I'm a biomedical and electrical engineer with interests in information theory, complexity, evolution, genetics, signal processing, IndieWeb, theoretical mathematics, and big history.
I'm also a talent manager-producer-publisher in the entertainment industry with expertise in representation, distribution, finance, production, content delivery, and new media.
How can we account for China’s momentous - and almost wholly unanticipated - global rise? And what does it mean, for us in the West and for humanity’s future?
Speaking to these vital and fascinating questions, these 48 penetrating lectures by Professor Baum bring to vivid life the human struggles, the titanic political upheavals, and the spectacular speed of China’s modern rebirth. Offering multilevel insight into one of the most astounding real-life dramas of modern history, the lectures weave together the richly diverse developments and sociopolitical currents that created the China you now read about in the headlines.
You’ll get a detailed understanding of all the core events in China’s century of stunning change, including the collapse of the Qing dynasty, the Republican era and civil wars, the "Great Leap Forward", the Cultural Revolution, and the post-Mao economic "miracle". Throughout, Professor Baum reveals highly unusual details that enrich the cinematic sweep of the story. For example, you’ll learn about the Christian warlord who baptized his troops with a fire hose, the strange kidnapping of Chiang K’ai-shek, and Professor Baum’s own smuggling of top-secret documents out of Taiwan.
A core strength of these lectures is that they make sense of the dramatic events of the story by getting deeply at what underlay them, culturally, socially, and historically - leaving you with a nuanced knowledge of the forces moving China’s modern emergence. Bringing alive the passionate reinvention of China with deep discernment and humanity, they portray the confounding, majestic, heart-rending, and visionary story of a modern giant.
The Postdoctoral Experience Revisited builds on the 2000 report Enhancing the Postdoctoral Experience for Scientists and Engineers. That ground-breaking report assessed the postdoctoral experience and provided principles, action points, and recommendations to enhance that experience. Since the publication of the 2000 report, the postdoctoral landscape has changed considerably. The percentage of PhDs who pursue postdoctoral training is growing steadily and spreading from the biomedical and physical sciences to engineering and the social sciences. The average length of time spent in postdoctoral positions seems to be increasing. The Postdoctoral Experience Revisited reexamines postdoctoral programs in the United States, focusing on how postdocs are being guided and managed, how institutional practices have changed, and what happens to postdocs after they complete their programs. This book explores important changes that have occurred in postdoctoral practices and the research ecosystem and assesses how well current practices meet the needs of these fledgling scientists and engineers and of the research enterprise.
The Postdoctoral Experience Revisited takes a fresh look at current postdoctoral fellows - how many there are, where they are working, in what fields, and for how many years. This book makes recommendations to improve aspects of programs - postdoctoral period of service, title and role, career development, compensation and benefits, and mentoring. Current data on demographics, career aspirations, and career outcomes for postdocs are limited. This report makes the case for better data collection by research institution and data sharing.
A larger goal of this study is not only to propose ways to make the postdoctoral system better for the postdoctoral researchers themselves but also to better understand the role that postdoctoral training plays in the research enterprise. It is also to ask whether there are alternative ways to satisfy some of the research and career development needs of postdoctoral researchers that are now being met with several years of advanced training. Postdoctoral researchers are the future of the research enterprise. The discussion and recommendations of The Postdoctoral Experience Revisited will stimulate action toward clarifying the role of postdoctoral researchers and improving their status and experience.
The National Academy of Sciences has published a (free) book: The Postdoctoral Experience (Revisited) discussing where we’re at and some ideas for a way forward.
Most might agree that our educational system is far less than ideal, but few pay attention to significant problems at the highest levels of academia which are holding back a great deal of our national “innovation machinery”. The National Academy of Sciences has published a (free) book: The Postdoctoral Experience (Revisited) discussing where we’re at and some ideas for a way forward. There are some interesting ideas here, but we’ve still got a long way to go.
The Postdoctoral Experience Revisited (2014) | National Academies Press
Dr. Mike Miller, who had previously announced a two quarter sequence of classes on Lie Groups at UCLA, has just opened up registration for the second course in the series. His courses are always clear, entertaining, and invigorating, and I highly recommend them to anyone who is interested in math, science, or engineering.
Philosophy is written in this grand book, the universe which stands continually open to our gaze. But the book cannot be understood unless one first learns to comprehend the language and read the letters in which it is composed. It is written in the language of mathematics, and its characters are triangles, circles and other geometric figures without which it is humanly impossible to understand a single word of it; without these, one wanders about in a dark labyrinth.
