Geodnet (GEOD)

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Overview

What is Geodnet?

Geodnet (ticker: GEOD) is a decentralized network that improves how devices know their exact location on Earth. Instead of depending on standard GPS alone, Geodnet uses a global web of small ground stations that listen to satellite signals and send correction data over the internet. With these corrections, phones, robots, drones, tractors, and survey tools can reach centimeter‑level accuracy, far beyond ordinary GPS. The project uses a blockchain-based token, GEOD, to reward people who host stations, to govern network rules, and to pay for high-precision data services. (geodnet.com)

What makes it different?

Two ideas set Geodnet apart. First, it follows the DePIN (decentralized physical infrastructure) model: real people deploy real hardware, and cryptographic rewards help build coverage fast. Second, Geodnet ties network revenue to the token through a buyback-and-burn policy: 80% of data revenue is used to purchase GEOD on the market and permanently burn it. This links long‑term token supply to real‑world usage of the network. (vaneck.com)

Geodnet is multi‑chain. GEOD launched on Polygon (ERC‑20), later expanded to Solana (SPL) via Wormhole’s Native Token Transfer framework, and also exists on IoTeX. A foundation in Singapore stewards the protocol and ecosystem. (docs.geodnet.com)

History & Team

Founding and organization

Geodnet began in 2021 with a small team of navigation, geodesy, and blockchain specialists. Mike A. Horton serves as Project Creator; Yudan Yi leads GNSS (satellite navigation) efforts; and David Chen heads blockchain development. The network is coordinated by the GEODNET Foundation, a non‑profit entity based in Singapore. Early test deployments in 2022 matured into a public network as more “satellite miner” stations came online and governance tooling launched. (geodnet.com)

In 2024, the community approved bridging GEOD between Polygon and Solana (GIP‑3). In 2025, the team proposed GIP‑7 to consolidate activity on Solana and tune mining capacity to match real coverage needs, while keeping a smooth transition path for holders. These steps reflect a steady evolution of the project’s on‑chain architecture and community governance. (reddit.com)

Funding and backers

Geodnet has attracted a mix of crypto funds, strategic investors, and industry partners:

• 2023: Borderless Capital led a private $1.5M token round, with participation from IoTeX and angels. (businesswire.com)
• Early 2024: A $3.5M seed round was led by North Island Ventures, joined by Modular Capital, Road Capital, Tangent, Reverie, Borderless, and IoTeX. (gpsworld.com)
• April 2024: A $2M strategic round included CoinFund, Pantera, VanEck, and Santiago R. Santos. (businesswire.com)
• February 2025: Multicoin Capital led an $8M strategic purchase of GEOD from the Foundation, with participation from ParaFi and Digital Asset Capital Management (DACM). (coindesk.com)

On the partnership side, Animoca Brands announced an investment and collaboration to explore consumer and gaming use cases that depend on precise location. (animocabrands.com)

Technology & How It Works

The network: GNSS, RTK, and why it matters

Most smartphones and IoT devices use GNSS (global navigation satellite systems) like GPS, Galileo, BeiDou, and GLONASS. While good for navigation, raw GNSS can be off by several meters because of atmospheric changes, satellite clock drift, and other errors. Geodnet’s ground stations—called satellite reference stations or “satellite miners”—measure these errors in real time and broadcast correction data. Devices that receive these corrections use a technique called Real‑Time Kinematics (RTK) to fix their position to within centimeters, often with sub‑second latency. This accuracy enables robots, drones, farm equipment, AR devices, and survey tools to operate more safely and efficiently. (geodnet.com)

Each station is typically low‑power (under ~2W), relays 10–20 GB of signal data per month, and covers an area roughly 20–40 km in radius. Stations do not transmit radio waves; they only receive satellite signals and send data to the network over the internet. (geodnet.com)

Mining, rewards, and quality control

Running a well‑placed, high‑quality station earns GEOD daily. The network uses clear rules to push coverage where it is needed and to maintain data quality:

• Halving schedule: Base rewards follow a yearly halving cycle, with emissions decreasing each July 1. Before July 2024, a high‑end triple‑band station could earn up to 48 GEOD/day, stepping down by half each year thereafter. (docs.geodnet.com)
• Location NFT and hex rules: The first station to meet quality standards in a geographic hex earns a Location NFT and receives the full share of rewards in that hex; later stations share what remains, with anti‑clustering rules to prevent “stacking” in one spot. (docs.geodnet.com)
• Performance‑based rewards: After a 2025 governance vote (GIP‑6), stations with better uptime and signal quality earn more, while underperformers lose rewards that are reallocated to a bonus pool for reliable “backbone” stations. (docs.geodnet.com)

