Certainly, here's the information about the development of "Robo Fabric Foundation" in English:
There are two main developmental aspects related to "Robo Fabric Foundation" that have emerged:
1. Fabric Foundation (ROBO Token):
The Fabric Foundation is a non-profit organization focused on advancing open governance and economic infrastructure for AI and robotics. Its goal is to transform robots from "siloed tools" into autonomous economic actors.
- $ROBO Token: This is the core utility and governance asset of the Fabric Foundation. [39Z1]
- It's used for network fees, transactions, identity verification, and task settlement. [39Z1]
- It enables robots to hold crypto wallets, sign contracts, and pay for their own maintenance or charging without human intervention. [39Z1]
- The aim is to allow robots to act as economic collaborators without legal personhood. [39Z1]
- OM1 Operating System: Touted as the Android for robotics, it's hardware-agnostic and allows a single software application to run across diverse robot types. [39Z1]
- Fabric Protocol: This acts as a trust and coordination layer, serving as a social network for machines. [6Gtf]
- Robot Crafter and Appstore: A marketplace where developers can publish skills or tasks. [39Z1]
- Proof of Robotic Work (PoRW): A consensus mechanism that rewards verified machine labor or data contributions. [39Z1]
2. Fabric Muscles & Soft Robotics:
This refers to developments where fabric is used to create flexible robotic components, especially for wearable robots and soft actuators.
- Ultra-thin Fabric Muscles: Researchers at the Korea Institute of Machinery and Materials (KIMM) have developed ultra-thin, coil-shaped fabric muscles made from shape memory alloy (SMA) coil yarn, which are thinner than a human hair. [14KK][1ld5]
- These muscles are lightweight, flexible, and can lift 10 to 15 kg with only 10 grams of material. [14KK][1ld5]
- They allow wearable robots to move more naturally and support multiple joints simultaneously. [14KK][1ld5]
- KIMM has also created the world's first clothing-type wearable robot weighing less than two kilograms that can support the elbow, shoulder, and waist together. [14KK]
- Fabric-Based Pneumatic Soft Actuators: These soft actuators feature flexible pneumatic chambers made from fabric materials that achieve mechanical motion through changes in internal pressure. [aGJm]
- They offer advantages in adaptability, safety, and multifunctionality compared to traditional rigid robotic systems. [aGJm]
- Research explores various design principles, classifications, and applications, such as soft wearable assistive gloves. [aGJm]
- Smart Fabrics: Research also involves fabrics embedded with magnetic fibers that can stiffen on command, or fabrics that move under electric fields. [aba4][8315]
- 3D Weaving and Knitting: Advanced weaving and knitting techniques are being used to create robotic components that integrate sensors and actuators into the fabric. [d56c][822b]
Both of these aspects represent fascinating developments within the broader field of "Robo Fabric Foundation."#RoboForm @Fabric Foundation $ROBO
