction on new quantitative approaches being used to address those problems. The main school will be preceded by an intensive one-week pre-school (4th to 9th December 2017) targeted to non-biologists.
QSB2017 is focused on biological evolution. Evolutionary processes shape diversity at all levels of biological organization, ranging from networks of interacting molecules in a cell to species and the community level. In the recent years, new methods and approaches have allowed to gain insight on evolutionary processes in real time, either via long-term evolution experiments or by high-resolution lineage tracking. New unexpected phenomena have been discovered, like the CRISPR bacterial immune system, while lineage-tracking has been used to understand evolutionary processes in the organisms, such as stem cell fates. This is a setting that is fertile for quantitative work, both theoretical and experimental. The courses will provide an intensive background to the specific topics before turning towards cutting-edge research.
Topics include
Bacterial and viral evolution: Viral evolution (HIV and flu), Evolution strategies in bacteria, Microbial ecology and game theory
Evolution at the organism level: Protein folding and evolution, Clonal analysis via barcodes, Stem-cell fate and clonal analysis, Immunology and clonal analysis, Genome evolution, Evolutionary developmental biology (evo-devo), Genetic and developmental basis of evolutionary change.
Mechanisms and strategies of evolution: Adaptation as a stochastic process, Evolution of variability, Evolution of mutation rates, Evolution of biological networks, Evolution without natural selection, Learning as an evolutionary process.
Scientists and students from all over the world can apply for the School. Researchers from developing countries are particularly encouraged to apply. As the program will be conducted in English, participants should have an adequate working knowledge of this language. The subsistence expenses of all selected outstation participants will be borne by the School. As a rule, travel expenses of the participants should be borne by the home institution. Every effort should be made by the candidates to secure support for their fare. However, limited funds are available for some participants. Selected participants are expected to attend the entire main school. Selection for the main school automatically guarantees selection for the pre-school, but attending the pre-school is not compulsory. There is no registration fee.
ORGANISING COMMITTEE
Sidhartha Goyal (Univ Toronto)
Kavita Jain (JNCASR Bengaluru)
Luca Peliti (IAS Princeton)
Mukund Thattai (NCBS Bengaluru)
SCIENTIFIC ADVISORY COMMITTEE
Vijay Balasubramanian (UPenn)
Antonio Celani (ICTP Trieste)
Sanjay Jain (Univ Delhi)
Vijay Krishnamurthy (ICTS Bengaluru, Local organizer)
Matteo Marsili (ICTP Trieste)
LECTURERS INCLUDE
Jamie Blundell (Stanford)
Lucy Colwell (Cambridge)
Paul Francois (McGill)
Sergei Gavrilets (Tennessee)
Jeff Gore (MIT)
Michael Lynch (Indiana)
Harmit Malik (Fred Hutch)
Richard Neher (MPI Tubingen)
Erik van Nimwegen (Basel)
Paul Rainey (ESPCI Paris)
John Reinitz (Chicago)
Paul Sniegowski (UPenn)
1 1:44:32 Looking at Evolution by Vidyanand Nanjundiah
2 1:38:42 Introduction to game theory by Matteo Marsili
3 1:21:37 How quantitative genetics blackboxes the genotype-phenotype map by Amitabh Joshi
4 1:16:47 Evolutionary thought between Darwin and the Neo-Darwinian Synthesis by Amitabh Joshi
5 1:25:25 Probability and Random variables by VijayKumar Krishnamurthy
6 1:26:24 Introduction to population genetics (Lecture - 01) by Kavita Jain
7 1:33:20 Population Genetics and Evolution – I: The Mechanisms of Evolution: by Luca Peliti
8 1:33:47 Bayesian inference by John Reinitz
9 1:27:31 Introduction to po pulation genetics (Lecture – 02) by Kavita Jain
10 1:28:17 Population Genetics and Evolution – II by Luca Peliti
11 1:32:43 Stochastic processes by VijayKumar Krishnamurthy
12 1:31:53 Max Likelihood by John Reinitz
13 1:31:38 Multilocus genetics by Kavita Jain
14 1:37:58 Population Genetics and Evolution – III: Speed of Adaptation - The Coalescent by Luca Peliti
15 1:29:02 Using stochastic chemical kinetic models to explore... (Lecture - 01) by Mukund Thattai
16 1:35:27 Using stochastic chemical kinetic models to explore... (Lecture - 02) by Mukund Thattai
17 1:38:21 Evolutionary game theory by Matteo Marsili
18 1:32:06 P-values/Confidence Intervals by John Reinitz
19 1:25:32 Canalization and Evolution: Canalization in {\em trans}: error correction in embryos by John Reinitz
20 1:37:08 Genetic conflicts between and within genomes (Lecture - 01) by Harmit Malik
21 1:32:08 Informative Experimental problem (II): Functional Conservation in S2Es... by John Reinitz
22 1:40:23 Protein evolution (Lecture - 01) by Lucy Colwell
23 1:39:20 Structure, function, and evolution of gene regulatory networks by Erik van Nimwegen
24 1:36:21 Genetic conflicts between and within genomes (Lecture - 02) by Harmit Malik
25 1:32:28 Canalization and Evolution: Canalization and adaptation by John Reinitz
26 1:38:32 Protein evolution - (Lecture - 02) by Lucy Colwell
27 1:33:24 Genetic conflicts between and within genomes ( Lecture - 03) by Harmit Malik
28 1:40:57 Protein evolution (Lecture - 03) by Lucy Colwell
29 1:31:38 Structure, function, and evolution of gene regulatory networks by Erik van Nimwegen
30 1:33:58 Where does gene regulation come from? by Erik van Nimwegen
31 1:27:36 Structure, function, and evolution of gene regulatory networks... (Topic 5) by Erik van Nimwegen
32 1:27:35 The evolution of rapidly evolving RNA viruses by Richard Neher
33 1:26:22 Lab evolution with e coli and yeast. Mutators and their fate (Lecture - 1) by Paul Sniegowski
34 1:38:37 Population dynamics by Jeff Gore
35 1:44:01 Population genetic models of rapid adaptation by Richard Neher
36 1:36:34 Lab evolution with e coli and yeast (Lecture - 02) by Paul Sniegowski
37 1:31:51 Cooperation and cheating in microbial populations by Jeff Gore
38 1:28:21 Models of speciation ( Lecture - 01) by Sergey Gavrilets
39 1:30:05 Network evolution in Immune system and Development (Lecture – 01) by Paul François
40 1:29:42 Systems ecology by Jeff Gore
41 1:28:51 Models of speciation (Lecture - 02) by Sergey Gavrilets
42 1:23:20 Models of speciation (Lecture - 03) by Sergey Gavrilets
43 1:32:31 Lab evolution with e coli and yeast. Mutators and their fate (Lecture - 03) by Paul Sniegowski
44 1:29:17 Network evolution in Immune system and Development (Lecture - 02) by Paul François
45 1:43:35 Applied evolutionary biology:tracking and predicting the spread of disease by Richard Neher
46 1:33:36 Network evolution in Immune system and Development (Lecture - 03) by Paul François
47 1:29:13 Untangling the hairball of immune interaction networks by Paul François
J-Holomorphic Curves and Gromov-Witten Invariants (25 December 2017 to 04 January 2018)
source: International Centre for Theoretical Sciences 2018年1月4日
DATE & TIME: 25 December 2017 to 04 January 2018
VENUE: Madhava Lecture Hall, ICTS, Bangalore
Holomorphic curves are a central object of study in complex algebraic geometry. Such curves are meaningful even when the target has an almost complex structure. The moduli space of these curves (called pesudoholomorphic curves) is typically non-compact and not well-behaved. A nice compactification, due to Gromov, allows us to define certain invariants known as Gromov-Witten invariants.
