Haven HAVEN
Xếp hạng #8740
22:43:00 15/12/2025
Giá Haven (HAVEN)
$0.0007828 10.6%
0.000000009012 BTC
21 VND
Thấp: $0.0007065
Cao: $0.0007881
Thông tin Haven (HAVEN)
| Trạng thái | Đang hoạt động |
| Website | |
| Sách trắng | |
| Block Explorer | https://bscscan.com/token/0x3c06AF089F1188c8357b29bDf9f98B36E51f7690 |
| Chat | |
| Nền tảng |
BNB Smart Chain (BEP20): 0x3c06AF089F1188c8357b29bDf9f98B36E51f7690 |
| Ngày thêm vào danh sách | 11:46:52 30/10/2025 |
| Thẻ | BNB Chain Ecosystem |
Số liệu thống kê Haven (HAVEN)
| Giá Haven (HAVEN) hôm nay | |
|---|---|
| Giá Haven (HAVEN) | $0.0007828 |
| Dao động 1 giờ | 0% |
| Dao động 24 giờ | 10.6% |
| Dao động 7 ngày | -9.65% |
| Giá Thấp / Cao nhất (24h) | $0.0007140 / $0.0007832 |
| Khối lượng giao dịch 24 giờ | - |
| Vốn hóa | - |
| Xếp hạng | #8740 |
| Giá Haven (HAVEN) hôm qua | |
| Giá Thấp / Cao nhất hôm qua | $0.0006894 / $0.0007832 |
| Giá Mở / Đóng hôm qua | $0.0006894 / $0.0007758 |
| Dao động giá hôm qua | 12.52% |
| Khối lượng giao dịch hôm qua | |
| Nguồn cung Haven (HAVEN) | |
| Tổng HAVEN đang lưu hành | |
| Tổng cung | 10,000,000 HAVEN |
| Tổng cung tối đa | 10,000,000 HAVEN |
| Lịch sử giá Haven (HAVEN) | |
| Giá Thấp / Cao 7 ngày | $0.0006669 / $0.001149 |
| Giá Thấp / Cao 30 ngày | $0.0004867 / $0.03481 |
| Giá Thấp / Cao 90 ngày | $0.0004867 / $2.51 |
| Giá Thấp / Cao 52 tuần | $0.0004867 / $2.51 |
| Giá cao nhất lịch sử 00:47:00 28/10/2025 |
$2.51 |
| Giá thấp nhất lịch sử 22:01:00 27/11/2025 |
$0.0004867 |
Digital twins are central to the platform’s functionality. A digital twin in Haven represents a virtual robot with defined characteristics such as size, movement constraints, sensor capabilities, and interaction rules. These models operate within a physics-based simulation engine that accounts for movement, object handling, collision, and environmental boundaries. Users may issue instructions to robotic agents through programming commands or through natural language inputs. The system interprets these instructions and executes the robot’s behavior accordingly, allowing both technically experienced users and non-technical users to experiment with robotic task design.
The platform also supports the transition from virtual simulation to real-world execution. When a user has validated a robotic behavior in the digital environment, the same instructions can be deployed to physical robotic hardware through standardized APIs. This simulation-to-deployment workflow allows robotic logic to be tested in a safe environment before being run on devices that may be costly or fragile. The resulting structure is useful for prototyping, research, automation experiments, and education.
Haven incorporates a token-based economic framework tied directly to robotic deployment. When a user chooses to deploy a digital twin as a distinct agent, the platform automatically generates a corresponding on-chain token. This process uses a bonding curve mechanism to determine supply as the token enters circulation. The token functions as a utility and ownership layer for the robotic agent. Robot creators may receive rewards when their models are used by others, and users may obtain access to specific robotic capabilities through interaction with the token. Each robotic agent, therefore, functions both as a programmable entity and as an economically distinct unit in the network.
The platform operates as a decentralized application. Key actions such as deploying robots, interacting with robotic logic, and generating tokens take place through smart contracts rather than centralized infrastructure. Users retain verifiable ownership of both the robots they create and the tokens associated with those robots. This design allows robotic experimentation and deployment to be governed transparently and without reliance on a single operator.
Haven is intended to serve a broad range of use cases. Developers may use it to test control algorithms and navigation routines. Researchers may investigate autonomous behaviors in controlled virtual environments. Educators may incorporate digital twin robotics to teach concepts without requiring laboratory hardware. Individuals interested in robotics may experiment with motion and decision-making logic without the need to own a physical robot.
In summary, Haven provides a platform for designing, testing, and deploying robotic agents using digital twin simulation and decentralized execution. The system connects virtual experimentation with real-world application while offering a tokenized model for ownership and participation within the network.