248 lines
12 KiB
TeX
248 lines
12 KiB
TeX
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\chapter{Future Work}\label{chapter:future-work}
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We now discuss future work that builds upon the results presented so far.
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\subsection*{Standard Model}
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Our current instantiation of the Taler protocol relies heavily on hash
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functions. Since the result by Canetti and others \cite{canetti2004random}
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about the theoretical impossibility of securely instantiating protocols that
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rely on the random oracle assumption for their security, a vast amount of
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literature has been devoted to find instantiations of interesting protocols in
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the standard model \cite{koblitz2015random}. The Taler protocol syntax could
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likely be also instantiated securely in the standard model, based existing on
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blind signature schemes in the standard model. The trade-off however is that
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while removing the random oracle assumption, typically other less well known
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assumptions must be made.
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\subsection*{Post-Quantum security}
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The possibility of post-quantum computers breaking the security of established
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cryptographic primitives has lately received a lot of attention from
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cryptographers. While currently most schemes with post-quantum security are impractical,
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it might be worthwhile to further investigate their application to e-cash, based
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on existing work such as \cite{zhang2018new}.
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\subsection*{Applications to network incentives}
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Some peer-to-peer networking protocols (such as onion routing
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\cite{dingledine2004tor}) do not have inherent incentives and rely on
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volunteers to provide infrastructure. In future work, we want to look at
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adding incentives in the form of Taler payments to a peer-to-peer networking
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platform such as GNUnet.
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\subsection*{Smart(er) Contracts and Auctions}
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Contract terms in Taler are relatively limited. There are some interesting
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secure multiparty computations, such as privacy-preserving auctions
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\cite{brandt2006obtain} that could be offered by exchanges as a fixed smart
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contract. This would allow a full privacy-preserving auction platform, as
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current auction protocols only output the winner of a privacy-preserving
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auction but do not address the required anonymous payments.
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\subsection*{Backup and Sync}\label{sec:future-work-backup-sync}
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Synchronization of wallets between multiple devices is a useful feature, but a
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na\"ive implementation endangers privacy. A carefully designed protocol for
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backup and synchronization must make sure that the hosting service for the
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wallet's data cannot collaborate with the exchange and merchants to deanonymize
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users or transactions. Thus when spending coins for a payment, devices should
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not have to synchronously talk to their backup/sync provider. This creates the
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challenge of allocating the total available balance to individual devices in a
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way that fits the customer's spending pattern, and only require synchronous
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communication at fixed intervals or when really necessary to re-allocate coins.
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Another possible approach might be to use Private Information Retrieval (PIR)
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\cite{goldberg2007improving} to access backup and synchronization information.
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\subsection*{Machine-Verified Proofs}
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We currently model only a subset of the GNU Taler protocol formally, and proofs
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are handwritten and verified by humans. A tool such as CryptoVerif
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\cite{blanchet2007cryptoverif} can allow a higher coverage and computer-checked
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proofs, and would allow protocol changes to be validated in shorter time.
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\subsection*{Coin Restrictions / ``Taler for Children''}
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By designating certain denominations for different purposes, GNU Taler could be
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used to implement a very simple form of anonymous credentials
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\cite{paquin2011u,camenisch2004signature}, which then could be used to
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implement a Taler wallet specifically aimed at children, in order to teach them
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responsible and autonomous spending behavior, while granting them privacy and
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at the same time preventing them from making age-inappropriate purchases
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online, as the discretion of parents.
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%\subsection*{gnunet-blockchain / deployment of the full stack payment system}
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%=> no, talk more about integration with real banks, KYC
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%
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%\subsection*{P2P payments}
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%
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%\subsection*{NFC Wallet}
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%
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%\subsection*{large, scaleable deployment}
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%I.e. sharding, db replication, load balancer(s)
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%
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%\subsection*{Hardware security module for exchange}
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%
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%\subsection*{Bitcoin/Blockchain integration}
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%
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%\subsection*{UX study and improvements}
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%(including tracking/planning of spending)
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%
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%\subsection*{News Distribution}
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\chapter{Conclusion}\label{chapter:conclusion}
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% sources and inspirations
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% https://www.bis.org/publ/arpdf/ar2018e5.pdf
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% https://www.bis.org/publ/qtrpdf/r_qt1709f.pdf
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% http://andolfatto.blogspot.com/2015/02/fedcoin-on-desirability-of-government.html
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% mention eKrona/Riksbank
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% bessere ueberleitung
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% effizienz!
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% freie software / commons
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% scalability of blockchains
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% expand on some ideas such as naiveity of blockchains
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% 3 areas for currencies
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% einleitung: we introduced two systems that solve/address core problems for
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% banking (consensus, transactions, ...) "geld ist kein selbstzweck"
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% reason for having money is: ...
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% central banks are the only tool that we know that works
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% geld ist politisch, macht, verantwortung, gesellschaften aufbauen oder ruinieren
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% apolitical solution impossible
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This book presented GNU Taler, an efficient protocol for
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value-based electronic payment systems with focus on security and
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privacy. While we believe our approach to be socially and economically beneficial, a
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technological impact analysis is in order prior to adopting new
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systems that have broad economic and socio-political implications.