Galileo Galilee (1564–1642) in Il saggiatore (The assayer)
Prior to the first part of the course, I’d written some thoughts about the timbre and tempo of his lecture style and philosophy and commend those interested to take a peek. I also mentioned some additional resources for the course there as well. For those who missed the first portion, I’m happy to help fill you in and share some of my notes if necessary. The recommended minimum prerequisites for this class are linear algebra and some calculus.
Introduction to Lie Groups and Lie Algebras (Part 2)
Math X 450.7 / 3.00 units / Reg. # 251580W
Professor: Michael Miller, Ph.D.
Start Date: January 13, 2015
Location: UCLA, 5137 Math Sciences Building
Tuesday, 7-10pm
January 13 – March 24
11 meetings total Class will not meet on one Tuesday to be annouced.
A Lie group is a differentiable manifold that is also a group for which the product and inverse maps are differentiable. A Lie algebra is a vector space endowed with a binary operation that is bilinear, alternating, and satisfies the so-called Jacobi identity. This course is the second in a 2-quarter sequence that offers an introductory survey of Lie groups, their associated Lie algebras, and their representations. Its focus is split between continuing last quarter’s study of matrix Lie groups and their representations and reconciling this theory with that for the more general manifold setting. Topics to be discussed include the Weyl group, complete reducibility, semisimple Lie algebras, root systems, and Cartan subalgebras. This is an advanced course, requiring a solid understanding of linear algebra, basic analysis, and, ideally, the material from the previous quarter.Internet access required to retrieve course materials.
Editor’s note: On 12/12/17 Storify announced they would be shutting down. As a result, I’m changing the embedded version of the original data served by Storify for an HTML copy which can be found below:
I’m giving a short 30-minute talk at a workshop on Biological and Bio-Inspired Information Theory at the Banff International Research Institute. I’ll say more about the workshop later, but here’s my talk: * Biodiversity, entropy and thermodynamics. Most of the people at this workshop study neurobiology and cell signalling, not evolutionary game theory or…
I’m having a great time at a workshop on Biological and Bio-Inspired Information Theory in Banff, Canada. You can see videos of the talks online. There have been lots of good talks so far, but this one really blew my mind: * Naftali Tishby, Sensing and acting under information constraints—a principled approach to biology and…
John Harte is an ecologist who uses maximum entropy methods to predict the distribution, abundance and energy usage of species. Marc Harper uses information theory in bioinformatics and evolutionary game theory. Harper, Harte and I are organizing a workshop on entropy and information in biological systems, and I’m really excited about it!
John Harte, Marc Harper and I are running a workshop! Now you can apply here to attend: * Information and entropy in biological systems, National Institute for Mathematical and Biological Synthesis, Knoxville Tennesee, Wednesday-Friday, 8-10 April 2015. Click the link, read the stuff and scroll down to “CLICK HERE” to apply.
There will be a 5-day workshop on Biological and Bio-Inspired Information Theory at BIRS from Sunday the 26th to Friday the 31st of October, 2014. It’s being organized by * Toby Berger (University of Virginia) * Andrew Eckford (York University) * Peter Thomas (Case Western Reserve University) BIRS is the Banff International Research Station,…
How does it feel to (co-)write a book and hold the finished product in your hands? About like this: Many, many thanks to my excellent co-authors, Tadashi Nakano and Tokuko Haraguchi, for their hard work; thanks to Cambridge for accepting this project and managing it well; and thanks to Satoshi Hiyama for writing a nice blurb.
You may have seen our PLOS ONE paper about tabletop molecular communication, which received loads of media coverage. One of the goals of this paper was to show that anyone can do experiments in molecular communication, without any wet labs or expensive apparatus.
John Selden (1584-1654), English jurist and a scholar
in Illustrations (1612), a commentary on Poly-Olbion, a poem by Michael Drayton
in the margin next to ‘A table to the chiefest passages, in the Illustrations, which, worthiest of observation, are not directed unto by the course of the volume.’
From antiquity to current times, there have always been writers devising literary forgeries of all kinds, either copying an existing book from the classical period or simply creating a fake original edition to trick collectors and scholars into purchasing a book that would be difficult to compare to any other. Some forgers do it for financial gain, some for ideological reasons, and some probably because of an impish instinct to prove that they can fool respectable scholars into believing an item is genuine.
There are some famous examples of forgeries, like The Donation of Constantine, a document supposedly written by Emperor Constantine (285-337 AD) and granting to Pope Sylvester I large territories of the Western Roman Empire as a token of gratitude for having converted him. Actually, the document was a forgery from the eighth century. This was not revealed before the 15th century, when Lorenzo Valla published the Discourse on the Forgery of the Alleged Donation of Constantine, in which he revealed numerous anachronisms. The Catholic Churchsuppressed this work for many years before conceding, centuries later, that the Donation was a fake.
