The Good Tech Companies - Educational Byte: Electronic Money vs. Cryptocurrency
Episode Date: September 19, 2024This story was originally published on HackerNoon at: https://hackernoon.com/educational-byte-electronic-money-vs-cryptocurrency. We need to have this in mind for the sa...ke of our financial privacy and autonomy: electronic money isn’t the same as cryptocurrencies. Check more stories related to web3 at: https://hackernoon.com/c/web3. You can also check exclusive content about #digital-money, #electronic-money-institution, #digital-asset, #cryptocurrency, #ecash, #obyte, #good-company, #hackernoon-top-story, and more. This story was written by: @obyte. Learn more about this writer by checking @obyte's about page, and for more stories, please visit hackernoon.com. Electronic money or e-money refers to digital forms of currency used for online transactions and stored in electronic devices or systems, such as bank accounts, computers, or digital wallets. The category encompasses various forms, including cryptocurrencies, transfers with digital fiat (national) currencies, Central Bank Digital Currencies, and e- money services. An important factor to distinguish among these types is the centralization (or not) of these systems.
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Educational Byte. Electronic money versus cryptocurrency, by Obite.
Everything is digital these days, and that, of course, includes our money.
It's less and less typical worldwide to pay with physical cash or coins,
instead preferring some kind of virtual transaction.
It's just more practical, even safer if we think about physical assaults.
On the other hand, not all electronic money works the same or offers the same features.
We need to have this in mind for the sake of our financial privacy and autonomy.
Electronic money isn't the same as cryptocurrencies. Instead, we can say that cryptos are barely a
type of electronic money, which is more of a category than a single thing.
Electronic money or e-money refers to digital forms of currency used for online transactions and stored in electronic devices or systems, such as bank accounts, computers, or digital wallets.
The category encompasses various forms, including cryptocurrencies, transfers with digital fiat,
national currencies, central bank digital currencies, CBDCs,
and e-money services, each with different underlying technologies, issuers, regulations,
and use cases. An important factor to distinguish among these types is the centralization,
or not, of these systems. This way, the e-money can be centralized, like fiat currencies and CBDCs, where a central authority,
e.g. a government or bank, controls issuance and regulation, or decentralized, like cryptocurrencies,
where a distributed network manages transactions and governance without central oversight.
A bit of history. David Chom, a renowned cryptographer and cypherpunk,
is considered the inventor of electronic cash.
In 1983, he published the paper, Blind Signatures for Untraceable Payments,
which would later be used to build the first-ever e-money system available for public use,
e-cash. The company DigiCash handled this type of anonymous electronic money until its bankruptcy in 1998, but that would only be the beginning. Other exponents would join over the years.
From 1996 to 2009, e-gold, a gold-based digital currency, amassed millions of users before being
shut down by the US government. By 1997, Coca-Cola introduced mobile payments for vending machines,
and PayPal began offering its USD-based service in 1998. All of the above were fully
dependent on banks and governments, though. Money still came from the same ultimate source,
a national central bank. The landscape changed significantly with the advent of Bitcoin in 2009,
which introduced decentralized digital currencies. These cryptocurrencies are distinct in their
resistance to government regulation due to their lack of a central controlling entity. In other words, there are
no companies or closed groups behind their control, but only a global network of computers controlled
by theer owners. This setup ensures that no single entity has control over the currency,
making it more resistant to censorship and manipulation. Benefits of decentralization
Since traditional
currencies are issued and regulated by a government, they play by the rules of that
government at every step, no matter if they're physical or digital. Systems like PayPal or Venmo,
and of course, banks and digital wallets that work with a certain national currency, USD,
EUR, etc., are obligated to follow a whole set of rules and limitations,
and are free to add their own. Real privacy and control for users are almost non-existent this
way. One major advantage of cryptocurrencies over traditional fiat-y money is, indeed,
the level of privacy and control they offer to users. Transactions can be made pseudonymously,
providing greater privacy compared to traditional banking systems, where personal information is often required and tracked.
Additionally, users have greater or full, depending on the underlying technology,
see below, control over their funds, as they hold private keys to their digital wallets,
unlike fiat money which is stored and controlled by corporations that can freeze it or restrict
the user's freedom to use their money. Cryptocurrencies also offer flexibility
in terms of accessibility and usage. They can be sent and received globally without the need for
intermediaries, often with lower fees and faster transaction times compared to traditional
cross-border payments. This makes them particularly useful for people in regions with limited access
to banking services or for those who value independence from traditional financial systems.
More autonomy, less censorship.
While cryptocurrencies are designed to be decentralized, they can still be susceptible
to manipulation or censorship, especially in networks where there are a middleman before
a final transaction approval.
Miners and validators, for instance, could potentially collude to influence
the network, such as blocking certain transactions or favoring others, thus undermining the system's
integrity. Obite addresses these concerns by using a mineralist DAG-directed acyclic graph
structure, which eliminates the need for traditional miners or validators. In this system,
transactions are both created and added to the DAG by users,
referencing other transactions in a web-like network, and preventing any single group from
gaining enough power to censor transactions. This design enhances user autonomy and eliminates the
risk of censorship, as there are no middlemen who can manipulate the transaction process.
If you have your Obite private keys, no one can limit, freeze, or
manipulate your funds, and you won't depend on the success or failure of any institution.
The future is decentralized, and Obite is already there.
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