tfgrid/info_docs_depin
10
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

update mobility and sensor

Browse Source
This commit is contained in:
mik-tf 2025-02-02 18:26:45 -05:00
parent 749b79bf64
commit 5ccabba291
7 changed files with 499 additions and 180 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

103
docs/depin_specs/mobility_networks/arcade_city.md
View File

@ -4,36 +4,81 @@ description: Detailed information about Arcade City
sidebar_position: 5
---
# Arcade City
# Arcade City
## Overview
Arcade City is a decentralized ride-sharing platform that allows users to connect directly with drivers. It leverages blockchain technology to create a peer-to-peer ride-sharing network.
## Overview
## Key Features
- **Currency:** ARC (Arcade Token)
- **Buying Currency:** Available on decentralized exchanges like Uniswap.
- **Utility:**
- Used for network transactions and incentivizing ride-sharing.
- Staking rewards for network validators.
- **Automation:**
- Smart contracts automate ride bookings and payment processing.
- **Utility in the Project:**
- Users can earn ARC by participating in the ride-sharing network.
- Validators can stake ARC to secure the network and earn rewards.
- **API:** Yes, Arcade City provides an API for developers to integrate with their applications.
- **User Perspective:**
- Users can easily book rides and earn ARC tokens by sharing rides.
Arcade City is a decentralized ride-sharing and mobility platform built on blockchain technology, designed to provide a fair, transparent, and community-driven alternative to traditional ride-sharing services like Uber and Lyft. By leveraging decentralized governance and tokenized incentives, Arcade City empowers drivers and riders to interact directly, eliminating intermediaries and reducing costs. The platform aims to revolutionize the mobility industry by fostering trust, inclusivity, and economic empowerment for all participants.
## How It Works
1. **Step 1:** Users download the Arcade City app and create an account.
2. **Step 2:** Users can book rides directly with drivers using the app.
3. **Step 3:** Users earn ARC tokens based on their participation in the network.
## Key Features
- **Currency:** $ARC (native token).
- **Buying Currency:** $ARC is available on major exchanges like Coinbase, Gate.io, and KuCoin.
- **Utility:**
- **Payments:** $ARC is used to pay for ride-sharing services, with drivers and riders transacting directly on the platform.
- **Staking:** Stake $ARC to secure the network, earn rewards, and participate in governance decisions.
- **Governance:** $ARC holders can vote on platform upgrades, fee structures, and community initiatives.
- **Automation:**
- Smart contracts automate ride matching, payments, and dispute resolution, ensuring transparency and efficiency.
- Dynamic pricing adjusts fares based on demand, ensuring fair compensation for drivers and affordability for riders.
- **API:** Yes. Arcade City provides APIs for developers to integrate ride-sharing services into their applications.
- **User Perspective:**
- **Drivers:** Earn higher income by cutting out middlemen and retaining more of their earnings.
- **Riders:** Enjoy lower fares, transparent pricing, and a community-driven experience.
## Staking
- **Staking Requirements:** Minimum of 1,000 ARC tokens to become a validator.
- **Rewards:** Validators earn a percentage of transaction fees and block rewards.
## Additional Resources
- [Official Website](https://arcade.city)
- [Community Link](https://x.com/TheArcadeApp)
- [GitHub Repository](https://github.com/arcadecity)
## How It Works
1. **Ride Matching:**
- Drivers and riders connect directly through the Arcade City platform, with smart contracts facilitating ride requests and confirmations.
2. **Payment & Execution:**
- Riders pay drivers in $ARC or other supported tokens, with transactions recorded on the blockchain for transparency.
- Smart contracts ensure fair compensation and automate dispute resolution if needed.
3. **Community Governance:**
- Drivers and riders participate in governance by staking $ARC and voting on platform improvements and policies.
## Staking
- **Staking Requirements:**
- Drivers and riders can stake $ARC to participate in governance and earn rewards.
- No minimum stake is required for basic platform usage, but higher stakes increase voting power and rewards.
- **Rewards:**
- **Network Rewards:** Distributed to stakers based on their contribution to platform security and governance.
- **Slashing:** Malicious actors lose staked $ARC, ensuring network integrity and trust.
## Additional Resources
- [Official Website](https://arcade.city)
- [Community Link](https://x.com/TheArcadeApp)
- [GitHub Repository](https://github.com/arcadecity)
## Ecosystem Components
| Product | Functionality |
| - |-|
| **Arcade App** | User-friendly interface for booking rides and managing transactions. |
| **Driver Dashboard** | Tools for drivers to track earnings, manage rides, and participate in governance. |
| **Arcade Explorer** | Analytics tool tracking platform activity, rewards, and user engagement. |
## Tokenomics
- **Total Supply:** 100M.
- **Max Supply:** 100M.
- **Distribution:**
- 60% allocated as network rewards, 20% to investors, 10% to the team, and 10% to the ecosystem fund.
## FAQ
1. **Is it usable by the average DePIN user?**
Yes, Arcade City is designed to be user-friendly, with a straightforward app interface and comprehensive documentation. It caters to both drivers and riders, making it accessible for the average DePIN user.
2. **Can I pay with tokens to use the DePIN product offered by the project?**
Yes, $ARC is the primary currency for ride-sharing services on Arcade City. Users can also pay with other supported tokens like USDC for added flexibility.
3. **Can tokens be automatically switched from other standard tokens (e.g., ETH, BTC)?**
While $ARC is the native token, users can trade it on major exchanges like Coinbase and Gate.io. Automatic token switching (e.g., ETH to ARC) is not natively supported but can be done through external exchanges.
4. **If I would provide the service, what is my ROI, do we need to stake, etc.?**
Drivers can earn income by offering ride-sharing services and staking $ARC to participate in governance. ROI depends on ride demand, staking rewards, and platform usage.
5. **Why does the project exist, why do the people and the planet need it?**
Arcade City exists to decentralize the ride-sharing industry, empowering drivers and riders while reducing costs and increasing transparency. It promotes sustainability by optimizing resource utilization and reducing the environmental impact of centralized ride-sharing platforms.
6. **Is it geo-aware?**
Arcade City supports geo-aware features, allowing users to find rides and drivers based on their location. This ensures efficient matching and compliance with local regulations.
7. **Is it cost-effective?**
Arcade City is highly cost-effective, offering lower fares for riders and higher earnings for drivers by eliminating intermediary fees. Dynamic pricing ensures fair compensation and affordability.

