# click the upper-left icon to select videos from the playlist
source: Technion 2016年3月28日
Mostly Markov Mixing - Technion-Israel Institute of Technology Mathematics Summer School 2015
Persi Diaconis at Technion - Mathematics lecture 1 55:51
Persi Diaconis at Technion - Mathematics lecture 2 58:03
Persi Diaconis at Technion - Mathematics lecture 3 1:00:45
Persi Diaconis at Technion - Mathematics lecture 4 59:16
Johan Jonasson at Technion - mathematics lecture 1 58:58
Johan Jonasson at Technion - Mathematics lecture 3 57:45
Elchanan Mossel at Technion - mathematics lecture 1 54:49
Elchanan Mossel at Technion - Mathematics Lecture 2 54:03
Elchanan Mossel at Technion - Mathematics lecture 3 52:06
Perla Sousi at Technion - mathematics lecture 1 1:15:15
Pietro Caputo at Technion - Mathematics lecture 1 1:31:28
Yuval Peres - Technion Mathematics Lecture 1 1:00:45
Yuval Peres - Technion Mathematics Lecture 2 1:01:38
Yuval Peres - Technion Mathematics Lecture 3 59:49
Yuval Peres - Technion Mathematics Lecture 4 47:39
2017-02-24
Games, Epidemics and Behavior (2016, ICTS Bangalore)
# click the upper-left icon to select videos from the playlist
source: International Centre for Theoretical Sciences 2016年7月14日
URL: http://www.icts.res.in/discussion_mee...
DATES: Monday 27 Jun, 2016 - Friday 01 Jul, 2016
VENUE: Madhava lecture hall, ICTS Bangalore
DESCRIPTION:
The two main goals of this Discussion Meeting are:
1. To explore the foundations of policy design for controlling epidemics, using a broad class of epidemic games on complex networks involving uncertainty in network information, temporal evolution and learning and
2. To gain a better understanding of information flow that could assist in elucidating the complex mechanisms that underlie a variety of human dynamics and organizations giving rise to the ongoing Cambrian-style explosion in online social media. It will bring together topics in mathematical epidemiology, game theory and multi-agent systems, discrete dynamical systems, complex networks and economics, and will present new connections and opportunities for collaboration to participants.
Some of the specific technical issues we expect to be discussed include:
Behavioral and game theoretical models on epidemic dynamics
Design of interventions to control epidemics and policy planning
Co-evolution of epidemics, behavior and network structure
Evolutionary games in epidemics
Agent-based models of epidemics
Phase transitions and critical phenomena
Clustering and community formation
Diffusion and spread of information
Synchronization and rendezvous
Structure and function of interdependent networks
Cascades and Shocks
Random walks
Contagion and influence
Chaos and nonlinear dynamics
ORGANIZERS: Deeparnab Chakrabarty, Niloy Ganguly, Rajmohan Rajaraman and Ravi Sundaram
Epidemics on networks: thresholds and control strategies by AJ Ganesh (Part 1) 1:03:44
Epidemics on networks: thresholds and control strategies by AJ Ganesh (Part 2) 1:17:22
[private video]
Average case analysis of RBMs by Rajsekar Manokaran 43:02
Some aspects of epidemic and information spreading by Parongama Sen 36:19
Adaptive Rumor Spreading by Marcos Kiwi 33:58
Cobra Walks by Rajmohan Rajaraman 35:57
Routing in cost-shared networks: equilibria and dynamics by Debmalya Panigrahi (part 1) 1:06:14
Routing in cost-shared networks: equilibria and dynamics by Debmalya Panigrahi (Part 2) 1:02:34
Using Data to Make Genomic Diagnoses by Ramesh Hariharan 28:46
Network design games in presence of strategic adversaries by Prithwish Basu 34:34
Random Walks on Dynamic Graphs by John Augustine 33:10
Active and evolvable matter: A perspective from physics about biology by Shashi Thutupalli (Part 1) 1:01:22
Active and evolvable matter: A perspective from physics about biology by Shashi Thutupalli (Part 2) 1:10:57
Strong community organization of populations can promote ... by Sitabhra Sinha (Part 1) 53:17
Strong community organization of populations can promote ... by Sitabhra Sinha (Part 2) 1:11:07
The evolution of collective strategies in communities by Shakti Menon 27:22
Multi-Phase Information Di ffusion in Social Networks by Swapnil Dhamal 29:57
Climate Change Impacts on Public Health and Hazards: A Networks... by Auroop Ganguly 31:54
Incentivizing Crowd Networks for Rapid Geospatial Sensing .... by Dinesh Garg 31:46
Diffusion: Information Cascades, Epidemics and Knowledge Networks by Sudarshan Iyengar 1:17:45
Role of Statistical Significance in Network Analytics by Ananth Grama 1:11:28
Social Interaction in the Flickr Social Network by Joydeep Chandra 33:22
On the broadcast of segmented messages in dynamic networks by Rajib Maiti 34:24
Complexity, Phase Transitions, and Inference by Cristopher Moore (part 2) 1:10:18
Complexity, Phase Transitions, and Inference by Cristopher Moore (part 1) 1:08:59
Complexity, Phase Transitions, and Inference by Cristopher Moore (Part 3) 1:11:35
source: International Centre for Theoretical Sciences 2016年7月14日
URL: http://www.icts.res.in/discussion_mee...
DATES: Monday 27 Jun, 2016 - Friday 01 Jul, 2016
VENUE: Madhava lecture hall, ICTS Bangalore
DESCRIPTION:
The two main goals of this Discussion Meeting are:
1. To explore the foundations of policy design for controlling epidemics, using a broad class of epidemic games on complex networks involving uncertainty in network information, temporal evolution and learning and
2. To gain a better understanding of information flow that could assist in elucidating the complex mechanisms that underlie a variety of human dynamics and organizations giving rise to the ongoing Cambrian-style explosion in online social media. It will bring together topics in mathematical epidemiology, game theory and multi-agent systems, discrete dynamical systems, complex networks and economics, and will present new connections and opportunities for collaboration to participants.
Some of the specific technical issues we expect to be discussed include:
Behavioral and game theoretical models on epidemic dynamics
Design of interventions to control epidemics and policy planning
Co-evolution of epidemics, behavior and network structure
Evolutionary games in epidemics
Agent-based models of epidemics
Phase transitions and critical phenomena
Clustering and community formation
Diffusion and spread of information
Synchronization and rendezvous
Structure and function of interdependent networks
Cascades and Shocks
Random walks
Contagion and influence
Chaos and nonlinear dynamics
ORGANIZERS: Deeparnab Chakrabarty, Niloy Ganguly, Rajmohan Rajaraman and Ravi Sundaram
Epidemics on networks: thresholds and control strategies by AJ Ganesh (Part 1) 1:03:44
Epidemics on networks: thresholds and control strategies by AJ Ganesh (Part 2) 1:17:22
[private video]
Average case analysis of RBMs by Rajsekar Manokaran 43:02
Some aspects of epidemic and information spreading by Parongama Sen 36:19
Adaptive Rumor Spreading by Marcos Kiwi 33:58
Cobra Walks by Rajmohan Rajaraman 35:57
Routing in cost-shared networks: equilibria and dynamics by Debmalya Panigrahi (part 1) 1:06:14
Routing in cost-shared networks: equilibria and dynamics by Debmalya Panigrahi (Part 2) 1:02:34
Using Data to Make Genomic Diagnoses by Ramesh Hariharan 28:46
Network design games in presence of strategic adversaries by Prithwish Basu 34:34
Random Walks on Dynamic Graphs by John Augustine 33:10
Active and evolvable matter: A perspective from physics about biology by Shashi Thutupalli (Part 1) 1:01:22
Active and evolvable matter: A perspective from physics about biology by Shashi Thutupalli (Part 2) 1:10:57
Strong community organization of populations can promote ... by Sitabhra Sinha (Part 1) 53:17
Strong community organization of populations can promote ... by Sitabhra Sinha (Part 2) 1:11:07
The evolution of collective strategies in communities by Shakti Menon 27:22
Multi-Phase Information Di ffusion in Social Networks by Swapnil Dhamal 29:57
Climate Change Impacts on Public Health and Hazards: A Networks... by Auroop Ganguly 31:54
Incentivizing Crowd Networks for Rapid Geospatial Sensing .... by Dinesh Garg 31:46
Diffusion: Information Cascades, Epidemics and Knowledge Networks by Sudarshan Iyengar 1:17:45
Role of Statistical Significance in Network Analytics by Ananth Grama 1:11:28
Social Interaction in the Flickr Social Network by Joydeep Chandra 33:22
On the broadcast of segmented messages in dynamic networks by Rajib Maiti 34:24
Complexity, Phase Transitions, and Inference by Cristopher Moore (part 2) 1:10:18
Complexity, Phase Transitions, and Inference by Cristopher Moore (part 1) 1:08:59
Complexity, Phase Transitions, and Inference by Cristopher Moore (Part 3) 1:11:35
Statistical Physics - VII (2016, ICTS Bangalore)
# click the upper-left icon to select videos from the playlist
source: International Centre for Theoretical Sciences 2016年7月12日
Bangalore School On Statistical Physics - VII
DATES: Friday 01 Jul, 2016 - Friday 15 Jul, 2016
VENUE: Ramanujan Lecture Hall, ICTS Bangalore
This advanced level school is the seventh in the series. The school is being jointly organised by the International Centre for Theoretical Sciences (ICTS) and the Raman Research Institute (RRI).
