GRASS, commonly known as "Xiao Cao" in China, is an airdrop token project based on web-based mining, where users can earn airdrop rewards by sharing their idle bandwidth. The innovation of this project lies in its focus on the fact that many large companies, especially online platforms (such as Baidu Netdisk), have been "quietly" using users' network bandwidth to collect information, such as checking prices or displaying ads, without the users' awareness, essentially "freeloading" on their internet resources. To address this, GRASS collaborates with certified companies and research institutions to share users' bandwidth for legitimate commercial purposes, rewarding users who share their bandwidth with airdrop tokens.
Since its launch, GRASS has attracted a large number of participants and has been listed on multiple exchanges, including Bitget, Bybit, and Gate. The initial price of the airdropped tokens was $1.5, with pre-listing trades conducted across various platforms. With the official start of the airdrop, GRASS has further strengthened its influence in the cryptocurrency space.
Before exploring the node renting mechanism of GRASS, it's important to first understand its Anti-Witch Mechanism to better grasp the challenges that may arise during the process.
GRASS's Anti-Witch Mechanism is an intelligent system designed to detect and prevent fraudulent activities on the platform, particularly to stop users from manipulating airdrop participation through dishonest methods, such as frequently changing IP addresses. The core principle of this mechanism is to monitor the network activity of user accounts, specifically focusing on changes in IP addresses, to identify any suspicious behavior. More specifically, when an account's IP address changes frequently, especially switching back and forth within a short period, the system automatically flags the account as suspicious and places it on what is known as the "Witch List."
The term "Witch List" originates from the blockchain community and refers to accounts that use illegitimate methods, such as VPNs or proxy servers, to frequently change IPs in an attempt to bypass platform monitoring systems. To maintain fairness, GRASS has established this Anti-Witch Mechanism to effectively identify users who are attempting to falsify participation records through dishonest means.
However, the mechanism is not without flaws. Many users, to avoid frequent IP changes, tend to use VPNs or proxies for a more stable connection, which makes their accounts prone to being mistakenly flagged as "witches," particularly when VPN nodes are unstable or when users frequently switch connections. To avoid being flagged as a "witch," some users even opt to purchase stable VPN services or set up their own nodes to ensure continuity and stability of their IPs. Although these technical methods are effective, they add to the complexity of the operation.
Through this mechanism, GRASS can reduce fraudulent participation while ensuring that every airdrop reward distribution is legitimate, thus enhancing the fairness and transparency of the platform. Although the mechanism effectively curtails fraudulent behavior, the challenges it presents to some users (especially those using unstable VPNs or proxies) should not be overlooked.
Node renting is a common method used on the GRASS platform to increase airdrop rewards. Unlike regular users who rely on personal VPNs or proxy nodes, node renting involves leasing dedicated, clean IP addresses, which guarantees greater stability and efficiency in participation. This service is usually provided by specialized renting studios that have stable nodes and high-quality network connections, offering a more optimal mining experience than regular users.
The primary advantage of node renting is the use of "clean IPs." Clean IPs are those with no bad history and are less likely to be flagged as suspicious or placed on blacklists, ensuring that airdrop rewards are not lost due to frequent IP changes. Compared to regular VPN nodes, clean IPs better meet the requirements of GRASS and ensure stable growth, leading to higher airdrop rewards.
In addition, node renting benefits from the Anti-Witch Mechanism. Since the rented nodes use independent IP addresses and do not share a node between multiple accounts, it effectively avoids the risk of multiple accounts being flagged as cheating by GRASS's monitoring system. More importantly, renting studios typically offer round-the-clock technical support to ensure a smooth process, and users do not need to invest excessive time and effort.
For larger studios, they may also use advanced fingerprint browser technology to enhance the node renting effect. These browsers simulate different device fingerprints, allowing each account to appear as an independent, real user, which increases the chances of receiving airdrop rewards. Even when the computer is turned off, these nodes continue to run in the background, ensuring the maximization of airdrop collection.