The theory of Gromov-Witten invariants can be used to deform the usual cohomology ring structure of a symplectic manifold. This has connections, on the one hand, with enumerative geometry, and on the other hand, with deformation of associative algebras and topological quantum field theory. Gromov-Witten invariants have deep connections with physics through the ideas of Mirror Symmetry. Using String Theory, physicists have made amazing predictions about the Gromov-Witten invariants of the quintic threefold. From a mathematical point of view, a large number of predictions are still open.
The study of pseudoholomorphic mappings (with Lagrangian boundary conditions) of Riemann surfaces with boundaries (disks, cylinders, pairs of pants) have turned out to be immensely powerful as a tool and have yielded great results. The original theory of Floer has been extended to study Floer homology of a non-compact symplectic manifold. The invariants arising from Floer theory of cotangent bundle have deep and surprising connections to the algebraic structures present in the free loop space of the ambient manifold.
In this program, several international experts will deliver series of 3 to 4 lectures on their work. To be more easily accessible to the participants, the lecture series by experts are being planned so that they start with simple introduction and gently build up, leading to open questions in their area of expertise. The topics of these lectures are interconnected and will often use the theory of pseudoholomorphic curves as their foundation. There will be 4 lectures each day for a total duration of about 5 hours. Informal lectures / discussions sessions in the evening, complementing the actual lectures, are also being planned for the benefit of the participants.
A preparatory school at NISER in July 2017 is separately being planned to acquaint interested participants with this subject and help them get the most out of the discussion meeting at ICTS. This is the link for the preparatory summer school at NISER.
https://www.icts.res.in/program/JhGW2017
1 1:28:11 Classical background by Mohammed Abouzaid
2 1:26:43 Introduction to Contact Geometry by Dheeraj Kulkarni
3 53:40 Spectra and stable homotopy theory (Remote Talk) by Samik Basui
4 1:28:12 Introduction to h-principle by Mahuya Datta
5 1:29:44 Floer theory by Mohammed Abouzaid
6 1:34:41 Existence of Symplectic and Contact forms by Mahuya Datta
7 1:05:40 Legendrian and Transverse Knots by Dheeraj Kulkarni
8 1:35:25 Spectra by Mohammed Abouzaid
9 1:26:50 Introduction to legendrian contact homology using pseudo-holomoprhic... by Michael G Sullivan
10 1:06:00 Isocontact and isosymplectic immersions and embeddings by Mahuya Datta
11 1:04:49 A quick review of infinity algebras by Somnath Basu
12 1:30:24 Floer homotopy theory by Mohammed Abouzaid
13 1:24:28 Topological Strings and String Dualities by Rajesh Gopakumar
14 1:32:43 Knot contact homology and related topics by Michael G Sullivan
15 59:40 Introduction to Gromov-Witten Invariants by Ritwik Mukherjee
16 1:03:16 Rack theoretic invariants for Legendrian knots: First few steps by Dheeraj Kulkarni
17 1:24:21 Introduction to Gromov-Witten Invariants by Ritwik Mukherjee
18 1:28:45 Cellular legendrian contact homology by Michael G Sullivan
19 1:09:03 Moduli Space of Curves by Chitrabhanu Chaudhuri
20 1:37:09 Topological Strings and String Dualities (Lecture - 02) by Rajesh Gopakumar
21 1:29:41 Augmentations, generating families and micro local sheaves by Michael G Sullivan
22 1:19:32 Gromov–Witten Invariants and the Virasoro Conjecture (Remote Talk) by Ezra Getzler
23 1:23:28 Gromov–Witten Invariants and the Virasoro Conjecture - II (Remote Talk) by Ezra Getzler
24 1:31:44 Symplectic homology, algebraic operations on it and their applications by Janko Latschev
25 1:19:10 Lagrangian Floer theory by Sushmita Venugopalan
26 1:25:48 Fukaya category of a Hamiltonian fibration (Lecture – 01) by Yasha Savelyev
27 1:27:55 Fukaya category of a Hamiltonian fibration (Lecture – 02) by Yasha Savelyev
28 1:24:42 Gromov–Witten Invariants and the Virasoro Conjecture. III by Ezra Getzler
29 48:12 Lagrangian Floer theory (Lecture – 02) by Sushmita Venugopalan
30 1:33:41 Symplectic homology, algebraic operations on it and their applications by Janko Latschev
31 1:39:21 Transversality and super-rigidity in Gromov-Witten Theory by Chris Wendl