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)
Renormalization group theory by Mustansir Barma (TCIS, TIFR, Hyderabad)
Quantum critical phenomena by Kedar Damle (TIFR, Mumbai)
Interacting particle systems by Martin R. Evans (Edinburgh, UK)
Population genetics by Kavita Jain (JNCASR, Bangalore)
Exactly solved models by R. Rajesh (IMSc, Chennai)
Driven diffusive systems by Gunter Schütz (Jülich, Germany)
Introduction to stochastic processes by Sanjib Sabhapandit 1:32:00
Introductory lectures on mean field theory by Abhishek Dhar 1:33:57
Introduction to stochastic processes by Sanjib Sabhapandit 1:38:07
Introductory lectures on mean field theory by Abhishek Dhar 1:36:47
Introduction to stochastic processes by Sanjib Sabhapandit 1:45:42
Renormalization group theory by Mustansir Barma 1:36:39
Exactly solved models by R. Rajesh 1:27:12
Quantum critical phenomena by Kedar Damle 1:30:00
Renormalization group theory by Mustansir Barma 1:37:39
Exactly solved models by R. Rajesh 1:33:17
Quantum critical phenomena by Kedar Damle 1:39:06
Renormalization group theory by Mustansir Barma 1:38:53
Exactly solved models by R. Rajesh 1:34:22
Quantum critical phenomena by Kedar Damle 1:45:05
Renormalization group theory by Mustansir Barma 1:36:06
Quantum critical phenomena by Kedar Damle 1:32:20
Exactly solved models by R. Rajesh 1:41:37
Renormalization group theory by Mustansir Barma 1:39:11
Quantum critical phenomena BY Kedar Damle 1:35:43
Exactly solved models by R. Rajesh 1:30:14
Interacting particle systems by Martin R. Evans 1:33:36
Population genetics by Kavita Jain 1:23:28
Introductory lectures on mean field theory by Abhishek Dhar 1:42:06
Driven diffusive systems by Gunter Schütz 1:35:56
Interacting particle systems by Martin R. Evans 1:34:02
Driven diffusive systems by Gunter Schütz 1:33:32
Population genetics by Kavita Jain 1:31:41
Interacting particle systems by Martin R. Evans 1:34:43
Driven diffusive systems by Gunter Schütz 1:36:34
Interacting particle systems by Martin R. Evans 1:32:15
Interacting particle systems by Martin R. Evans 1:38:21
Driven diffusive systems by Gunter Schütz 1:37:16
Population genetics by Kavita Jain 1:32:14
Population genetics by Kavita Jain 1:28:43
Driven diffusive systems by Gunter Schütz 1:38:24
Population genetics by Kavita Jain 1:19:11
source: International Centre for Theoretical Sciences 2016年7月12日
Bangalore School On Statistical Physics - VII
DATES: Friday 01 Jul, 2016 - Friday 15 Jul, 2016
VENUE: Ramanujan Lecture Hall, ICTS Bangalore
This advanced level school is the seventh in the series. The school is being jointly organised by the International Centre for Theoretical Sciences (ICTS) and the Raman Research Institute (RRI).
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)
Renormalization group theory by Mustansir Barma (TCIS, TIFR, Hyderabad)
Quantum critical phenomena by Kedar Damle (TIFR, Mumbai)
Interacting particle systems by Martin R. Evans (Edinburgh, UK)
Population genetics by Kavita Jain (JNCASR, Bangalore)
Exactly solved models by R. Rajesh (IMSc, Chennai)
Driven diffusive systems by Gunter Schütz (Jülich, Germany)
Introduction to stochastic processes by Sanjib Sabhapandit 1:32:00
Introductory lectures on mean field theory by Abhishek Dhar 1:33:57
Introduction to stochastic processes by Sanjib Sabhapandit 1:38:07
Introductory lectures on mean field theory by Abhishek Dhar 1:36:47
Introduction to stochastic processes by Sanjib Sabhapandit 1:45:42
Renormalization group theory by Mustansir Barma 1:36:39
Exactly solved models by R. Rajesh 1:27:12
Quantum critical phenomena by Kedar Damle 1:30:00
Renormalization group theory by Mustansir Barma 1:37:39
Exactly solved models by R. Rajesh 1:33:17
Quantum critical phenomena by Kedar Damle 1:39:06
Renormalization group theory by Mustansir Barma 1:38:53
Exactly solved models by R. Rajesh 1:34:22
Quantum critical phenomena by Kedar Damle 1:45:05
Renormalization group theory by Mustansir Barma 1:36:06
Quantum critical phenomena by Kedar Damle 1:32:20
Exactly solved models by R. Rajesh 1:41:37
Renormalization group theory by Mustansir Barma 1:39:11
Quantum critical phenomena BY Kedar Damle 1:35:43
Exactly solved models by R. Rajesh 1:30:14
Interacting particle systems by Martin R. Evans 1:33:36
Population genetics by Kavita Jain 1:23:28
Introductory lectures on mean field theory by Abhishek Dhar 1:42:06
Driven diffusive systems by Gunter Schütz 1:35:56
Interacting particle systems by Martin R. Evans 1:34:02
Driven diffusive systems by Gunter Schütz 1:33:32
Population genetics by Kavita Jain 1:31:41
Interacting particle systems by Martin R. Evans 1:34:43
Driven diffusive systems by Gunter Schütz 1:36:34
Interacting particle systems by Martin R. Evans 1:32:15
Interacting particle systems by Martin R. Evans 1:38:21
Driven diffusive systems by Gunter Schütz 1:37:16
Population genetics by Kavita Jain 1:32:14
Population genetics by Kavita Jain 1:28:43
Driven diffusive systems by Gunter Schütz 1:38:24
Population genetics by Kavita Jain 1:19:11
Quantum Field Theory (1975-76) by Sidney Coleman at Harvard University
# click the upper-left icon to select videos from the playlist
source: Alexander Grothendieck 2015年7月18日
Physics 253: Quantum Field Theory Lectures by Sidney R. Coleman
Recorded in 1975-1976.
Full Playlist: https://www.youtube.com/playlist?list...
The videos shown here were transferred to DVD in 2007 straight from surviving VHS tapes, which were, in turn, copied from the original source tapes. As such, the quality of the image has suffered and is as good as currently feasible without resorting to an expensive remastering process. Made in 1975-1976, the videos were shot using a black and white tube video camera. The black halo or vignette effect you see around the image is caused by the camera's Image Orthicon pickup tube.
Harvard affiliates have the option of borrowing DVDs of these lecture from Physics Research Library. Please note, however, that the resolution on the DVDs is comparable - or only marginally better - to that of the online video archive files.
Professor Coleman's wit and teaching style is legendary and, despite all that may have changed in the 35 years since these lectures were recorded, many students today are excited at the prospect of being able to view them and experience Sidney's particular genius second-hand.
Notes by Brian Hill, typeset and edited by Yuan-Sen Ting and Bryan Chen Gin: http://arxiv.org/abs/1110.5013
Videos taken from: https://www.physics.harvard.edu/event...
lecture 01 1:35:13
lecture 02 1:35:22
lecture 03 1:23:19
lecture 04 1:35:17
lecture 05 1:32:15
lecture 06 1:42:55
lecture 07 1:25:32
lecture 08 1:35:37
lecture 09 1:30:05
lecture 10 1:33:14
lecture 11 1:39:34
lecture 12 1:32:27
lecture 13 1:34:05
lecture 14 1:28:19
lecture 15 1:33:39
lecture 16 1:38:53
lecture 17 1:33:53
lecture 18 1:29:37
lecture 19 1:33:25
lecture 20 1:02:20
lecture 21 1:24:49
lecture 22 1:41:51
lecture 23 1:54:48
lecture 24 1:30:34
lecture 25 19:05
lecture 26 1:46:56
lecture 27 1:39:22
lecture 28 1:25:50
lecture 29 1:29:24
lecture 30 1:33:05
lecture 31 1:30:13
lecture 32 1:06:20
lecture 33 1:38:35
lecture 34 1:38:36
lecture 35 1:30:40
lecture 36 1:32:23
lecture 37 1:29:35
lecture 38 1:35:21
lecture 39 1:40:51
lecture 40 1:28:23
lecture 41 1:19:05
lecture 42 1:22:00
lecture 43 1:33:39
lecture 44 1:37:52
lecture 45 1:48:50
source: Alexander Grothendieck 2015年7月18日
Physics 253: Quantum Field Theory Lectures by Sidney R. Coleman
Recorded in 1975-1976.
Full Playlist: https://www.youtube.com/playlist?list...
The videos shown here were transferred to DVD in 2007 straight from surviving VHS tapes, which were, in turn, copied from the original source tapes. As such, the quality of the image has suffered and is as good as currently feasible without resorting to an expensive remastering process. Made in 1975-1976, the videos were shot using a black and white tube video camera. The black halo or vignette effect you see around the image is caused by the camera's Image Orthicon pickup tube.
Harvard affiliates have the option of borrowing DVDs of these lecture from Physics Research Library. Please note, however, that the resolution on the DVDs is comparable - or only marginally better - to that of the online video archive files.
