CovidVisualized: Visualized compilation of international updating models’ estimates of COVID-19 pandemic at global and country levels

Preventive Interventions ◽

Global Level ◽

Los Alamos ◽

Data Description ◽

Abstract Objectives: To identify international and periodically updated models of the COVID-19 epidemic, compile and visualize their estimation results, at the global and country levels, and periodically update the compilations. When one or more model predicts an increase in daily cases or infections and deaths in the next one to three months, this can be used as an early alarm for technical advisors to the national and subnational decision-makers to consider suggesting augmentation of preventive interventions. Data description: Five international and periodically updated models of the COVID-19 pandemic were identified, created by: (1) Massachusetts Institute of Technology, Cambridge, (2) Institute for Health Metrics and Evaluation, Seattle, (3) Imperial College, London, (4) Los Alamos National Laboratories, Los Alamos, and (5) University of Southern California, Los Angeles. Estimates of these five identified models were gathered, combined, and graphed at global and two country levels. Canada and Iran were chosen as countries with and without subnational estimates respectively. Compilations of results are periodically updated. Three Github repositories contain the codes and results: “CovidVisualizedGlobal” for the global level, “CovidVisualizedCountry” for a country with subnational estimates, Canada, and “covir2” for a country without subnational estimates, Iran.

Australia's Internal Air Transport

Journal of the Royal Aeronautical Society ◽

10.1017/s0368393100090015 ◽

1963 ◽

Vol 67 (625) ◽

pp. 11-38 ◽

Cited By ~ 1

Author(s):

John L. Watkins

Keyword(s):

Imperial College ◽

Air Transport ◽

Civil Aviation ◽

Graduate Course ◽

Lecture Theatre ◽

The Government ◽

Institute Of Technology ◽

British Commonwealth ◽

Australian Department

The Eighteenth British Commonwealth Lecture, “Australia's Internal Air Transport” by Mr. John L. Watkins, O.B.E., B.E., D.I.C., F.R.Ae.S., Director of Engineering, Trans-Australia Airlines, was given in the Lecture Theatre of the Society on 11th October 1962. The President of the Society, Mr. B. S. Shenstone, M.A.Sc, F.R.Ae.S., F.I.A.S., F.C.A.S.I., presided.Before the lecture Sir Roy Dobson, President of the Society of British Aircraft Constructors, presented certificates of S.B.A.C. University Scholarships to the following who had completed, or were about to complete, their courses: J. M. Chaney (Blackburn Aircraft, College of Aeronautics and Massachusetts Institute of Technology), B. C. Latter (Blackburn Aircraft and College of Aeronautics), R. A. Newnham (Handley Page—College of Aeronautics), R. A. Williamson (A. V. Roe & Co.—College of Aeronautics), D. F. Pilkington (A. V. Roe & Co.— Imperial College), R. J. G. Archer (de Havilland Engine Co.—Imperial College) and C. E. H. Joy (Bristol Siddeley—Imperial College).Introducing the Lecturer, Mr. Shenstone said that unlike many of the lecturers in this series, Mr. Watkins had been raised in the country of which he was to speak. He had taken his degree of Bachelor of Engineering at the University of Adelaide in 1930 and then took a post-graduate course at Imperial College, London. In 1932 he joined Vickers-Armstrongs and worked on early geodetic work under Dr. Barnes Wallis. Returning to Australia in 1934, Mr. Watkins joined the Air Board, which later became the Australian Department of Civil Aviation. During the war Mr. Watkins had worked on special projects for the RAAF in the Australian Department of Aircraft Production, with the Army Inventions Directorate, and on many other projects. When Trans-Australia Airlines was formed in 1946 he was appointed Technical Superintendent and since 1953 had been Director of Engineering. One of the jobs he was most noted for outside Australia was his responsibility for choosing aircraft for TAA and also for British Commonwealth Pacific Airlines when that Airline existed as a separate entity. In 1950 Mr. Watkins had been loaned to the Government of India as Technical Adviser to the Indian Air Transport Inquiry Committee.Mr. Watkins had been awarded the O.B.E. for his services to Australian Civil Aviation in 1958 and had been a Fellow of the Society since 1956. He was a past Chairman of the Melbourne Branch of the Australian Division.

