nodepay token $NC will airdrop on January 6 🔥
Completing questionnaires can earn thousands of points, can batch use small accounts to brush low-income, no need to hang in

According to the first season 300 points = 1 NC coin, current off-market price 0.58 U,
Just low-income card brushing 1 minute questionnaire 6000 points will get 20 $NC coins, worth 12 U 💰
As long as points > 100 there is an airdrop, final sprint👇
https://app.nodepay.ai/register?ref=c83kjHADB8bYrvp

Invitation code 👉c83kjHADB8bYrvp

nodepay second season deadline January 1 8 o'clock, open airdrop
Must bind Sol wallet beforehand, gain human merit badge

Rivalz has launched the AI Intel Layer, supporting a modular AI applications ecosystem. It is a DePIN-based RollApp built on Dymension, utilizing Celestia and Eigen.
Rivalz Network Airdrop Details
Rivalz Network is running an incentive testnet Galxe Quest event for its users. Visit their event page and complete simple social tasks to earn free points.
The RIZ airdrop for Project Rivalz is a highly anticipated event, rewarding early supporters and participants as the ecosystem prepares for the Token Generation Event (TGE) at the end of January 2025.

Despite their amazing progress, robots still have a serious problem: they don't share spatial awareness. Their capacity to work together is severely hampered by this disparity, particularly in settings with disparate fleets of robots, drones, and other devices made by various vendors. The main goal of Auki Labs is to solve this problem. Auki Labs is transforming how robots see, interact with, and navigate their surroundings with ground-breaking inventions like the posemesh.
This article explores the reasons behind Auki Labs' decision to move on with robotics research using the Unitree G1 and Go2-W robots, as well as how these platforms work with the posemesh to revolutionize collaborative robotics.
Robotics' Difficulty with Spatial Awareness

Robots must be able to explore and comprehend their physical environment in order to carry out tasks on their own. However, significant context cannot be provided by current geographical mapping technology. The majority of maps are made up of abstract geometries and don't include important details about the items and their functions.
Present-Day Restrictions on Spatial Maps
Restricted Context: Although these maps include comprehensive geometrical information, they do not identify items or their purposes. Robots are forced to rely on computationally demanding procedures like object detection and categorization as a result of this ignorance.High Computational Demands: Robots' onboard systems are heavily taxed by the requirement for continuous local processing, which slows down decision-making and uses electricity.Scalability Problems: Putting several robots in the same area without a common notion of space frequently results in inefficiencies and bottlenecks.

A paradigm shift is necessary to address these problems: a transition from a solitary spatial awareness to a collective, decentralized perception of space. Auki Labs is well positioned to tackle this challenge.

Presenting the Posemesh: A Revolution in Robotics

The posemesh signifies a significant change in the way AI and robotics view the world. The posemesh gives several robots a common sense of space by superimposing settings with spatial relationships, allowing them to work together effectively.

The Posemesh: What is it?
Shared Spatial Map: Every robot in an environment can access the decentralized spatial map that the posemesh develops. Robots are able to recognize their relative situations and coordinate their activities with ease thanks to this shared understanding.
Efficiency and Scalability: The posemesh reduces processing demands and speeds up decision-making by eliminating the requirement for separate robots to process their environment independently.
Decentralized and Protecting Privacy: Posemesh is a future-proof solution for collaborative robotics since it is based on an open-source protocol that protects data sovereignty and restricts surveillance.

Unitree G1 and Go2-W's Function in Auki Labs' Research

When testing and deploying the posemesh, choosing the appropriate robotic platforms is essential. Following a thorough analysis, Auki Labs selected the Unitree G1 and Go2-W due to their sophisticated features and posemesh compatibility.

Why Go2-W and Unitree G1?
1. Advanced Sensors: These robots are perfect for integrating with pre-made spatial maps since they are outfitted with cutting-edge sensors that produce high-resolution spatial data.
2. High Mobility: Both platforms are excellent at negotiating challenging situations, guaranteeing effective movement and work completion.
3. Cost-effective and Scalable: Unitree's robots are ideal for expanding robotics research since they strike a great mix between performance and cost.

Advantages of Posemesh Integration
Decreased Redundancy: By using a common spatial map, robots may process their surroundings more efficiently, freeing up resources for more intricate tasks.
Improved Cooperation: Even in mixed fleets, robots can effectively assign duties and coordinate their motions thanks to the posemesh.
Simplified Deployment: Without requiring a lot of human setup, robots that are connected with the posemesh can be quickly deployed in unfamiliar environments.

Revolutionizing Cooperative Robotics
The posemesh is a vision for the future of robotics, not just a technological advancement. The posemesh is opening the door for intelligent, cooperative robot fleets by tackling the difficulties of heterogeneous settings.

Principal Benefits of Posemesh
Real-Time Coordination: Robots are able to work together efficiently in real-time and adjust to changing surroundings.
Decentralized Operation: The posemesh facilitates decentralized operations, which improve resilience and scalability in contrast to conventional systems that depend on centralized control.
Cross-Manufacturer Compatibility: The posemesh removes a significant barrier to the adoption of robotics by facilitating interoperability between devices made by various manufacturers.

