$HUDL
The Huddle01 Network Token (“HUDL”) is the native protocol token of the dRTC Network.
$HUDL
The Huddle01 Network Token (“HUDL”) is the native protocol token of the dRTC Network.
$HUDL
The Huddle01 Network Token (“HUDL”) is the native protocol token of the dRTC Network.
$HUDL
The Huddle01 Network Token (“HUDL”) is the native protocol token of the dRTC Network.
HUDL is the medium of exchange for all transactions on the dRTC network supplying Media Node rewards, staking, and one of the avenues for customers and end users to make payments. Monetary policies within the Huddle01 token economic system govern the minting, burning, distribution, and allocation of tokens to builders, investors, and the community.
HUDL is the medium of exchange for all transactions on the dRTC network supplying Media Node rewards, staking, and one of the avenues for customers and end users to make payments. Monetary policies within the Huddle01 token economic system govern the minting, burning, distribution, and allocation of tokens to builders, investors, and the community.
HUDL is the medium of exchange for all transactions on the dRTC network supplying Media Node rewards, staking, and one of the avenues for customers and end users to make payments. Monetary policies within the Huddle01 token economic system govern the minting, burning, distribution, and allocation of tokens to builders, investors, and the community.
HUDL is the medium of exchange for all transactions on the dRTC network supplying Media Node rewards, staking, and one of the avenues for customers and end users to make payments. Monetary policies within the Huddle01 token economic system govern the minting, burning, distribution, and allocation of tokens to builders, investors, and the community.
Value Capture
Value Capture
Value Capture
Value Capture
Revenue is generated through the purchase and consumption of Data Credits by Users interacting with dApps or products built on the dRTC network. These interactions may involve direct use of the network or integration via the Huddle01 SDK. The Burn Mechanism captures incoming value from demand for real-time data. We are currently designing and developing several secondary value capture mechanisms including staking, restaking, liquidity pooling, and a variety of primitives - both for the primary HUDL token, as well as incentivized testnet tokens.
Revenue is generated through the purchase and consumption of Data Credits by Users interacting with dApps or products built on the dRTC network. These interactions may involve direct use of the network or integration via the Huddle01 SDK. The Burn Mechanism captures incoming value from demand for real-time data. We are currently designing and developing several secondary value capture mechanisms including staking, restaking, liquidity pooling, and a variety of primitives - both for the primary HUDL token, as well as incentivized testnet tokens.
Revenue is generated through the purchase and consumption of Data Credits by Users interacting with dApps or products built on the dRTC network. These interactions may involve direct use of the network or integration via the Huddle01 SDK. The Burn Mechanism captures incoming value from demand for real-time data. We are currently designing and developing several secondary value capture mechanisms including staking, restaking, liquidity pooling, and a variety of primitives - both for the primary HUDL token, as well as incentivized testnet tokens.
Revenue is generated through the purchase and consumption of Data Credits by Users interacting with dApps or products built on the dRTC network. These interactions may involve direct use of the network or integration via the Huddle01 SDK. The Burn Mechanism captures incoming value from demand for real-time data. We are currently designing and developing several secondary value capture mechanisms including staking, restaking, liquidity pooling, and a variety of primitives - both for the primary HUDL token, as well as incentivized testnet tokens.
Minting Overview
Minting Overview
Minting Overview
Minting Overview
Dynamic Minting
In the dRTC network, token minting incentivises supplier participation. Unlike static minting models which define a fixed minting schedule before launching the economy, the dynamic minting model is adaptive and state-dependent such that the amount of tokens to be minted is determined by the growth in the supply network’s value. A dynamic minting model ensures that the token’s circulating supply is perpetually commensurate with the actual value generated by supply-side network activities.
Dynamic Minting
In the dRTC network, token minting incentivises supplier participation. Unlike static minting models which define a fixed minting schedule before launching the economy, the dynamic minting model is adaptive and state-dependent such that the amount of tokens to be minted is determined by the growth in the supply network’s value. A dynamic minting model ensures that the token’s circulating supply is perpetually commensurate with the actual value generated by supply-side network activities.
Dynamic Minting
In the dRTC network, token minting incentivises supplier participation. Unlike static minting models which define a fixed minting schedule before launching the economy, the dynamic minting model is adaptive and state-dependent such that the amount of tokens to be minted is determined by the growth in the supply network’s value. A dynamic minting model ensures that the token’s circulating supply is perpetually commensurate with the actual value generated by supply-side network activities.
Dynamic Minting
In the dRTC network, token minting incentivises supplier participation. Unlike static minting models which define a fixed minting schedule before launching the economy, the dynamic minting model is adaptive and state-dependent such that the amount of tokens to be minted is determined by the growth in the supply network’s value. A dynamic minting model ensures that the token’s circulating supply is perpetually commensurate with the actual value generated by supply-side network activities.
Dynamic Burning
A burning policy is employed so as to capture the value generated due to dRTC network demand and product usage.
Dynamic Burning
A burning policy is employed so as to capture the value generated due to dRTC network demand and product usage.
Dynamic Burning
A burning policy is employed so as to capture the value generated due to dRTC network demand and product usage.
Dynamic Burning
A burning policy is employed so as to capture the value generated due to dRTC network demand and product usage.
Mechanistically, it drives deflation of the HUDL token and increases its unit value in relation to the demand. Note that the inflationary dynamics still remain dominant, so the system overall remains inflationary.
Mechanistically, it drives deflation of the HUDL token and increases its unit value in relation to the demand. Note that the inflationary dynamics still remain dominant, so the system overall remains inflationary.
Mechanistically, it drives deflation of the HUDL token and increases its unit value in relation to the demand. Note that the inflationary dynamics still remain dominant, so the system overall remains inflationary.
Mechanistically, it drives deflation of the HUDL token and increases its unit value in relation to the demand. Note that the inflationary dynamics still remain dominant, so the system overall remains inflationary.
End users engage with the dRTC network via apps, dApps, or products built on top of the network. These may be built and owned by any third-party developer (the dRTC builder). The dRTC builders are the ultimate prosumers of the dRTC network, both contributing value added services to the dRTC dApp ecosystem, while simultaneously deriving utility from them.
End users engage with the dRTC network via apps, dApps, or products built on top of the network. These may be built and owned by any third-party developer (the dRTC builder). The dRTC builders are the ultimate prosumers of the dRTC network, both contributing value added services to the dRTC dApp ecosystem, while simultaneously deriving utility from them.
End users engage with the dRTC network via apps, dApps, or products built on top of the network. These may be built and owned by any third-party developer (the dRTC builder). The dRTC builders are the ultimate prosumers of the dRTC network, both contributing value added services to the dRTC dApp ecosystem, while simultaneously deriving utility from them.
End users engage with the dRTC network via apps, dApps, or products built on top of the network. These may be built and owned by any third-party developer (the dRTC builder). The dRTC builders are the ultimate prosumers of the dRTC network, both contributing value added services to the dRTC dApp ecosystem, while simultaneously deriving utility from them.