The Foundation also runs “SuperHex” staking campaigns in priority regions. Community members stake GEOD to activate a targeted seven‑hex area; when it goes live, newly deployed stations there get extra rewards. This crowdsources coverage and aligns incentives with end‑user demand. (support.geodnet.com)

Multi‑chain design and bridge

GEOD exists as an ERC‑20 token on Polygon and as an SPL token on Solana. A Wormhole Native Token Transfer (NTT) bridge allows holders to move GEOD between chains via an official portal. The Solana launch (approved via GIP‑3) added access to Solana’s DePIN ecosystem and liquidity venues. An IoTeX version of GEOD also exists for users in that ecosystem. (docs.geodnet.com)

Tokenomics & Utility

Supply, emissions, and buyback‑and‑burn

GEOD has a fixed maximum supply of 1 billion tokens. New tokens are emitted to station operators and other stakeholders according to a published schedule with annual halvings, while allocations for the team, investors, and the ecosystem unlock over multiple years. (geodnet.com)

A defining feature is the revenue link: 80% of Geodnet’s data revenue is used to buy back GEOD on the open market and then burn the tokens, permanently removing them from supply. The remaining 20% goes to the Foundation treasury to fund operations and growth. This policy makes token supply respond to real network usage and has been tracked publicly by analytics providers. (vaneck.com)

What GEOD is used for

• Network incentives: Mining rewards and SuperHex staking align coverage with real demand.
• Payment: Customers can pay for RTK data, APIs, and services; while many enterprise buyers use fiat rails, the revenue still drives on‑chain buybacks and burns. (support.geodnet.com)
• Governance: Holders can participate in protocol decisions through a governance platform that uses “veNFT” voting power tied to Location NFTs, staked tokens, and time‑locked positions. (vote.geodnet.com)

Ecosystem & Use Cases

Robotics and autonomy

Robots and automated machines need to know “Where am I?” with great precision. Geodnet’s centimeter‑level corrections help autonomous vehicles, last‑mile delivery bots, robotic lawn mowers, and industrial robots localize accurately, especially when cameras or LiDAR are less reliable. Investors have highlighted this “physical AI” angle as a major tailwind for the network. (multicoin.capital)

Drones and reality capture

In March 2025, DroneDeploy and the GEODNET Foundation announced a partnership that integrates access to Geodnet’s RTK network into DroneDeploy’s workflows for surveying, construction, energy, and utilities. This lowers friction for enterprise UAV teams that need precise, repeatable measurements. (businesswire.com)

Agriculture, mapping, and industrial use

Geodnet’s data supports precision farming (auto‑steer tractors, field mapping), utility locating, and professional surveying. Quectel, a major GNSS module maker, partnered with Geodnet to bundle RTK correction services with its hardware line, aiming to bring centimeter‑level positioning to mass‑market devices. Geodnet has also announced partnerships in utility mapping through companies such as UTTO. (businesswire.com)

Developer and enterprise tooling

The project has released an enterprise portal and API options for RTK and post‑processing (PPK), making it easier for developers and companies to integrate high‑precision positioning. These services complement the hardware product stack—certified reference stations and consumer‑oriented receivers—so builders can go from prototype to production with the same correction network. (businesswire.com)

Advantages & Challenges

Advantages

• Real‑world utility: The network solves a clear problem—turning meter‑level GNSS into centimeter‑level accuracy—and does so globally. (geodnet.com)
• DePIN growth loop: Token incentives encourage people to place stations where coverage is thin, speeding expansion without massive central capital outlays. (geodnet.com)
• Token–revenue link: The 80% buyback‑and‑burn ties token supply to paid demand for data, a transparent mechanism uncommon in many networks. (vaneck.com)
• Multi‑chain reach: Availability on Polygon and Solana broadens wallet and exchange access and plugs into active DePIN ecosystems. (docs.geodnet.com)
• Industry traction: Partnerships with enterprise platforms (e.g., DroneDeploy) and hardware makers (e.g., Quectel) show growing adoption. (businesswire.com)

