WorldBrain Token
WBC functions as the WorldBrain ecosystem token, boasting a fixed circulation of 10 billion coins with no additional issuance. It serves as the linchpin for the entire ecosystem, fostering organic interaction and driving positive spiraling operations. Contributors engaged in WorldBrain's intelligent interactions earn tokens through various activities, including completing annotation tasks.
WorldBrain users access super-intelligent services by utilizing WBC for payments, completing the full cycle of token circulation. Notably, we've implemented a metabolism mechanism on the WBC consumption side. In each transaction where WBC is employed to acquire WorldBrain's super-intelligent services, 10% of the received WBC is directly burned, a process referred to as metabolism.
Cortical Region
The new cortex is divided into dozens of regions, each performing different functions. If a cortical area is connected to the eyes, it produces vision; if the same cortical area to the ears, it produces hearing; if two different cortical areas are connected, it leads to higher-level thinking. Based on this concept, WorldBrain divide global neuron nodes into dozens of regions based on brain coordinates, equivalent to regional nodes.
Cortical Column
The new cortex is composed of 150,000 cortical columns, with each brain region containing approximately 5,000 cortical columns. A cortical column is a neural network community composed of multiple neurons. Compared to a single neuron, a neural network can produce intelligent gains, thereby enhancing WorldBrain's intelligence level. The cortical column corresponds to a medium-sized node.
Nerve Bundle
One cortical column contains about 100 nerve bundles. Throughout the new cortex, cortical columns and nerve bundles have the same function, but are weaker than cortical columns. This is equivalent to a small-sized node.
Neuron
Each nerve bundle consists of over 100 neurons spanning various layers. Each computing terminal serves as a neuron, and these neurons possess relatively weak computing power. Each neuron constitutes the smallest-sized node.