Professor Coleman's wit and teaching style is legendary and, despite all that may have changed in the 35 years since these lectures were recorded, many students today are excited at the prospect of being able to view them and experience Sidney's particular genius second-hand.
Notes by Brian Hill, typeset and edited by Yuan-Sen Ting and Bryan Chen Gin: http://arxiv.org/abs/1110.5013
Videos taken from: https://www.physics.harvard.edu/event...
lecture 01 1:35:13
lecture 02 1:35:22
lecture 03 1:23:19
lecture 04 1:35:17
lecture 05 1:32:15
lecture 06 1:42:55
lecture 07 1:25:32
lecture 08 1:35:37
lecture 09 1:30:05
lecture 10 1:33:14
lecture 11 1:39:34
lecture 12 1:32:27
lecture 13 1:34:05
lecture 14 1:28:19
lecture 15 1:33:39
lecture 16 1:38:53
lecture 17 1:33:53
lecture 18 1:29:37
lecture 19 1:33:25
lecture 20 1:02:20
lecture 21 1:24:49
lecture 22 1:41:51
lecture 23 1:54:48
lecture 24 1:30:34
lecture 25 19:05
lecture 26 1:46:56
lecture 27 1:39:22
lecture 28 1:25:50
lecture 29 1:29:24
lecture 30 1:33:05
lecture 31 1:30:13
lecture 32 1:06:20
lecture 33 1:38:35
lecture 34 1:38:36
lecture 35 1:30:40
lecture 36 1:32:23
lecture 37 1:29:35
lecture 38 1:35:21
lecture 39 1:40:51
lecture 40 1:28:23
lecture 41 1:19:05
lecture 42 1:22:00
lecture 43 1:33:39
lecture 44 1:37:52
lecture 45 1:48:50
Introduction to Analytic Number Theory (2015) by Ram Murty at Queen's University
# click the upper-left icon to select videos from the playlist
source: Alexander Grothendieck 2016年7月22日
Mini-course: "Introduction to Analytic Number Theory" by Ram Murty [2015]
http://www.mast.queensu.ca/~murty/
Full course playlist: https://www.youtube.com/playlist?list...
Videos taken from: https://www.youtube.com/watch?v=6J-47... (audio fixed)
Ram Murty 1/8 1:26:53 Lecture 1 - Partial summation formula and applications
Ram Murty 2/8 1:07:54
Ram Murty 3/8 1:07:04
Ram Murty 4/8 1:15:21
Ram Murty 5/8 1:18:04
Ram Murty 6/8 1:07:42
Ram Murty 7/8 1:03:47
Ram Murty 8/8 1:07:42
source: Alexander Grothendieck 2016年7月22日
Mini-course: "Introduction to Analytic Number Theory" by Ram Murty [2015]
http://www.mast.queensu.ca/~murty/
Full course playlist: https://www.youtube.com/playlist?list...
Videos taken from: https://www.youtube.com/watch?v=6J-47... (audio fixed)
Ram Murty 1/8 1:26:53 Lecture 1 - Partial summation formula and applications
Ram Murty 2/8 1:07:54
Ram Murty 3/8 1:07:04
Ram Murty 4/8 1:15:21
Ram Murty 5/8 1:18:04
Ram Murty 6/8 1:07:42
Ram Murty 7/8 1:03:47
Ram Murty 8/8 1:07:42
Global Environmental Conflicts by Mayank Kumar (University of Delhi)
# click the upper-left icon to select videos from the playlist
source: Cec Ugc 上次更新日期:2016年12月28日
Global Environmental Conflicts 54:44
Conflict Over Aquatic Resources 57:19
Water Privatization : A Source of Conflicts 56:57
Impact of War on Environment 55:58
Agrarian Societies and Agricultural Subsistance 53:22
Theory of War- '' CLAUSEWITZ ON WAR '' 46:22
Geographical Exploration - I : Search for Resources 56:10
Colonialism : Resentment and Protest 56:42
Human-Wildlife Conflicts : Herbivorous 55:43
Human-Wildlife Conflicts : Carnivorous 55:52
Exploring Relationships Between Social Sciences and Natural Sciences 1:00:32
source: Cec Ugc 上次更新日期:2016年12月28日
Global Environmental Conflicts 54:44
Conflict Over Aquatic Resources 57:19
Water Privatization : A Source of Conflicts 56:57
Impact of War on Environment 55:58
Agrarian Societies and Agricultural Subsistance 53:22
Theory of War- '' CLAUSEWITZ ON WAR '' 46:22
Geographical Exploration - I : Search for Resources 56:10
Colonialism : Resentment and Protest 56:42
Human-Wildlife Conflicts : Herbivorous 55:43
Human-Wildlife Conflicts : Carnivorous 55:52
Exploring Relationships Between Social Sciences and Natural Sciences 1:00:32
(हिन्दी / in Hindi) UPSC Sanskrit (संस्कृत) by Pankaj Mishra (University of Delhi)
# click the upper-left icon to select videos from the playlist
source: Cec Ugc 2016年7月11日
UPSC Sanskrit - II 59:13
UPSC Sanskrit - Syllabus 59:24
UPSC Sanskrit - III 54:14
UPSC Sanskrit - IV 52:48
UPSC Sanskrit - V 57:33
UPSC Sanskrit-VI 59:37
UPSC Sanskrit-VII 58:59
UPSC Sanskrit - VIII 58:20
History of Sanskrit Literature - IV 59:24
source: Cec Ugc 2016年7月11日
UPSC Sanskrit - II 59:13
UPSC Sanskrit - Syllabus 59:24
UPSC Sanskrit - III 54:14
UPSC Sanskrit - IV 52:48
UPSC Sanskrit - V 57:33
UPSC Sanskrit-VI 59:37
UPSC Sanskrit-VII 58:59
UPSC Sanskrit - VIII 58:20
History of Sanskrit Literature - IV 59:24
(בעברית / in Hebrew) מבוא למחשב בשפת מטלאב (Introduction to the computer language Mtlab)
# playlist of the 72 videos (click the upper-left icon of the video)
source: Technion 2014年12月16日
234127 מבוא למחשב בשפת מטלאב
פרופ' ראובן בר-יהודה
הפקולטה למדעי המחשב
הטכניון – מכון טכנולוגי לישראל
source: Technion 2014年12月16日
234127 מבוא למחשב בשפת מטלאב
פרופ' ראובן בר-יהודה
הפקולטה למדעי המחשב
הטכניון – מכון טכנולוגי לישראל
Mechanics of Materials by Ken Manning (Saylor Academy)
# click the upper-left icon to select videos from the playlist
source: Saylor Academy 2012年2月7日
ME102: Mechanical Engineering: Mechanics of Materials
WATCH MORE VIDEOS HERE: http://www.youtube.com/playlist?list=...
Licensed under a Creative Commons Attribution 3.0 Unported License. ( http://creativecommons.org/licenses/b... )
Ken Manning's "Mechanics of Materials - Introduction" 1:12:05
Ken Manning's "Mechanics of Materials - Stress" 1:09:56
Ken Manning's "Mechanics of Materials - Deformation" 1:05:37
Ken Manning's "Mechanics of Materials - Strain" 1:09:37
Ken Manning's "Mechanics of Materials - Stress/Strain" 1:15:27
"Mechanics of Materials - Poisson's Ratio" 1:18:05
"Mechanics of Materials - Axial Loading" 1:15:06
"Mechanics of Materials - Static Indeterminacy" 1:16:56
"Mechanics of Materials - Torsion of a Circular Shaft" 1:22:42
"Mechanics of Materials - Angle of Twist" 1:13:57
"Mechanics of Materials - Twist, and Stress Concentrations" 1:22:23
"Mechanics of Materials - Shear-Moment Diagrams" 1:15:48
"Mechanics of Materials - Bending in Prismatic Beams" 1:20:55
"Mechanics of Materials - More Bending, and Composite Beams" 1:02:46
"Mechanics of Materials - Composite and Reinforced Concrete Beams" 1:21:37
"Mechanics of Materials - Transverse Shear" 1:20:23
"Mechanics of Materials- Thin-Walled Vessels and Combined Loading" 1:15:38
"Mechanics of Materials- Plane Stress and Mohr's Circle" 1:26:58
"Mechanic of Materials- Basis of Beam Design" 1:18:41
"Mechanics of Materials- Mohr's Circle Pt. 2" 1:22:24
"Mechanics of Materials - Thermal Effects" 1:09:05
"Mechanics of Materials - Support of Columns" 1:18:30
"Mechanics of Materials- Deflection of Beams by Superposition" 1:19:00
"Mechanics of Materials- Columns" 1:19:10
"Mechanic of Materials - Shear, Connections" 1:10:37
"Mechanics of Materials - Shaft Design" 1:20:19
"Mechanics of Materials - Beam Deflection" 1:17:37
"Space Trusses" 54:55
"Trusses- Method of Sections" 55:31
"Frames" 56:52
"Frames and Machines" 55:36
"Frames and Machines" 51:50
"Trusses - Methods of Joints" 53:52
source: Saylor Academy 2012年2月7日
ME102: Mechanical Engineering: Mechanics of Materials
WATCH MORE VIDEOS HERE: http://www.youtube.com/playlist?list=...