103
docs/depin_specs/mobility_networks/carv.md
View File

@ -4,39 +4,82 @@ description: Detailed information about Carv
sidebar_position: 3
---
# Carv
# CARV
## Overview
Carv is a decentralized mobility network that allows users to share and monetize their vehicle data. It leverages blockchain technology to create a secure and transparent data marketplace.
## Overview
## Key Features
- **Currency:** CARV (Carv Token)
- **Buying Currency:** Available on exchanges like Uniswap and SushiSwap.
- **Utility:**
- Used for network transactions and incentivizing data sharing.
- Staking rewards for network validators.
- **Automation:**
- Smart contracts automate data sharing and reward distribution.
- **Utility in the Project:**
- Users can earn CARV by sharing their vehicle data.
- Validators can stake CARV to secure the network and earn rewards.
- **API:** Yes, Carv provides an API for developers to integrate with their applications.
- **User Perspective:**
- Users can easily connect their vehicles to the Carv network to share data and earn rewards.
CARV is a decentralized data privacy and monetization platform that empowers users to take control of their personal data while earning rewards through innovative gaming and AI integration. Built on a modular data layer, CARV revolutionizes how data is managed, shared, and monetized, offering users unprecedented privacy and economic opportunities. The platform integrates gaming elements, such as its popular Banana tap-to-earn mini-game, to create a seamless and engaging experience for users. CARV aims to bridge the gap between data privacy, gaming, and decentralized infrastructure, making it a standout project in the DePIN (Decentralized Physical Infrastructure Networks) ecosystem.
## How It Works
1. **Step 1:** Users connect their vehicles to the Carv network using a compatible device.
2. **Step 2:** The device collects and shares vehicle data with the network.
3. **Step 3:** Users earn CARV tokens based on the amount of data shared.
## Key Features
- **Currency:** $CARV (native token).
- **Buying Currency:** $CARV is available on major exchanges like CoinW, with trading pairs such as CARV/USDT.
- **Utility:**
- **Data Monetization:** Users earn $CARV tokens by sharing select data while maintaining strict privacy controls.
- **Staking:** Stake $CARV to participate in network governance and earn rewards.
- **Gaming Rewards:** Accumulate $CARV tokens through gaming activities like the Banana tap-to-earn mini-game.
- **Automation:**
- Smart contracts ensure transparent and secure data sharing and reward distribution.
- AI integration optimizes user experiences and data utilization.
- **API:** Yes. CARV supports integrations with gaming platforms and AI systems for seamless data interaction.
- **User Perspective:**
- **Gamers:** Earn rewards by participating in gaming activities and sharing data.
- **Data Contributors:** Monetize personal data while maintaining control over privacy.
- **Developers:** Build applications on CARVs modular data layer for enhanced data privacy and monetization features.
## Staking
- **Staking Requirements:** Minimum of 1,000 CARV tokens to become a validator.
- **Rewards:** Validators earn a percentage of transaction fees and block rewards.
## How It Works
1. **Data Control:**
- Users decide which data to share, ensuring privacy and control over their information.
2. **Reward Mechanism:**
- Data sharing and gaming activities generate $CARV tokens, which are distributed via smart contracts.
3. **Integration:**
- CARV integrates with gaming platforms and AI systems, creating a cross-platform experience for users.
## Documentation
For detailed documentation, visit [Carv Docs](https://docs.carv.io/overview/carv-intro).
## Staking
- **Staking Requirements:**
- Users and node operators can stake $CARV to participate in network governance and earn rewards.
- **Rewards:**
- **Staking Rewards:** Distributed to participants based on their staked amount and contribution to the network.
- **Governance:** Stakers can vote on platform upgrades and ecosystem decisions.
## Additional Resources
- [Official Website](https://carv.io/)
- [Community Link](https://discord.com/invite/carv)
- [GitHub Repository](https://github.com/carv-protocol)
## Documentation
For detailed documentation, visit [Carv Docs](https://docs.carv.io/).
## Additional Resources
- [Official Website](https://carv.io/)
- [Community Link](https://discord.com/invite/carv)
- [GitHub Repository](https://github.com/carv-protocol)
## Ecosystem Components
| Product | Functionality |
| - |-|
| **Banana Mini-Game** | A tap-to-earn game where users accumulate $CARV tokens and rewards. |
| **Modular Data Layer** | A decentralized infrastructure for data management and monetization. |
| **CARV Dashboard** | User-friendly interface for managing data sharing, rewards, and staking. |
## Tokenomics
- **Total Supply:** 1B
- **Distribution:**
- 50% allocated to the community, ensuring long-term growth and sustainability.
## FAQ
1. **Is it usable by the average DePIN user?**
Yes, CARV is designed to be user-friendly, with intuitive interfaces like the Banana mini-game and a comprehensive dashboard for managing data and rewards. It caters to both gamers and data contributors, making it accessible for the average DePIN user.
2. **Can I pay with tokens to use the DePIN product offered by the project?**
$CARV is the primary currency for participating in the platforms ecosystem, including gaming activities and data monetization. Users can also trade $CARV on exchanges like CoinW.
3. **Can tokens be automatically switched from other standard tokens (e.g., ETH, BTC)?**
While $CARV is the native token, users can trade it on exchanges like CoinW. Automatic token switching (e.g., ETH to CARV) is not natively supported but can be done through external exchanges.
4. **If I would provide the service, what is my ROI, do we need to stake, etc.?**
Users and node operators can earn rewards by staking $CARV and participating in the network. ROI depends on factors like staking amount, data contribution, and gaming activity.
5. **Why does the project exist, why do the people and the planet need it?**
CARV exists to empower users with control over their data while creating economic opportunities through gaming and AI integration. It promotes data privacy and decentralization, addressing critical needs in the digital economy.
6. **Is it geo-aware?**
CARVs decentralized nature allows global participation, ensuring flexibility and compliance with local regulations.
7. **Is it cost-effective?**
CARV offers a cost-effective solution for data monetization and gaming rewards, leveraging blockchain technology to reduce reliance on centralized intermediaries.

