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Main Authors: Strohmeyer, Nicholas, Vishwanath, Sriram, Fridovich-Keil, David
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2410.21446
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author Strohmeyer, Nicholas
Vishwanath, Sriram
Fridovich-Keil, David
author_facet Strohmeyer, Nicholas
Vishwanath, Sriram
Fridovich-Keil, David
contents Stablecoins are a class of cryptocurrencies which aim at providing consistency and predictability, typically by pegging the token's value to that of a real world asset. Designing resilient decentralized stablecoins is a challenge, and prominent stablecoins today either (i) give up on decentralization, or (ii) rely on user-owned cryptocurrencies as collateral, exposing the token to exogenous price fluctuations. In this latter category, it is increasingly common to employ algorithmic mechanisms to automate risk management, helping maintain the peg. One example of this is Reflexer's RAI, which adapts its system-internal exchange rate (redemption price) to secondary market conditions according to a proportional control law. In this paper, we take this idea of active management a step further, and introduce a new kind of control scheme based on a Stackelberg game model between the token protocol and its users. By doing so, we show that (i) we can mitigate adverse depeg events that inevitably arise in a fixed-redemption scheme such as MakerDao's DAI and (ii) generally outperform a simpler, adaptive-redemption scheme such as RAI in the task of targeting a desired market price. We demonstrate these results through extensive simulations over a range of market conditions.
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publishDate 2024
record_format arxiv
spellingShingle Improving DeFi Mechanisms with Dynamic Games and Optimal Control: A Case Study in Stablecoins
Strohmeyer, Nicholas
Vishwanath, Sriram
Fridovich-Keil, David
Computer Science and Game Theory
Multiagent Systems
Stablecoins are a class of cryptocurrencies which aim at providing consistency and predictability, typically by pegging the token's value to that of a real world asset. Designing resilient decentralized stablecoins is a challenge, and prominent stablecoins today either (i) give up on decentralization, or (ii) rely on user-owned cryptocurrencies as collateral, exposing the token to exogenous price fluctuations. In this latter category, it is increasingly common to employ algorithmic mechanisms to automate risk management, helping maintain the peg. One example of this is Reflexer's RAI, which adapts its system-internal exchange rate (redemption price) to secondary market conditions according to a proportional control law. In this paper, we take this idea of active management a step further, and introduce a new kind of control scheme based on a Stackelberg game model between the token protocol and its users. By doing so, we show that (i) we can mitigate adverse depeg events that inevitably arise in a fixed-redemption scheme such as MakerDao's DAI and (ii) generally outperform a simpler, adaptive-redemption scheme such as RAI in the task of targeting a desired market price. We demonstrate these results through extensive simulations over a range of market conditions.
title Improving DeFi Mechanisms with Dynamic Games and Optimal Control: A Case Study in Stablecoins
topic Computer Science and Game Theory
Multiagent Systems
url https://arxiv.org/abs/2410.21446