Licensed under a Creative Commons Attribution 3.0 Unported License. ( http://creativecommons.org/licenses/b... )
Ken Manning's "Mechanics of Materials - Introduction" 1:12:05
Ken Manning's "Mechanics of Materials - Stress" 1:09:56
Ken Manning's "Mechanics of Materials - Deformation" 1:05:37
Ken Manning's "Mechanics of Materials - Strain" 1:09:37
Ken Manning's "Mechanics of Materials - Stress/Strain" 1:15:27
"Mechanics of Materials - Poisson's Ratio" 1:18:05
"Mechanics of Materials - Axial Loading" 1:15:06
"Mechanics of Materials - Static Indeterminacy" 1:16:56
"Mechanics of Materials - Torsion of a Circular Shaft" 1:22:42
"Mechanics of Materials - Angle of Twist" 1:13:57
"Mechanics of Materials - Twist, and Stress Concentrations" 1:22:23
"Mechanics of Materials - Shear-Moment Diagrams" 1:15:48
"Mechanics of Materials - Bending in Prismatic Beams" 1:20:55
"Mechanics of Materials - More Bending, and Composite Beams" 1:02:46
"Mechanics of Materials - Composite and Reinforced Concrete Beams" 1:21:37
"Mechanics of Materials - Transverse Shear" 1:20:23
"Mechanics of Materials- Thin-Walled Vessels and Combined Loading" 1:15:38
"Mechanics of Materials- Plane Stress and Mohr's Circle" 1:26:58
"Mechanic of Materials- Basis of Beam Design" 1:18:41
"Mechanics of Materials- Mohr's Circle Pt. 2" 1:22:24
"Mechanics of Materials - Thermal Effects" 1:09:05
"Mechanics of Materials - Support of Columns" 1:18:30
"Mechanics of Materials- Deflection of Beams by Superposition" 1:19:00
"Mechanics of Materials- Columns" 1:19:10
"Mechanic of Materials - Shear, Connections" 1:10:37
"Mechanics of Materials - Shaft Design" 1:20:19
"Mechanics of Materials - Beam Deflection" 1:17:37
"Space Trusses" 54:55
"Trusses- Method of Sections" 55:31
"Frames" 56:52
"Frames and Machines" 55:36
"Frames and Machines" 51:50
"Trusses - Methods of Joints" 53:52
Dynamics by Ken Manning (Saylor Academy)
# click the upper-left icon to select videos from the playlist
source: Saylor Academy 2012年2月8日
Lectures used in ME202 as part of our Mechanical Engineering area of study on http://www.saylor.org
Licensed under a Creative Commons Attribution 3.0 Unported License. (http://creativecommons.org/licenses/b... )
Ken Manning's "Dynamics - Introduction" 1:12:29
Ken Manning's "Dynamics - Rectilinear Coordinates" 1:15:52
Ken Manning's "Dynamics - Curvilinear Motion" 1:11:34
Ken Manning's "Dynamics - Normal Coordinates" 1:22:01
Ken Manning's "Dynamics - Polar Coordinates" 1:17:52
Ken Manning's "Dynamics - Constrained Motion" 1:19:44
Ken Manning's "Dynamics - Relative Motion" 1:09:33
Ken Manning's "Dynamics - Particle Linear Kinetics" 1:18:07
Ken Manning's "Dynamics - Work Energy I" 1:18:51
Ken Manning's "Dynamics - Linear Momentum" 1:16:01
Ken Manning's "Dynamics - Curvilinear Kinetics" 1:19:55
Ken Manning's "Dynamics - Work - Energy II" 1:11:26
Ken Manning's "Dynamics - Angular Momentum" 1:09:43
Ken Manning's "Dynamics - Impact" 1:16:37
Ken Manning's "Dynamics - Rigid Body Kinematics" 1:23:48
Ken Manning's "Dynamics - Absolute Motion" 1:18:49
Ken Manning's "Dynamics - Relative Velocity" 1:19:12
Ken Manning's "Dynamics - Instantaneous Center" 1:04:24
Ken Manning's "Dynamics - Relative Acceleration" 1:18:08
Ken Manning's "Dynamics - Rigid Body Rotation" 1:20:50
Ken Manning's "Dynamics- Rigid Body Translation" 1:18:29
Ken Manning's "Dynamics - General Rigid Body Motion" 1:18:33
Ken Manning's "Dynamics - Rigid Body Impulse-Momentum" 1:17:16
Ken Manning's "Dynamics - Central Force Motion" 1:02:37
"Dynamics - Work/Energy Method for Rigid Bodies" 1:20:53
source: Saylor Academy 2012年2月8日
Lectures used in ME202 as part of our Mechanical Engineering area of study on http://www.saylor.org
Licensed under a Creative Commons Attribution 3.0 Unported License. (http://creativecommons.org/licenses/b... )
Ken Manning's "Dynamics - Introduction" 1:12:29
Ken Manning's "Dynamics - Rectilinear Coordinates" 1:15:52
Ken Manning's "Dynamics - Curvilinear Motion" 1:11:34
Ken Manning's "Dynamics - Normal Coordinates" 1:22:01
Ken Manning's "Dynamics - Polar Coordinates" 1:17:52
Ken Manning's "Dynamics - Constrained Motion" 1:19:44
Ken Manning's "Dynamics - Relative Motion" 1:09:33
Ken Manning's "Dynamics - Particle Linear Kinetics" 1:18:07
Ken Manning's "Dynamics - Work Energy I" 1:18:51
Ken Manning's "Dynamics - Linear Momentum" 1:16:01
Ken Manning's "Dynamics - Curvilinear Kinetics" 1:19:55
Ken Manning's "Dynamics - Work - Energy II" 1:11:26
Ken Manning's "Dynamics - Angular Momentum" 1:09:43
Ken Manning's "Dynamics - Impact" 1:16:37
Ken Manning's "Dynamics - Rigid Body Kinematics" 1:23:48
Ken Manning's "Dynamics - Absolute Motion" 1:18:49
Ken Manning's "Dynamics - Relative Velocity" 1:19:12
Ken Manning's "Dynamics - Instantaneous Center" 1:04:24
Ken Manning's "Dynamics - Relative Acceleration" 1:18:08
Ken Manning's "Dynamics - Rigid Body Rotation" 1:20:50
Ken Manning's "Dynamics- Rigid Body Translation" 1:18:29
Ken Manning's "Dynamics - General Rigid Body Motion" 1:18:33
Ken Manning's "Dynamics - Rigid Body Impulse-Momentum" 1:17:16
Ken Manning's "Dynamics - Central Force Motion" 1:02:37
"Dynamics - Work/Energy Method for Rigid Bodies" 1:20:53
Organizational Behavior by Michael Nugent
# click the upper-left icon to select videos from the playlist
source: Michael Nugent 2012年6月26日
Emotions in the work place Chapter 3 42:51 emotions and moods
Diversity OB Chapter Two 1:03:06
Introduction to Organizational Behavior Chapter 1 40:40
Getting Started Video Syllabus 37:51
MBA515 Overview Getting Started 21:25
Organizational Culture and Innovation 1:05:39
Communication and Collaboration At Work 57:46
Conflict and Negotiation Ch 10 49:44
Decision Making and Creativity ch9 56:02
Team Performance Chapter 8 1:21:18
Teamwork Chapter 7 1:07:36
Motivation and Rewards Chapter 6 53:56
Motivation Theories Chapter 5 43:19
Perception and Attribution OB Chapter 4 1:02:04
Discussion Board Directions 16:02
source: Michael Nugent 2012年6月26日
Emotions in the work place Chapter 3 42:51 emotions and moods
Diversity OB Chapter Two 1:03:06
Introduction to Organizational Behavior Chapter 1 40:40
Getting Started Video Syllabus 37:51
MBA515 Overview Getting Started 21:25
Organizational Culture and Innovation 1:05:39
Communication and Collaboration At Work 57:46
Conflict and Negotiation Ch 10 49:44
Decision Making and Creativity ch9 56:02
Team Performance Chapter 8 1:21:18
Teamwork Chapter 7 1:07:36
Motivation and Rewards Chapter 6 53:56
Motivation Theories Chapter 5 43:19
Perception and Attribution OB Chapter 4 1:02:04
Discussion Board Directions 16:02
Strongly correlated systems: From models to materials (2014, ICTS Program)
# click the upper-left icon to select videos from the playlist
source: International Centre for Theoretical Sciences 2014年2月14日
PROGRAM: STRONGLY CORRELATED SYSTEMS: FROM MODELS TO MATERIALS
DATES: Monday 06 Jan, 2014 - Friday 17 Jan, 2014
VENUE: Department of Physics, IISc Campus, Bangalore
PROGRAM LINK: http://www.icts.res.in/program/MTM2014
The realistic description of materials with strong electron-electron interactions is one of the challenges of modern condensed matter physics. Such a realistic description on one hand requires non-perturbative many body approaches, and on the other hand requires model Hamiltonian with material specific details offered by density functional theory (DFT). Mastering these novel techniques requires a wide background, ranging from DFT to model building and non-perturbative many body approaches such as Quantum Monte Carlo. During the last few years a major breakthrough came with the development of the DFT+Dynamical Mean Field Theory (DFT+DMFT) method. In this approach, conventional ab-initio schemes based on DFT are combined with a modern many-body approach, the dynamical mean-field theory (DMFT). In the DMFT method the full many body problem of solid state physics is mapped onto a quantum impurity model related by a self-consistency condition and the resulting impurity model is solved using non-perturbative many body techniques.
The present program has this circle of ideas as its focus. It is built around three Chandrasekhar lectures to be delivered by Prof A. Georges. In addition to these lectures there will be a school, divided into two parts, and a discussion meeting, scheduled between the two parts of the school, in which recent theoretical and experimental results on strongly correlated materials will be discussed by leading experts from India and abroad.
The school will be devoted to the following topics.
School Part I : Jan 6 -- Jan 9, 2014
a) Basic Density Functional Theory (DFT) and basis sets
b) Wannier functions
c) An introduction to many-body methods and Quantum Monte Carlo
d) Constrained LDA/RPA and Estimation of U and J
School Part II : Jan 14 -- Jan 17, 2014
a) Dynamical Mean Field Theory (DMFT)
b) Impurity Solvers
c) GW+DMFT
d) DFT+DMFT
The program is designed to educate advanced graduate students and young post-doctoral fellows in this emerging field of strongly correlated systems and to train them to carry out numerical calculations.
P Blaha - Basic concepts of bandstructure methods and the APW based methods 1:28:02
M Harbola - An Introduction to Density Functional Theory 1:32:13
M Harbola - An Introduction to Density Functional Theory 1:47:40
N Marzari - Skype 1:16:06
M Harbola - An Introduction to Density Functional Theory 55:39
D Vander - biltWannier Functions 1:33:39
P Blaha - WIEN2k: methods and features 1:42:37
Vijay Shenoy - Review of many body field theory I 1:42:16
[private video]
Vijay Shenoy - Review of many body field theory II 1:35:53
F Aryasetiwan - First principles method for calculating the Hubbard U I 1:35:32
Vijay Shenoy - Review of many body field theory III 1:35:38
F Aryasetiwan - First principles method for calculating the Hubbard U II 1:37:21
Markus Aichhorn - Hunds coupling and magnetism in technetium and chromium oxides 1:23:40
André Marie Tremblay - High temperature superconductors: Where is the mystery? 1:27:01
Vijay Shenoy - Review of many body field theory III 1:41:38
A Fujimori - Self energies in correlated metals SrVO3 and SrMoO3 35:43
F Aryasetiwan - Electronic Structure of SrVO3 within GW+DMFT 35:29
S Biermann - About empty states and Ab out U: New insights from combined GW and DMFT 37:49
Antoine Georges - Quantum Matter from Hot Superconductors to Cold Atoms 1:09:08
[private video]
M FerreroHow - bad metals turn good: spectroscopic signatures of resilient quasiparticles 39:09
Vijay Shenoy - Fermions in Synthetic Non Abelian Gauge Fields 35:38
Antoine Georges - Understanding and Controlling Materials with Strong Elect 1:15:09
T V Ramakrishnan - A Ginzburg Landau like Theory for Emergent d wave Superconductivity in the Cupr 40:14
André Marie -Tremblayd wave superconductivity in the one band Hubbard model, the Cluster Dynamic 38:19
M Le Tacon - Overview of recent results obtained in high temperature superconducting cuprates obtai 41:39
Roser Valenti - Correlations and pressure effects in Fe based superconductors: A first principles i 40:04
Markus Aichhorn - Hunds coupling and magnetism in technetium and chromium oxides 35:36
S Ray - Few interesting manifestations of metal oxygen covalency in solid oxides 34:34
S R Hassan - Topological Phases in the Kitaev Hubbard Model 31:36
A Millis - Dynamical mean field theory of metal insulator transitions in transition metal perovsk 39:13
T Prushke - TBA 36:24
P Werner - Extension of DMFT to nonequilibrium systems 37:39
J W Freeland - TBA 38:37
Cedric Weber - An implementation of dynamical mean field theory for nano structures and molecules 35:48
Arti Garg - Doping a correlated band insulator: A new route to half metallic behaviour 30:55
Antoine Georges - Ultra Cold Atoms meet Mesoscopics and Thermoelectrics 1:24:33
A Georges - Sum up on DMFT for the school 1:59:15
A Georges - Sum up on DMFT for the school 56:14
41 T PruschkeQuantum Impurity Solvers 1:44:11
M Ferrero - Analytical approximate Solvers 1:26:02
M Ferrero - Action based solvers and tools 1:35:49
Saha Dasgupta - 48:40
F Aryasetiwa - The GW method 1:34:51
Markus Aichhorn - LDA+DMFT Part I 1:37:03
A Millis - An Introduction to Cluster DMFT 1:50:54
T Pruschke - Quantum Impurity Solvers 1:48:07
S Biermann - The GW + DMFT Method 1:39:19
Markus Aichhorn - LDA+DMFTPart II 1:22:39
P Werner - Hybridization expansion based CTQMC 1:36:26
P Werner - Hybridization expansion based CTQMC 1:36:19
S Biermann - The GW + DMFT Method 1:39:43
source: International Centre for Theoretical Sciences 2014年2月14日
PROGRAM: STRONGLY CORRELATED SYSTEMS: FROM MODELS TO MATERIALS
DATES: Monday 06 Jan, 2014 - Friday 17 Jan, 2014
VENUE: Department of Physics, IISc Campus, Bangalore
PROGRAM LINK: http://www.icts.res.in/program/MTM2014
The realistic description of materials with strong electron-electron interactions is one of the challenges of modern condensed matter physics. Such a realistic description on one hand requires non-perturbative many body approaches, and on the other hand requires model Hamiltonian with material specific details offered by density functional theory (DFT). Mastering these novel techniques requires a wide background, ranging from DFT to model building and non-perturbative many body approaches such as Quantum Monte Carlo. During the last few years a major breakthrough came with the development of the DFT+Dynamical Mean Field Theory (DFT+DMFT) method. In this approach, conventional ab-initio schemes based on DFT are combined with a modern many-body approach, the dynamical mean-field theory (DMFT). In the DMFT method the full many body problem of solid state physics is mapped onto a quantum impurity model related by a self-consistency condition and the resulting impurity model is solved using non-perturbative many body techniques.
The present program has this circle of ideas as its focus. It is built around three Chandrasekhar lectures to be delivered by Prof A. Georges. In addition to these lectures there will be a school, divided into two parts, and a discussion meeting, scheduled between the two parts of the school, in which recent theoretical and experimental results on strongly correlated materials will be discussed by leading experts from India and abroad.
The school will be devoted to the following topics.
School Part I : Jan 6 -- Jan 9, 2014
a) Basic Density Functional Theory (DFT) and basis sets
b) Wannier functions
c) An introduction to many-body methods and Quantum Monte Carlo
d) Constrained LDA/RPA and Estimation of U and J
School Part II : Jan 14 -- Jan 17, 2014
a) Dynamical Mean Field Theory (DMFT)
b) Impurity Solvers
c) GW+DMFT
d) DFT+DMFT
The program is designed to educate advanced graduate students and young post-doctoral fellows in this emerging field of strongly correlated systems and to train them to carry out numerical calculations.