82
docs/depin_specs/mobility_networks/drife.md
View File

@ -4,34 +4,41 @@ description: Detailed information about Drife
sidebar_position: 4
---
# Drife
# Drife Project
## Overview
Drife is a decentralized ride-hailing platform that allows users to book rides directly with drivers, eliminating the need for intermediaries. It leverages blockchain technology to ensure transparency and fair pricing.
Drife is a decentralized ride-hailing platform built on blockchain technology, aiming to disrupt the traditional ride-hailing industry by empowering drivers and riders. By eliminating intermediaries, Drife creates a peer-to-peer network that offers greater transparency, fairness, and control over interactions between riders and drivers. The platform operates on the DRF token, which serves as the native currency for all transactions within the ecosystem.
## Key Features
- **Currency:** DRF (Drife Token)
- **Buying Currency:** Available on exchanges like KuCoin and Gate.io.
- **Utility:**
- Used for network transactions and incentivizing ride-sharing.
- Staking rewards for network validators.
- **Automation:**
- Smart contracts automate ride bookings and payment processing.
- **Utility in the Project:**
- Users can earn DRF by participating in the ride-sharing network.
- Validators can stake DRF to secure the network and earn rewards.
- **API:** Yes, Drife provides an API for developers to integrate with their applications.
- **Currency:** $DRF (native token).
- **Buying Currency:** $DRF is available on major exchanges like Cetus.
- **Utility:**
- **Payments:** $DRF is used to pay for ride-hailing services, including fares and subscription plans.
- **Staking:** Stake $DRF to participate in the network, earn rewards, and gain governance power.
- **Governance:** $DRF holders can vote on platform upgrades and ecosystem decisions.
- **Automation:**
- Smart contracts automate ride allocation, payments, and reward distribution.
- Dynamic pricing ensures fair and transparent fares based on predefined smart contract criteria.
- **API:** Yes. Drife integrates with various blockchain technologies for seamless deployment of applications.
- **User Perspective:**
- Users can easily book rides and earn DRF tokens by sharing rides.
- **Drivers:** Earn more income with a zero-commission fee structure and participate in the network to receive additional rewards.
- **Riders:** Benefit from transparent fares, secure transactions, and a user-friendly platform.
## How It Works
1. **Step 1:** Users download the Drife app and create an account.
2. **Step 2:** Users can book rides directly with drivers using the app.
3. **Step 3:** Users earn DRF tokens based on their participation in the network.
1. **Resource Aggregation:**
- Drivers register their vehicles on the Drife platform, contributing to a global pool of ride-hailing resources.
2. **Task Allocation:**
- Riders submit ride requests, and the platform matches them with suitable drivers based on location, fare, and other criteria.
3. **Execution & Payment:**
- Rides are executed as per the agreed terms, with payments in $DRF automatically handled through smart contracts.
## Staking
- **Staking Requirements:** Minimum of 5,000 DRF tokens to become a validator.
- **Rewards:** Validators earn a percentage of transaction fees and block rewards.
- **Staking Requirements:**
- Drivers and other participants can stake $DRF to earn rewards and gain governance power.
- **Rewards:**
- **Block Rewards:** Distributed to stakers based on their contribution to network security and activity.
- **Slashing:** Malicious actors lose staked $DRF, ensuring network integrity.
## Documentation
For detailed documentation, visit [Drife Docs](https://drife.gitbook.io/white-paper).
@ -39,4 +46,39 @@ For detailed documentation, visit [Drife Docs](https://drife.gitbook.io/white-pa
## Additional Resources
- [Official Website](https://drife.io)
- [Community Link](https://t.me/Drife_officialchat)
- [GitHub Repository](https://github.com/DrifeTechnologies)
- [GitHub Repository](https://github.com/DrifeTechnologies)
## Ecosystem Components
| Product | Functionality |
| - |-|
| **Drife Mobile App** | User-friendly interface for riders to book rides and drivers to manage their services. |
| **Drife Staking Platform** | Dashboard for participants to stake $DRF, monitor rewards, and engage in governance. |
| **Drife Explorer** | Analytics tool tracking network activity, rewards, and resource utilization. |
## Tokenomics
- **Total Supply:** 1B
- **Distribution:**
- Allocation details for the DRF token can be found in the project's whitepaper.
## FAQ
1. **Is it usable by the average DePIN user?**
Yes, Drife is designed to be user-friendly, with a straightforward interface for both riders and drivers. The platform's focus on transparency and fairness makes it accessible for the average DePIN user.
2. **Can I pay with tokens to use the DePIN product offered by the project?**
Yes, $DRF is the primary currency for paying for ride-hailing services on the Drife platform. Users can also pay with other cryptocurrencies supported by the platform.
3. **Can tokens be automatically switched from other standard tokens (e.g. ETH, BTC)?**
While $DRF is the native token, users can trade it on major exchanges like Cetus. However, automatic token switching (e.g., ETH to DRF) is not natively supported on the platform but can be done through external exchanges.
4. **If I would provide the service, what is my ROI, do we need to stake, etc.?**
Drivers can earn passive income by providing ride-hailing services and staking $DRF. Staking $DRF is required to participate as a driver, and rewards are distributed based on resource contribution and staking amount. ROI depends on resource utilization and market demand.
5. **Why does the project exist, why do the people and the planet need it?**
Drife exists to disrupt the traditional ride-hailing industry by eliminating intermediaries and empowering drivers and riders. It promotes sustainability by utilizing underutilized resources, reducing waste, and offering a decentralized alternative to energy-intensive centralized ride-hailing providers.
6. **Is it geo-aware?**
Drife does not explicitly mention geo-fencing, but its decentralized nature allows users to deploy resources globally, ensuring flexibility and compliance with local regulations.
7. **Is it cost-effective?**
Drife is highly cost-effective, offering ride-hailing services at competitive rates compared to traditional platforms like Uber and Lyft. Dynamic pricing ensures fair and transparent fares, and the zero-commission fee structure allows drivers to earn more income.