However, despite the many advantages of node renting, there are still risks. Some studios may operate their nodes improperly, which could lead to a significant reduction in airdrop rewards. Therefore, when choosing a node renting service, users should pay close attention to the studio's reputation and the quality of the nodes provided to ensure they receive a stable and efficient service.
In the early stages of the GRASS project, Yuyue, a well-known KOL in China, became involved. Due to the strong narrative and high popularity of the GRASS project, many node renting studios emerged, which also created opportunities for fraudulent behavior. Yuyue's friend, "Big Knife," recommended a studio, claiming that it provided nodes with independent IPs of very high quality that fully met GRASS's official requirements. Without conducting thorough research, Yuyue decided to contact the studio for node renting services and set up an empty wallet, as there was no need to pay GAS for interactions at the beginning, which gave her a sense of security.
However, after some time, Yuyue began to have doubts about the effectiveness of the node renting service. She discovered that despite multiple accounts being rented for quite a long period, the total amount of $GRASS tokens earned was far below expectations. For example, one account that was rented from January to November only earned 2,600 $GRASS tokens, and the node wasn't running continuously. This led Yuyue to feel dissatisfied with the studio's service, but the bigger problem was yet to come.
On October 28th, when GRASS officially launched the airdrop, Yuyue prepared to claim her airdrop rewards. However, claiming the airdrop required paying a certain GAS fee. She transferred 0.08 SOL (around 12.69 USDT) to each wallet for the operation. But when she tried to contact the renting studio to help claim the airdrop, she found that the studio had disappeared. Not only had the studio failed to provide the promised services, but it had also stolen the 0.08 SOL that she had transferred.
After calculating, Yuyue realized that she had lost about 40,000 USDT in this incident, which included the renting fees, the $GRASS airdrop rewards, and the SOL she had sent for GAS. This case exposed the significant risks involved in node renting, especially when a studio appears to be legitimate and provides some services, but ultimately runs off with the funds. Despite the studio having provided some legitimate services, Yuyue never expected the scam to unfold in this way.
Node renting scams like this are not uncommon. Many scammers disguise themselves as legitimate studios and take advantage of users' trust to steal funds, especially when the studio appears to provide real node renting services. To avoid falling into similar traps, users should carefully verify the reputation and actual operations of renting studios, not just rely on recommendations from friends or social media.
While some people believe node renting is prone to scams and prefer to set up their own nodes, users should remain cautious and ensure the safety and legality of any node renting service they choose.
Before participating in an airdrop event, it’s crucial to assess the project’s specific requirements to determine if an independent or clean node is necessary. If the project doesn’t require independent nodes, users can use Google’s multiple login feature to open several Google browsers on the same computer, each corresponding to different social media accounts and wallets, to avoid using the same IP address. This method is simple but effective in bypassing basic anti-bot mechanisms.
However, if the project requires independent or clean nodes, it’s best to rent an overseas server, set up your own network environment, or set up a personal VPN. While this approach is more complicated, it offers higher security and stability. In this case, users need a certain level of technical expertise or should seek assistance from professionals.
If you prefer a simpler and quicker method, such as using node renting services or a fingerprint browser, you must stay highly cautious. Below are some tips to prevent scams:
By following these steps, you can significantly reduce the risk of falling victim to node renting scams and ensure a secure and stable experience while participating in airdrop events.
1.Visit the Official Website Go to Grass Registration Page and fill in the required basic information. After completing the CAPTCHA, click "Register."
2.Connect Your AccountOn the page, click "Connect" located on the right side to be directed to the plugin installation page.
3.Install the PluginFollow the instructions to install the plugin on your browser.
4.LoginAfter installing the plugin, click it and enter your username and password to log in.
5.Connect to the NetworkWait for the network connection to complete, then click "Open Dashboard." This will take you to your control panel, where you can monitor your connection status. Simply leave the connection running to contribute bandwidth. (Make sure to disable any vpn to avoid network disruptions during the process.) In the control panel, you can track your daily bandwidth contribution points and network status.