32 1:26:14 Transversality and super-rigidity in Gromov-Witten Theory (Lecture – 02) by Chris Wendl
33 1:32:03 Fukaya category of a Hamiltonian fibration by Yasha Savelyev
34 1:04:21 Symplectic homology, algebraic operations on (Lecture – 03) by Janko Latschev
35 1:31:15 Transversality and super-rigidity in Gromov-Witten Theory (Lecture - 03) by Chris Wendl
36 1:27:54 Symplectic homology, algebraic operations on (Lecture - 04) by Janko Latschev
37 1:36:10 Transversality and super-rigidity in Gromov-Witten Theory (Lecture - 04) by Chris Wendl
ICTS at Ten (2018)
source: International Centre for Theoretical Sciences 2018年1月21日
ORGANIZERS: Rajesh Gopakumar and Spenta R. Wadia
DATE: 04 January 2018 to 06 January 2018
VENUE: International Centre for Theoretical Sciences, Bengaluru
This is the tenth year of ICTS-TIFR since it came into existence on 2nd August 2007. ICTS has now grown to have more than fifteen faculty in a number of areas in the theoretical sciences. Over 150 programs and discussion meetings have been held. The ICTS at Ten event is an opportunity to reflect on the journey thus far, and to go ahead with renewed energy into our second decade, through a small celebratory scientific gathering.
There will be broad perspective talks (of 30 minutes each) across several different themes in the theoretical sciences:
Astrophysics and Cosmology
String theory and Quantum Gravity
Mathematics
Theoretical Computer Science
Condensed Matter and Statistical Physics
Physical Biology
These reflect ICTS' present profile as well as the directions we would like to grow into in the coming years. The talks, by a galaxy of distinguished researchers, will give a broad perspective on some exciting frontier questions in these areas.
Welcome Address: ICTS at TEN Inauguration by Rajesh Gopakumar 12:32
Truth and the Scientific Method by David Gross 42:15
ICTS at TEN' Banquet speeches: Gopakumar, Wadia, Gross, Bhargava, Sarma, Blandford and Arkani-Hamed 1:44:55
The Usefulness of Useless Knowledge By Robbert Dijkgraaf - followed by a panel discussion 2:30:38
Exploring the Universe with Gravitational Waves: From the Big Bang to Black Holes by Kip S Thorne 1:40:31
The science of the man from the 9 dimensions by Hirosi Ooguri 54:19
Majorana 'Particle' in Condensed Matter Systems by Sankar Das Sarma 32:27
A Strongly Correlated Metal Built from Sachev-Ye-Kitaev by Leon Balents 30:39
Topology and the Electromagnetic Responses of Quantum Materials by Joel E. Moore 30:05
Quantum Field Theory as the Language of Physics by Nathan Seiberg 35:04
Developments in Superstring Perturbation Theory by Ashoke Sen 42:41
Living and Driven Matter by Sriram Ramaswamy 33:47
Microtubules, Motors and Morphogenesis by Jonathon Howard 36:59
How often does a polynomial take squarefree values? by Manjul Bhargava 31:37
Geometry of Surface Group Representations by Mahan Mj 28:42
Communication Amid Uncertainty by Madhu sudan 32:31
The Information Paradox and Holography by Suvrat Raju 29:05
The Mathematics of Bias by Nisheeth Vishnoi 33:23
Gravitational Wave Detections by LIGO and Virgo by David Reitze 27:26
Physics and Astronomy from Gravitational-Wave Observations by P Ajith 32:26
Raindrops, Buoyancy, the Indian Monsoon by Rama Govindarajan 28:04
Hydrodynamics and Chaos Propagation in Classical Spin Chains by Abhishek Dhar 28:50
Spacetime, Quantum Mechanics and Positive Geometry by Nima Arkani Hamed 36:19
The Algorithmic Lens: How the Computational Perspective by Christos H Papadimitriou 33:44
Understanding Rare Events in Graphs and Networks by Sourav Chatterjee 33:17
Can machines learn without supervision? by Sanjeev Arora 32:20
The Restless Universe (and the Periodic Table) by Shri Kulkarni 31:17
Observing a Black Hole Up Close and Personal by Ramesh Narayan 33:39
The Music of the Sphere by Roger Blandford 26:39
The Unreasonable Effectiveness of Learning Neural Nets: A Statistical... by Jennifer Chayes 32:21
A Theory of Neural Dimensionality, Dynamics and Measurement by Surya Ganguli 30:44
The Computational Logic of Cortical Circuits by Mriganka Sur 39:56
Molecular Archaeology: Using Genomes to Reconstruct Two Billion Years by Mukund Thattai 29:29
Algorithms and Optimization (2018--ICTS Bangalore)
source: International Centre for Theoretical Sciences 2018年1月17日
Algorithms and Optimization: https://www.icts.res.in/discussion-me...
