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The Future of Finance

Name: The Future of Finance
Author: Henri Arslanian, Fabrice Fischer

The Impact of FinTech, AI, and Crypto on Financial Services

Henri Arslanian, Fabrice Fischer

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eBook - ePub

The Future of Finance

The Impact of FinTech, AI, and Crypto on Financial Services

Henri Arslanian, Fabrice Fischer

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This book, written jointly by an engineer and artificialintelligence expert along with a lawyer and banker, is a glimpse on what the future of the financial serviceswill look like and the impact it will have on society.

The first half of the book provides a detailed yet easyto understand educational and technical overviewof FinTech, artificial intelligence and cryptocurrenciesincluding the existing industry pain points and thenew technological enablers.

The second half provides a practical, concise andengaging overview of their latest trends and their impacton the future of the financial services industryincluding numerous use cases and practical examples.

The book is a must read for any professional currentlyworking in finance, any student studying the topicor anyone curious on how the future of finance willlook like.

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Informations

Éditeur

Palgrave Macmillan

Année

2019

ISBN

9783030145330

Sujet

Business

Sous-sujet

Finance

Part I

The Fundamentals of Fintech, Crypto, and AI

Financial services and the technological context in which it operates are changing rapidly, so rapidly that it can be difficult to track the emergence of new business models, the entry of new competitors, and applications of new technologies to the business of financial services. In this section, we will seek to provide a foundational understanding of the most important forces currently transforming the operational structure, competitive dynamics, and regulatory treatment of the financial system.

The content that follows is divided into four subsections. First, we provide a high-level survey of the changing technological landscape, considering the impact of exponential improvements in computing power, storage, and connectivity on the dynamics of the business sector. From there, we will explore the fundamentals of fintech, considering the landscape of new fintech competitors, the response of incumbent financial institutions, and the potential for entry by large technology companies into the financial ecosystem. In our third subsection, we will dive into the world of crypto-assets, exploring the workings, history, and proliferation of these new instruments and establishing a taxonomy for organizing their many variants. Finally, in our fourth subsection, we will explore the emerging technology of artificial intelligence, first providing a high-level overview of its definition and workings, before exploring the ways this technology is being applied to within the financial ecosystem.

The Fundamentals of a Rapidly Changing Technological Landscape

To understand how new technologies and their applications are changing the future of financial services, it is imperative that we understand the foundations of how technology itself is evolving. In the following two chapters, we will first explore the relationship between the exponential increase of computational power, new networks of connectivity, and the rise of the data economy before considering the advent of new human-to-machine interfaces and their implications for our interactions with digital technologies. This background will help set the scene for this book and help us better understand the changes that will affect the financial services industry in the future.

H. Arslanian, F. FischerThe Future of Financehttps://doi.org/10.1007/978-3-030-14533-0_1

Begin Abstract

1. The Digital Triumvirate of Computation, Data, and Connectivity

Henri Arslanian¹ and Fabrice Fischer²

(1)

University of Hong Kong, Hong Kong, Hong Kong

(2)

Blu ltd, Hong Kong, Hong Kong

Henri Arslanian (Corresponding author)

Fabrice Fischer

Email: [email protected]

End Abstract

The past 50 years have seen rapid technological change that has fundamentally shifted the boundaries of human possibility, enabling radical improvements in productivity, new scientific advances, and the advent of both new communities and new divisions within society. These changes have forced a rapid transformation of both the operational structure and the core tenets of competitiveness for every industry, creating a host of new challenges and opportunities for businesses, their customers, and the policymakers responsible for governing them.

The following chapter will consider the rapid increase in the capacity and accessibility of computational power, data, and networks of digital connectivity, as well as the implications of the confluence of these three forces.

1.1 Increasing Computational Power

In 1965, Intel co-founder Gordon E. Moore made a radical prediction. He argued that the number of transistors in an integrated circuit would double every two years. These circuits are crucial to any electronic device; made of a network of transistors and other components, they perform the complex calculations that keep a device running and completing tasks. As the number of transistors on every integrated circuit goes up, computing power increases in step.

Moore’s prediction proved correct and forms the basis for what is now called Moore’s law in his honor. This increase in computational power has been the primary driver of the rapid advancement in technology that we have seen over the past 50 years. At the same time, the cost of computational power has fallen spectacularly: between 1980 and 2010, the number of transactions per second purchasable for a single US dollar has increased 10 millionfold.¹

The result is a world in which the average person has in their pocket a device whose computational power is millions of times more powerful than the combined computing power used by NASA to complete the Apollo 11 mission to the Moon.² In fact, it is the reason that almost every device used in your life today, from your toaster to your electric toothbrush, likely contains several microchips.

But Moore’s law cannot persist forever. There are fundamental physical limits to how small a transistor can be and we are already pushing those boundaries. For example, Intel’s advanced ‘Skylake’ transistor is only 100 atoms across. Pushing up against these boundaries increases both the cost and the complexity of the development of new chips, suggesting that sooner or later new approaches will need to be found if computational power is to continue increasing exponentially.³

One frontier of exploration that has captured the attention and imagination of many is an entirely different approach to computing called quantum computing that relies on insights from a complex branch of physics called quantum mechanics. A quantum computer would radically shift the boundaries of what a machine can do, potentially allowing us to encrypt data with near-perfect security as well as predict changes to complex systems such as the climate.⁴

Box 1.1 What Is Quantum Computing?

Experimentation in the field of quantum computing seeks to deliver new computational capabilities by harnessing the complex, and often counterintuitive world of properties of subatomic particles, through a branch of physics called ‘quantum mechanics’. These subatomic particles don’t behave in the same way as physical objects in our daily activities, which have well-defined positions and characteristics. Instead, subatomic particles exhibit a property called ‘super-position’ where they can effectively exist in multiple places at the same time.

This property turns out to be important for computing. Traditional computers, from the most basic calculator to the most powerful supercomputer, all perform calculations using something called ‘binary code’ where all data is encoded as a series of ones or zeros called bits. A quantum computer also uses ones and zeros, but through ‘super-position’, a quantum bit, or qubit, can in some sense be one and zero at the same time.⁵

If that doesn’t make any sense, don’t worry. Physicist Richard Feynman, who won a Nobel prize for his contributions to the field, once quipped that ‘nobody understands quantum mechanics’.⁶ What matters is that a quantum computer would enable us to quickly solve problems that are extremely difficult for conventional computing systems.

For example, take the classic challenge of the ‘traveling salesperson problem’ where a sales agent who needs to visit a dozen cities on a trip wishes to chart the most efficient route. Because of the enormous number of permutations of possible trips, this turns out to be an extremely difficult problem to solve for conventional computers and proves impossible to fully optimize at the level of a shipping company like FedEx. However, using a quantum computing system, such calculations could be completed much more quickly.⁷

A range of potential applications for quantum computing exists in financial services, most notably the optimizing of large investment portfolios and the identification of arbitrage opportunities. They may also be able to accelerate the process of deep learning in financial services and more broadly.⁸

However, these new...