VERSES AI Compared to OpenAI | A Conversation With ChatGPT4

In a mere three question conversation with ChatGPT4, the OpenAI bot provided a solid basis for understanding the greatest issues facing Machine Learning LLMs, the advantages of Active Inference AI over LLMs, and the way in which the next evolution of the internet protocol, the Spatial Web, when combined with Active Inference AI, can function as a nervous system for a company, city, or even larger systems.

AI – The Maker vs. the Operator, LLM vs Active Inference

VERSES AI has overcome all the limitations of machine learning AI, by building a new kind of artificial intelligence based on a real-time world model described as:

“AI that grows in knowledge, perception, and awareness through the evolving real-time data produced by all things, at all times, throughout our living, breathing, and ever-changing world.”
This is Active Inference AI, an entirely new type of networked AI that is designed for Real-Time Operations, including things like managing the daily operations of a hospital, an airport, global supply chains, an entire smart city, global drone and autonomous vehicle traffic, and other real-world activities.

VERSES AI KOSM™ OS Slashes Developer Barrier to Entry for Building AI Apps – Spatial Web and the Era of AI  – Part 3

What if there was an opportunity to easily build an intelligent AI app, using a developer kit that would provide you with unlimited creative opportunities and use cases for the implementation, without the enormous cost of both time and money?
That’s exactly what VERSES AI has created.

The Spatial Web and the Era of AI – Part 1

For the first time in history, the roadmap to AGI is here. Active Inference AI inside of KOSM™ has access to the entire Spatial Web with IoT sensors and cameras and all context markers attached to all objects within all space and time. This AI becomes an ecosystem of Intelligent Agents that are all interoperable over HSTP. This Collective Intelligence is trained on realtime data and evolves making decisions and updating its interior model based on what is happening NOW, not on historical datasets.

Why the Spatial Web Demands a New Protocol – Part 4 – IEEE

This is exactly where we are now with Web 3.0. The original internet protocols are too limiting for the network capabilities needed to move forward with Smart Technologies and Extended Reality interoperability requirements. HSTP (Hyperspace Transaction Protocol) enables a fully augmented experience, bridging Web 3.0 technologies, artificial intelligence, blended realities (digital and physical), and distributed ledger tech. HSTP is the Spatial Web Protocol. This is the new network protocol of Web 3.0.

Why the Spatial Web Demands a New Protocol – Part 3 – HSML

HSML - A Cipher for Context
The Spatial Web (Web 3.0) is a library of spaces that contain objects - people, places, and things. These objects do things and change over time. The context or circumstances that govern these shifts and changes is the most important factor to consider if we are to understand how the objects relate to each other, to people, and to their environments. The only way to create a truly technologically augmented existence, is to be able to consider and measure the contextual elements that affect the expression of shared information by and between all objects in any space. This is known as computable context, and this is what HSML (Hyperspace Modeling Language) was made for.

Why the Spatial Web Demands a New Protocol – Part 2 – HSTP

An inclusive interface is necessary to join these Smart Technologies, along with humans, machines, content, data, assets, locations, buildings, factories, workflows, imagination, and the context of real-time interaction across every one of them, embracing and including previous Web 2.0 technologies and cloud databases. THIS is the Web 3.0 of the future. THIS will become the Internet of Everything.

WWW vs. The Spatial Web

The World Wide Web is a library of pages. The Spatial Web is a library of spaces.
Web 3.0 technologies require a new protocol that can link spaces and all objects within them. For a completely interoperable Web 3.0 experience, Metaverses and Digital Twins need to be networked, indexed, discoverable, and accessible by anyone or anything, anywhere, at any time.
Using HSTP, you can query over multiple dimensions — 4D, over time, over temperature, motion, pressure, light — any physical reality that can be defined in a computational way.
The “space” in Spatial is not only taking coordinates into account, but also states, like passing of time, change in ownership, even changes in emotional states like measurements of happiness or satisfaction — any combination of any condition of any dimension that can be defined, addressed and computed.