The future of the Grass project looks highly promising, with several key factors contributing to its potential success:
1.Demand for Decentralized AI Data Markets
As AI technology rapidly evolves, the need for structured data becomes critical. Grass provides decentralized support for AI model training, addressing issues such as data access, privacy protection, and data transparency. As the AI field continues to expand, the demand for high-quality, verifiable datasets will increase. Grass is well-positioned to fill this gap, attracting more developers and data providers to its platform.
2.Strong Investment Support
Grass has secured backing from several renowned investors, including Hack VC, Polychain Capital, and Delphi Digital. The involvement of these investors not only brings financial support to the project but also provides assurance for the further development of its technology and market applications. The funding rounds demonstrate Grass's increasing recognition and potential within the industry.
3.Advantages of Decentralization and Privacy Protection
By leveraging zk-SNARK technology, Grass ensures both the privacy and verifiability of data, which is a significant advantage for AI developers and data contributors. With growing global concerns about privacy and decentralization, Grass's unique approach positions it well to stand out in the competitive market.
4.Ecosystem Expansion and Collaboration Opportunities
Grass has demonstrated strong potential in accelerating its network development and collaborating with other blockchain projects and AI companies. Moving forward, the project could expand its ecosystem through more partnerships, protocols, and technological innovations. These collaborations could propel Grass to become a key player in the global AI data space.
In conclusion, with technological advancements and increasing market demand, the Grass project has the potential to become a leader in the decentralized AI data layer. Its innovative solutions, strong investment backing, and focus on decentralization make it well-positioned to solidify its role at the intersection of AI and blockchain technologies.
1. What is the GRASS Project?
The GRASS Project, also known as "Xiao Cao" in China, is an airdrop token project where users can earn rewards by sharing their unused internet bandwidth. The project seeks to address the issue of large companies using users' bandwidth without their consent and redistributes the benefits by offering airdrop tokens to users who share their bandwidth with certified partners.
2. How does the GRASS airdrop work?
Users participate in the GRASS airdrop by sharing their internet bandwidth with certified companies and institutions. In return, they receive GRASS tokens. The process involves connecting to the platform and leaving the network connection running to contribute bandwidth.
3. What is the Anti-Witch Mechanism in GRASS?
The Anti-Witch Mechanism is a system designed to prevent fraudulent activities by detecting suspicious behaviors, such as frequently changing IP addresses using VPNs or proxies. Accounts that display such behavior are flagged as "witches" and could be excluded from the airdrop process to maintain fairness.
4. Can using a VPN lead to being flagged as a "witch"?
Yes, if a VPN or proxy is used to frequently change IP addresses, the Anti-Witch Mechanism may flag the account as suspicious. To avoid this, users should use stable VPN services or rent clean nodes with fixed IPs to maintain a continuous connection and avoid being flagged.
5. What is node renting in the GRASS Project?
Node renting involves leasing dedicated IP addresses (clean IPs) from specialized studios to ensure stable participation in the airdrop. These rented nodes are less likely to be flagged as suspicious and provide more reliable results compared to using regular VPN services.
6. Are there risks associated with node renting?
Yes, there are risks, such as the potential for scams. Some fraudulent studios may offer services that seem legitimate but ultimately steal funds or provide subpar services. It’s crucial to research renting studios thoroughly and confirm their reputation before engaging in node renting.
7. How can I prevent node renting scams?
To avoid scams, users should:
8. How do I participate in the GRASS Project?
To participate, follow these steps:
9. What are the future prospects of the GRASS Project?
The future of the GRASS project is promising due to its focus on decentralized AI data markets, strong investment backing, and commitment to privacy protection. As AI and blockchain technologies grow, GRASS is well-positioned to become a key player in the global data space through collaborations, ecosystem expansion, and continued technological innovations.
10. How can I ensure my participation is secure?
To ensure a secure participation experience, avoid unreliable studios and focus on trusted sources for node renting. For users with technical knowledge, setting up your own network environment or renting a dedicated overseas server can provide a more stable and secure connection.
