The Digital Trust Ecosystem

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Knowledge base/

SDNP

The security of the HyperSphere platform is achieved by utilizing its own dedicated communication protocol, SDNP. The Secure Dynamic Network and Protocol (SDNP) combines autonomous dispatcher-based packet routing and fragmented data transport of anonymous data packets over a meshed network with hop-by-hop dynamic encryption and state-based concealment techniques to repel packet hijacking, man-in-the-middle attacks, and metadata surveillance of network traffic. Originally developed and deployed in professional communication and mission critical communication, SDNP uses proven, fifteen years' experience field-tested technology.

HyperNode

Personal computer, data center, laptop or mobile device running HyperSphere connects to the global Meshed Network and becomes a HyperNode. User running HyperNode is able to operate in HyperSphere ecosystem and use embedded services.

Meshed Network

HyperSphere's Meshed Network is the decentralized distributed network formed with HyperNodes. All data in HyperSphere is transferred via Meshed Network, protected with SDNP protocol.

HyperContract

Transactions in the HyperSphere occur using digitally specified procedures called HyperContracts issued by HyperSphere merchants and service providers to solicit and contractually stipulate deliverables from HyperNode resource providers. Every HyperContract comprises a job specification and a token reward pledge describing the compensation reserved, i.e. pledged, for payment to resource providers participating in the contract’s successful execution (including jurors and backup nodes).

Trust Ecosystem

Trust Ecosystem is the digital space, where all the users of HyperSphere interract and do business. The aim of Trust Ecosystem is to offer secure ways of solving modern business and personal issues between unknown parties. Deals inside Trust Ecosystem are made via HyperContracts, letting both parties to ensure all the details of future cooperation including insurance against contract frustration.

DyDAG Blockchain

DyDAG is personalized and multi-tree blockchain. The various trees inside DyDAG are light-weighted and individual (unlike heavy single chains in current cryptocurrencies), adding obvious benefits to the system. Personal or enterprise blockchain ownership is now possible through an identity-trust-chain. Unique cloaked jury-of-peers technology makes DyDAG blockchain resistant to back-tracing and ensures tamper-proof consensus mechanism for transaction validation. In the HyperSphere, all blockchain-to-blockchain asset transfers are executed through HyperContracts. At contract completion all credit-debit transactions are recorded and time stamped as debits on the payor’s DyDAG blockchain and as credits on the payee’s private blockchain.

HyperID

HyperID is the embedded digital identity system, assigning a unique identity certificate for every registered user of HyperSphere. HyperID verifies that authentication, funds transfer and other sensitive actions are really performed by user

Resource Provider

Business or individual lending it's computing resources to other users via HyperContract is qualified as Resource Provider. Resource Providers usually get token reward for provided resources, utilizing existing data centers or personal computers.

Service Provider

Business or individual building services based on HyperSphere and/or using HyperSphere's API is qualified as Service Provider. Commonly, Service Providers use computing resources of HyperSphere as secure cloud for their digital infractructure. Deals with customers are often made via HyperContracts.