DATES: 02 January 2018 to 03 January 2018
VENUE: Ramanujan Lecture Hall, ICTS Bangalore
DESCRIPTION:
The goal of this discussion meeting is to bring together leading young researchers in the areas of algorithms and optimization to discuss and disseminate the recent directions and advances in these areas. The topics include learning algorithms, convex optimization, nonconvex optimization, combinatorial optimization, spectral algorithms, semidefinite programming-based algorithms, parallel algorithms, counting algorithms, and their applications.
ORGANIZERS: Prateek Jain and Nisheeth K. Vishnoi
48:30 Structure recovery in graphical models by Piyush Srivastava
48:38 Average-Case Algorithmic Thresholds via Sum-of-Squares by Pravesh Kothari
33:06 Accelerated Newton Iteration for Roots of Black Box Polynomials by Anand Louisi
51:09 How to escape saddle points efficiently? by Praneeth Netrapalli
46:04 Algorithmic Applications of An Approximate Version of Caratheodory's Theorem by Siddhartha Barman
48:24 Derandomizing the Isolation Lemma and Parallel Algorithms by Rohit Gurjar
49:08 Invariant theory and geodesically convex optimization by Ankit Garg
40:59 Efficiently decoding Reed-Muller codes from random errors by Ramprasad Saptarishi
36:19 Combinatorial Markets with Covering Constraints: Algorithms and Applications by Ruta Mehta
43:30 Fisher Markets and Nash Social Welfar by Jugal Garg
9:35 Learning Sums of Independent Commonly Supported Integer Random Variables by Anindya De
45:20 Learning Combinatorial Structures by Swati Gupta
47:03 Robust Regression by Purushottam Kar
機械設計製圖 (2016)--劉俊賢 / 清大
# 播放清單: 請點按影片右上角之清單標誌
source: NTHUOCW 2017年4月26日
http://ocw.nthu.edu.tw/ocw/index.php?...
18:55 第1A講 機械設計製圖課程介紹及教學內容概述
17:52 第1B講 機械設計製圖課程執行規劃及期待
16:57 第1C講 機械設計製圖從圖學到工程3D建模介紹(上)
14:33 第1D講 Autodesk Inventer介紹
15:00 第1E講 Autodesk Inventer介紹
9:38 第1F講 Autodesk Inventer介紹
35:35 第2A講 Autodesk INventer 基本介紹與2D範例解說
29:07 第2B講 草圖基礎-擠出/磨掉
28:55 第2C講 建立2D『草圖平面』
14:19 第2D講 衛生紙盒草圖範例
12:55 第3A講 椎體3D圖形穿孔教學(1)
19:16 第3B講 椎體3D圖形穿孔教學(2)
15:30 第3C講 利用參數式及方程式建立草圖
22:36 第3D講 椎體浮雕教學
18:50 第3E講 四連桿草圖範例(2)
25:59 第4A講座標系統到3DAutoCAD.Excel.Inventer
8:54 第4B講 3D草圖繪製
11:14 第4C講 草圖解題示範(一)
10:20 第4D講 草圖解題示範(二)
13:11 第5A講 樂高小人物簡介
26:35 第5B講 特徵技術
20:36 第5C講 特徵技術操作(範例)
15:28 第5D講 樂高基本零件繪製(上)
9:21 第5E講 樂高基本圖形繪製(下)
source: NTHUOCW 2017年4月26日
http://ocw.nthu.edu.tw/ocw/index.php?...