Pope Sylvester receiving imperial power from Emperor Constantine.
The Johns Hopkins University recently acquired one of the most comprehensive collections of literary forgeries: the Arthur and Janet Freeman Collection of Literary and Historical Forgery, also called the Bibliotheca Fictiva. Arthur Freeman is an antiquarian book dealer. He and his wife Janet Ing Freeman are scholars who wrote a book, reviewed here, about John Payne Collier, a nineteenth-century scholar and literary forger who published a number of fake documents on Shakespeare. Their collection includes 1,200 items covering many centuries, and they wanted it to belong to a research library, which is how these astonishing books are currently being made accessible for consultation in the Sheridan Libraries Special Collections. You will be able to discover works by Joannes Annius de Viterbo, by Thomas James Wise, and many others. Enjoy!
INFORMATION THEORY is the new central discipline. This graph was from 20y ago in the seminal book Cover and Thomas, as the field was starting to be defined. Now Information Theory has been expanded to swallow even more fields.
Born in, of all disciplines, Electrical Engineering, the field has progressively infiltrating probability theory, computer science, statistical physics, data science, gambling theory, ruin problems, complexity, even how one deals with knowledge, epistemology. It defines noise/signal, order/disorder, etc. It studies cellular automata. You can use it in theology (FREE WILL & algorithmic complexity). As I said, it is the MOTHER discipline.
I am certain much of Medicine will naturally grow to be a subset of it, both operationally, and in studying how the human body works: the latter is an information machine. Same with linguistics. Same with political “science”, same with… everything.
I am saying this because I figured out what the long 5th volume of the INCERTO will be. Cannot say now with any precision but it has to do with a variant of entropy as the core natural generator of Antifragility.
[Revised to explain that it is not *replacing* other disciplines, just infiltrating them as the point was initially misunderstood…]
[My comments posted to the original Facebook post follow below.]
I’m coming to this post a bit late as I’m playing a bit of catch up, but agree with it wholeheartedly.
In particular, applications to molecular biology and medicine are really beginning to come to a heavy boil in just the past five years. This particular year is the progenitor of what appears to be the biggest renaissance for the application of information theory to the area of biology since Hubert Yockey, Henry Quastler, and Robert L. Platzman’s “Symposium on Information Theory in Biology at Gatlinburg, Tennessee” in 1956.
Upcoming/recent conferences/workshops on information theory in biology include:
I’ll note in passing, for those interested, that Claude Shannon’s infamous master’s thesis at MIT (in which he applied Boolean Algebra to electric circuits allowing the digital revolution to occur) and his subsequent “The Theory of Mathematical Communication” were so revolutionary, nearly everyone forgets his MIT Ph.D. Thesis “An Algebra for Theoretical Genetics” which presaged the areas of cybernetics and the current applications of information theory to microbiology and are probably as seminal as Sir R.A Fisher’s applications of statistics to science in general and biology in particular.
For those commenting on the post who were interested in a layman’s introduction to information theory, I recommend John Robinson Pierce’s An Introduction to Information Theory: Symbols, Signals and Noise (Dover has a very inexpensive edition.) After this, one should take a look at Claude Shannon’s original paper. (The MIT Press printing includes some excellent overview by Warren Weaver along with the paper itself.) The mathematics in the paper really aren’t too technical, and most of it should be comprehensible by most advanced high school students.
For those that don’t understand the concept of entropy, I HIGHLY recommend Arieh Ben-Naim’s book Entropy Demystified The Second Law Reduced to Plain Common Sense with Seven Simulated Games. He really does tear the concept down into its most basic form in a way I haven’t seen others come remotely close to and which even my mother can comprehend (with no mathematics at all). (I recommend this presentation to even those with Ph.D.’s in physics because it is so truly fundamental.)
For the more advanced mathematicians, physicists, and engineers Arieh Ben-Naim does a truly spectacular job of extending ET Jaynes’ work on information theory and statistical mechanics and comes up with a more coherent mathematical theory to conjoin the entropy of physics/statistical mechanics with that of Shannon’s information theory in A Farewell to Entropy: Statistical Thermodynamics Based on Information.
For the advanced readers/researchers interested in more at the intersection of information theory and biology, I’ll also mention that I maintain a list of references, books, and journal articles in a Mendeley group entitled “ITBio: Information Theory, Microbiology, Evolution, and Complexity.”