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Currencies serve three key functions in society:~\cite{mankiw2010macroeconomics}
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\begin{enumerate}
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\item As a unit for measurement of value,
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\item a medium of exchange, and
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\item a store of value.
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\end{enumerate}
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How do the various methods measure up to these requirements?
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\section{Cryptocurrencies vs. Central-Bank-Issued Currencies}
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\begin{figure}
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\centering
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\includegraphics[width=\textwidth]{diagrams/bitcoin-market-price.png}
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\caption[Historical market price of Bitcoin.]{Historical market price (in
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USD) of Bitcoin across major exchanges (Source:~\url{https://blockchain.com}).}
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\label{fig:volatility}
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\end{figure}
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Cryptocurrencies generally fail to achieve the required stability to serve as a
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reasonable unit of measurement (Figure~\ref{fig:volatility}). The volatility
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of cyptocurrencies is caused by a combination of a lack of institutions that
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could intervene to dampen fluctuations and a comparatively limited liquidity
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in the respective
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markets. The latter is exacerbated by the limited ability of decentralized
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cryptocurrencies to handle large transaction volumes, despite their extreme
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levels of resource consumption. As a result, the utility of decentralized
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cryptocurrencies is limited to highly speculative investments and to the
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facilitation of criminal transactions.
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With respect to privacy, completely decentralized cryptocurrencies
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provide either too much or too little anonymity. Transparent
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cryptocurrencies create the spectre of discriminatory pricing, while
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especially for privacy-enhanced cryptocurrencies the lack of
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regulation creates an attractive environment for fraud and criminal
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activity from tax evasion to financing of terrorism.
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These problems are easily addressed by combining the register (or
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ledger) with a central bank providing a regulatory framework and
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monetary policy, including anti-money-laundering and
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know-your-customer enforcement.
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\section{Electronic Payments}
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Day-to-day payments using registers are expensive and inconvenient.
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Using a register requires users to {\em identify} themselves to {\em
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authorize} transactions, and the use of register-based banking
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systems tends to be more expensive than the direct exchange of
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physical cash. However, with the ongoing digitalization of daily life
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where a significant number of transactions is realized over networks,
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some form of electronic payments remain inevitable.
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The current alternative to (centrally banked) electronic cash are a
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payment systems under full control of oligopoly companies such as
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Google, Apple, Facebook or Visa. The resulting oligopolies are
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anti-competitive. In addition to excessive fees, they sometimes even
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refuse to process payments with certain types of legal businesses,
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which then are often ruined due to lack of alternatives. Combining
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payment services with companies where the core business model is
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advertising is also particularly damaging for privacy. Finally, the
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sheer size of these companies creates systemic risks, just as their
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global scale creates challenges for regulation.
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As GNU Taler is free software, even without backing by a central bank,
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Taler would not suffer from these drawbacks arising from the use of
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proprietary technology.
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Furthermore, Taler-style electronic cash comes
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with some unique benefits:
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\begin{itemize}
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\item improved income transparency compared to cash and traditional
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Chaum-style e-cash,
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\item anonymity for payers,
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\item avoidance of enticement towards consumer debt --- especially
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compared to credit cards, and
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\item support of new business models and Internet security
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mechanisms which require (anonymous) micro-transactions.
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\end{itemize}
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Central banks are carefully considering what might be the right
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technology to implement an electronic version of their centrally
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banked currency, and with Taler we hope to address most of their concerns.
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Nevertheless, all electronic payment systems, including Taler even
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when backed by central-bank-issued currencies, come with their own
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inherent set of risks:~\cite{riksbank2017riksbank}
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\begin{itemize}
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\item increased risk of a bank run: in a banking crisis,
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as it is easier to withdraw large amounts of digital
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cash quickly --- even from remote locations;
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\item increased volatility due to foreign holdings that would
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not be as easily possible with physical cash;
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\item increased risk of theft and disruption: while physical
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cash can also be stolen (and likely with much less effort), it is
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difficult to transport in volume~\cite{force2015money}, the
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risk is increased with computers because attacks scale \cite{hammer2018billion}, and
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generally many small incidents are socially preferable over a
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tiny number of very large-scale incidents; and
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\item unavailability in crisis situations without electricity and Internet
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connectivity.
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\end{itemize}
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We believe that in the case of Taler, some of the risks mentioned
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above can be mitigated:
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\begin{itemize}
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\item Volatility due to foreign holdings and the resulting increased
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risk of bank runs can be reduced by putting limits on the amount of
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electronic coins that customers can withdraw. Limiting the
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validity periods of coins is another method that can help
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disincentivize the use of Taler as a value store.
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\item The use of open standards and reference implementations enables
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white-hat security research around GNU Taler, which together with
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good operational security procedures and the possibility of
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competing providers should reduce the risks from attacks.
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\item GNU Taler can co-exist with physical cash, and might even
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help revive the use of cash if it succeeds in reducing credit
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card use online thereby eliminating a key reason for people to
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have credit cards.
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\end{itemize}
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Unlike cryptocurrencies, Taler does not prescribe a solution for monetary
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policy or just taxation, as we believe these issues need to be subject to
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continuous political debate and cannot be ``solved'' by simplistic algorithms.
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What we offer to society is an open and free (as in free speech) system with
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mechanisms to audit merchants' income, instead of proprietary systems
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controlled by a few oligopoly companies.
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