P Blaha - Basic concepts of bandstructure methods and the APW based methods 1:28:02
M Harbola - An Introduction to Density Functional Theory 1:32:13
M Harbola - An Introduction to Density Functional Theory 1:47:40
N Marzari - Skype 1:16:06
M Harbola - An Introduction to Density Functional Theory 55:39
D Vander - biltWannier Functions 1:33:39
P Blaha - WIEN2k: methods and features 1:42:37
Vijay Shenoy - Review of many body field theory I 1:42:16
[private video]
Vijay Shenoy - Review of many body field theory II 1:35:53
F Aryasetiwan - First principles method for calculating the Hubbard U I 1:35:32
Vijay Shenoy - Review of many body field theory III 1:35:38
F Aryasetiwan - First principles method for calculating the Hubbard U II 1:37:21
Markus Aichhorn - Hunds coupling and magnetism in technetium and chromium oxides 1:23:40
André Marie Tremblay - High temperature superconductors: Where is the mystery? 1:27:01
Vijay Shenoy - Review of many body field theory III 1:41:38
A Fujimori - Self energies in correlated metals SrVO3 and SrMoO3 35:43
F Aryasetiwan - Electronic Structure of SrVO3 within GW+DMFT 35:29
S Biermann - About empty states and Ab out U: New insights from combined GW and DMFT 37:49
Antoine Georges - Quantum Matter from Hot Superconductors to Cold Atoms 1:09:08
[private video]
M FerreroHow - bad metals turn good: spectroscopic signatures of resilient quasiparticles 39:09
Vijay Shenoy - Fermions in Synthetic Non Abelian Gauge Fields 35:38
Antoine Georges - Understanding and Controlling Materials with Strong Elect 1:15:09
T V Ramakrishnan - A Ginzburg Landau like Theory for Emergent d wave Superconductivity in the Cupr 40:14
André Marie -Tremblayd wave superconductivity in the one band Hubbard model, the Cluster Dynamic 38:19
M Le Tacon - Overview of recent results obtained in high temperature superconducting cuprates obtai 41:39
Roser Valenti - Correlations and pressure effects in Fe based superconductors: A first principles i 40:04
Markus Aichhorn - Hunds coupling and magnetism in technetium and chromium oxides 35:36
S Ray - Few interesting manifestations of metal oxygen covalency in solid oxides 34:34
S R Hassan - Topological Phases in the Kitaev Hubbard Model 31:36
A Millis - Dynamical mean field theory of metal insulator transitions in transition metal perovsk 39:13
T Prushke - TBA 36:24
P Werner - Extension of DMFT to nonequilibrium systems 37:39
J W Freeland - TBA 38:37
Cedric Weber - An implementation of dynamical mean field theory for nano structures and molecules 35:48
Arti Garg - Doping a correlated band insulator: A new route to half metallic behaviour 30:55
Antoine Georges - Ultra Cold Atoms meet Mesoscopics and Thermoelectrics 1:24:33
A Georges - Sum up on DMFT for the school 1:59:15
A Georges - Sum up on DMFT for the school 56:14
41 T PruschkeQuantum Impurity Solvers 1:44:11
M Ferrero - Analytical approximate Solvers 1:26:02
M Ferrero - Action based solvers and tools 1:35:49
Saha Dasgupta - 48:40
F Aryasetiwa - The GW method 1:34:51
Markus Aichhorn - LDA+DMFT Part I 1:37:03
A Millis - An Introduction to Cluster DMFT 1:50:54
T Pruschke - Quantum Impurity Solvers 1:48:07
S Biermann - The GW + DMFT Method 1:39:19
Markus Aichhorn - LDA+DMFTPart II 1:22:39
P Werner - Hybridization expansion based CTQMC 1:36:26
P Werner - Hybridization expansion based CTQMC 1:36:19
S Biermann - The GW + DMFT Method 1:39:43
Statistical Physics - V (2014, ICTS Program)
# click the upper-left icon to select videos from the playlist
source: International Centre for Theoretical Sciences 2014年5月6日
PROGRAM: Bangalore School on Statistical Physics - V
DATES: Monday 31 Mar, 2014 - Saturday 12 Apr, 2014
VENUE: Raman Research Institute, Bangalore
PROGRAM LINK: http://www.icts.res.in/program/BSSP2014
This advanced level school was started in 2010 at the Raman Research Institute, Bangalore. The first four schools were held under the title RRI SCHOOL ON STATISTICAL PHYSICS. The 5th school in 2014 has been renamed as BANGALORE SCHOOL ON STATISTICAL PHYSICS and is being jointly organized by RRI and ICTS.
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.
List of courses:
Week - 1
(i) Introduction to stochastic processes -- Abhishek Dhar and Sanjib Sabhapandit
(ii) Introduction to fluid dynamics and turbulence - Jayanta Bhattacharjee
(iii) Dissipative quantum systems - Sushanta Dattagupta
Week - 2
(iv) Bethe Ansatz: technique and applications - Kirone Mallick
(v) Introduction to random matrix theory - Satya Majumdar
(vi) Introduction to statistical field theory -- Sumit Das
Sanjib Sabhapandit - Introduction to stochastic processes (1) 1:35:17
Sanjib Sabhapandit - Introduction to stochastic processes (2) 1:32:09
Sanjib Sabhapandit - Introduction to stochastic processes (3) 1:32:08
Abhishek Dhar - Introduction to stochastic processes (4) 1:31:24
Abhishek Dhar - Introduction to stochastic processes (5) 1:34:00
Abhishek Dhar - Introduction to stochastic processes (6) 1:32:57
Jayanta Bhattacharjee - Introduction to fluid dynamics and turbulence (1) 1:33:07
Jayanta Bhattacharjee - Introduction to fluid dynamics and turbulence (2) 1:39:21
Jayanta Bhattacharjee - Introduction to fluid dynamics and turbulence (3) 1:35:04
Jayanta Bhattacharjee - Introduction to fluid dynamics and turbulence (4) 1:31:06
Jayanta Bhattacharjee - Introduction to fluid dynamics and turbulence (5) 1:32:08
Jayanta Bhattacharjee - Introduction to fluid dynamics and turbulence (6) 1:39:51
Sushanta Dattagupta - Dissipative quantum systems (1) 1:21:57
Sushanta Dattagupta - Dissipative quantum systems (2) 1:19:40
Sushanta Dattagupta - Dissipative quantum systems (3) 1:11:37
Sushanta Dattagupta - Dissipative quantum systems (4) 1:29:23
Sushanta Dattagupta - Dissipative quantum systems (5) 1:22:25
Sushanta Dattagupta - Dissipative quantum systems (6) 1:29:22
Satya Majumdar - Introduction to random matrix theory (1) 49:15
Satya Majumdar - Introduction to random matrix theory (2) 1:26:44
Satya Majumdar - Introduction to random matrix theory (3) 49:08
Satya Majumdar - Introduction to random matrix theory (4) 1:36:27
Satya Majumdar - Introduction to random matrix theory (5) 1:26:08
Satya Majumdar - Introduction to random matrix theory (6) 1:54:46
Kirone Mallick - Bethe Ansatz technique and application (1) 1:35:16
Kirone Mallick - Bethe Ansatz technique and application (2) 1:31:16
Kirone Mallick - Bethe Ansatz technique and application (3) 1:30:58
Kirone Mallick - Bethe Ansatz technique and application (4) 1:25:44
Kirone Mallick - Bethe Ansatz technique and application (5) 3:19:54
Kirone Mallick - Bethe Ansatz technique and application (6) 1:43:08
Sumit Das - Introduction to statistical field theory (1) 1:40:00
Sumit Das - Introduction to statistical field theory (2) 1:28:54
Sumit Das - Introduction to statistical field theory (3) 1:33:20
Sumit Das - Introduction to statistical field theory (4) 1:33:06
Sumit Das - Introduction to statistical field theory (5) 1:26:43
Sumit Das - Introduction to statistical field theory (6) 1:42:15
source: International Centre for Theoretical Sciences 2014年5月6日
PROGRAM: Bangalore School on Statistical Physics - V
DATES: Monday 31 Mar, 2014 - Saturday 12 Apr, 2014
VENUE: Raman Research Institute, Bangalore
PROGRAM LINK: http://www.icts.res.in/program/BSSP2014
This advanced level school was started in 2010 at the Raman Research Institute, Bangalore. The first four schools were held under the title RRI SCHOOL ON STATISTICAL PHYSICS. The 5th school in 2014 has been renamed as BANGALORE SCHOOL ON STATISTICAL PHYSICS and is being jointly organized by RRI and ICTS.
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.
List of courses:
Week - 1
(i) Introduction to stochastic processes -- Abhishek Dhar and Sanjib Sabhapandit
(ii) Introduction to fluid dynamics and turbulence - Jayanta Bhattacharjee
(iii) Dissipative quantum systems - Sushanta Dattagupta
Week - 2
(iv) Bethe Ansatz: technique and applications - Kirone Mallick
(v) Introduction to random matrix theory - Satya Majumdar
(vi) Introduction to statistical field theory -- Sumit Das
Sanjib Sabhapandit - Introduction to stochastic processes (1) 1:35:17
Sanjib Sabhapandit - Introduction to stochastic processes (2) 1:32:09
Sanjib Sabhapandit - Introduction to stochastic processes (3) 1:32:08
Abhishek Dhar - Introduction to stochastic processes (4) 1:31:24
Abhishek Dhar - Introduction to stochastic processes (5) 1:34:00
Abhishek Dhar - Introduction to stochastic processes (6) 1:32:57
Jayanta Bhattacharjee - Introduction to fluid dynamics and turbulence (1) 1:33:07
Jayanta Bhattacharjee - Introduction to fluid dynamics and turbulence (2) 1:39:21
Jayanta Bhattacharjee - Introduction to fluid dynamics and turbulence (3) 1:35:04
Jayanta Bhattacharjee - Introduction to fluid dynamics and turbulence (4) 1:31:06
Jayanta Bhattacharjee - Introduction to fluid dynamics and turbulence (5) 1:32:08
Jayanta Bhattacharjee - Introduction to fluid dynamics and turbulence (6) 1:39:51
Sushanta Dattagupta - Dissipative quantum systems (1) 1:21:57
Sushanta Dattagupta - Dissipative quantum systems (2) 1:19:40
Sushanta Dattagupta - Dissipative quantum systems (3) 1:11:37
Sushanta Dattagupta - Dissipative quantum systems (4) 1:29:23
Sushanta Dattagupta - Dissipative quantum systems (5) 1:22:25
Sushanta Dattagupta - Dissipative quantum systems (6) 1:29:22
Satya Majumdar - Introduction to random matrix theory (1) 49:15
Satya Majumdar - Introduction to random matrix theory (2) 1:26:44
Satya Majumdar - Introduction to random matrix theory (3) 49:08
Satya Majumdar - Introduction to random matrix theory (4) 1:36:27
Satya Majumdar - Introduction to random matrix theory (5) 1:26:08
Satya Majumdar - Introduction to random matrix theory (6) 1:54:46
Kirone Mallick - Bethe Ansatz technique and application (1) 1:35:16
Kirone Mallick - Bethe Ansatz technique and application (2) 1:31:16
Kirone Mallick - Bethe Ansatz technique and application (3) 1:30:58
Kirone Mallick - Bethe Ansatz technique and application (4) 1:25:44
Kirone Mallick - Bethe Ansatz technique and application (5) 3:19:54
Kirone Mallick - Bethe Ansatz technique and application (6) 1:43:08
Sumit Das - Introduction to statistical field theory (1) 1:40:00
Sumit Das - Introduction to statistical field theory (2) 1:28:54
Sumit Das - Introduction to statistical field theory (3) 1:33:20
Sumit Das - Introduction to statistical field theory (4) 1:33:06
Sumit Das - Introduction to statistical field theory (5) 1:26:43
Sumit Das - Introduction to statistical field theory (6) 1:42:15
Stochastic Analysis & Control of Fluid Flow (2012, ICTS Program)
# click the upper-left icon to select videos from the playlist
source: International Centre for Theoretical Sciences 2013年7月22日PROGRAM LINK: http://www.icts.res.in/program/contro...
