There are two versions of mathematics. The first is the mathematics of schooling, a collection of closed problems and hard truths to be learned for exams. We’ve all experienced it, few of us have enjoyed or excelled at it. The second version is a more open, beautiful and empowering representation of the subject, often the focus of my writing.
Fast-forward twenty years, and the machines have risen further. Google DeepMind’s AlphaGo sent shockwaves through the scientific community by defeating world Go champion Lee Sedol. The game of Go is characterised by its openness; it cannot be tamed by the brute-force search algorithms of Deep Blue. Instead, AlphaGo called on advanced Machine Learning techniques such as Deep Learning and Neural Networks. The names alone presume that these machines think in more human-like ways. Such presumptions are far from justified. In a brilliant critique of Deep Learning, Francois Chollet writes:
“The only real success of deep learning so far has been the ability to map space X to space Y using a continuous geometric transform, given large amounts of human-annotated data. Doing this well is a game-changer for essentially every industry, but it is still a very long way from human-level AI.”
So what would ‘human-level AI’ look like? He goes on:
“The ability to handle hypotheticals, to expand our mental model space far beyond what we can experience directly, in a word, to perform abstraction andreasoning, is arguably the defining characteristic of human cognition.This stands in sharp contrast with what deep nets do…the mapping from inputs to outputs performed by deep nets quickly stops making sense if new inputs differ even slightly from what they saw at training time.”
There is a tendency to confuse performance with methods. Just because a machine can win at Go or Chess, it does not mean they play the game as humans do. We have too much reverence for black-box algorithms.
The parallels with education are striking. Those fundamental skills of abstraction and reasoning are often marginalised in the curriculum, whereas the brute-force memorisation of facts and procedures reign supreme.Students are trained to perform mathematical operations, to swallow the black-box and to act as paltry oracles who can churn out answers without a second thought. This is not the same as doing maths, because to do maths is to question, to explore, to reason. Maths is the most open of domains and can never be reduced to algorithmic form.
The quest for Chess machines was well intended, but failed in ambition due to the pressures of performance. So it goes with much of school mathematics, which is underpinned by performance-based assessment. The goals of assessment — to measure students’ thinking and provide feedback — are laudable. The commoditisation of high-stakes testing has put paid to those goals, reducing most of education to a performance act. Just as IBM betrayed science for the sake of winning, education has betrayed learning for the sake of measurement.
I was once called an ‘exam machine’ by my undergraduate tutor. He meant it as a compliment and I certainly took it as one. But to pass exams does not a mathematician make. Exams are bounded by time, changing the fundamental nature of problem solving. Just as Bullet Chess deprives humans of their intuitions, exams are not an appropriate format for capturing our inner mathematicians. Educators must rise above the machine-like tendency to focus exclusively on outcomes.
At a time when IBM’s latest showpiece Watson and other digital innovations are sinking their claws into Education, we must demand emphasis on deeper thinking. Our track record with artificial intelligence exposes the things value as humans; performance over cognition. The same is true for how we have approached education.
If education is to develop students into productive and engaged citizens, then educators must flip the narrative. Method is everything.
Originally posted on Medium.