97
docs/depin_specs/sensor_networks/dimo.md
View File

@ -4,39 +4,88 @@ description: Detailed information about Dimo
sidebar_position: 5
---
# Dimo
# DIMO Project
## Overview
DIMO means Digital Infrastructure for Moving Objects. It allows vehicle owners to collect, use, and monetize data from their vehicles. It leverages blockchain technology to create a secure and transparent data marketplace.
DIMO (pronounced "Dee-Moe") is a decentralized platform that makes every car on earth smart and programmable. It leverages advances in cryptography, blockchain, cellular networks, and automotive technology to enable any business to build and integrate with the next generation of mobility applications without typical SaaS platform risk. DIMO uses the Ethereum Virtual Machine (EVM) to establish vehicle identity, permissions to access data and controls, rewards, and more. The blockchain allows DIMO to offer openness, privacy, security, and performance guarantees that were previously impossible.
## Key Features
- **Currency:** DIMO (Dimo Token)
- **Buying Currency:** Available on exchanges like Uniswap and SushiSwap.
- **Utility:**
- Used for network transactions and incentivizing data sharing.
- Staking rewards for network validators.
- **Automation:**
- Smart contracts automate data sharing and reward distribution.
- **Utility in the Project:**
- Users can earn DIMO by sharing their sensor data.
- Validators can stake DIMO to secure the network and earn rewards.
- **API:** Yes, Dimo provides an API for developers to integrate with their applications.
- **Currency:** $DIMO (native token).
- **Buying Currency:** $DIMO is available on major exchanges like Coinbase, Gate.io, and KuCoin.
- **Utility:**
- **Payments:** $DIMO is used to pay for various services within the DIMO ecosystem, including access to vehicle data and controls.
- **Staking:** Stake $DIMO to secure the network, earn rewards, and participate in governance.
- **Governance:** $DIMO holders can vote on protocol upgrades and ecosystem decisions.
- **Automation:**
- Smart contracts automate resource allocation, payments, and reward distribution.
- Dynamic pricing ensures cost efficiency by allowing providers to compete for workloads.
- **API:** Yes. DIMO integrates with various APIs for seamless deployment of applications.
- **User Perspective:**
- Users can easily connect their sensors to the Dimo network to share data and earn rewards.
- **Developers:** Build permissionless applications for cars using DIMO's open-source software and hardware specifications.
- **Drivers:** Connect your car to DIMO, earn rewards, and access a growing library of applications and services.
## How It Works
1. **Step 1:** Users connect their sensors to the Dimo network using a compatible device.
2. **Step 2:** The device collects and shares sensor data with the network.
3. **Step 3:** Users earn DIMO tokens based on the amount of data shared.
1. **Resource Aggregation:**
- Drivers connect their vehicles to the DIMO network using hardware devices or integrating with the automaker's connected car platform.
2. **Task Allocation:**
- Users submit tasks, and the platform matches them with the most suitable resources.
3. **Execution & Payment:**
- Tasks run on distributed nodes, with results validated via blockchain. Payments in $DIMO are automated through smart contracts.
## Staking
- **Staking Requirements:** Minimum of 1,000 DIMO tokens to become a validator.
- **Rewards:** Validators earn a percentage of transaction fees and block rewards.
- **Staking Requirements:**
- Users must stake $DIMO to participate in the network, with the amount influencing their reputation and governance power.
- No minimum stake for users deploying applications.
- **Rewards:**
- **Block Rewards:** Distributed to stakers based on their contribution to network security.
- **Slashing:** Malicious actors lose staked $DIMO, ensuring network integrity.
## API Documentation
For detailed API documentation, visit [Dimo API Docs](https://docs.dimo.network).
## Documentation
For technical guides, tokenomics, and API integration:
- [DIMO Docs](https://docs.dimo.org/overview)
## Additional Resources
- [Official Website](https://dimo.network)
- [Community Link](https://community.dimo.network)
- [GitHub Repository](https://github.com/dimo)
- **Official Links:**
- [Website](https://dimo.network) | [GitHub](https://github.com/dimo) | [Twitter](https://twitter.com/akashnet_)
- **Community:**
- [Telegram](https://t.me/akashnw) | [Discord](https://discord.gg/akash)
- **Partnerships:**
- Collaborations with Solana, Cosmos, and other blockchain projects enhance cross-chain interoperability.
## Ecosystem Components
| Product | Functionality |
| - |-|
| **DIMO Console** | User-friendly interface for deploying and managing cloud resources. |
| **DIMO Provider** | Dashboard for providers to monitor resource usage and earnings. |
| **DIMO Explorer** | Analytics tool tracking network activity, rewards, and resource utilization. |
## Tokenomics
- **Total Supply:** 1B
- **Max Supply:** 1B
- **Distribution:**
- 153,664,766.03 circulating supply.
## FAQ
1. **Is it usable by the average DePIN user?**
Yes, DIMO is designed to be user-friendly, with a straightforward interface and comprehensive documentation. It caters to both technical and non-technical users, making it accessible for the average DePIN user.
2. **Can I pay with tokens to use the DePIN product offered by the project?**
Yes, $DIMO is the primary currency for purchasing services within the DIMO ecosystem. Users can also pay with USDC, and credit card payments are now supported for mainstream accessibility.
3. **Can tokens be automatically switched from other standard tokens (e.g. ETH, BTC)?**
While $DIMO is the native token, users can trade it on major exchanges like Coinbase and Gate.io. However, automatic token switching (e.g., ETH to DIMO) is not natively supported on the platform but can be done through external exchanges.
4. **If I would provide the service, what is my ROI, do we need to stake, etc.?**
Providers can earn passive income by renting out idle computing resources. Staking $DIMO is required to participate as a provider, and rewards are distributed based on resource contribution and staking amount. ROI depends on resource utilization and market demand.
5. **Why does the project exist, why do the people and the planet need it?**
DIMO exists to democratize access to vehicle data, promoting sustainability by utilizing underutilized resources, reducing waste, and offering a decentralized alternative to energy-intensive centralized cloud providers.
6. **Is it geo-aware?**
DIMO does not explicitly mention geo-fencing, but its decentralized nature allows users to deploy resources globally, ensuring flexibility and compliance with local regulations.
7. **Is it cost-effective?**
DIMO is highly cost-effective, offering services at competitive rates. Dynamic pricing ensures competitive rates.