Challenges

• Hardware footprint: Earning tokens requires installing a station, finding a good roof or mast location, and maintaining uptime. Placement rules (e.g., hex and anti‑cluster rules) favor early, well‑sited stations. (docs.geodnet.com)
• Emission pressure: Rewards halve each year. While this can support sustainability, it reduces raw token output to miners over time, shifting focus to quality and location. (docs.geodnet.com)
• Competition: Traditional correction networks and new entrants compete on coverage, latency, and price; Geodnet’s model and partner ecosystem aim to keep a cost and performance edge. (vaneck.com)
• Multi‑chain migration: The move to deepen Solana support (GIP‑7) requires users to bridge or adapt, though official tools and incentives have eased the transition. (medium.com)

Where to Buy & Wallets

Geodnet can be purchased on centralized exchanges such as Gate.io and MEXC. On Polygon, GEOD trades on decentralized exchanges like QuickSwap and Uniswap. On Solana, GEOD/SOL is available on Orca, Raydium, and aggregators such as Jupiter. An IoTeX version of GEOD trades on Mimo. (docs.geodnet.com)

GEOD is available on Polygon (ERC‑20), Solana (SPL), and IoTeX. MetaMask supports the Polygon token, while Phantom and Solflare support the Solana token. IoPay can be used for the IoTeX token. An official bridge run by the project lets holders move GEOD between Polygon and Solana using Wormhole’s Native Token Transfer standard. (docs.geodnet.com)

Regulatory & Compliance

Geodnet is coordinated by a Singapore‑based non‑profit foundation, which develops the open protocol, runs community processes, and maintains enterprise interfaces for data services. Because exchanges are the main on‑ramp for the token, platform‑level KYC/AML rules typically apply where required by local law. The project’s data customers often pay through traditional channels, and the Foundation uses those receipts to conduct on‑chain buybacks and burns according to policy. This hybrid setup—fiat payments feeding an on‑chain treasury policy—fits common enterprise workflows while keeping tokenomics transparent on public ledgers. (geodnet.com)

Views on shariah compliance vary. Some analysts argue GEOD can be considered halal when used ethically because the network provides a real, measurable service (precision positioning), avoids interest‑bearing lending, and does not rely on games of chance. Others point out that the project has no formal, widely recognized shariah certification, so they do not classify it as shariah compliant in an official sense. The assessment often depends on whether a reviewer accepts network rewards, staking mechanisms, and buyback‑and‑burn models as compatible with Islamic finance principles. In practice, community members who prioritize Islamic compliance look for rulings by qualified scholars or boards before participating. (General context on utility, payments, and token burns drawn from official docs and communications.) (docs.geodnet.com)

In sector‑specific regulation, Geodnet’s correction services are being integrated into professional workflows. Industry coverage has noted recognition and compliance milestones for RTK services in certain jurisdictions, and the project has presented its architecture through technical bodies and conferences, reflecting ongoing engagement with standards and policy. (messari.io)

Future Outlook

Geodnet’s roadmap centers on three themes:

• Depth over breadth: Governance proposals (such as GIP‑7) aim to cap excessive station density and focus on reliability, reducing noise while improving service quality. The performance‑based reward model supports that shift. (medium.com)
• Ecosystem expansion: Partnerships with drone platforms, IoT module makers, and utility‑mapping tools broaden distribution. As more off‑the‑shelf devices ship with RTK‑ready chipsets, bundled access to Geodnet’s network should lower barriers for developers and end users. (businesswire.com)
• Token sustainability: The 80% buyback‑and‑burn policy ties value accrual to real demand for data. As coverage and enterprise usage grow, third‑party research has modeled scenarios in which revenue‑driven burns can offset a larger share of emissions over time, supporting a more sustainable supply curve. (app.blockworksresearch.com)

With its multi‑chain footprint and a clear product‑market fit in positioning, Geodnet is positioned to benefit from the rise of “physical AI” systems—robots, drones, and machines that need trustworthy, lane‑level localization at consumer‑friendly cost. Continued progress will likely hinge on maintaining high station quality, deepening integrations, and keeping governance responsive as usage patterns evolve. (multicoin.capital)

Summary

Geodnet turns a complex geospatial challenge into a simple promise: make precise location fast, affordable, and available almost everywhere. It does this by aligning thousands of independently run stations with a token economy that rewards coverage where it matters and quality when it counts. The network’s fundamentals—centimeter‑level accuracy, a transparent buyback‑and‑burn policy, and active governance—give it a clear identity within the DePIN movement. As partnerships bring RTK into mainstream hardware and software, and as on‑chain mechanics continue to connect network usage with token supply, Geodnet has emerged as a practical bridge between blockchain incentives and real‑world positioning services. (geodnet.com)