I am a research fellow, conducting research into automatic analysis of bird sounds using machine learning.
—> Click here for more about my research.
My Return key is getting a bit flaky, so I've just worked out how to reuse my "AltGr" key as a backup in case of emergency. Noting it down for my own reference.
In Linux you can configure anything, including custom keyboard layouts, but it can be tricky to find the advice online that actually matches your system. (Standard Ubuntu has some helper apps that a LXDE desktop doesn't, etc etc.) I think this method will work with any Debian-based system, and I took it from Debian's multimedia-keys guide.
Basically, follow the instructions in that wiki page:
That's enough to enable it for this session. Then you just have to add that last command as one of your autostart programs so it'll be available in future sessions. I did it by running "gnome-session-properties" tool, but also belt-and-braces in my .zshrc because of some other config I have in there.
I hadn't noticed that both Björk and Kim Gordon had split up from their long-term partners. Thing is, last summer I split up from my long-term partner. I think back then I would have gained some solace from the work of fabulous artists who were going through analogous pain - even if the analogies were only superficial. But then, I was deep in it all, too busy with our own difficulties and the horrible pile of practicalities that accompany a long-term breakup, to notice everything around me.
That changed this year, when Kim Gordon published a book, and Björk published an album, both of which foreground their breakups. But the timing has changed - it's not last summer any more, and I'm not in the heat of it, so I don't need to take solace from these things like I did back then. I can feel some empathy, remotely of course. I really wonder what I would have made of it all last summer.
Björk's album Vulnicura is a heartfelt and very raw heartbreak album. It does some amazing things, some really intense sonic moments, which work on these emotional issues universally, and Björk's lyrics are along similar lines but they often dive really deep into uncomfortably intimate detail. A bit like hearing someone listing all the bad things their ex did, and not being sure quite how literally to take it all:
"Family was always our sacred mutual mission/ Which you abandoned."
It's so direct that it makes me want to hear the other side's rejoinder. (I should say, by the way, that that quote is nothing like what was going on in my case.)
It's really quite striking though that it's Björk and Kim Gordon. Björk has for decades expressed a very open and deep emotional literacy in her music, and in recent years it's increasingly been less about torrid excitement and more about family bonds. Kim Gordon and Thurston Moore were the alt-rock equivalent of the ideal family: together for decades, raising kids while pushing Sonic Youth and their other projects ever onward. And if these paragons are not immune, well on the one hand that's really sad, while on the other hand maybe I can take some solace from it after all. Their lives aren't exactly average lives, but then whose is? We're still all tumbling through the same kaleidoscope.
The whole idea of static site generators is interesting, especially for someone who has had to deal with the pain of content management systems for website making. I've been dabbling with a static site generator for our research group website and I think it's a good plan.
Firstly here's a quick historical introduction to get you up to speed on what I'm talking about:
It's not as if SSGs are poised to wipe out CMSes, not at all. But an SSG can be a really neat alternative for managing a website, if it suits your needs. There are lots of nice static site generators out there.
So here in academia, we have loads of old websites everywhere. Some of them are plain HTML, some of them are CMSes set up by PhD students who left years ago, some of them are big whizzy CMSes that the central university admin paid millions for and doesn't quite do everything you want.
If you're setting up a new research group website, questions that come to mind are:
So using a static site generator (SSG) might be a really handy idea. So that's what I've done. I used a static site generator called Poole which is written in Python and it appealed to me because of how minimal it is.
Poole does ALMOST NOTHING.
It has one HTML template which you can make yourself, and then it takes content written in markdown syntax and puts the two together to produce your HTML website. It lets you embed bits of python code in the markdown too, if there's any whizzy stuff needed during page generation. And that's it, it doesn't do anything else. Fab!
But there's more: how do people in our research group edit the site? Do they need to understand this crazy little coding system? No! I plugged Poole together with github for editing the markdown pages. The markdown files are in a github project. As with any github project, anyone can propose a change to one of the textfiles. If they're not pre-authorised then it becomes a "Pull Request" which someone like me checks before approving. Then, I have a little script that regularly checks the github project and regenerates the site if the content has changed.
(This is edging a little bit more towards the CMS side of things, with the server actually having to do stuff. But the neat thing is firstly that this auto-update is optional - this paradigm would work even if the server couldn't regularly poll github, for example - and secondly, because Poole is minimal the server requirements are minimal. It just needs Python plus the python-markdown module.)
We did need a couple of whizzy things for the research site: a publications list, and a listing of research group members. We wanted these to come from data such as a spreadsheet so it could be used in multiple pages and easily updated. This is achieved via the embedded bits of python code I mentioned: we have publications stored in bibtex files, and people stored in a CSV file, and the python loads the data and transforms it into HTML.
It's really neat that the SSG means we have all our content stored in a really portable format: a single git repository containing some of the most widely-handled file formats: markdown, bibtex and CSV.
So where is this website? Here: http://c4dm.eecs.qmul.ac.uk/
I've been dabbling with the Stan programming environment here and there. It's an elegant design for specifying and solving arbitrary probabilistic models.