In recent years, ideas such as “life is information processing” or “information holds the key to understanding life” have become more common. However, how can information, or more formally Information Theory, increase our understanding of life, or life-like systems?
Information Theory not only has a profound mathematical basis, but also typically provides an intuitive understanding of processes, such as learning, behavior and evolution terms of information processing.
In this special issue, we are interested in both:
the information-theoretic formalization and quantification of different aspects of life, such as driving forces of learning and behavior generation, information flows between neurons, swarm members and social agents, and information theoretic aspects of evolution and adaptation, and
the simulation and creation of life-like systems with previously identified principles and incentives.
Topics with relation to artificial and natural systems:
information theoretic intrinsic motivations
information theoretic quantification of behavior
information theoretic guidance of artificial evolution
information theoretic guidance of self-organization
information theoretic driving forces behind learning
information theoretic driving forces behind behavior
information theory in swarms
information theory in social behavior
information theory in evolution
information theory in the brain
information theory in system-environment distinction
information theory in the perception action loop
information theoretic definitions of life
Submission
Manuscripts should be submitted online at www.mdpi.com by registering and logging in to this website. Once you are registered, click here to go to the submission form. Manuscripts can be submitted until the deadline. Papers will be published continuously (as soon as accepted) and will be listed together on the special issue website. Research articles, review articles as well as communications are invited. For planned papers, a title and short abstract (about 100 words) can be sent to the Editorial Office for announcement on this website.
Submitted manuscripts should not have been published previously, nor be under consideration for publication elsewhere (except conference proceedings papers). All manuscripts are refereed through a peer-review process. A guide for authors and other relevant information for submission of manuscripts is available on the Instructions for Authors page. Entropy is an international peer-reviewed Open Access monthly journal published by MDPI.
Deadline for manuscript submissions: 28 February 2015
Special Issue Editors
Guest Editor Dr. Christoph Salge
Adaptive Systems Research Group,University of Hertfordshire, College Lane, AL10 9AB Hatfield, UK
Website: http://homepages.stca.herts.ac.uk/~cs08abi
E-Mail: c.salge@herts.ac.uk
Phone: +44 1707 28 4490 Interests: Intrinsic Motivation (Empowerment); Self-Organization; Guided Self-Organization; Information-Theoretic Incentives for Social Interaction; Information-Theoretic Incentives for Swarms; Information Theory and Computer Game AI
Guest Editor Dr. Georg Martius
Cognition and Neurosciences, Max Planck Institute for Mathematics in the Sciences Inselstrasse 22, 04103 Leipzig, Germany
Website: http://www.mis.mpg.de/jjost/members/georg-martius.html
E-Mail: martius@mis.mpg.de
Phone: +49 341 9959 545 Interests: Autonomous Robots; Self-Organization; Guided Self-Organization; Information Theory; Dynamical Systems; Machine Learning; Neuroscience of Learning; Optimal Control
Guest Editor Dr. Keyan Ghazi-Zahedi
Information Theory of Cognitive Systems, Max Planck Institute for Mathematics in the Sciences Inselstrasse 22, 04103 Leipzig, Germany
Website: http://personal-homepages.mis.mpg.de/zahedi
E-Mail: zahedi@mis.mpg.de
Phone: +49 341 9959 535 Interests: Embodied Artificial Intelligence; Information Theory of the Sensorimotor Loop; Dynamical Systems; Cybernetics; Self-organisation; Synaptic plasticity; Evolutionary Robotics
Guest Editor Dr. Daniel Polani
Department of Computer Science, University of Hertfordshire, Hatfield AL10 9AB, UK
Website: http://homepages.feis.herts.ac.uk/~comqdp1/
E-Mail: d.polani@herts.ac.uk Interests: artificial intelligence; artificial life; information theory for intelligent information processing; sensor Evolution; collective and multiagent systems
I know where I’ll be in Oct 2014! Let’s hear it for Biology & Information Theory! https://www.birs.ca/events/2014/5-day-workshops/14w5170 … #ITBio #Banff @andreweckford
CECAM Workshop: “Entropy in Biomolecular Systems” starts May 14 in Vienna. http://jhu.md/1faLR8t #ITBio pic.twitter.com/Ty8dEIXQUT
Currently organizing my Banff workshop on bio-information theory … https://www.birs.ca/events/2014/5-day-workshops/14w5170 …
How information theory could hold the key to quantifying nature. http://wrd.cm/1uy1xdX by @vero_greenwood pic.twitter.com/ek5DUb2Ul9
Next week @BIRS_Math: Biological and Bio-Inspired Information Theory http://www.birs.ca/events/2014/5-day-workshops/14w5170 … | Live @ http://www.birs.ca/live #bioinformatics
Good morning from beautiful Banff. How can you not love the mountains? pic.twitter.com/mxYBNz7yzl
There’s a good-lookin’ group! @BIRS_Math http://www.birs.ca/workshops/2014/14w5170/groupphoto.jpg …
Biodiversity, Entropy and Thermodynamics
I’m giving a short 30-minute talk at a workshop on Biological and Bio-Inspired Information Theory at the Banff International Research Institute. I’ll say more about the workshop later, but here’s my talk: * Biodiversity, entropy and thermodynamics. Most of the people at this workshop study neurobiology and cell signalling, not evolutionary game theory or…
Terrific introduction of Canada/Banff by Andrew Eckford (York)The Landscape http://www.birs.ca/events/2014/5-day-workshops/14w5170/videos/watch/201410270858-Eckford.mp4 …”
Banff sunset pic.twitter.com/fw04PkAGED
Biological and Bio-Inspired Information Theory workshop videos! http://www.birs.ca/events/2014/5-day-workshops/14w5170/videos … @BIRS_Math
.@ChrisAldrich @andreweckford @Storify @BIRS_Math Sounds like a fascinating workshop on bioinformation theory in Banff.
