CryptoURANUS Economics: RingCT: Cryptocurrency

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Monday, July 8, 2019

RingCT: Cryptocurrency


RingCT (Ring Confidential Transactions)



Ring Confidential Transactions, or RingCT, is an algorithm that allows the amount transacted to be concealed.

This Ring Confidential Transactions is Combined with a stealth address which is one of the most private way to move cryptocurrency today.

Monero is a privacy coin which utilizes the RingCT algorithm.






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Monero Ring Confidential Transactions (RingCT)

RingCT is based on the Confidential Transactions research you cited (combined with ring signatures)...

RingCT just like Confidential Transactions hides the amount of each transaction. Unlike Confidential Transactions, RingCT will also make the payments unlinkable.

Confidential Transactions include a cryptographic proof that the sum of the input amounts is the same as the sum of the output amounts, without revealing the actual numbers. You are still able trace which address sent and received BTC.

RingCT protects the privacy of more than just the transaction amounts. Monero transactions are already untraceable thanks to ring signatures and unlinkable thanks to stealth addresses. There are also plans to use I2P to protect IP address with the Kovri C++ router project.


Monero ring confidential transactions, also known as RingCT, is a privacy feature that was implemented into the Monero protocol.

With ring confidential transactions, the privacy transaction of users are improved, and the value of funds being transferred is obfuscated.

Prior to the implementation of ring confidential transactions, Monero required transaction amounts to be divided into denominations.

Example RingCT: if Bob wanted to initiate a transaction of 12.5 monero on the blockchain, this output would be denominated into 3 separate rings of: 2, 0.5 and 10. The advantage of this technique is that it ensured that there was always an ample amount of ring members that could be found on the network, since a ring signature could only ring together outputs that were of the same value.

The limitation of this technique is that, from the perspective of an outside party, they would be able to see the amounts that were being transacted. The implementation of the ring confidential transaction feature was specifically designed to tackle this issue.

Here is an example transaction on the Monero blockchain below:

Bob possesses 10 monero, and would liked to send 5 monero to Alice. Because an output on the Monero blockchain cannot be spent twice, Bob is required to spend the output in its entirety, and return the change to himself. Thus, Bob’s transaction would be the following: one input of 10 monero, and 2 outputs. One output that is 5 monero designated for Alice, and the other 5 monero that is sent back to Bob as change.

The objective of the ring confidential transaction privacy feature, in the transaction between Bob and Alice, is to allow only the participants of the transaction to see the amount of monero that is being transferred, and otherwise obfuscate this amount from outside parties. However, at the same time, it is also necessary that the network is able to confirm the validity of this transaction that has been initiated. In order to prove that the transaction between Bob and Alice is not fraudulent, the sum of the transaction’s input must equal the sum of its output. In this case, in the transaction between Bob and Alice, the input of 10 monero, must also equal the output of 10 monero.

Furthermore, as a result of the cryptographic properties of ring confidential transactions, Bob is required to commit to the amount of an output. Meaning that just enough information about the transaction is revealed, which allows the network to confirm the validity of the transaction. Another crucial element of ring confidential transactions is the utilization of range proofs. A range proof allows the Monero network to cryptographically prove that the amounts used in a transaction is greater than 0, and less than any given arbitrary number. Monero makes use of range proofs to prevent senders, for example Bob, from committing to transactions of a negative value, which allows the network to secure the supply of Monero in circulation.

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