(One thing I want to point out is that it's really for solving for continuous-valued parameters only - this means you can't explicitly do things like clustering etc (unless your approach makes sense with fuzzy cluster assignments). So it's not a panacea. In my experience it's not always obvious which problems it's going to be most useful for.)
So let's try putting NMF and Stan together.
First off, NMF is not always a probabilistic approach - at its core, NMF simply assumes you have a matrix V, which happens to be the product of two "narrower" matrices W and H, and all these matrices have non-negative values. And since Stan is a probilistic environment we need to choose a generative model for that matrix. Here are two alternatives I tried:
So here is the Stan source code for my implementations of these models, plus a simple toy dataset as an example. They both converge pretty quickly and give decent results.
I designed these implementations with audio transcription in mind. When we're transcribing music or everyday sound, we often have some pre-specified categories that we want to identify. So rather than leaving the templates W completely free to choose, in these implementations I specify pre-defined spectral templates "Winit".
(Specifying these also breaks a permutation symmetry in the model, which probably helps the model to converge since it shouldn't keep flipping around through different permutations of the solution. Another thing I do is fix the templates W to sum up to 1 each [i.e. I force them to be simplexes] because otherwise there's a scaling indeterminacy: you could double W and halve H and have the same solution.)
I use a concentration parameter "Wconc" to tell the model how closely to stick to the Winit values, i.e. how tight to make the prior around them. I also use an exponential prior on the activations H, to encourage sparsity.
My implementation of the PLCA assumptions isn't quite traditional, because I think in PLCA the spectrogram is assumed to be a sample from a multinomial (which implies it's quantised). I felt it would be a bit nicer to assume the spectrogram is itself a multinomial, sampled from a Dirichlet. There's little difference in practice.
I'm quite naive about Islam, so it's hard to get a clear idea of "normal" Islam underneath the headlines about the tiny proportion of violent extremists. Part of the Charlie Hebdo thing was the question about whether it's OK to depict the prophet. So just for reference I found this quote from Tariq Ali in the LRB helpful:
"On the question of images there has always been a debate within Islam. The Quran itself contains warnings against the worship of idols and graven images, but this is taken straight from the Abrahamic tradition and the Old Testament. It’s a stricture on forms of worship. After all, images of the prophet were embossed on early Muslim coins to replace Byzantine and Persian potentates. A number of paintings by Muslim artists in the late medieval period depict the prophet with loving care. The Shia tradition has always ignored the supposed ban on images and portraits of Shia imams have never been forbidden. All the different schools of Sunni jurisprudence don’t agree on the question. It has only become a big issue since Saudi money pushed Wahhabi clerics onto the world stage to fight communism during the Cold War (with the total backing of Washington). Wahhabi literalism misinterprets the Quran and its hostility to images led the Saudi government to destroy the graves in Mecca of the prophet, his companions and his wives. There were no protests except by architects and historians who denounced the vandalism. One can only imagine the response in the world of Islam had the destruction of the graves been carried out, deliberately or accidentally, by a Western power."
Just finished reading Thomas Piketty's now-famous book Capital in the Twenty-First Century. It's a big book, takes a while, but it's thoroughly worth it. It's admirably data-driven, yet clear and readable.
One thing it gives you is a lot of tips about whether the future will be the same as the past. Will inflation, growth, inequality be similar in the next 50 years as in the past 50 years? There are some perennial factors, and some things that are actually blips (caused e.g. by the World Wars) when considered on a timescale of centuries - and many of these are not quite as I had expected. Plenty of interesting titbits about, for example, how the amount of wealth we inherit is or isn't changing as our average lifespan gets longer, and how much "gift-giving" has grown in recent years as an "alternative" to inheritance.
And the readability is enhanced with details from history and literature, such as the way authors such as Jane Austen reflect the financial certainties of their time in their prose.
(It's worth mentioning that the Financial Times briefly smudged the book's reputation by alleging some of the data was wrong. (See here for example.) However, as The Economist noted, "the analysis does not seem to support many of the allegations made by the FT, or the conclusion that the book's argument is wrong." The FT later awarded Piketty's book their business book of the year, perhaps sensing which way the wind was blowing.)
I agree with the LRB's review of the book that "nothing about the book is more impressive than the range and richness of its statistical information. [The book] both insists on the importance of data and, at least where modern societies are concerned, highlights the uncertainties involved in its collection." (Note: the LRB also takes issue with some of Piketty's interpretations - interesting review.)
The LRB review also points out that Piketty's proposed mechanism for fixing some of the problems of modern markets and global captialism - namely, a global progressive tax on capital - may be a nice theory to consider but it's so unrealistic as to be unhelpful. Piketty claims (p515) that even though it's utopian, it's worth considering, maybe even working towards. But to me it seems obviously to neglect so many extremely powerful problems. Of course the richest people have the most political power, and will fight to prevent such taxes being adopted (or if they are adopted, to build a new tax haven state on an oil-rig somewhere). Maybe this is just a practical problem, to be solved by politics. But the tax would require all forms of wealth, owned by every person on and off the planet, to be enumerated. If not, the rich and their financial engineers would transfer their assets into un-enumerated assets. This reminds me of the "information asymmetry" critique of neo-classical economics: many market theories assume that all market participants have perfect information, and this unrealistic assumption is required to prove those markets' effectiveness. Similarly, the effectiveness of the global capital tax in balancing out inequality rests really quite heavily on the idea of some tax agencies somewhere having essentially perfect knowledge. Unfortunately (and as Piketty notes) modern financial engineering means that many taxes, even progressive taxes, become a bit regressive when everyone is subject to them except for the super-rich.