Testing static tradeoff against pecking order models of capital structure1This paper has benefited from comments by seminar participants at Boston College, Boston Unsiversity, Dartmouth College, Massachusetts Institute of Technology, University of Massachusetts, Ohio State University, University of California at Los Angeles and the NBER, especially Eugene Fama and Robert Gertner. The usual disclaimers apply. Funding from MIT and the Tuck School at Dartmouth College is gratefuly acknowledged. We also thank two reviewers, Richard S. Ruback and Clifford W. Smith, Jr., for helpful comments.1

Journal of Financial Economics ◽

10.1016/s0304-405x(98)00051-8 ◽

1999 ◽

Vol 51 (2) ◽

pp. 219-244 ◽

Cited By ~ 629

Author(s):

Lakshmi Shyam-Sunder ◽

Stewart C. Myers

Keyword(s):

Los Angeles ◽

Ohio State University ◽

University Of California ◽

Dartmouth College ◽

State University ◽

Pecking Order ◽

Boston College ◽

Institute Of Technology ◽

University Of Massachusetts

Meet the APSA Council and Officers

Political Science and Politics ◽

10.1017/s1049096511001958 ◽

2012 ◽

Vol 45 (01) ◽

pp. 151-154

Keyword(s):

Harvard University ◽

University Of California ◽

Massachusetts Institute ◽

University Of Southern California ◽

New Members ◽

Reed College ◽

Institute Of Technology ◽

The University ◽

University Of Manchester

As noted in the October issue ofPS, G. Bingham Powell, Jr., the Marie E .and Joseph C. Wilson Professor of Political Science at the University of Rochester, became APSA's 108th president on September 4, 2011, at the close of the APSA Annual Meeting. Eight new members of the APSA council were elected fall 2011. The new members are Paul Gronke, Reed College; Ange-Marie Hancock, University of Southern California; David A. Lake, University of California, San Diego; Taeku Lee, University of California, Berkeley; Kenneth J. Meier, Texas A&M University; Kathleen Thelen, Massachusetts Institute of Technology; Stephen M. Walt, Harvard University; and Angelia R. Wilson, University of Manchester.

Book Reviews : The Primitive World and Its Transformations By ROBERT REDFIELD (Ithaca, N.Y.: Cornell University Press, I953; 2d ed., Great Seal Books, I957.) Pp. xiii+I85. Language, Thought, and Reality: Selected Writings of Benjamin Lee Whorf Edited and with an Introduction by J. B. CARROLL, Foreword by STUART CHASE (New York: Technology Press of Massachusetts Institute of Technology and John Wiley & Sons; London: Chapman & Hall, Ltd., I956.) Pp. x+278. Nonverbal Communication: Notes on the Visual Perception of Human Relations By JURGEN RUESCH and WELDON KEES (Berkeley and Los Angeles: University of California Press, I956.) Pp. 205

Diogenes ◽

10.1177/039219215800602308 ◽

1958 ◽

Vol 6 (23) ◽

pp. 111-119

Author(s):

Peter Krausser

Keyword(s):

New York ◽

Los Angeles ◽

Nonverbal Communication ◽

University Of California ◽

Massachusetts Institute ◽

Human Relations ◽

Cornell University ◽

16 Noninvasive deep brain stimulation via delivery of temporally interfering electric fields

Journal of Neurology Neurosurgery & Psychiatry ◽

10.1136/jnnp-2020-bnpa.16 ◽

2020 ◽

Vol 91 (8) ◽

pp. e6.3-e7

Author(s):

Nir Grossman

Keyword(s):

Electric Field ◽

Electric Fields ◽

Brain Stimulation ◽

Dynamic Range ◽

Imperial College ◽

Network Activity ◽

Neural Firing ◽

Institute Of Technology ◽

The Brain

Nir is a Lecturer (Assistant Professor) at Imperial College London and a founding fellow of the UK Dementia Research Institute (UK-DRI). The long-term goal of his research is to develop neuromodulatory interventions for neurodegenerative diseases by direct modulation of the underlying aberrant network activity. Nir received a BSc in Physics from the Israeli Institute of Technology (Technion), an MSc in Electromagnetic Engineering from the Technical University of Hamburg-Harburg, and a PhD in Neuroscience from Imperial College London. He then completed a postdoc training, as a Wellcome Trust Fellow, at the Massachusetts Institute of Technology (MIT) and Harvard University. Nir was recently awarded the prestige prize for Neuromodulation from the Science magazine for describing how temporal interfering of kHz electric fields can non-invasively stimulate focal neural structures deep in the brain.Electrical brain stimulation is a key technique in research and clinical neuroscience studies, and also is in increasingly widespread use from a therapeutic standpoint. However, to date all methods of electrical stimulation of the brain either require surgery to implant an electrode at a defined site, or involve the application of non-focal electric fields to large fractions of the brain. We report a noninvasive strategy for electrically stimulating neurons at depth. By delivering to the brain multiple electric fields at frequencies too high to recruit neural firing, but which differ by a frequency within the dynamic range of neural firing, we can electrically stimulate neurons throughout a region where interference between the multiple fields results in a prominent electric field envelope modulated at the difference frequency. We validated this temporal interference (TI) concept via modeling and physics experiments, and verified that neurons in the living mouse brain could follow the electric field envelope. We demonstrate the utility of TI stimulation by stimulating neurons in the hippocampus of living mice without recruiting neurons of the overlying cortex. Finally, we show that by altering the currents delivered to a set of immobile electrodes, we can steerably evoke different motor patterns in living mice.

