LIFE Network Service Health Wallet (LNS Health Wallet)

1. Vision: Combining Data Sovereignty and Medical Innovation

In modern society, healthcare data is growing exponentially, but its potential remains untapped due to fragmented data silos, privacy concerns, and a lack of data sovereignty. This leads to delays in drug development and stagnation in precision medical research, resulting in individuals—the true owners of the data—being alienated from its value.

LNS Health Wallet is a decentralized healthcare data infrastructure proposed to fundamentally solve these problems. It aims to be a next-generation platform where "Verified Medical Data," recognized for its practical value by pharmaceutical companies and research institutes, is securely distributed, moving beyond a simple recording service.

We build a transparent data ecosystem that all participants can trust by combining blockchain-based data sovereignty guarantees with the latest privacy-enhancing technologies. In particular, through a strong partnership with the Medical AI Alliance (MAA), Korea's leading consortium of medical AI companies, we establish a virtuous cycle that provides fair rewards to users for their data contributions and flawless, high-quality data to demanders.

Data contributors within the ecosystem are rewarded with LNS Coins ($LNS), and the scarcity of tokens linked to ecosystem activation is maintained through a model that systematically burns a portion of platform usage fees. LNS Health Wallet will open a new medical data paradigm where individual health data becomes a human asset for overcoming diseases and all participants share the results.

2. Market Problem: Data Fragmentation and Lack of Trust

The modern healthcare industry has constantly strived to utilize data for the advancement of human health. However, despite the exponential growth in the volume of data, it is not being utilized as a core asset to drive actual medical innovation. The LNS Health Wallet project focuses on this problem from the following three perspectives:

2.1 Data Fragmentation: Potential Value Loss of Hundreds of Billions of Dollars

The most fundamental problem is the technical and institutional fragmentation of medical data, known as the "Data Silo" phenomenon.

Fragmented Ecosystem: An individual's health information is scattered across hospital Electronic Medical Records (EMR), Picture Archiving and Communication Systems (PACS), insurance claim data, and personal wearable devices. Due to differing standards and closed management systems, integrated utilization of this data is fundamentally impossible.
Astronomical Economic Loss: Research showing that up to $750 billion in value is wasted annually in the U.S. alone due to inefficient data management and system failures clearly illustrates the severity of this problem. This represents more than just a cost issue; it signifies an opportunity cost leading to stagnation in precision medical research and delays in drug development.
Limits of IT Powerhouses: Even countries like South Korea, which have achieved world-class IT infrastructure and digitalization of national health information, have failed to solve the problem of data isolation due to the limitations of the centralized data paradigm. As long as data is managed centered on institutions rather than individuals, it is nearly impossible to derive integrated health insights that span an individual's entire life cycle.

2.2 Data Contamination: Unreliable Information and R&D Inefficiency

The issue of whether data is "trustworthy" is more important than the volume of data. However, most personal health data currently in circulation has clear limitations in being recognized for its medical utility.

Limits of Self-Entered Data: Information entered subjectively by users is constantly exposed to the risk of memory distortion or falsification. This "contaminated data" cannot be used as evidence for pharmaceutical drug development, where trillions of won are invested, or for clinical trials requiring a high degree of precision.
The AI "Black Box" Problem: When existing artificial intelligence technology is trained on biased or insufficient data, it produces "black box" results where the logical basis cannot be explained. In medical settings dealing with human lives, intelligence with unknown causes lacks the reliability to serve as a basis for final judgment, even if it can serve as a reference for decision-making.
Redundant Investment and Research Isolation: To secure reliable data, pharmaceutical companies each spend massive amounts of capital to design closed clinical trials and collect data. This redundant investment, occurring in an environment where data is not shared, is a key cause of chronic inefficiency, driving drug development periods to over 10 years and costs to over $1 billion.

2.3 Security and Reward: Lack of Data Sovereignty and the Regulatory Dilemma

While trust is the core driver of the data economy, current centralized systems face a serious crisis of trust.