Piketty also says (p519) that the main benefit of the wealth tax (charged at low annual rates, nothing too scary) is "more in the nature of a compulsory reporting law than a true tax" - in a sense, he's less interested in taxing wealth than encouraging transparency in wealth ownership. This again is a bit utopian, since of course people will be motivated to avoid some things being reported, but not so problematic, since the benefits of transparency don't require 100% transparency. And it chimes well with Piketty's insistence that it's not financial rules that can fix the world, but publicly-available information and democratic debate combined with the rule of law. Piketty points out (p570) that most businesses don't publish enough financial details for us to work out how the wealth is divided between profits and wages. If they were required to, that would empower workers. As well as economists ;)
This is either a spooky coincidence, or a really neat connection I hadn't known:
For decades, Noam Chomsky and colleagues have famously been developing and advocating a "minimalist" idea about the machinery our brain uses to process language. There's a nice statement of it here in this 2014 paper. They propose that not much machinery is needed, and one of the key components is a "merge" operation that the brain uses in composing and decomposing grammatical structures. (Figure 1 shows it in action.)
Then yesterday I was reading this introduction to embeddings in deep neural networks and NLP, and I read the following:
"Models like [...] are powerful, but they have an unfortunate limitation: they can only have a fixed number of inputs. We can overcome this by adding an association module, A, which will take two word or phrase representations and merge them.
(From Bottou (2011))
"By merging sequences of words, A takes us from representing words to representing phrases or even representing whole sentences! And because we can merge together different numbers of words, we don’t have to have a fixed number of inputs."
This is a description of something called a "recursive neural network" (NOT a "recurrent neural network"). But look: the module "A" seems to do what the minimalists' "merge" operation does. The blogger quoted above even called it a "merge" operation...
As far as I can tell, the inventors of recursive neural networks were motivated by technical considerations - e.g. how to handle sentences of varying lengths - and not by the minimalist linguists. But it looks a little bit like they've created an artificial neural network embodiment of the minimalist programme! I'm not an NLP person, nor a linguist, however: surely I'm not the first to notice this connection? It would be a really neat convergence if it was indeed unconscious. Does this mean we can now test some Chomskian ideas (such as their explanation of word displacement) by implementing them in software?
UPDATE: After chatting with my QMUL colleague Matt Purver - he actually is a computational linguistics expert, unlike me - I should add that there's a little bit less to this analogy than I initially thought. The most obvious disjunction is that the ReNN model performs language analysis in a left-to-right (or right-to-left) fashion, whereas Chomskyan minimialists do not: one thing they preserve from "traditional" grammar is the varying nested constructions of linguistic trees, nothing like as neat in general as the "sat on the mat" example above.
The ReNN model also doesn't really give you anything about long-range dependencies such as the way questions are often constructed with a kind of implicit "move" of a word from one part of the tree to another.
Matt and many other linguists have also told me it's problematic to consider a model where words and sentences are both represented in the same conceptual space. For example, a complete utterance usually implies some practical consequence in the real world, whereas its individual components do not. I recognise that there are differences, but personally I haven't heard any killer argument that they shouldn't exist in the same underlying space-like representation. (After all, many utterances consist of single words; many utterances are partial fragments; many utterances lead to consequences before the speaker has finished speaking.)
I do still believe there's an interesting analogy here. I definitely can't claim that any current ReNN model is an implementation of the Strong Minimalist Programme, but it'd be interesting to see the analogy pushed further, see where it breaks and how it can be improved.
It's always good to have recipes for those packs of cooked beetroot. So let's have a nice simple soup. Serves 4 to 5 people, takes about half an hour:
On a medium heat, heat up a blob of marge in a deep saucepan with a lid. Roughly slice the onion and add it. Then add the cumin seed and stir. Slice the garlic and add that. Add salt and pepper. Let that all fry gently to soften, for about 5 minutes.
Roughly chop the tomatoes and pile them on top. Boil the kettle and add enough hot water so that it only-just-about covers the things in the pan (maybe 1/2 a cup). Stir, then put the pan lid on, turn the heat down to low, and let it bubble gently for 15 minutes.
Cut the beetroot roughly into chunks, add it to the pan and stir. Take the pan off the heat. Let everything cool for a minute, then carefully ladle it all into a big blender. (I say carefully because you still want to be careful about beetroot stains!) Whizz it all up, briefly so that there are no pieces left but it's still kinda thick. Return it to the pan.
Warm it up again, adding the milk at the end - not too much, just enough to slacken it and give it a touch of creaminess.
Serve with bread and butter.