Proof of Attendance Protocol (POAP)

The foundational use case. Event organizers mint unique POAPs for attendees, providing a verifiable, non-transferable record of participation. This replaces or supplements physical tickets and lanyards, creating a permanent, tamper-proof ledger of one's presence at conferences, meetups, concerts, or workshops. It combats ticket fraud and scalping while giving attendees a digital memento.

POAPs function as soulbound tokens that accumulate to form a persistent, on-chain reputation graph. Holding specific POAPs can signal:

• Early adopter status (e.g., "Genesis" event attendee)
• Active contributor in a DAO or project
• Completion of educational courses or tutorials This reputation is portable across platforms and applications, enabling trustless verification of a user's history and commitment.

POAPs act as access keys for digital and physical spaces. Smart contracts can check for the possession of a specific POAP to grant privileges, such as:

• Entry to exclusive online chat groups or forums
• Early or discounted access to NFT minting events
• Unlocking special content or features within a dApp
• VIP access to future IRL events This creates a programmable, verifiable layer of permissioning based on proven past behavior.

Brands use POAPs for gamified engagement and loyalty tracking. Users can earn POAPs for completing specific actions, creating a transparent record of customer interaction. Examples include:

• Attending a product launch webinar
• Completing a quest or challenge in a game
• Participating in a brand-sponsored community call These collectibles foster deeper engagement by rewarding participation with a permanent, ownable asset rather than transient points.

Within Decentralized Autonomous Organizations (DAOs), POAPs can be used to prove contribution to a specific initiative, such as participating in a hackathon, voting in a snapshot, or completing a bounty. This on-chain proof can then be used to:

• Weight voting power in governance proposals
• Distribute rewards or tokens fairly based on proven participation
• Form sub-DAOs or working groups composed of proven contributors

Individuals use POAPs to create a verifiable digital scrapbook of life experiences. This extends beyond crypto events to include:

• Commemorating a first blockchain transaction
• Marking the completion of a significant personal goal
• Attending a historic real-world event (e.g., a space launch)
• Celebrating a marriage or other personal milestone on-chain This use case treats the blockchain as a permanent, personal ledger of one's digital and physical journey.

The Proof of Attendance Protocol (POAP) is a standard for minting non-fungible tokens (NFTs) that serve as verifiable, on-chain records of event participation. Each POAP is a unique digital collectible minted on the Ethereum blockchain (or sidechains like Gnosis Chain) and contains metadata about the specific event, including date, location, and a visual design. Issuers use the protocol to create and distribute badges, which attendees claim by proving their attendance, often via a secret QR code or link.

POAPs are primarily used to create a verifiable history of engagement across physical and digital spaces.

• Event Verification: Proving attendance at conferences, meetups, or concerts.
• Community Building: Serving as membership tokens or access passes for exclusive groups and Discord servers.
• Marketing & Loyalty: Rewarding participation in online campaigns, product launches, or educational courses.
• Governance: Some projects use POAP collections to weight community sentiment or as a sybil-resistant signal for airdrops.

POAPs are implemented as ERC-721 tokens with specific metadata extensions. The protocol's smart contracts handle minting and distribution, while a centralized backend (the 'POAP Delivery' system) manages the initial claim process to prevent spam. Key technical components include:

• Claim Links/QR Codes: Unique, time-limited secrets for minting.
• Metadata Storage: Event details and artwork are typically stored on IPFS (InterPlanetary File System).
• Gas Optimization: To reduce costs for users, many POAPs are minted on the Gnosis Chain (formerly xDai) sidechain.

Beyond collectibles, POAPs function as a primitive for a portable reputation graph. A wallet's collection forms an on-chain attestation of interests, affiliations, and real-world activity. This data can be used in a privacy-preserving manner for:

• Sybil Resistance: Differentiating unique humans from bots in airdrops or governance.
• Credit Scoring: Building decentralized identity and reputation systems (e.g., BrightID).
• Contextual Airdrops: Targeting token distributions to proven community participants.

While powerful, the protocol faces several practical and philosophical challenges.

• Centralization Reliance: The claim process depends on POAP, Inc.'s backend services.
• Gas Fees & Scalability: Ethereum mainnet minting costs can be prohibitive.
• Proof-of-Presence vs. Proof-of-Attendance: Merely scanning a QR code does not guarantee genuine engagement.
• Data Privacy: A public, permanent record of life events may have unintended consequences.

Soulbound Tokens (SBTs) are non-transferable digital tokens that represent credentials, affiliations, or achievements, permanently bound to a user's wallet. POAPs are a prominent example and early implementation of this concept. Key characteristics include:

• Non-transferability: They cannot be sold or traded, ensuring the credential is tied to the original recipient.
• Reputation & Identity: They function as building blocks for a user's decentralized identity (DID), creating a verifiable, on-chain resume of experiences and memberships.

POAPs are implemented as non-fungible tokens (NFTs) using specific Ethereum token standards. Initially built on ERC-721, which creates unique, indivisible tokens, many POAPs have migrated to the ERC-1155 standard for efficiency. ERC-1155 allows for:

• Batch Operations: Minting thousands of tokens for an event in a single, gas-efficient transaction.
• Semi-Fungibility: Managing both unique NFTs (like POAPs) and fungible tokens within the same smart contract, optimizing the protocol's infrastructure.

Decentralized Identity (DID) is a framework where users own and control their verifiable credentials without relying on a central authority. POAPs serve as concrete, verifiable credentials within this ecosystem. They allow users to prove participation in events, membership in DAOs, or completion of tasks, contributing to a portable, user-centric digital identity that can be used across different dApps and platforms for access, reputation, or authentication.

Verifiable Credentials are a W3C standard for tamper-evident claims that can be cryptographically verified. A POAP is a specific type of VC implemented on a blockchain. The core components are:

• Issuer: The event organizer or entity creating the POAP.
• Holder: The attendee who receives and stores the POAP in their wallet.
• Verifier: Any party that can cryptographically verify the POAP's authenticity and the holder's claim without contacting the issuer. This creates trustless proof of the claimed action or attendance.

POAPs are a foundational tool for Web3 community building and are often used as a precursor or qualifier for token airdrops. Projects use them to:

• Identify Engaged Users: Reward early supporters, testers, or active community members with a provable record.
• Gate Future Access: Use POAP ownership as a requirement to join exclusive groups, claim airdrops, or access token-gated content.
• Foster Loyalty: Create a gamified system of collectible proofs that encourages ongoing participation and engagement within an ecosystem.

On-chain reputation systems aggregate a user's provable actions and history from blockchain data into a trust score or profile. A collection of POAPs forms a visual and verifiable component of this reputation. By examining a wallet's POAPs, protocols can algorithmically assess:

• Participation History: Consistency and level of engagement in a specific ecosystem.
• Expertise & Roles: Proof of attendance at developer conferences, governance meetings, or educational events.
• Sybil Resistance: A history of unique, real-world interactions that are difficult to fake at scale, helping to distinguish real users from bots.