Join the movement and participate on Uniswap.
Participate
In the realm of embedded artificial intelligence (AI), tasks that seem straightforward to humans can often prove to be complex and resource-intensive. One such challenge is enabling a robot or AI-powered device to open a door. This seemingly simple task involves several intricate steps that require the AI to:
Furthermore, each new embedded AI tasked with interacting with a door would need to go through this same process each time, resulting in a significant amount of trial and error. For each environment, the AI would need to "learn" the characteristics of every door, meaning that it would require new data for each interaction. The AI also likely wouldn't retain memory of doors it has already encountered, which leads to inefficiencies and delays.
But what if there was a more efficient solution? Enter collaborative spatial mapping with the Auki network, a game-changing approach that could streamline the process and save valuable time for embedded AI systems.
With the Auki network, a door, along with all its relevant characteristics, can be added to a shared digital map. Devices such as robots, smart glasses, or even mobile phones can detect and catalog the door. Once the door is mapped, all AI devices that use the Auki network can access the shared data, making door interaction faster and more accurate.
The beauty of this system is that it is dynamic and collaborative. Multiple devices or users can contribute additional data to improve the map, including:
Embedded AI excels in dynamic, ever-changing environments, where real-time adaptation is crucial. However, many aspects of the physical world, such as doors and other infrastructure, are relatively static. Why should every new AI system analyze the same door repeatedly when it can be cataloged, mapped, and shared across all systems using the Auki network?
Collaborative spatial mapping via the Auki network allows AI to take advantage of static data, reducing redundant analysis and enabling faster decision-making. This shared knowledge base is particularly useful in environments where frequent interactions with common objects, like doors, are necessary.
Additionally:
By embracing collaborative spatial mapping through the Auki network, the complexity of tasks like opening a door can be simplified for embedded AI systems.
Rather than starting from scratch each time a new device encounters a door, the device can rely on an existing map of information. This not only saves time and reduces trial and error, but also ensures that every device interacting with a door has the most up-to-date and relevant data available.
In environments where collaboration between devices is key to optimizing performance, the use of the Auki network provides a more streamlined, efficient, and intelligent way to handle tasks that might otherwise be unnecessarily complex.
Auki is making the physical world accessible to AI by building the real world web: away for robots and digital devices like smart glasses and phones to browse, navigate, and search physical locations.
70% of the world economy is still tied to physical locations and labor, so making the physical world accessible to AI represents a 3X increase in the TAM of AI in general. Auki's goal is to become the decentralized nervous system of AI in the physical world, providing collaborative spatial reasoning for the next 100bn devices on Earth and beyond.
X | Discord | LinkedIn | YouTube | Whitepaper | aukilabs.com