18:55 第1A講 機械設計製圖課程介紹及教學內容概述
17:52 第1B講 機械設計製圖課程執行規劃及期待
16:57 第1C講 機械設計製圖從圖學到工程3D建模介紹(上)
14:33 第1D講 Autodesk Inventer介紹
15:00 第1E講 Autodesk Inventer介紹
9:38 第1F講 Autodesk Inventer介紹
35:35 第2A講 Autodesk INventer 基本介紹與2D範例解說
29:07 第2B講 草圖基礎-擠出/磨掉
28:55 第2C講 建立2D『草圖平面』
14:19 第2D講 衛生紙盒草圖範例
12:55 第3A講 椎體3D圖形穿孔教學(1)
19:16 第3B講 椎體3D圖形穿孔教學(2)
15:30 第3C講 利用參數式及方程式建立草圖
22:36 第3D講 椎體浮雕教學
18:50 第3E講 四連桿草圖範例(2)
25:59 第4A講座標系統到3DAutoCAD.Excel.Inventer
8:54 第4B講 3D草圖繪製
11:14 第4C講 草圖解題示範(一)
10:20 第4D講 草圖解題示範(二)
13:11 第5A講 樂高小人物簡介
26:35 第5B講 特徵技術
20:36 第5C講 特徵技術操作(範例)
15:28 第5D講 樂高基本零件繪製(上)
9:21 第5E講 樂高基本圖形繪製(下)
工程圖學 (Fall 2016)--劉俊賢 / 清大
# 播放清單: 請點按影片右上角之清單標誌
source: NTHUOCW 2017年8月3日
25:28 第1A講 工程圖學課程介紹及規劃
30:24 第1B講 工程圖學課程介紹及規劃(圖學入門-設計與製圖)
18:48 第1C講 班徽設計賞析.Auto CAD基本操作簡介
18:33 第1D講 工程圖學課程介紹及規劃(Auto CAD基本操作 )
16:45 第1講 工程圖學課程介紹及規劃(基本圖形繪圖技巧)
13:51 第2D講 軟體快捷鍵介紹及操作(實際演練操作)
16:54 第3A講 工程圖學-摺紙( A3折圖)
12:55 第3B講 工程圖學-摺紙(A2折圖第一步)
9:32 第3C講 工程圖學-摺紙( A1折圖)
9:23 第3D講 工程圖學-摺紙(A0折圖)
9:32 第3D講 工程圖學-摺紙(A1折圖第一步)
source: NTHUOCW 2017年8月3日
25:28 第1A講 工程圖學課程介紹及規劃
30:24 第1B講 工程圖學課程介紹及規劃(圖學入門-設計與製圖)
18:48 第1C講 班徽設計賞析.Auto CAD基本操作簡介
18:33 第1D講 工程圖學課程介紹及規劃(Auto CAD基本操作 )
16:45 第1講 工程圖學課程介紹及規劃(基本圖形繪圖技巧)
13:51 第2D講 軟體快捷鍵介紹及操作(實際演練操作)
16:54 第3A講 工程圖學-摺紙( A3折圖)
12:55 第3B講 工程圖學-摺紙(A2折圖第一步)
9:32 第3C講 工程圖學-摺紙( A1折圖)
9:23 第3D講 工程圖學-摺紙(A0折圖)
9:32 第3D講 工程圖學-摺紙(A1折圖第一步)
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