Individual Alienation in Value Creation: Individuals, the true owners of the data, cannot transparently know by whom and for what purpose their sensitive information is being used. Consent for data utilization hidden behind complex terms is merely a formal procedure, and it is virtually impossible to regain control over data once it has been provided.
Absence of Economic Rewards: Pharmaceutical companies and research institutions generate enormous commercial profits using personal data, but individuals—the parties who produced the data—are thoroughly excluded from that value. The absence of a fair reward system fundamentally blocks the motivation for individuals to provide data, leading to a shortage of data supply for the entire industry.
The Regulatory Dilemma: Increasingly strict personal information protection regulations, such as GDPR (Europe) and HIPAA (USA), are essential for personal privacy but simultaneously act as a huge regulatory risk for companies and researchers. The fear of legal penalties makes companies passive in data utilization, resulting in a slowdown in the pace of medical innovation. Ultimately, there is a lack of technical solutions that can achieve both privacy protection and data utilization.

3. LNS Solution: Verified Data and Trust Technology Architecture

LNS Health Wallet goes beyond simply integrating fragmented medical data; it provides a complete value-creation architecture that technically guarantees data integrity and grants users full data sovereignty. This solution consists of two core pillars: building "Verified Data Assets" on an "Immutable Trust Foundation."

3.1 Blockchain-enabled Trust Foundation

We implement absolute trust among ecosystem participants through a technically immutable system that goes beyond mere policy declarations.

LNS ID & Realization of Data Sovereignty (DID & Data Vault): Users directly manage their "Data Vault" through "LNS ID," a blockchain-based Decentralized Identifier (DID). Data control is protected by technical cryptographic keys rather than a company's terms of service, and no one can access the data without the user's explicit digital signature (consent). This transforms data sovereignty from a legal concept into a practical technical reality.
Strong Privacy Protection Technology (TEE & ZKP): We apply Trusted Execution Environment (TEE) and Zero-Knowledge Proof (ZKP) technologies for the secure analysis of sensitive medical information. These allow for the verification of data authenticity or the derivation of analysis results without exposing the raw data externally, fundamentally blocking data leakage risks while maintaining high data utility.
Transparent Consensus and Automated Reward System: The entire process, from granting data access rights to consent history and reward payments, is executed by smart contracts on the Solana blockchain. Records of "who accessed the data, when, and for what purpose" are immutable, and LNS Coin rewards are automatically distributed when conditions are met, ensuring a transparent and fair exchange of value.

3.2 Verified Data Asset Formulation

The value of LNS stems from uncontaminated "Verified Medical Data." We build high-quality data assets by minimizing low-reliability self-entered data and establishing direct linkages with authoritative institutions and devices.

3.2.1 Individual Contribution: "Longitudinal Verified Data"

We collect continuous data that spans an individual's entire life cycle through system integration.

Certified Health Indicators: We provide objective health baselines by collecting standardized indicators such as blood pressure, blood sugar, and cholesterol linked with national health checkup results.
Medical History and Family History: We integrate professional medical background information for genetic tendency analysis, as well as diagnoses, surgical records, and prescription history through integration with hospital EMRs.
Sasang Constitutional Medicine Data: We analyze individual disease vulnerability from a new perspective by combining traditional Sasang constitutional diagnosis results with modern clinical data.
Real-time Life Logs: We perform precise analysis of the correlation between lifestyle habits and health through sleep, heart rate, and activity data automatically collected 24 hours a day via wearable device SDKs.

3.2.2 Institutional Contribution: "Premium Bio Data"

Expert-grade data provided by Medical AI Alliance (MAA) member companies completes the reliability of the assets.

