BOScoin vs Cardano vs FOAM
What problem does this service solve?
BOScoin wants to make a protocol for better smart contracts that will ensure that these blockchain-based agreements will always provide a binary response. | Cardano is a blockchain project that is based on peer to peer review. Cardano's smart contract platform aims to become the internet of blockchains. Their goal is to create a research driven decentralized network that is more sustainable and scalable than others. | FOAM aims to to bring location data to blockchains and enable consensus driven mapping. |
Token Stats
Company Description
BOScoin is a South Korean company that is developing a self-evolving cryptocurrency platform for trust contracts. It uses an embedded decision-making system called Congress Network and has a Proof-of-Stake (PoS) consensus mechanism. BOScoin is working to construct an algorithm for smart contracts that will ensure binary responses. BOScoin tries to solve this problem of undecidability of smart contracts by using a domain-specific language understandable by the average user. It also tries to mathematically demonstrate the decidability of its smart contracts’ implementation. To do this, they've introduced the concept of Trust Contracts; which are securely executable contracts based on a technology called Owlchain. | The Cardano blockchain is a 3rd generation blockchain platform that was designed with a collaborative peer-to-peer review system, It aims to improve upon prior blockchain systems to enable larger and more sustainable uses of the technology. | FOAM is developing a blockchain-based location service protocol for embedding physical locations in Ethereum smart contracts. The FOAM network will use radio beacons and will provide incentives for decentralized location services that will be given by network participants. Users will stake tokens to become zone anchors, that will work with radio beacons to return location data to the network. FOAM's Proof of Location protocol will be used to confirm consensus on the location of objects and entities in space and time. |