DATES: Monday 03 Dec, 2012 - Thursday 20 Dec, 2012
VENUE: School of Mathematics, Indian Institute of Science Education and Research, Thiruvananthapuram
Stochastic analysis and control of fluid flow problems have seen great mathematical advancement over past two decades. A vast number of physical and engineering systems are encompassed under various flow governing equations. Various applications lie in defense related problems, important one is aero-hydrodynamic drag reduction in aerial, surface and undersea vehicles. Other applications are in atmospheric and ocean data assimilation, plasma fusion and energy-environmental problems.
The aim of the school is to make students and researchers across various organizations working in fluid flow problems well acquainted with the basic and advanced topics in control of partial differential equations (PDEs) arising from fluid dynamics with special emphasis on Navier-Stokes equations in both deterministic and stochastic settings. In the first week, introductory topics from Navier-Stokes equations, stochastic analysis and control of PDEs will be introduced. This would help in building the background for the advanced topics to be covered later on. In the following two weeks, solvability, control and large deviations of Navier-Stokes equations in both deterministic and stochastic settings will be covered. Topics on stochastic Navier-Stokes equations and stochastic Landau-Lifschitz-Gilbert equation on manifolds will also be covered using tools from differential geometry and stochastic analysis.
The winter school will also comprise of one day discussion meeting where a number of Indian senior experts will be invited to present their recent works related to the theme of the school. The discussion meeting aims to overview open problems and possible pathways to tackle them. This would help to enhance research activity in this area within India with the help of foreign experts through collaborations and exchange programmes.
1 See Inaugural Programme 1:22:24
2 Ruediger - Stochastic Integration & SDEs 1:30:36
3 Nandakumaran - An Introduction to deterministic optimal control and controllability 1:01:31
4 Nandakumaran - An Introduction to deterministic optimal control and controllability 1:00:38
6 Adimurthi - Basics of functional analysis, Sobolev spaces 1:31:29
7 Ruediger - Stochastic Integration & SDEs 1:32:41
8 Nandakumaran - An Introduction to deterministic optimal control and controllability 49:41
9 Nandakumaran - An Introduction to deterministic optimal control and controllability 54:33
10 Tutorial by Adimurthi - Basics of functional analysis, Sobolev spaces 1:13:54
11 Adimurthi - Basics of functional analysis, Sobolev spaces 1:19:17
12 Ruediger - Stochastic Integration & SDEs 1:26:10
13 Nandakumaran - An Introduction to deterministic optimal control and controllability 1:06:52
14 Nandakumaran - An Introduction to deterministic optimal control and controllability 1:03:44
15 Tutorial by Adimurthi - Basics of functional analysis, Sobolev spaces 59:35
16 Shaiju - Deterministic viscosity solutions 1:30:49
17 Ruediger - Stochastic Integration & SDEs 1:26:52
18 Mrinal Ghosh - Controlled diusion processes 59:09
19 Mrinal Ghosh - Controlled di 1:07:03
20 Tutorial by Ruediger - Stochastic Integration & SDEs 1:02:44
21 Mrinal Ghosh - Controlled di 1:34:41
22 Shaiju - Deterministic viscosity solutions 1:24:16
23 Suresh K - Stochastic viscosity solutions 1:01:05
24 Ruediger - Stochastic Integration & SDEs 1:26:00
25 Tutorial by Ruediger - Stochastic Integration & SDEs 51:34
26 Sritharan - Introduction to deterministic and stochastic Navier-Stokes equations 1:25:52
27 Sritharan - Introduction to deterministic and stochastic Navier-Stokes equations 1:29:11
28 Adimurthi - Introduction to the semigroup theory 1:26:02
29 Sritharan - Stochastic Navier-Stokes equations - solvability & control 1:34:41
30 Raymond - Deterministic control in fluids 1:34:53
31 Suresh K - Stochastic viscosity solutions 1:31:51
32 Raymond - Deterministic control in fluids 1:35:10
33 Sritharan - Stochastic Navier-Stokes equations - solvability & control 1:31:49
34 Sundar - Invariant measures and ergodicity for stochastic Navier-Stokes equations 1:34:42
35 Participant Presentations 1:34:39
36 Raymond - Deterministic control in fluids 1:35:01
37 Sundar - Invariant measures and ergodicity for stochastic Navier-Stokes equations 1:34:42
38 Raymond - Deterministic control in fluids 1:32:59
39 Participant Presentations 1:07:24
40 - Raymond Deterministic control in fluids 1:35:07
41 Protas - Applications of optimization and control methods in uid mechanics 1:25:19
42 Prof. Mythily Ramaswamy 42:56
43 Prof. Vivek S Borkar 1:11:01
44 Prof. M Vanninathan 57:00
45 Prof. K Balachandran 49:54
46 Prof. Adimurthi 1:11:51
47 Prof. Raju K George 52:03
48 Tutorial Day 1:22:25
49 Tutorial Day 1:34:51
50 Tutorial Day 1:34:36
51 Tutorial Day 1:34:43
52 Brzezniak - Landau-Lifshitz-Gilbert equations 22:15
[deleted video]
54 Ravindran - Numerical Methods for Navier-Stokes Equations 1:34:33
55 Romito - Invariant measures and ergodicity for stochastic Navier- 1:34:33
57 Sundar - Invariant measures and ergodicity for stochastic Navier-Stokes equations 1:34:41
58 Ravindran - Numerical Methods for Navier-Stokes Equations 1:31:58
59 Brzezniak - Landau-Lifshitz-Gilbert equations 1:34:41
60 Sritharan - Stochastic Navier-Stokes equations - solvability & control 1:30:50
61 Ravindran - Numerical Methods for Navier-Stokes Equations 1:28:13
62 Romito - Invariant measures and ergodicity for stochastic Navier 1:32:04
63 Brzezniak - Landau-Lifshitz-Gilbert equations 1:34:41
64 Sritharan - Stochastic Navier-Stokes equations - solvability & control 1:26:28
65 Ravindran - Numerical Methods for Navier-Stokes Equations - Model Reduction 1:32:34
66 Romito - Invariant measures and ergodicity for stochastic Navier-Stokes equations 1:34:41
source: International Centre for Theoretical Sciences 2013年7月22日PROGRAM LINK: http://www.icts.res.in/program/contro...
DATES: Monday 03 Dec, 2012 - Thursday 20 Dec, 2012
VENUE: School of Mathematics, Indian Institute of Science Education and Research, Thiruvananthapuram
Stochastic analysis and control of fluid flow problems have seen great mathematical advancement over past two decades. A vast number of physical and engineering systems are encompassed under various flow governing equations. Various applications lie in defense related problems, important one is aero-hydrodynamic drag reduction in aerial, surface and undersea vehicles. Other applications are in atmospheric and ocean data assimilation, plasma fusion and energy-environmental problems.
The aim of the school is to make students and researchers across various organizations working in fluid flow problems well acquainted with the basic and advanced topics in control of partial differential equations (PDEs) arising from fluid dynamics with special emphasis on Navier-Stokes equations in both deterministic and stochastic settings. In the first week, introductory topics from Navier-Stokes equations, stochastic analysis and control of PDEs will be introduced. This would help in building the background for the advanced topics to be covered later on. In the following two weeks, solvability, control and large deviations of Navier-Stokes equations in both deterministic and stochastic settings will be covered. Topics on stochastic Navier-Stokes equations and stochastic Landau-Lifschitz-Gilbert equation on manifolds will also be covered using tools from differential geometry and stochastic analysis.
The winter school will also comprise of one day discussion meeting where a number of Indian senior experts will be invited to present their recent works related to the theme of the school. The discussion meeting aims to overview open problems and possible pathways to tackle them. This would help to enhance research activity in this area within India with the help of foreign experts through collaborations and exchange programmes.