Global Clinical and Drug Development Standard Data: Global pharmaceutical and bio-specialized groups within the MAA supply clinical data, which is the core of drug development.
(Example) The vast clinical data and expertise secured during global clinical processes elevate the reliability of LNS data to a world-class level. Furthermore, precision data generated throughout the entire cycle of Active Pharmaceutical Ingredients (API) and Contract Development and Manufacturing Organization (CDMO) services are combined to build a "Gold Standard" dataset that pharmaceutical companies can immediately utilize for research.
AI Diagnosis-based Precision Medical Datasets: Leading companies in the medical AI field add depth to the platform's analysis through highly refined diagnostic analysis data.
(Example) High-resolution biosignal data generated 24 hours a day in actual medical settings, such as intensive care units, is linked in real-time along with AI diagnostic imaging data for serious diseases like stroke or cancer. Added to this are unstructured clinical notes from medical staff, structured through AI voice recognition technology, turning simple numbers into "contextual medical information."
Lifestyle-integrated Precision Diagnosis and Global Empirical Data: We secure data that connects daily life with clinical practice through medical devices and global hospital networks.
(Example) Lifestyle data measured through body composition analysis and precision diagnostic devices provides a multi-dimensional view of a user's usual health status. In particular, local clinical data secured through cooperation with global large-scale hospital networks, such as those in Indonesia, serves as strong evidence proving that the platform's solutions are valid across various races and environments worldwide.
Data Integrity Guarantee and Security Infrastructure Technology: The entire process of collecting and distributing institutional data is protected by top-tier security technology.
(Example) Advanced security authentication technology, essential for MyData businesses and telemedicine, is applied to fundamentally block the risk of integrated data being leaked or manipulated. This serves as the technical foundation for institutions to provide data with confidence and for demanders to 100% trust the integrity of the data.

3.2.3 LNS Campaign: Active Data Participation Model

LNS Health Wallet provides an active participation model where users do not just passively store data but add value to the ecosystem and receive rewards by participating in "Campaigns" with specific purposes.

Participatory Mission Structure: Various campaigns opened by pharmaceutical companies, research institutes, or the LNS Foundation are available on the platform. Users can choose to participate in campaigns that match their health data status or interests and validate the value of their data by performing presented "Missions."
Mission Execution and Real-time Rewards: Each campaign is assigned a clear mission. When a user successfully completes the mission, the system immediately verifies the data integrity and pays the promised LNS Coin ($LNS) as a reward.
Campaign Example (Government Agency Integration Mission):
- Campaign Name: "National Immunization History Integration Project"
- Mission: Register past and present immunization history in the Data Vault through 'Gov24' or 'Korea Disease Control and Prevention Agency' API integration.
- Expected Effect: The user securely digitizes their vaccination records and receives rewards, while the ecosystem secures high-quality immunity data verified through an authoritative institution.

3.3 Universal Data Integration

LNS builds an extensible integration system that organically combines all-encompassing healthcare data sources to solve the chronic problem of "fragmentation" and complete an individual's "Life-cycle Integrated Dataset." All integrations follow the principle of receiving data directly from the "Primary Source" to ensure data integrity.

3.3.1 Government and Public Institution Integration

We fundamentally block data contamination by directly securing authoritative medical data managed at the national level via APIs.

Collection of Nationally Certified Records: We collect medical history, medication history, national health checkup results, and immunization records in real-time by linking with 'Gov24', 'Health Insurance Review and Assessment Service (HIRA)', and 'National Health Insurance Service'.
Securing Data Reliability: Since this involves digitizing official records certified by national agencies—rather than a self-entry method relying on a user's memory—it forms the basis for providing the high level of "verifiable data" required by pharmaceutical companies and research institutes.

3.3.2 Medical/Healthcare Service Integration

We gather data isolated in individual hospitals and healthcare services into a single, user-centered "Single Source of Truth."

EMR-based Data Integration: We integrate high-resolution medical information such as precision diagnosis results, surgical records, and hospital reports by linking with the Electronic Medical Record (EMR) systems of major hospitals.
Professional Health Service Integration: We support integration with various professional healthcare institutions, such as external checkup centers, psychological counseling platforms, and genetic analysis services, to construct a multi-dimensional health profile that covers professional medical data generated outside the hospital.

3.3.3 Universal Wearable and Smart Device Adapter

We comply with global standard protocols to seamlessly collect biosignals generated in daily life.

