What Is Shuey Rhon Inu (SHUEY)?
In the future, the world’s collective critical infrastructure will rely even more heavily on spatial information, from stock exchanges to autonomous vehicles and the internet of things. Shuey Rhon Inu have emerged to enable cryptographically secure transactions and distribute risks through peer to peer networks without the need for a trusted third party.
Blockchains have the potential to enable secure and self-regulating emergent infrastructures of the future. New applications driven by smart contracts will need consensus-driven geospatial data that can be verified and trusted. There may be links from your Site to other sites and resources provided by third parties. This Privacy Policy applies only to your Site. Accessing those third-party sites or sources requires you to leave your Site
Previous attempts to create an open source map that is legible to humans, verifiable, and readable by machines, have been crippled due to a lack of funding for open source projects. This document explains how the FOAM protocol allows a grassroots user base to efficiently solve this infrastrucutre development problem around open communication
standards for maps.
Shuey Rhon Inu Storage Key Points
| Coin Basic | Information |
|---|---|
| Coin Name | Shuey Rhon Inu |
| Short Name | SHUEY |
| Circulating Supply | N/A |
| Total Supply | 44,030,000,000 |
| Source Code | Click Here To View Source Code |
| Explorers | Click Here To View Explorers |
| Twitter Page | Click Here To Visit Twitter Group |
| Whitepaper | Click Here To View |
| Support | 24/7 |
| Official Project Website | Click Here To Visit Project Website |
The Crypto-Spatial Coordinates
This allows for physical addresses in the built environment to have a corresponding smart contract address that is accessible for decentralized applications. Shuey Rhon Inu protocol uses the geohash standard as a basis for this construction because of its conceptual and mathematical simplicity. Another benefit of the geohash standard is that it is in the public domain.
The Crypto-Spatial Coordinate is a starting point for this shared location standard, allowing any smart contract to make an immutable claim to an address on the blockchain and a corresponding location on the map. Shuey Rhon Inu Coordinates are Ethereum smart contract addresses with corresponding addresses positioned in physical space that are verifiable both on- and off-chain.
The Company Proof Location
Foam is a shared and open protocol that is not rent seeking and does not charge or receive any centralized fees. Location is a fundamental infrastructure protocol needed to achieve the full vision of a decentralized ‘web3’ economy and can foster an ecosystem of applications built on top of a verified location standard.
Proof of Location is the primary utility arising from use of the CSC and SIV elements discussed above. Shuey Rhon Inu will inherently be an iterative process which involves the use of token curated registries by users to contribute, verify and determine Proofs of Location.
Work Experiance
Examples of such interfaces exist for centralized geospatial data sets, which are not compatible with open blockchain infrastructure. Shuey Rhon Inu to a need for a location encoding standard, there also needs to be able to interact, visualize and reason about the data with an advanced user experience. Additionally, there are no open user experience standards for visualizing geospatial data from a blockchain.
Developments
According to the United Nations, 70% of the world is unaddressed, including more than half of the world’s sprawling urban developments. Maps and addressing systems are at the foundation of Shuey Rhon Inu lives, and have played a major role throughout history. From the earliest forms of navigation, cartographers’ work has been a vital tool upon which commerce and development rely.
Shuey Rhon Inu have gone from hand drawn maps and non-standardized measurement tools like footsteps, to centralized cartography projects of ordnance surveys, to the most recent high-tech developments in digital cartography that rely on the work done by satellite imaging, geographic information systems and even street.