Mathematical Modeling of Biological Processes (by Avner Friedman & Chiu-Yen Kao) http://www.amazon.com/Mathematical-Modeling-Biological-Processes-Modelling/dp/3319083139/ref=as_sl_pc_ss_til?tag=compldiges-20&linkCode=w01&linkId=3H5F3QNHI6IDWAFQ&creativeASIN=3319083139 …
Math at the pub. (MacLab Bistro) @BIRS_Math pic.twitter.com/LRe4sVcaDw
THis week @BIRS_Math ” Biological and Bio-Inspired Information Theory ” @thebanffcentre #biology #math @NSF
.@andreweckford @BIRS_Math Harte’s book Maximum Entropy & Ecology is excellent in this area http://amzn.to/1DwIl3V pic.twitter.com/EIBDpM35uf
.@ChristophAdami talk Some Information-Theoretic Musings Concerning the Origin of Life @BIRS_Math this morning #ITBio pic.twitter.com/VA8komuuSW
Johnston Canyon selfie @BIRS_Math pic.twitter.com/MEKeY5To5s
Baez has a post on Tishby’s talk “Sensing & Acting Under Information Constraints” http://bit.ly/1yIDonR @BIRS_Math pic.twitter.com/dFuiVLFSGC
Sensing and Acting Under Information Constraints
I’m having a great time at a workshop on Biological and Bio-Inspired Information Theory in Banff, Canada. You can see videos of the talks online. There have been lots of good talks so far, but this one really blew my mind: * Naftali Tishby, Sensing and acting under information constraints—a principled approach to biology and…
I’m listening to a talk on the origin of life at a workshop on Biological and Bio-Inspired Information Theory. … https://plus.google.com/117562920675666983007/posts/gqFL7XY3quF …
Inkpots selfie from yesterday’s hike. @BIRS_Math pic.twitter.com/0A6ZQsQVwE
Inkpots group selfie. @BIRS_Math pic.twitter.com/O5vXDjtA3u
On the way home from Inkpots. @BIRS_Math pic.twitter.com/1XhO8mLOkq
Fascinating stuff! #Information Theory #Entropy #Thermodynamics #Chemistry #Physics & lastly #Life itself: https://medium.com/the-physics-arxiv-blog/information-theory-and-the-origin-of-life-4cf6b93d156c …
See you later Calgary. pic.twitter.com/mkmU6yrmVz
Entropy and Information in Biological Systems (Part 1)
John Harte is an ecologist who uses maximum entropy methods to predict the distribution, abundance and energy usage of species. Marc Harper uses information theory in bioinformatics and evolutionary game theory. Harper, Harte and I are organizing a workshop on entropy and information in biological systems, and I’m really excited about it!
Bio-Inspired Information Theory
There will be a 5-day workshop on Biological and Bio-Inspired Information Theory at BIRS from Sunday the 26th to Friday the 31st of October, 2014. It’s being organized by * Toby Berger (University of Virginia) * Andrew Eckford (York University) * Peter Thomas (Case Western Reserve University) BIRS is the Banff International Research Station,…
Andrew Eckford: The Blog
How does it feel to (co-)write a book and hold the finished product in your hands? About like this: Many, many thanks to my excellent co-authors, Tadashi Nakano and Tokuko Haraguchi, for their hard work; thanks to Cambridge for accepting this project and managing it well; and thanks to Satoshi Hiyama for writing a nice blurb.