Global Standard SDK Support: We connect global standard health SDKs, such as Apple HealthKit, Google Fit, and Samsung Health, using an "Adapter Pattern." This allows for the immediate integration of data from tens of thousands of smartwatches, smart rings, and body composition analyzers on the market without complex procedures.
Extensible Architecture: Even when new healthcare devices or sensors are released, we provide a flexible infrastructure that allows for the immediate expansion of integrated data sources by simply adding an "Adapter" without changing the overall system structure. This serves as the core foundation for future expansion into integrations with Continuous Glucose Monitors (CGM) or remote monitoring equipment.

4. MAA Ecosystem: Powerful Execution Engine (Medical AI Alliance)

The execution power and data value of LNS Health Wallet are completed through strong solidarity with MAA partners leading the Korean and global markets. Each partner company plays a pivotal role in providing specialized data and expanding the ecosystem. MAA participates not just as an advisory body, but as a co-founder of the ecosystem and the first data demander.

HLB Group: A global group with expertise in pharmaceuticals, biotech, and medical devices. Specialized in anti-cancer drug development, their data and experience secured through global Phase 3 clinical trials elevate the data value of the LNS ecosystem to a world-class level.
SELVAS AI: Holds advanced AI technologies such as speech recognition, speech synthesis, and natural language processing. Responsible for structuring unstructured data from medical settings and innovating the user interface.
SELVAS Healthcare: A leader in medical diagnostic and assistive devices such as body composition analyzers and braille information terminals. Contributes to securing daily lifestyle data and expanding the scope of healthcare services.
MEDIANA: A professional manufacturer of patient monitoring devices and Automated External Defibrillators (AED). Plays a key role in securing real-time biosignal data generated within hospitals.
JLK: A leader in medical AI diagnostics, operating the 'MEDIHUB' platform including stroke and cancer diagnostic solutions. Strengthens the ecosystem's analytical capabilities through professional AI diagnostic data.
POLARIS AI PHARMA: A company specializing in Active Pharmaceutical Ingredients (API) and Contract Development and Manufacturing Organization (CDMO) services. Adds depth to the platform's datasets by providing data from the entire pharmaceutical development life cycle.
HANCOM WITH: A core partner in data security and authentication technology. Responsible for the safety and reliability of the ecosystem by providing the security infrastructure essential for telemedicine and MyData businesses.
Hanmi Science: The holding company of the Hanmi Pharm Group, leading pharmaceutical R&D and healthcare business incubating. Supports the commercial expansion of the platform through extensive clinical data and pharmaceutical networks.
Siloam Hospitals: Indonesia's largest hospital network. Provides an actual clinical environment for the verification of AI solutions and acts as an outpost for securing key medical data in the Southeast Asian market.

5. Use Cases: Creating Practical Value from Data

LNS Health Wallet is a business platform that goes beyond a simple data repository to sophisticatedly connect data providers (users) and demanders (companies/research institutes). High-quality data verified by the blockchain creates innovative value in the following core industrial fields:

5.1 Innovation in R&D

In the traditional drug development process, the most cost-intensive and time-consuming stage is "recruiting suitable clinical trial participants." LNS changes the drug development paradigm by solving this bottleneck.

Participant Recruitment Based on Precision Targeting: Pharmaceutical companies can directly recruit from the LNS Marketplace by filtering for patient groups with specific genetic indicators, disease histories, or lifestyles. This shortens the recruitment period, which previously took months, to just a few days and reduces recruitment costs by more than 80%.
Standard for Decentralized Clinical Trials (DCT): Hospital EMR data and wearable life logs linked with user consent prevent data omission during the clinical process. Researchers can maximize the accuracy of clinical trials and prove the effectiveness of new drugs faster through verified data updated in real-time.
Rare Diseases and Precision Medicine Research: Combining the genomic data held by MAA partners with LNS's longitudinal health data enables the analysis of onset patterns in extremely small groups of rare disease patients. This is an ultra-high-value data asset that global pharmaceutical companies are willing to acquire even at high costs.

