Self-regulating Network

Network

        • Every participant can refer to secure track records from project track records possessing cryptographic provenance.
        • A symbiotic global network of projects and stakeholders to significantly improve the efficiency of complex projects.

Collaboration

        • Collaborative Project planning with consensus that is non-repudiable when achieved.
        • Any project milestone, planned or achieved, can be securely and provably endorsed by any relevant stakeholder.

Self-Regulation

        • Changes are automatically transmitted to affected milestones & participants through the hash-linked project network.
        • Project progress can be automatically tracked across all participants.

Self-regulating Network

Network

        • Every participant can refer to secure track records from project track records possessing cryptographic provenance.
        • A symbiotic global network of projects and stakeholders to significantly improve the efficiency of complex projects.

Collaboration

        • Collaborative Project planning with consensus that is non-repudiable when achieved.
        • Any project milestone, planned or achieved, can be securely and provably endorsed by any relevant stakeholder.

Self-Regulation

        • Changes are automatically transmitted to affected milestones & participants through the hash-linked project network.
        • Project progress can be automatically tracked across all participants.

Distributed Smart Contracts

Smart Contracts

        • Project schedules and planned performance can be encoded into smart contracts.
        • Smart contracts contain logic to determine value creation and automate value transfer upon milestone achievement.

Payments

        • Project funds and payments are builtin using native tokens and can be automated.

Distributed Smart Contracts

Smart Contracts

        • Project schedules and planned performance can be encoded into smart contracts.
        • Smart contracts contain logic to determine value creation and automate value transfer upon milestone achievement.

Payments

        • Project funds and payments are builtin using native tokens and can be automated.

Authentication & Security

Authentication

        • PKI infrastructure for authenticating projects and participants
        • Non-repudiable commitments and work-records

Security

        • Sensitive project and participant data can be secured using the underlying crypto architecture.

Authentication & Security

Authentication

        • PKI infrastructure for authenticating projects and participants
        • Non-repudiable commitments and work-records

Security

        • Sensitive project and participant data can be secured using the underlying crypto architecture.

Asset-backed Tokens

cybereum™ will have 2 native tokens backed by real value:

Token1

        • The PayToken will represent the project budget. It is backed by external stores of value.
        • Any combination can be chosen flexibly across asset classes & borders: fiat currency, crypto tokens, commodities etc.

Token2

        • The ValToken is created on cybereum™ in a project, and represents project created value.
        • It will be traded for Token 1 during project execution at payment milestones. It encodes ownership of the Project created value, becoming an asset-backed token.

Asset-backed Tokens

cybereum™ will have 2 native tokens backed by real value:

Token1

        • The PayToken will represent the project budget. It is backed by external stores of value.
        • Any combination can be chosen flexibly across asset classes & borders: fiat currency, crypto tokens, commodities etc.

Token2

        • The ValToken is created on cybereum™ in a project, and represents project created value.
        • It will be traded for Token 1 during project execution at payment milestones. It encodes ownership of the Project created value, becoming an asset-backed token.
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Components

Components

Blockchain

  • Project Milestone Network encoded as DAG with Hash Pointer linked Milestones
  • Each Milestone encoding smart contracts encoding project progress with cryptographic provenance bound to public keys of Project Participants.
  • Transparent commitment of the project value creators to an execution plan with probity and provenance.
  • An immutable baseline during planning and tracking during execution

PKI

  • Project Public Key Infrastructure with identity and work record binding to public keys of projects and project participants.
  • Agents contributing to projects are uniquely identified by Public Keys and have Private keys known only to them. The Public key-Agent binding serves as the unique identity. These Keys can be generated in the project environment.
  • These verified key bindings will form an infrastructure of Agents with verified work records.

Smart Contracts

  • Smart Contracts stored at Milestones on the blockchain to execute when defined project conditions are realized.
  • Smart contracts will encode the logic for realizations of contracted work. They are easier to check and execute compared to lengthy paper contracts whose implications are difficult to predict, and are difficult to comprehend.
  • Smart contracts will code in performance rewards, allow for change & automate value transfer upon milestone achievement.

Data Analytics

  • Project Network Analysis,
  • Clustering and Classification of projects for Reference Class Forecasting (RCF)
  • Machine Learning
  • The record of Baseline and Actual Project blockchains have cryptography based Provenance and Immutability
  • They offer a reliable learning dataset for Machine Learning and a source for understanding actual Project Execution issues.
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Project Network as Hash Linked DAG - "multidimensional" Blockchain

Next Steps...

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