106
docs/depin_specs/sensor_networks/hivemapper.md
View File

@ -4,39 +4,85 @@ description: Detailed information about Hivemapper
sidebar_position: 2
---
# Hivemapper
# Hivemapper
## Overview
Hivemapper is a decentralized mapping network that allows users to contribute to a global map by sharing their driving data. It leverages blockchain technology to incentivize users to participate in the network.
## Overview
## Key Features
- **Currency:** HONEY (Hivemapper Token)
- **Buying Currency:** Available on exchanges like KuCoin and Gate.io.
- **Utility:**
- Used for network transactions and incentivizing data sharing.
- Staking rewards for network validators.
- **Automation:**
- Smart contracts automate data sharing and reward distribution.
- **Utility in the Project:**
- Users can earn HONEY by sharing their driving data.
- Validators can stake HONEY to secure the network and earn rewards.
- **API:** Yes, Hivemapper provides an API for developers to integrate with their applications.
- **User Perspective:**
- Users can easily connect their vehicles to the Hivemapper network to share data and earn rewards.
Hivemapper is a decentralized physical infrastructure network (DePIN) that leverages blockchain technology to create a detailed, up-to-date map of the world. By utilizing dashcams and AI, Hivemapper collects street-level imagery in real-time, rewarding contributors with its native cryptocurrency, HONEY. The platform aims to provide a cost-effective, community-driven alternative to traditional mapping services like Google Maps, enabling developers and enterprises to access high-quality, frequently updated map data.
## How It Works
1. **Step 1:** Users connect their vehicles to the Hivemapper network using a compatible device.
2. **Step 2:** The device collects and shares driving data with the network.
3. **Step 3:** Users earn HONEY tokens based on the amount of data shared.
## Key Features
- **Currency:** $HONEY (native token).
- **Buying Currency:** $HONEY is available on major exchanges like Coinbase, Orca, and Kraken.
- **Utility:**
- **Rewards:** Contributors earn $HONEY for submitting dashcam imagery or performing tasks to train AI models.
- **Data Consumption:** Developers burn $HONEY to access map data and build products for customers.
- **Governance:** $HONEY holders can participate in network decisions, such as pricing adjustments for map credits.
- **Automation:**
- AI-driven edge computing and data filtering techniques ensure efficient processing of street-level imagery.
- Smart contracts automate reward distribution and data consumption, maintaining a balance between supply and demand.
- **API:** Yes. Hivemapper provides APIs for developers to integrate map data into their applications.
- **User Perspective:**
- **Contributors:** Earn $HONEY by mapping unmapped roads or updating outdated data using dashcams.
- **Developers:** Access fresh, high-quality map data to build innovative location-based applications.
## Staking
- **Staking Requirements:** Minimum of 1,000 HONEY tokens to become a validator.
- **Rewards:** Validators earn a percentage of transaction fees and block rewards.
## How It Works
1. **Data Collection:**
- Contributors use dashcams to capture street-level imagery, which is uploaded to the Hivemapper network.
2. **Data Processing:**
- AI algorithms process the imagery, filtering and organizing it into usable map data.
3. **Rewards & Consumption:**
- Contributors receive $HONEY tokens as rewards, while developers burn $HONEY to access the data for their projects.
## Documentation
For detailed documentation, visit [Hivemapper Docs](https://docs.hivemapper.com).
## Staking
- **Staking Requirements:**
- While staking is not mandatory for contributors, developers must burn $HONEY to consume map data, creating a deflationary mechanism.
- **Rewards:**
- Contributors earn $HONEY based on the quality and relevance of their submitted data.
- Developers benefit from access to up-to-date map data, enabling them to build competitive products.
## Additional Resources
- [Official Website](https://hivemapper.com)
- [Community Link](https://discord.com/invite/FRWMKyy5v2)
- [GitHub Repository](https://github.com/hivemapper)
## Documentation
For technical guides, tokenomics, and API integration:
- [Hivemapper Docs](https://docs.hivemapper.com)
## Additional Resources
- **Official Links:**
- [Website](https://hivemapper.com) | [GitHub](https://github.com/hivemapper) | [Twitter](https://twitter.com/hivemapper)
- **Community:**
- [Discord](https://discord.com/invite/FRWMKyy5v2)
- **Partnerships:**
- Collaborations with Solana and Jito Labs enhance blockchain integration and liquidity.
## Ecosystem Components
| Product | Functionality |
| - |-|
| **Hivemapper Explorer** | A tool for exploring and analyzing map data collected by the network. |
| **Hivemapper Dashcam** | Specialized hardware for contributors to capture high-quality street-level imagery. |
| **Hivemapper API** | Enables developers to integrate Hivemapper data into their applications. |
## Tokenomics
- **Total Supply:** 6.4B
- **Distribution:**
- Rewards for contributors, data consumption by developers, and ecosystem incentives.
## FAQ
1. **Is it usable by the average DePIN user?**
Yes, Hivemapper is designed to be accessible to both contributors and developers. Contributors can easily participate using dashcams, while developers can integrate map data via APIs.
2. **Can I pay with tokens to use the DePIN product offered by the project?**
Yes, developers must burn $HONEY tokens to access map data for their projects.
3. **Can tokens be automatically switched from other standard tokens (e.g., ETH, BTC)?**
While $HONEY is the native token, it can be traded on exchanges like Coinbase and Orca. Automatic token switching is not natively supported but can be done through external exchanges.
4. **If I would provide the service, what is my ROI, do we need to stake, etc.?**
Contributors can earn $HONEY by mapping roads, with an average daily earning of $2.82 per device. Staking is not required for contributors, but developers must burn $HONEY to access data.
5. **Why does the project exist, why do the people and the planet need it?**
Hivemapper exists to create a decentralized, cost-effective alternative to traditional mapping services. It empowers individuals to contribute to global mapping efforts while providing developers with fresh, high-quality data.
6. **Is it geo-aware?**
Yes, Hivemapper collects geo-specific street-level imagery, ensuring accurate and localized map data.
7. **Is it cost-effective?**
Hivemapper is highly cost-effective, leveraging community contributions to reduce mapping costs compared to traditional methods.