5.2 Digital Transformation of the Insurance Industry and Personalized Care

The insurance industry is evolving from "post-compensation" to "pre-prevention." LNS provides a data-driven infrastructure where both insurers and policyholders can win.

Dynamic Underwriting Based on Health Indicators: When policyholders share their verified health data (regular checkup results, body composition changes, etc.) with the insurance company, the insurer calculates sophisticated risk rates based on this data. Users who manage their health well enjoy practical benefits such as premium discounts or point rewards.
Hyper-Personalized Healthcare Services: Insurers can provide customized care services based on policyholder data, going beyond just paying claims. For example, they can propose management programs based on linked blood sugar data for policyholders at risk of diabetes or encourage early checkups to prevent major accidents and diseases in advance.
Trust-Based Reward Automation: Through smart contracts, premium refunds or incentives are automatically paid when specific health goals are achieved. This increases customer trust in the insurance company and serves as a strong motivation for policyholders to continue managing their health.

5.3 Medical Data Marketplace and Public Health Research

Integrated and verified data is used as a shared asset that enhances the efficiency of the overall healthcare ecosystem.

B2B Data Distribution Hub: Various industries requiring health data, such as cosmetics companies (customized functional cosmetics) and food companies (customized nutritional solutions), participate in the LNS ecosystem. Users provide their lifestyle data, and companies use it to develop products without trial and error.
Public Health Policy Support: Large-scale, anonymized health trend data by region and age provides a decisive basis for establishing health policies by governments and public institutions. This contributes to reducing national healthcare costs by increasing the efficiency of policies for preventing the spread of infectious diseases or managing chronic diseases.

6. Tokenomics: LNS Coin Ecosystem ($LNS Ecosystem)

LNS Coin ($LNS) is the core utility token responsible for measuring, exchanging, and storing value within the LNS Health Wallet ecosystem. We have designed a sophisticated reward system based on data quality and a powerful burning mechanism to ensure that the actual value of the token is directly linked to the growth of the ecosystem.

6.1 Proof of Data Quality (Verification-based Differential Reward Model)

Users earn rewards through "Campaigns" opened on the platform. The scale of rewards for campaigns is designed to be fluid according to data urgency or medical importance; higher-level $LNS rewards are granted for difficult missions (e.g., integrating precision clinical data). The system is designed so that greater benefits go to users who produce "Verified Data" with high medical value, rather than simply rewarding the quantity of data.

Differential Payment by Data Grade: Collected data is classified into grades based on its source and verification level.
- Level 1 (Basic): Routine activity data collected through wearable devices.
- Level 2 (Verified): High-reliability medical data directly integrated through authorized institutions such as Gov24, HIRA, or hospital EMRs, as well as specialized equipment from MAA partners.
Scarcity Value Bonus: When participating in high-difficulty campaigns that match specific rare disease data or pharmaceutical R&D purposes, additional $LNS incentives are paid beyond the basic reward to encourage the supply of high-quality data.

6.2 Deposit & Access Control

The depositing of $LNS serves as a security device to verify the sincerity of ecosystem participants and maintain system stability, as well as a means of granting authority.

Deposit by Demanders (Companies/Institutes): Pharmaceutical companies, insurers, and research institutes wishing to purchase data must deposit a certain amount of $LNS to activate their access rights to the marketplace. This prevents indiscriminate data access and acts as a technical guarantee for rewards to be paid to users.
User Deposit for Premium Campaigns: To participate in "Premium Verification Campaigns" with large reward scales, general users must prove their credibility by depositing $LNS. The larger the deposit amount, the higher the grade of campaign access granted, which also creates a "Lock-up" effect that regulates the circulating supply of tokens.

6.3 Token Distribution Plan

The initial total supply of $LNS is set at 10 billion (10,000,000,000 $LNS). Long-term self-sustainability of the ecosystem is secured through a community-centered design.

