The potential of blockchain as a decentralised form of record-keeping is without limit, from allowing greater user privacy & superior security to lower processing overheads and fewer errors, blockchain technology will allow for new applications to be developed. As with all things, despite the limitless potential, there are pros & cons:
- Transparent technology
- Improved accuracy by removing human involvement in verification
- Decentralisation makes it harder to tamper with
- Cost reductions by eliminating third-party verification
- Transactions are secure, private and efficient
- History of use in illicit activities
- Significant technology costs associated with mining bitcoin
- Low transactions per second
Transactions on the blockchain network are approved by a network of thousands or millions of computers. This removes almost all human involvement in the verification process, resulting in less human error and a more accurate record of information. Even if a computer on the network were to make a computational mistake, the error would only be made to one copy of the blockchain. In order for that error to spread to the rest of the blockchain, it would need to be made by at least 51% of the network’s computers—a near impossibility.
Typically, consumers pay a bank to verify a transaction, a notary to sign a document, or a minister to perform a marriage. Blockchain eliminates the need for third-party verification and, with it, their associated costs. Business owners incur a small fee whenever they accept payments using credit cards, for example, because banks have to process those transactions. Bitcoin, on the other hand, does not have a central authority and has virtually no transaction fees.
Blockchain does not store any of its information in a central location. Instead, the blockchain is copied and spread across a network of computers. Whenever a new block is added to the blockchain, every computer on the network updates its blockchain to reflect the change. By spreading that information across a network, rather than storing it in one central database, blockchain becomes more difficult to tamper with. If a copy of the blockchain fell into the hands of a hacker, only a single copy of the information, rather than the entire network, would be compromised.
Transactions placed through a central authority can take up to a few days to settle. If you attempt to deposit a check on Friday evening, for example, you may not actually see funds in your account until Monday morning. Whereas financial institutions operate during business hours, five days a week, blockchain is working 24 hours a day, seven days a week. Transactions can be completed in about ten minutes and can be considered secure after just a few hours. This is particularly useful for cross-border trades, which usually take much longer because of time-zone issues and the fact that all parties must confirm payment processing.
Many blockchain networks operate as public databases, meaning that anyone with an internet connection can view a list of the network’s transaction history. Although users can access details about transactions, they cannot access identifying information about the users making those transactions. It is a common misperception that blockchain networks like bitcoin are anonymous, when in fact they are only confidential.
That is, when a user makes public transactions, their unique code called a public key, is recorded on the blockchain, rather than their personal information. Although a person’s identity is still linked to their blockchain address, this prevents hackers from obtaining a user’s personal information, as can occur when a bank is hacked.
Once a transaction is recorded, its authenticity must be verified by the blockchain network. Thousands or even millions of computers on the blockchain rush to confirm that the details of the purchase are correct. After a computer has validated the transaction, it is added to the blockchain in the form of a block. Each block on the blockchain contains its own unique hash, along with the unique hash of the block before it. When the information on a block is edited in any way, that block’s hash code changes—however, the hash code on the block after it would not. This discrepancy makes it extremely difficult for information on the blockchain to be changed without notice.
Even though all personal information on the blockchain is kept private, the technology itself is almost always open source. That means that users on the blockchain network can modify the code as they see fit, so long as they have a majority of the network’s computational power backing them. Keeping data on the blockchain open source also makes tampering with data that much more difficult. With millions of computers on the blockchain network at any given time, for example, it is unlikely that anyone could make a change without being noticed.