96
docs/depin_specs/sensor_networks/iotex.md
View File

@ -3,40 +3,88 @@ title: Iotex
description: Detailed information about Iotex
sidebar_position: 1
---
# Iotex
# IoTeX Project
## Overview
Iotex is a decentralized IoT platform that allows users to connect and manage IoT devices in a secure and efficient manner. It leverages blockchain technology to create a more reliable IoT ecosystem.
IoTeX is a decentralized platform designed to connect the physical and digital worlds through a modular infrastructure for Decentralized Physical Infrastructure Networks (DePINs). It combines blockchain technology with the Internet of Things (IoT) to create a secure, scalable, and interoperable ecosystem. IoTeX aims to empower the Internet of Trusted Things, where humans and machines can interact with guaranteed trust, privacy, and free will. The platform supports a wide range of applications, including decentralized finance (DeFi), non-fungible tokens (NFTs), and decentralized applications (DApps).
## Key Features
- **Currency:** IOTX (Iotex Token)
- **Buying Currency:** Available on exchanges like Binance and Coinbase.
- **Utility:**
- Used for network transactions and incentivizing IoT device management.
- Staking rewards for network validators.
- **Automation:**
- Smart contracts automate IoT device management and interactions.
- **Utility in the Project:**
- Users can earn IOTX by managing IoT devices.
- Validators can stake IOTX to secure the network and earn rewards.
- **API:** Yes, Iotex provides an API for developers to integrate with their applications.
- **Currency:** $IOTX (native token).
- **Buying Currency:** $IOTX is available on major exchanges like Binance, Coinbase, and KuCoin.
- **Utility:**
- **Payments:** $IOTX is used for transactions, smart contracts, and to access various network resources within the IoTeX ecosystem.
- **Staking:** Stake $IOTX to secure the network, earn rewards, and participate in governance.
- **Governance:** $IOTX holders can vote on protocol upgrades and ecosystem decisions.
- **Automation:**
- Smart contracts automate resource allocation, payments, and reward distribution.
- Dynamic pricing ensures cost efficiency by allowing providers to compete for workloads.
- **API:** Yes. IoTeX integrates with various tools and protocols, including Ethereum Virtual Machine (EVM) compatibility, to enhance interoperability and functionality.
- **User Perspective:**
- Users can easily connect and manage IoT devices and earn IOTX tokens.
- **Developers:** Build decentralized applications and integrate IoT devices using IoTeX's modular infrastructure.
- **Providers:** Monetize idle computing resources by renting them out on the IoTeX marketplace.
## How It Works
1. **Step 1:** Users connect their IoT devices to the Iotex Network.
2. **Step 2:** The network enables secure and efficient management of IoT devices.
3. **Step 3:** Users earn IOTX tokens based on their participation in the network.
1. **Resource Aggregation:**
- Providers register their computing resources (e.g., GPUs, CPUs) on the IoTeX Network, which are pooled into a global marketplace.
2. **Task Allocation:**
- Users submit compute jobs, and the platform matches them with the most cost-effective and suitable resources.
3. **Execution & Payment:**
- Jobs run on distributed nodes, with results validated via blockchain. Payments in $IOTX are automated through smart contracts.
## Staking
- **Staking Requirements:** Minimum of 10,000 IOTX tokens to become a validator.
- **Rewards:** Validators earn a percentage of transaction fees and block rewards.
- **Staking Requirements:**
- Users must stake $IOTX to participate in the network, with the amount influencing their reputation and governance power.
- No minimum stake for users deploying applications.
- **Rewards:**
- **Block Rewards:** Distributed to stakers based on their contribution to network security.
- **Slashing:** Malicious actors lose staked $IOTX, ensuring network integrity.
## Documentation
For detailed documentation, visit [Iotex Docs](https://docs.iotex.io).
For technical guides, tokenomics, and API integration:
- [IoTeX Docs](https://docs.iotex.io/)
## Additional Resources
- [Official Website](https://iotex.io)
- [Community Link](https://community.iotex.io)
- [GitHub Repository](https://github.com/iotexproject)
- **Official Website:** [IoTeX](https://iotex.io)
- **Community Link:** [IoTeX Community](https://community.iotex.io)
- **GitHub Repository:** [IoTeX GitHub](https://github.com/iotexproject)
## Ecosystem Components
| Product | Functionality |
| - |-|
| **IoTeX Console** | User-friendly interface for deploying and managing cloud resources. |
| **IoTeX Provider** | Dashboard for providers to monitor resource usage and earnings. |
| **IoTeX Explorer** | Analytics tool tracking network activity, rewards, and resource utilization. |
## Tokenomics
- **Total Supply:** 9.44 billion IOTX.
- **Max Supply:** 10 billion IOTX.
- **Distribution:**
- 24% allocated in a private sale in February 2018, accounting for 25,000 ETH.
- 6% for community development.
- 15% allocated to the IoTeX team.
- 18% for ecosystem development.
- 25% reserved for the Foundation to guide the projects strategic direction and governance.
## FAQ
1. **Is it usable by the average DePIN user?**
Yes, IoTeX is designed to be user-friendly, with a straightforward interface (IoTeX Console) and comprehensive documentation. It caters to both technical and non-technical users, making it accessible for the average DePIN user.
2. **Can I pay with tokens to use the DePIN product offered by the project?**
Yes, $IOTX is the primary currency for purchasing computing resources on the IoTeX Network. Users can also pay with USDC, and credit card payments are now supported for mainstream accessibility.
3. **Can tokens be automatically switched from other standard tokens (e.g. ETH, BTC)?**
While $IOTX is the native token, users can trade it on major exchanges like Binance and Coinbase. However, automatic token switching (e.g., ETH to IOTX) is not natively supported on the platform but can be done through external exchanges.
4. **If I would provide the service, what is my ROI, do we need to stake, etc.?**
Providers can earn passive income by renting out idle computing resources. Staking $IOTX is required to participate as a provider, and rewards are distributed based on resource contribution and staking amount. ROI depends on resource utilization and market demand.
5. **Why does the project exist, why do the people and the planet need it?**
IoTeX exists to democratize access to decentralized physical infrastructure, reducing costs and increasing accessibility. It promotes sustainability by utilizing underutilized resources, reducing waste, and offering a decentralized alternative to energy-intensive centralized cloud providers.
6. **Is it geo-aware?**
IoTeX does not explicitly mention geo-fencing, but its decentralized nature allows users to deploy resources globally, ensuring flexibility and compliance with local regulations.
7. **Is it cost-effective?**
IoTeX is highly cost-effective, offering computing resources at up to 90% lower costs compared to traditional cloud providers like AWS and Google Cloud. Dynamic pricing ensures competitive rates.

