IOTA
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IOTA is a distributed ledger technology designed for the Internet of Things. It uses a structure called the Tangle instead of a traditional blockchain.
Launched in 2015, IOTA aims to enable feeless machine-to-machine transactions at scale.
In simple terms:
IOTA is built for machines to send data and value to each other.
Key Features
Here are the main features that make IOTA stand out:
Tangle architecture – DAG-based ledger, not a blockchain
Feeless transactions – No transaction fees
IoT focus – Designed for machine-to-machine payments
Scalable design – Improves with network activity
a. Technology / Architecture
IOTA uses a directed acyclic graph called the Tangle instead of a traditional blockchain. This structure enables feeless transactions and high scalability. It is designed for machine-to-machine communication.
b. How Users Interact With It
Users send IOTA tokens without transaction fees. Developers build applications for IoT and data integrity use cases. Transactions become more efficient as network activity grows.
c. Core System / Model
DAG-based network model – Feeless and scalable data transactions.
Who is Project for?
• IoT developers
• Institutions exploring machine-to-machine payments
• Long-term infrastructure users
• Research-focused blockchain users
Comparison with Similar Project
• Ethereum vs IOTA – Ethereum uses blockchain, while IOTA uses DAG architecture.
• Nano vs IOTA – Both are fee-less, but IOTA focuses on IoT integrations.
How to use the Project?
• Step 1 – Create an IOTA wallet
• Step 2 – Receive IOTA tokens
• Step 3 – Send value or interact with IOTA tools
• Step 4 – Use only official wallets and software
Summary
IOTA is a distributed ledger designed for IoT and machine-to-machine transactions. It uses a DAG-based structure instead of traditional blocks. It matters because it enables feeless microtransactions. It benefits IoT developers and enterprise use cases.
Safety Tips
• Use official wallets and node software
• Verify network upgrades before transacting
• Avoid unofficial staking or yield offers
• Understand DAG-based transaction behavior
• Secure seeds and credentials offline