Neuromorphic Computers
Neuromorphic computers are inspired by the way brains work. Today's neural network designs are based on an understanding of neuroscience from the 1960s. Half a century later, we finally have the computing horsepower needed to implement these archaic machine models. The next time you ask Google Assistant or Alexa to play some Beatles music, remember that the foundation of the AI you're using was designed at the time when the Stones and The Beatles were first vying to be top of the charts. Neuromorphic computers, also referred to as cognitive computers, are based on a much more recent understanding of how the brain operates. Nodes are hyperconnected, their connections can change over time (in the same way that the human brain exhibits plasticity), and there is no separation between memory and processing functions.
Major research projects—the Human Brain Project in the European Union and the BRAIN (Brain Research through Advanced Innovative Neurotechnologies) initiative in the United States—seek to advance our understanding of the human brain, mapping and understanding brain function. These efforts, and others like them, push the boundaries of our understanding and offer new frameworks for the design of future neuromorphic computers. New computer chips, inspired by neuromorphic insights, may accelerate AI functions, reduced power consumption for AI tasks, and enable exciting new capabilities.
Whether it's capsule networks, neuromorphic computing, or common sense and causal AI, there are plenty of avenues of research that should fuel future advances in AI in the coming decades.
Narrow, General, and Super Intelligence
All of today's AI is considered to be “narrow” AI. The holy grail of AI research is the development of “general” and “super” AIs. Let's quickly review these three categories.
Artificial Narrow Intelligence (ANI)
Artificial Narrow Intelligence (ANI), also known as weak AI or vertical AI, refers to any AI that solves problems or performs tasks with a level of intelligence equivalent to, or higher than, a human, but only within a narrowly defined domain. Every AI available today, and every AI described in this book, is an example of narrow AI. Narrow AI is only good at the task it was designed for and useless at others. A chess-playing AI can't filter the spam from your email, and your spam filter can't play chess.
Artificial General Intelligence (AGI)
Artificial General Intelligence (AGI), also known as strong AI, describes AIs with the equivalent intelligence of a human being in any area of human expertise that you might imagine. An AGI can perform any intellectual task that a human can. Researchers continue to chip away at the problem of creating an AGI but currently have no clear plan for how such a feat might be achieved. AGIs aren't created by bolting together enough ANIs. It doesn't work that way. Never say never, but AGI, if we achieve it, is likely several decades in the future.
Artificial Super Intelligence (ASI)
Artificial Super Intelligence (ASI) is where things get really exciting, or really scary, depending on your viewpoint. ASI defines an intelligence that surpasses the intellectual ability, knowledge, creativity, wisdom, and social skills of the very best human brains in almost every field. An ASI could be just 1% smarter or a million times smarter than the smartest human. In theory, an ASI machine that we build could design future, more powerful machines that operate in a way we aren't able to comprehend. Once ASI is achieved, rapid, runaway advances could follow. If that idea makes you uncomfortable, you're not alone. Exemplars of the high-tech and scientific world—including Elon Musk, Bill Gates, and Stephen Hawking—have all spoken out on the dangers of artificial super intelligence. It's hard not to think of the movie Terminator when you think about the professed dangers of AI becoming self-aware and designing better versions of itself. How engineers develop narrow AIs today may inform the design of super AIs in the future. This is why research and engineering focused on transparent and unbiased AIs is so vital.
Strategies to Get You Started
Artificial intelligence holds huge potential and will drive successive waves of innovation throughout every industrial sector. As your organization starts to build out a comprehensive, multiyear AI strategy, here are a few places to start your thinking.
Make Predictions about Customers, Operations, and Trends
Use AI's predictive capabilities to forecast demand, streamline operations, target marketing efforts, predict trends, and influence the design of future products. Energy companies use AI to forecast demand for electricity. Fashion designers use AI to suggest fall colors for a couple of years from now. Equipment makers use AI to predict when their machines will fail so they can schedule preventative maintenance. What could AI predict for your business?
See More, Understand More, Make Better Decisions
Future super sensors may improve the safety of autonomous vehicles, become “the next CT-scan” in medicine, or give us all a sixth and seventh sense. Super sensors will smooth business operations, revolutionize human interfaces, and transform the products and services of the future.
Every company should lead a strategic discussion around the possibilities super sensors present. Determine how your company can use super sensors to get eyes on your business, gain insight on operations in real time, and use those insights to make high-quality, data-driven business decisions. Inspired by Google Soli technology, consider how you could build super sensors into your products to improve the human–machine interface. How might you see your customers in new ways with super sensors? What other insights might super sensors reveal about your business?
Build a Comprehensive Digital Voice Strategy
Every business should have a digital voice strategy. Voice platforms offer customers a new way to interact with your brand, will complement customer support capabilities, and can be helpful for employees who use their hands to perform their work or don't work in traditional office settings.
First, determine the goals for voice platforms within your organization. Find areas where information delivered via voice interfaces improves worker efficiency or boosts their collaboration. Ask what conversational capabilities your brand should create for existing customers, and how voice might be used to attract new customers. Consider the role of interactive, talking online ads, e.g., “Click to ask me questions about our latest model!” Explore how digital voice agents can reduce support costs and open new sales channels.
Customers always want more choice. When brands give us more choice, they honor our desire to be recognized as individuals. Consumers expect to interact with brands through many channels: face-to-face, phone, web, mobile app, social media, virtual reality, interactive augmented reality objects, chatbots, voice agents, and more. Each brand will offer as many of these choices as makes sense for them. A voice interface is a new front door to your business, and voice agents are ambassadors of your company's brand. You must secure that front door the same way you secure your website. And you need to teach your ambassador to always put your best foot forward.
Businesses will need to train their chatbots to interact with a “tone” that is consistent with their brand voice. Marketing departments will need to define appropriate design parameters: