Many businesses will scramble to incorporate AI into their enterprise. The majority of there companies will suffer remarkable if not taken seriously or with caution.
AI is a transformative series of tools that can accelerate productivity, drive insight, and open up unexplored revenue streams. It’s poised to revolutionize the way we do business and everyone in a leadership role should be thinking about it.
Few companies are equipped to do semi-properly
There’s a common misconception that rebranding as an AI company is as simple as having data, infrastructure, and off-the-shelf data and analytics. The reality is that AI is complex, high-risk, expensive, and often requires significant business transformation. Most importantly, though, it demands an ultra-specialized talent pool that, according to the latest reports, currently stands at only 22,000 PhD-level experts worldwide — a remarkably small pool.
The biggest monster companies globally have recruited the majority with the rest to follow. Talent is given higher salaries than IT Directors of midsize companies or VPs in the Fortune 50. It’s simple why.
This will change the way we do business and will be the next thing. ’Big Things’, have been named, one could.to mind by Bill Gates, ”The Internet”. The 1999-2000 tech bubble doesn’t even qualify. More like the industrial revolution!
I suppose you can say it’s more open source right now. Currently, this makes recruiting, retaining, and keeping talent smiling, the field’s most pressing challenge.
Human Resource Professionals will change their education to locate and recruit academics with math & business alike.
So, when the Royal Bank of Canada (RBC) needed info three years ago to grow their AI capabilities, they heard what the test of the tech/business sector doesn’t seem to understand or grasp.
AI, is not like a new technology. When new software is rolled out or a new operating system, it’s dealt with, how painful it is, by the existing IT Network Infrastructure team.
AI requires almost a new all way of doing business. It’s a true transformation, not an addition or expansion of your business . New hires, a new set of governing apps & in house rules. AI is not a weekend cliff note all night study session to pass the certification Monday morning.
AI requires critical thinkers at the core. Detail oriented is an understatement and a new term, that expands on details exponentially is worthy of discussing. Expertise on AI is as deep as it gets into mathematics and data domains. Basic tasks are tedious, to say the least with experience, without any, trouble.
Machine learning in a lab, does, will, and always will be daunting with as many mistakes and success in one day. When you make these mistakes in machine learning space when applied to real time industry, someone’s life is on the line. Real life and death mistakes…
Here’s a textbook example of how easily these mistakes can occur. In 1973, the University of California at Berkeley compiled their graduate school admissions figures and discovered what appeared to be a significant bias against women applicants. The numbers were right there on the page: 44% of male applicants were admitted to graduate programs, versus 35% of female applicants.
Fearing a lawsuit, school officials shipped the data to their statistics department for a closer look. A team led by Peter Bickel, now the school’s professor emeritus of statistics, was able to decode the figures by parsing individual departments. When analyzed this way, the data didn’t provide evidence of bias; the issue was that women were applying to harder, more competitive programs with lower admission rates than their male counterparts. In fact, women had slightly higher admission rates than men per department. (This doesn’t mean there was no gender bias at play; it simply means the evidence that was being used to allege that bias – lower admissions rates for women – was not itself an indication of bias.)
Researchers will be familiar with this phenomenon, known as Simpson’s paradox. Machine learning challenges have significantly increased in complexity since then and it takes years of training and experience to develop a well-honed intuition that can sniff these problems out. In the case of Berkeley, the administration had access to an in-house team of top-flight statisticians. But it’s easy to see how inexperienced analysis could have tied the university up in a costly, lengthy legal battle. Instead, the university emerged with a more nuanced understanding of its admissions process.
In a knowledge-based economy, research becomes the means of production. This recognition should put an end to any misconception that as an AI-enabled business you can “get away” with not conducting in-house research. What leaders tend to miss here is that the scientific progress we’ve made in AI does not automatically render the technology ready for any environment. Each business carries its own unique challenges and requirements, from proprietary data types to operational constraints and compliance requirements, which may require additional customization and scientific progress.
This makes AI an extremely high-risk, high-return pursuit. To pursue research may, at this moment, seem like a novel and bold act. But it should be the norm. There is a vast competitive advantage that comes from owning these solutions for your industry. The companies that invest in research that adapts machine learning to their industry will generate extremely valuable intellectual property (IP).
One way to mitigate the risk of this pursuit is to pair fundamental research (pure science) and applied research practices together. The scientific pursuit is by definition open-ended: you can go on forever, pushing boundaries and conquering knowledge. (This is why universities will never go out of business.) Applied research, on the other hand, is designed to solve specific real-world problems. What applied researchers bring to the table is knowing when to stop researching and to focus on delivering a solution. Each practice serves to influence the other. It’s a simultaneous push forward that is less likely to end up with no payoff.
For instance, one of the areas we’re focused on at Borealis AI (the R&D arm of RBC) is natural language processing (NLP), the field of AI that can understand language. So far, NLP has proved most powerful for parsing and analyzing bodies of text in order to extract meaningful patterns. Our particular interest in this type of machine learning involves training NLP on news datasets to predict how global events can affect the trajectories of companies. The ultimate goal is to build software that can direct financial analysts in real-time toward relevant information within their respective industries.
It’s important to note that the state-of-the-art in machine learning has not yet reached the level where it can solve every aspect of this problem. NLP algorithms perform best in constrained environments, such as question and answer systems, where a user can ask a computer questions from a finite list of possible queries. Since the computer knows what to anticipate in language form, the program can respond accordingly.
But when the goal is to understand something as dynamic as news and apply that information to the relationship between companies and world events, it requires the ability to contextualize, then track the evolution of very complex and time-dependent entities. This is where the marriage between fundamental and applied research comes into play. In our case, fundamental research aims to advance NLP to a place where it can independently perform high-level language-based reasoning and grasp complex relationships at the same level as humans do. Our applied researchers then ensure these solutions can become immediately applicable to financial services. This is how we build products while pushing the boundaries of science.
The last step to building an AI practice is to create the right environment. The world is an AI researcher’s proverbial oyster right now. In an uncertain economy, they’re among the rare few whose opportunities continue to become more fruitful and multiply. Offering potential talent a dynamic, comfortable, and unique workspace is a good start. You also need to be able to offer compelling datasets and interesting problems to work on. Computational power and a strong team to provide research mentorship are also required. But the ability to pursue curiosity-driven research is the real draw.
When you hire from academia, you’re inviting a group of people into your organization who come from a very specific culture. They share values that are built on both the ethos of solving big, meaningful problems and having the ability to publish the results of their efforts. Researchers take pride in the contributions they make, so these factors must be in place. This translates into reproducing some of the working conditions they’ve brought from academia while allowing the transparency of collaboration and open publication that serves to advance their community as a whole. Businesses working in closed environments need to reconsider that approach. If you are operating in this arena, it is up to you to prove your credentials and not the other way around.
Operating a business at the moment of this technological shift is a rare opportunity to seize upon an economic turning point. While we can’t yet predict how it will re-shape the market, the prevalence with which AI is already embedded into our core technologies favors early adoption.
Unlike the last industrial revolution, however, investing in big machinery won’t cut it. To truly have impact and remain relevant in the market, it’s up to executive leaders to build the bridge between research and commercialization. Only in this collaborative vein will AI’s true impact flourish.