Applications in the Real World
Industrial Automation: Coordinated robot fleets can improve productivity, decrease downtime, and streamline production operations.
Healthcare: Hospitals can benefit from collaborative robotics, which can help ensure smooth operations and better patient care.
Smart Cities: Posemesh-powered autonomous systems can improve urban infrastructure, including waste collection and traffic control.

The Dedication of Auki Labs to Open Innovation
Auki Labs understands how critical it is to promote cooperation among robotics professionals. In order to achieve this, they have opened their Auki Robotics GitHub repository, which allows academics and developers all over the world to use their tools and resources.
Robot-Compatible Map Extraction: A New Tool
Auki Labs' first product makes it easy to extract maps that are compatible with robots, which makes autonomous navigation and environment comprehension simpler. Important characteristics include:
Integration with Cactus AI: Robots may quickly deploy spaces that have been mapped using Cactus AI, significantly cutting down on setup time.
Open-Source Accessibility: Auki Labs promotes creativity and cooperation within the robotics industry by freely sharing their technologies.

The Bigger Picture: Cognitive Cooperation

The fundamental goal of Auki Labs is to improve humanity's ability to think, experience, and solve problems collectively; this goes beyond technology. Auki Labs is facilitating new kinds of cooperation by constructing bridges between human and machine intelligence through the development of tools like the posemesh.
Robotics' Future
The demand for intelligent, cooperative systems will only increase as robotics develops further. Innovations from Auki Labs are opening up new opportunities in a variety of industries by establishing the groundwork for a future in which humans and robots coexist together.
Using Decentralization to Gain a Competitive Edge

In addition to guaranteeing privacy and data sovereignty, the decentralized architecture of the posemesh gives it a competitive advantage in situations that call for low-latency, shared spatial computing, which is essential for applications like augmented reality.

Realizing Robotics' Complete Potential
Auki Labs is making great strides toward their goal of collaborative robotics driven by the posemesh with the incorporation of Unitree G1 and Go2-W robots into their study. Auki Labs is laying the groundwork for a future in which robots function as intelligent, networked systems by tackling the problems of spatial awareness and decentralization.
In addition to developing robots, Auki Labs is influencing the larger field of artificial intelligence and machine perception through open innovation and a dedication to decentralization. The future of robotics appears more promising than ever as they keep pushing the envelope of what is conceivable.

My opinion
As a user of Auki Labs, I am greatly pleased by the company's efforts to advance AI and robotics. It makes sense to select Unitree G1 and Go2-W as development platforms. These robots are not only extremely agile and equipped with strong sensors, but they are also ideal for integrating with Posemesh, which the article claims is a true revolution in the fields of robotic collaboration and spatial mapping.

The idea behind Posemesh is particularly motivating. For a long time, robotics has lacked the ability to create a unified spatial map for all devices. I have frequently witnessed the limitations of autonomous systems that operate independently and consume a significant amount of processing power simply to determine their location and the environment. This issue is resolved by Posemesh, which enables robots to behave as a group rather than as separate entities.
I like that Auki Labs is taking this risk because the industry finds it difficult to see robots from various manufacturers cooperating. An excellent step toward the community is opening the GitHub repository. It helps create an ecosystem that can hasten the adoption of this technology in addition to providing researchers and developers with access to the company's resources.
For my part, I respect the breadth of Auki Labs' purpose. A step toward a more intelligent and effective future is their aim to integrate robots, gadgets, and even humans into a unified system that can function in real time. The future of robotics, in my opinion, will be built on this concept of cooperation and understanding rather than merely a technology.
I am particularly intrigued in the real-world applications of Posemesh and eagerly await further developments from the Auki Labs team. This technology can be used in industry, medical, logistics, and other fields if it can actually handle the complex setup and interaction problem. All of this strengthens my conviction that I have selected the ideal platform for research and collaboration.

#AI #DePIN #auki #posemesh $AUKI

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🔹 Follow @Coinaute
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Teneo Protocol is a blockchain startup that is revolutionizing the way real-world data is utilized and monetized. Teneo unlocks previously inaccessible data and seamlessly integrates it into the Web3 ecosystem.
By targeting data pools that are behind paywalls or currently inaccessible (such as real-time social media insights and machine-generated data from industries like transportation and energy), Teneo creates a standardized access point for AI companies, exchanges, market makers, builders, ecosystems, and more.
Teneo Protocol has confirmed the launch of their token, TENEO, and has launched a points campaign. Download the Teneo extension and connect your node to start earning points. Signing up with the referral code below will earn you 2,500 Teneo points, and each successful referral will earn you 5,000 points. Points will be converted to TENEO tokens after the TGE.

What is Silencio (SLC)?

Recently gaining attention for addressing environmental noise, the #DePIN application @silencioNetwork operates within the @peaq ecosystem. Silencio provides an accessible way for users to contribute to large-scale environmental studies and raise awareness about the impact of noise pollution—simply by listening to noise.
The goal is to create awareness about noise pollution. By measuring noise levels in the places you visit, you can earn SLC tokens. #SolvProtocolMegadrop

Silencio transforms smartphones into noise sensors, collecting environmental data from the real world.
• By contributing to a distributed noise measurement network, it empowers users and communities with actionable insights about noise pollution levels. #BinanceAlphaAlert

You can operate it anytime during the day to record and collect data on noise pollution. TGE (Token Generation Event) is expected by the end of January.

Keyword for entry: “Cryptoland”

Kind regards 💐 $BTC