Ecosystem + Community (75% - 7.5 Billion): The vast majority of the supply is allocated to actual contributors of the ecosystem. This is used for the Reward Pool for data-providing users, early participation incentives, the ecosystem activation fund, and network operation costs.
Investors (15% - 1.5 Billion): Allocated to strategic investors who laid the foundation for initial growth. To ensure long-term market stability, they follow a 2-year gradual distribution (Vesting) schedule after a 1-year lock-up period.
Team (10% - 1.0 Billion): Allocated to the core team and advisor group building the platform. Similar to investors, a 1-year lock-up and 2-year vesting period are applied to ensure commitment to the project's long-term success.

6.4 Protocol-based Deflationary Mechanism

LNS adopts a powerful protocol-level burning mechanism where the scarcity of the token increases as platform usage grows.

Fee-based Burning: All service fees within the platform, such as B2B data access, are paid in $LNS. These fees are systemically distributed by the protocol's smart contracts, and a certain percentage (e.g., 50%) of the fee is immediately sent to a permanent burn address and removed from circulation.
B2B Revenue-linked Burning: Data purchase costs paid by pharmaceutical companies and others are utilized to buy back $LNS from the market and burn them. This is executed not as an arbitrary profit-based burn by a company, but as an inevitable result of the protocol based on platform usage.
Legal Clarity: This model is not a form of "stock buyback" based on corporate profits, but a systemic burn occurring as a result of fee settlement within the protocol. Companies act as "Payment Agents" that mediate fiat payments into token payments, supporting the consistency of the protocol's burning mechanism.

6.5 Emission Policy

To ensure new data generation and network stability, a rule-based "Dynamic Tail Emission" model is operated.

Indicator-linked Issuance: The annual new issuance amount is sophisticatedly adjusted in link with data accumulation volume and network usage indicators.
Emission Cap: To prevent indiscriminate inflation, the maximum annual issuance is strictly limited to within 2.5%. Combined with the systemic burning model, this maintains an economic balance that prioritizes the "Value Preservation" of the entire ecosystem.

6.6 Real-world Utility

$LNS coins possess strong practical use cases in real life, in addition to liquidity on exchanges.

Healthcare Service Payments: $LNS can be used to pay for premium health checkups, personalized nutritional solutions, and professional security services provided by MAA partners, offering higher discount benefits than cash payments.
Digital Voucher Conversion: Through the in-app store, it guarantees actual purchasing power as it can be immediately converted and used for various health supplements, exercise equipment, and gifticons.

7. Compliance: Global Compliance and Trust Strengthening Strategy

Strict regulation of medical data is an essential social promise and the foundation of trust for protecting individual privacy and ensuring the secure distribution of health information. LNS Health Wallet deeply resonates with the values and philosophy of these regulations, reflecting the "Privacy by Design" principle as a top priority from the early stages of development. Based on advanced technical compliance, we support participating institutions in creating innovative data value within the safest and most transparent legal and ethical guidelines.

7.1 Realizing Technical Data Sovereignty

We transform the abstract right of "data sovereignty" into practical technical authority through blockchain technology.

Independent Control Based on LNS ID: Users hold the sole cryptographic key to control their Data Vault through "LNS ID," a blockchain-based Decentralized Identifier (DID).
Technical Access Block: Without the user's explicit digital signature (consent), no one—including the platform operator—can technically access the data or view its contents. This is a cryptographically enforced right, not just a promise in terms of service.
Guaranteeing Data Portability: Users are technically guaranteed the right to transfer their data to other services or delete it from the platform (the "right to be forgotten") at any time.

7.2 Privacy by Design

LNS adopts an architecture that fundamentally blocks security vulnerabilities that may occur along all data movement paths.

Data Residency Principle: Even when analysis is required, original data does not leave the user's local device or designated Data Vault. By extracting only the necessary analysis results (insights) or applying Federated Learning models when needed, we fundamentally prevent the possibility of original data leakage.
Blockchain-based Auditable Trail: All access requests, approval histories, and data transmission records for data are recorded on the blockchain in a permanent and auditable form. This can serve as perfect evidentiary material during investigations by regulatory agencies or internal audits.
Automation of Anonymization and Masking: During the data distribution stage, Personal Identifiable Information (PII) such as name, date of birth, and contact information is automatically masked through the Anonymizer module, providing data for research use only in a non-identifiable state.