1 See Inaugural Programme 1:22:24
2 Ruediger - Stochastic Integration & SDEs 1:30:36
3 Nandakumaran - An Introduction to deterministic optimal control and controllability 1:01:31
4 Nandakumaran - An Introduction to deterministic optimal control and controllability 1:00:38
6 Adimurthi - Basics of functional analysis, Sobolev spaces 1:31:29
7 Ruediger - Stochastic Integration & SDEs 1:32:41
8 Nandakumaran - An Introduction to deterministic optimal control and controllability 49:41
9 Nandakumaran - An Introduction to deterministic optimal control and controllability 54:33
10 Tutorial by Adimurthi - Basics of functional analysis, Sobolev spaces 1:13:54
11 Adimurthi - Basics of functional analysis, Sobolev spaces 1:19:17
12 Ruediger - Stochastic Integration & SDEs 1:26:10
13 Nandakumaran - An Introduction to deterministic optimal control and controllability 1:06:52
14 Nandakumaran - An Introduction to deterministic optimal control and controllability 1:03:44
15 Tutorial by Adimurthi - Basics of functional analysis, Sobolev spaces 59:35
16 Shaiju - Deterministic viscosity solutions 1:30:49
17 Ruediger - Stochastic Integration & SDEs 1:26:52
18 Mrinal Ghosh - Controlled diusion processes 59:09
19 Mrinal Ghosh - Controlled di 1:07:03
20 Tutorial by Ruediger - Stochastic Integration & SDEs 1:02:44
21 Mrinal Ghosh - Controlled di 1:34:41
22 Shaiju - Deterministic viscosity solutions 1:24:16
23 Suresh K - Stochastic viscosity solutions 1:01:05
24 Ruediger - Stochastic Integration & SDEs 1:26:00
25 Tutorial by Ruediger - Stochastic Integration & SDEs 51:34
26 Sritharan - Introduction to deterministic and stochastic Navier-Stokes equations 1:25:52
27 Sritharan - Introduction to deterministic and stochastic Navier-Stokes equations 1:29:11
28 Adimurthi - Introduction to the semigroup theory 1:26:02
29 Sritharan - Stochastic Navier-Stokes equations - solvability & control 1:34:41
30 Raymond - Deterministic control in fluids 1:34:53
31 Suresh K - Stochastic viscosity solutions 1:31:51
32 Raymond - Deterministic control in fluids 1:35:10
33 Sritharan - Stochastic Navier-Stokes equations - solvability & control 1:31:49
34 Sundar - Invariant measures and ergodicity for stochastic Navier-Stokes equations 1:34:42
35 Participant Presentations 1:34:39
36 Raymond - Deterministic control in fluids 1:35:01
37 Sundar - Invariant measures and ergodicity for stochastic Navier-Stokes equations 1:34:42
38 Raymond - Deterministic control in fluids 1:32:59
39 Participant Presentations 1:07:24
40 - Raymond Deterministic control in fluids 1:35:07
41 Protas - Applications of optimization and control methods in uid mechanics 1:25:19
42 Prof. Mythily Ramaswamy 42:56
43 Prof. Vivek S Borkar 1:11:01
44 Prof. M Vanninathan 57:00
45 Prof. K Balachandran 49:54
46 Prof. Adimurthi 1:11:51
47 Prof. Raju K George 52:03
48 Tutorial Day 1:22:25
49 Tutorial Day 1:34:51
50 Tutorial Day 1:34:36
51 Tutorial Day 1:34:43
52 Brzezniak - Landau-Lifshitz-Gilbert equations 22:15
[deleted video]
54 Ravindran - Numerical Methods for Navier-Stokes Equations 1:34:33
55 Romito - Invariant measures and ergodicity for stochastic Navier- 1:34:33
57 Sundar - Invariant measures and ergodicity for stochastic Navier-Stokes equations 1:34:41
58 Ravindran - Numerical Methods for Navier-Stokes Equations 1:31:58
59 Brzezniak - Landau-Lifshitz-Gilbert equations 1:34:41
60 Sritharan - Stochastic Navier-Stokes equations - solvability & control 1:30:50
61 Ravindran - Numerical Methods for Navier-Stokes Equations 1:28:13
62 Romito - Invariant measures and ergodicity for stochastic Navier 1:32:04
63 Brzezniak - Landau-Lifshitz-Gilbert equations 1:34:41
64 Sritharan - Stochastic Navier-Stokes equations - solvability & control 1:26:28
65 Ravindran - Numerical Methods for Navier-Stokes Equations - Model Reduction 1:32:34
66 Romito - Invariant measures and ergodicity for stochastic Navier-Stokes equations 1:34:41
Uses of Philosophy for Living: Health
source: Wes Cecil 2017年1月20日
Lecture delivered by Wesley Cecil PhD. at Peninsula College. The fifth lecture in the Uses for Philosophy for Living series explores our relationship to health in contemporary American society.
DC Dialogues-On the Border: Syrian Refugees in Turkey
source: New York University 2016年12月23日
NYU Washington, DC and the Turkish Heritage Organization presented a panel of experts and professionals with first-hand experience in Turkey and Syria to discuss the current refugee crisis. THO also sponsored a photo exhibit by Turkish American Sinem Oguz, titled "On the Border."
Turkey welcomed more than 2.7 million Syrian refugees since 2011, and spent over $12.5 billion on relief and support efforts for the refugees. As the host country with the largest number of Syrian refugees, Turkey plays an integral part in the current crisis. This year's major world summits, United Nations General Assembly, the inaugural World Humanitarian Summit and G20, have all called for greater action for humanitarian aid to refugees and migrants around the world.
What would it take to build a sustainable food system? Nobel Week Dialog...
source: Nobel Prize 2016年12月15日
Panelists Muhammad Yunus (2006 Nobel Peace Prize), Peter Tyedmers and Anne-Marie Hermansson in a discussion with moderator Adam Smith on sustainable food systems.
Fear of Psi with Charles T. Tart
source: New Thinking Allowed 2017年1月22日
Charles T. Tart, PhD, is emeritus professor of psychology at the University of California, Davis, as well as the Institute of Transpersonal Psychology. He is a past-president of the Parapsychological Association. He has published over 100 scientific papers in parapsychology. He is editor of several anthologies including Altered States of Consciousness, Transpersonal Psychologies, Mind at Large, and Body Mind Spirit: Exploring the Parapsychology of Spirituality. Books that he has authored include Psi: Scientific Studies in the Psychic Realm, States of Consciousness, The End of Materialism, Learning to Use Extrasensory Perception, On Being Stoned, Waking Up, and Open Mind – Discriminating Mind.
Here he observes that, in previous generations, people suspected of using psi abilities for harmful purposes (i.e., witches) were burned at the stake. Fear of psi is akin to religious fear of the devil. It is also akin to what scoffers refer to as their fear of the “rising tide of superstition”. Many in academia fear that, if their interest in parapsychology were to become public, their colleagues would view them with disdain. This can affect research funding and tenure; it is a legitimate fear. Others who experience psi sometimes express the fear that they might be going insane; or that they will become overwhelmed by unwanted psi-related imagery.
New Thinking Allowed host, Jeffrey Mishlove, PhD, is author of The Roots of Consciousness, Psi Development Systems, and The PK Man. Between 1986 and 2002 he hosted and co-produced the original Thinking Allowed public television series. He is the recipient of the only doctoral diploma in "parapsychology" ever awarded by an accredited university (University of California, Berkeley, 1980). He is past-vice-president of the Association for Humanistic Psychology, and is the recipient of the Pathfinder Award from that association for his contributions to the study of consciousness. He is also past-president of the non-profit Intuition Network, an organization dedicated to creating a world in which all people are encouraged to cultivate and apply their inner, intuitive abilities.
(Recorded on November 9, 2016)
Local Economic Growth: do we know (or care) what works? (LSE Events)
source: London School of Economics and Political Science 2017年1月27日
Henry Overman discusses what we know about the effectiveness of different policies in driving local economic growth and asks what role, if any, this evidence plays in formulating policy.
Henry Overman (@henryoverman) is Professor of Economic Geography at LSE and Director of the What Works Centre for Local Economic Growth.
David Halpern is Chief Executive of Behavioural Insights Team (@B_I_Tweets).
Alexandra Jones (@AlexJonesCities) is Chief Executive of Centre for Cities.
Lynne Miles (@LynneMiles) is Deputy Director of What Works Centre for Local Economic Growth.
The What Works Centre for Local Economic Growth (WWG) (@whatworksgrowth) was set up in October 2013 as part of the What Works Network to analyse which policies are most effective in supporting and increasing local economic growth. The What Works Centre for Local Economic Growth is a partnership between the London School of Economics, Centre for Cities and Arup.
LSE Works is a series of public lectures, that will showcase some of the latest research by LSE's academic departments and research centres. In each session, LSE academics will present key research findings, demonstrating where appropriate the implications of their studies for public policy. A list of all the LSE Works lectures can be viewed at LSE Works.
Structuralism, Hermeneutics, & Cassirer
source: Philosophical Overdose 2017年1月25日
The Continental Tradition - Ernst Cassirer, Hans-Georg Gadamer, Ferdinand de Saussure & Lévi-Strauss
Creativity and the Mind (U of London)
source: SchAdvStudy
23-11-2016 The Human Mind Project and Being Human
http://www.sas.ac.uk/
Project: http://humanmind.ac.uk/
Creativity and the Mind
School of Advanced Study Research Ethics Policy
23:15 Simon Colton (Goldsmiths and Falmouth)
28:07 Berys Gaut (University of St Andrews)
29:33 Margaret Boden (University of Sussex)
23-11-2016 The Human Mind Project and Being Human
http://www.sas.ac.uk/
Project: http://humanmind.ac.uk/
Creativity and the Mind
School of Advanced Study Research Ethics Policy
23:15 Simon Colton (Goldsmiths and Falmouth) 28:07 Berys Gaut (University of St Andrews) 29:33 Margaret Boden (University of Sussex)
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