Le microbiote intestinal de souris, un enjeu majeur dans la reproductibilité des résultats des modèles in vivo

médecine/sciences ◽

10.1051/medsci/20183406027 ◽

2018 ◽

Vol 34 (6-7) ◽

pp. 609-611

Author(s):

Benjamin Estavoyer ◽

Saidi Soudja

Keyword(s):

Imperial College ◽

Massachusetts Institute ◽

Haut Débit ◽

Link Type ◽

Institute Of Technology ◽

Microbiote Intestinal

Dans le cadre d’un partenariat avec médecine/sciences, et pour la seconde année, des étudiants du module d’immunologie virologie et cancer du Master de cancérologie de Lyon présentent une analyse d’articles scientifiques récents faisant état d’observations innovantes et importantes. Ce travail a été encadré par des chercheurs confirmés du département d’immunologie, virologie et inflammation du CRCL. Le master de cancérologie de Lyon (Lyon1-VetAgroSup) accueille chaque année 30 à 40 étudiants en M1 et en M2. Ce master dit « d’excellence » assure aux étudiants de M1 une formation à la cancérologie reposant sur un socle de base commun (biologie cellulaire, moléculaire, immunologie, bio-statistique…) En M2, les étudiants peuvent choisir l’une des trois spécialités suivantes : le Master recherche « Recherche en cancérologie », le Master recherche et professionnel « Technologie haut débit en cancérologie » et enfin le Master recherche et professionnel « Innovations thérapeutiques en cancérologie ». Le Master de cancérologie de Lyon repose sur une forte implication des chercheurs et enseignants-chercheurs du laboratoire d’excellence en développement et cancérologie (LabEx DEVweCAN), ainsi que sur un partenariat solide avec plusieurs instituts dont le MIT (Massachusetts Institute of Technology, Cambridge, États-Unis), l’université d’Harvard (Boston, États-Unis), l’université Johns Hopkins (Baltimore, États-Unis), l’Imperial College of London (Royaume-Uni), les universités de Jiao Tong (République Populaire de Chine) et de Tokyo (Japon), entre autres. Pour plus d’information : http://devwecan.universite-lyon.fr/formation/

THE IMPERIAL COLLEGE OF SCIENCE AND TECHNOLOGY AND THE MASSACHUSETTS INSTITUTE OF TECHNOLOGY

Science ◽

10.1126/science.99.2566.175 ◽

1944 ◽

Vol 99 (2566) ◽

pp. 175-175

Keyword(s):

Science And Technology ◽

Imperial College ◽

Massachusetts Institute ◽

Le dialogue entre les cellules souches intestinales et les lymphocytes T CD4+ module l’homéostasie des cellules souches

médecine/sciences ◽

10.1051/medsci/2019175 ◽

2020 ◽

Vol 36 (1) ◽

pp. 69-72

Author(s):

Valentin Thevin ◽

Saidi Soudja

Keyword(s):

Imperial College ◽

Massachusetts Institute ◽

Haut Débit ◽

Link Type ◽

Dans le cadre d’un partenariat avec médecine/sciences, et pour la troisième année, des étudiants du module d’immunologie virologie et cancer du Master de cancérologie de Lyon présentent une analyse d’articles scientifiques récents faisant état d’observations innovantes et importantes. Ce travail a été encadré par des chercheurs confirmés du département d’immunologie, virologie et inflammation du CRCL. Le master de cancérologie de Lyon (Lyon1-VetAgroSup) accueille chaque année 30 à 40 étudiants en M1 et en M2. Ce master dit « d’excellence » assure aux étudiants de M1 une formation à la cancérologie reposant sur un socle de base commun (biologie cellulaire, moléculaire, immunologie, bio-statistique...). En M2, les étudiants peuvent choisir l’une des trois spécialités suivantes : le Master recherche « Recherche en cancérologie », le Master recherche et professionnel « Technologie haut débit en cancérologie » et enfin le Master recherche et professionnel « Innovations thérapeutiques en cancérologie ». Le Master de cancérologie de Lyon repose sur une forte implication des chercheurs et enseignants-chercheurs du laboratoire d’excellence en développement et cancérologie (LabEx DEVweCAN), ainsi que sur un partenariat solide avec plusieurs instituts dont le MIT (Massachusetts Institute of Technology, Cambridge, États-Unis), l’université d’Harvard (Boston, États-Unis), l’université Johns Hopkins (Baltimore, États-Unis), l’Imperial College of London (Royaume-Uni), les universités de Jiao Tong (République Populaire de Chine) et de Tokyo (Japon), entre autres. Pour plus d’information : http://devwecan.universite-lyon.fr/formation/