92
docs/depin_specs/sensor_networks/weatherxm.md
View File

@ -4,39 +4,85 @@ description: Detailed information about Weatherxm
sidebar_position: 4
---
# Weatherxm
# WeatherXM Project
## Overview
WeatherXM is a community-powered weather network that rewards weather station owners and provides accurate weather services to Web3 enterprises. It leverages blockchain technology to create a secure and transparent data marketplace.
WeatherXM is a decentralized weather network powered by blockchain technology, designed to provide accurate, hyperlocal weather data. By leveraging a global network of weather stations, WeatherXM aims to revolutionize weather forecasting and data accessibility. The platform rewards weather station owners with $WXM tokens for contributing data, creating a new weather data economy that benefits both individuals and enterprises.
## Key Features
- **Currency:** WXM (Weatherxm Token)
- **Buying Currency:** Available on decentralized exchanges like Uniswap.
- **Utility:**
- Used for network transactions and incentivizing data sharing.
- Staking rewards for network validators.
- **Automation:**
- Smart contracts automate data sharing and reward distribution.
- **Utility in the Project:**
- Users can earn WXM by sharing their weather data.
- Validators can stake WXM to secure the network and earn rewards.
- **API:** Yes, Weatherxm provides an API for developers to integrate with their applications.
- **Currency:** $WXM (native token).
- **Buying Currency:** $WXM is available on major exchanges like MEXC.
- **Utility:**
- **Payments:** $WXM is used to pay for weather data services, including API access and data licensing.
- **Staking:** Stake $WXM to support the network, earn rewards, and participate in governance.
- **Governance:** $WXM holders can vote on protocol upgrades and ecosystem decisions.
- **Automation:**
- Smart contracts automate data verification, rewards distribution, and oracle services.
- Dynamic pricing ensures cost efficiency by allowing providers to compete for data contributions.
- **API:** Yes. WeatherXM offers a REST API for accessing real-time and historical weather data, enabling seamless integration into applications and services.
- **User Perspective:**
- Users can easily connect their weather sensors to the Weatherxm network to share data and earn rewards.
- **Data Contributors:** Deploy weather stations to earn $WXM tokens by contributing accurate weather data.
- **Data Consumers:** Access hyperlocal weather data through the WeatherXM API for various applications, including agriculture, energy, and emergency services.
## How It Works
1. **Step 1:** Users connect their weather sensors to the Weatherxm network.
2. **Step 2:** The sensors collect and share weather data with the network.
3. **Step 3:** Users earn WXM tokens based on the amount of data shared.
1. **Data Collection:**
- Weather station owners set up compatible devices and contribute data to the WeatherXM network.
2. **Data Verification:**
- Contributed data is verified using cryptographic proofs and quality algorithms to ensure accuracy and reliability.
3. **Rewards Distribution:**
- Verified data contributions are rewarded with $WXM tokens, which can be used within the WeatherXM ecosystem or traded on exchanges.
## Staking
- **Staking Requirements:** Minimum of 1,000 WXM tokens to become a validator.
- **Rewards:** Validators earn a percentage of transaction fees and block rewards.
- **Staking Requirements:**
- Users can stake $WXM tokens to support the network and earn additional rewards.
- **Rewards:**
- **Block Rewards:** Distributed to stakers based on their contribution to network security and data validation.
- **Slashing:** Malicious actors lose staked $WXM tokens, ensuring network integrity.
## Documentation
For detailed documentation, visit [Weatherxm Docs](https://docs.weatherxm.com).
For technical guides, tokenomics, and API integration:
- [WeatherXM Docs](https://docs.weatherxm.com/).
## Additional Resources
- [Official Website](https://weatherxm.com)
- [Community Link](https://discord.com/invite/Qe92gtK8M8)
- [GitHub Repository](https://github.com/weatherxm)
- **Official Website:** [WeatherXM](https://weatherxm.com).
- **Community:** [Discord](https://discord.com/invite/Qe92gtK8M8).
- **GitHub Repository:** [WeatherXM GitHub](https://github.com/weatherxm).
## Ecosystem Components
| Product | Functionality |
| - |-|
| **WeatherXM Explorer** | Interactive tool for tracking weather stations and accessing real-time data. |
| **WeatherXM API** | Developer-friendly interface for integrating weather data into applications. |
| **WeatherXM Mobile App** | Companion app for managing weather stations and monitoring data contributions. |
## Tokenomics
- **Total Supply:** 100M
- **Max Supply:** 100M
- **Distribution:**
- 70% allocated to station rewards, ecosystem development, and liquidity support.
- 10% reserved for the DAO treasury to support ecosystem development.
- 5% provided to token exchanges for liquidity support.
## FAQ
1. **Is it usable by the average DePIN user?**
Yes, WeatherXM is designed to be user-friendly, with a straightforward interface and comprehensive documentation. It caters to both technical and non-technical users, making it accessible for the average DePIN user.
2. **Can I pay with tokens to use the DePIN product offered by the project?**
Yes, $WXM is the primary currency for purchasing weather data services on the WeatherXM platform. Users can also pay with other cryptocurrencies through supported exchanges.
3. **Can tokens be automatically switched from other standard tokens (e.g. ETH, BTC)?**
While $WXM is the native token, users can trade it on major exchanges like MEXC. However, automatic token switching (e.g., ETH to WXM) is not natively supported on the platform but can be done through external exchanges.
4. **If I would provide the service, what is my ROI, do we need to stake, etc.?**
Providers can earn passive income by deploying weather stations and contributing data. Staking $WXM is optional but can enhance rewards. ROI depends on the quality and quantity of data contributions.
5. **Why does the project exist, why do the people and the planet need it?**
WeatherXM exists to provide accurate, hyperlocal weather data, which is crucial for various industries and environmental monitoring. It promotes sustainability by utilizing underutilized resources and offering a decentralized alternative to traditional weather services.
6. **Is it geo-aware?**
WeatherXM is geo-aware, with a global network of weather stations that provide hyperlocal data. The platform ensures data accuracy through cryptographic location proofs and quality algorithms.
7. **Is it cost-effective?**
WeatherXM is highly cost-effective, offering competitive pricing for weather data services. The decentralized nature of the network ensures that data contributions are rewarded fairly, reducing costs for both providers and consumers.