7.3 Global Standards Compliance

The LNS ecosystem preemptively reflects medical data security standards of various countries for global market entry.

European GDPR (General Data Protection Regulation): We have established a foundation for data distribution in the European market by strictly complying with the principles of transparency in personal information processing, purpose limitation, and data minimization.
U.S. HIPAA (Health Insurance Portability and Accountability Act): We have removed legal barriers that may arise when cooperating with global pharmaceutical companies by meeting the technical guidelines of HIPAA, the U.S. standard for security and privacy protection of health information.
Korean Personal Information Protection Act and MyData Standards: We comply with Korea's strict Personal Information Protection Act and the guidelines of the Ministry of Health and Welfare, providing an infrastructure tailored to the MyData industry's standard security specifications.

7.4 Mitigating Risks for Partners

MAA partners and data-demanding companies can dramatically lower the legal burden of data utilization by using the LNS platform.

Providing a Liability-Free Environment: Through technically verified consent procedures and anonymization technology, companies can significantly reduce the risks of leakage accidents and management costs that occur when they manage data directly.
Trust-based Ecosystem: The "verified consent history" guaranteed by the blockchain acts as a powerful defense mechanism to prevent legal disputes that may arise when companies utilize data.

8. LNS App

All technical values and reward systems of the LNS Health Wallet come to life through the "LNS Health Wallet" app, operating right in the user's hand. The LNS App is the core interface that implements complex blockchain technology into an intuitive UI, allowing users to easily and conveniently manage their verified health data and earn rewards for participating in the ecosystem.

8.1. Onboarding: Simple and Secure Start

The journey toward data sovereignty envisioned by LNS Health Wallet begins with users entering the ecosystem without any psychological or technical resistance. We have broken the conventional wisdom that increased security hinders usability by building a user-centered onboarding architecture where "the strongest security becomes the most convenient experience." Beyond a simple registration process, the core goal of onboarding is to form a relationship of trust where users can safely entrust their precious health data and to bring complex blockchain infrastructure into the realm of everyday app services. To achieve this, LNS provides three innovative user touchpoints:

Trusted Identity Verification (KYC): After installing the app, users undergo a one-time identity verification (KYC) through a trusted authentication agency. This is an essential step to guarantee that the data integrated into the platform belongs to the actual person, providing the basis for data demanders (pharmaceutical companies and research institutes) to trust the information as valid personal data.
Biometric-based Secure Login: Instead of complex passwords, device-specific biometric information such as fingerprints or Face ID is utilized. This maximizes security while removing the hassle of logging in every time, providing the best possible user experience.
Account Abstraction (AA) Wallet: An LNS Coin ($LNS) wallet is created using only a social media account or email address, even for those without specialized knowledge of virtual asset wallets. Users can check and manage rewards as easily as using a common payment app.

8.2. Data Vault: Automated Integration of Verified Data

At the heart of LNS Health Wallet is the "Data Vault," which combines fragmented personal health information into a single, complete timeline. It serves as a Personal Health Data Hub where a user's daily life and medical records meet to create value, moving beyond a simple storage space. We noted that manual entry methods relying on a user's memory compromise the medical and commercial value of data. Therefore, the Data Vault only accepts "Verified Data" through direct integration with official systems and equipment, perfectly preserving data integrity. The datasets built through this process become high-value assets that demanders, such as pharmaceutical companies or research institutes, can utilize immediately without separate verification procedures.

One-Click Data System Integration: Integrate fragmented official medical records into the app with just a few touches.
Automated Public Data Integration: Receive past national health checkup records, hospital visits, and prescription history directly from institutions through simple authentication.
Wearable Device Synchronization: Automatically record 24-hour life logs such as step count, heart rate, and sleep patterns by linking with global standard health SDKs like Apple Health and Google Fit.