Immunothérapie et thérapies ciblées, une combinaison d’avenir dans la lutte contre le cancer

médecine/sciences ◽

10.1051/medsci/2018217 ◽

2018 ◽

Vol 34 (10) ◽

pp. 872-875

Author(s):

Nathan Andrieu ◽

Nathalie Bendriss-Vermare

Keyword(s):

Imperial College ◽

Thérapies Ciblées ◽

Massachusetts Institute ◽

Haut Débit ◽

Link Type ◽

Dans le cadre d’un partenariat avec médecine/sciences, et pour la seconde année, des étudiants du module d’immunologie virologie et cancer du Master de cancérologie de Lyon présentent une analyse d’articles scientifiques récents faisant état d’observations innovantes et importantes. Ce travail a été encadré par des chercheurs confirmés du département d’immunologie, virologie et inflammation du CRCL. Le master de cancérologie de Lyon (Lyon1-VetAgroSup) accueille chaque année 30 à 40 étudiants en M1 et en M2. Ce master dit « d’excellence » assure aux étudiants de M1 une formation à la cancérologie reposant sur un socle de base commun (biologie cellulaire, moléculaire, immunologie, bio-statistique...). En M2, les étudiants peuvent choisir l’une des trois spécialités suivantes : le Master recherche « Recherche en cancérologie », le Master recherche et professionnel « Technologie haut débit en cancérologie » et enfin le Master recherche et professionnel « Innovations thérapeutiques en cancérologie ». Le Master de cancérologie de Lyon repose sur une forte implication des chercheurs et enseignants-chercheurs du laboratoire d’excellence en développement et cancérologie (LabEx DEVweCAN), ainsi que sur un partenariat solide avec plusieurs instituts dont le MIT (Massachusetts Institute of Technology, Cambridge, États-Unis), l’université d’Harvard (Boston, États-Unis), l’université Johns Hopkins (Baltimore, États-Unis), l’Imperial College of London (Royaume-Uni), les universités de Jiao Tong (République Populaire de Chine) et de Tokyo (Japon), entre autres. Pour plus d’information : http://devwecan.universite-lyon.fr/formation/

Transatlantic Touch: A Study of Haptic Collaboration over Long Distance

Presence Teleoperators & Virtual Environments ◽

10.1162/1054746041422370 ◽

2004 ◽

Vol 13 (3) ◽

pp. 328-337 ◽

Cited By ~ 82

Author(s):

Jung Kim ◽

Hyun Kim ◽

Boon K. Tay ◽

Manivannan Muniyandi ◽

Mandayam A. Srinivasan ◽

...

Keyword(s):

Virtual Environment ◽

Physical Distance ◽

Massachusetts Institute ◽

University Of Southern California ◽

Long Distance ◽

Haptic Interactions ◽

Haptic Communication ◽

University College London ◽

The extent to which the addition of haptic communication between human users in a shared virtual environment (SVE) contributes to the shared experience of the users has not received much attention in the literature. In this paper we describe a demonstration of and an experimental study on haptic interaction between two users over a network of significant physical distance and a number of network hops. A number of techniques to mitigate instability of the haptic interactions induced by network latency are presented. An experiment to evaluate the use of haptics in a collaborative situation mediated by a networked virtual environment is examined. The experimental subjects were to cooperate in lifting a virtual box together under one of four conditions in a between-groups design. Questionnaires were used to report the ease with which they could perform the task and the subjective levels of presence and copresence experienced. This extends earlier work by the authors to consider the possibility of haptic collaboration under real network conditions with a number of improvements. Using the technology described in this paper, transatlantic touch was successfully demonstrated between the Touch Lab at Massachusetts Institute of Technology, USA and Virtual Environments and Computer Graphics (VECG) lab at University College London (UCL), UK in 2002. It was also presented at the Internet II demonstration meeting in 2002 between University of Southern California and the Massachusetts Institute of Technology.