8.3. LNS Campaign: Active Participation and Rewards

In the LNS Health Wallet, data is not merely stored but is converted into a living asset through various "Campaigns" opened within the platform. Campaigns are the core operating mechanism of the data marketplace, sophisticatedly matching the specific research purposes of data demanders (pharmaceutical companies, research institutes, etc.) with the verified data of users. Users do not remain passive information providers but directly select campaigns optimized for their health status and data portfolio to perform missions. This active participation structure guarantees practical economic incentives for users and a smooth supply of high-value research data for the entire ecosystem.

Participatory Mission Structure: Various campaigns opened by pharmaceutical companies, research institutes, or the Foundation are available in the marketplace. Users can choose to participate in campaigns that match their data status.
Real-time Mission Execution and Rewards: Each campaign is assigned a clear mission. For example, if a user completes a mission such as "Register vaccination history through government agency integration," the system immediately verifies the data integrity and automatically distributes the promised LNS Coin ($LNS) to the wallet via a smart contract.
Transparent Data Contribution Monitoring: Users can transparently monitor in real-time within the app which campaigns their data was used for and how the corresponding rewards were calculated.

9. Roadmap: Journey to a Global Healthcare Standard

LNS Health Wallet will leap forward as a global standard leading the flow of medical data worldwide after perfectly verifying its model in Korea, the world's best medical IT testbed. This roadmap consists of a three-stage strategy to achieve technical perfection and market expansion simultaneously.

Phase 1. Foundation & Market Validation

The goal of the first stage is to establish the core infrastructure of LNS and perfectly prove the technical and economic feasibility of the business model together with MAA partners.

Official Launch and Advancement of the LNS App: Officially launch the mobile/web app that realizes user data sovereignty. Continuously improve UX/UI based on initial user feedback and secure the stability of data integration technology.
Securing 500,000 Initial Active Users: Secure 500,000 early adopters through the powerful employee networks of MAA member companies and initial participation programs. Activate an active data supply ecosystem through the $LNS coin reward model.
Completion of the Business Loop: Successfully verify the entire cycle of 'Data Contribution → $LNS Reward → Verified Dataset Creation → B2B Sale → Token Burn' through the first transaction with an MAA partner.
Stabilization of Technical Infrastructure: Establish world-class security by optimizing the Solana blockchain and TEE-based security architecture in a real traffic environment.

Phase 2. Ecosystem Expansion & Business Advancement

In the second stage, we maximize network effects by raising the domestic user base above the critical point and complete all technical and business preparations for global market entry.

Reaching 5 Million Users: Secure 5 million users, approximately 20% of the Korean population, through large-scale marketing and advanced services. This creates an unrivaled competitive advantage in terms of data scale and diversity.
Automation of Token Economy: Launch a full-scale deflationary model by deploying an automated engine that systematically and immediately burns $LNS coins paid as platform usage fees.
Establishment of Global Localization Strategy: Analyze medical data regulations in major Asian countries starting with Japan and Singapore, as well as North America and Europe, and complete service localization strategies tailored to the laws of each country.

Phase 3. Global Scaling & Protocol Maturity

Establish LNS as the standard for global medical data transactions and evolve into a sustainable Decentralized Autonomous Organization (DAO) by transferring operational authority to the community.

Official Entry into Major Global Markets: Officially launch the LNS app and data services in global markets based on prepared localization strategies in Asia, North America, Europe, etc.
Global Big Pharma Partnerships: Build an integrated data pool without national boundaries in alliance with global pharmaceutical companies and university hospitals, and diversify the B2B customer base worldwide.
Introduction of Decentralized Governance: Complete a structure where participants become the actual owners of the ecosystem by introducing a DAO governance model where $LNS holders exercise direct voting rights on key policies such as data reward rates and burn rates.
Expansion of New Business Models: Infinitely expand high-value new businesses such as customized insurance product development, telemedicine linkage, and Digital Therapeutics (DTx) development based on accumulated data and AI infrastructure.