Most people wouldn’t imagine signing up for fresh lettuce grown by robots, let alone owning a share in a farm run on blockchain. Yet, that’s exactly what’s happened in Hong Kong, where a crew of trailblazers just changed the recipe for urban farming forever. The story begins on a sweltering morning atop a high-rise, where an engineer—let’s call her Mei—watched a robotic arm plant the first seeds in what is now Asia’s most futuristic lettuce patch. From that offbeat moment, Hong Kong’s tokenized robo-farm was born, fusing hands-off AI automation with the skin-in-the-game appeal of blockchain finance. This isn’t science fiction, but the new frontier of agriculture in a city that’s always re-invented the possible.
Robo-Farms 101: How Blockchain and AI-Driven Robots Cultivate Crops in the Cloud
Hong Kong’s first tokenized robo-farm is rewriting the rules of urban agriculture, blending AI-optimized vertical farming, blockchain transparency, and community ownership. At the heart of this breakthrough is KanayaAI, an urban agritech company specializing in AI automation farming and robotics. Their semi-autonomous vertical farm, developed in partnership with DualMint for tokenization and deployed on the peaq network, sets a new standard for AI robotics farming automation in dense city environments.
Meet KanayaAI: The Brains Behind AI-Optimized Vertical Farming
KanayaAI’s system is designed to address the unique challenges of urban food production. Using advanced robotics and artificial intelligence, the farm automates up to 80% of core farming tasks—including planting, nutrient monitoring, and harvesting. This level of automation drastically reduces manual labor and operational costs, making fresh, locally-grown produce more accessible to city dwellers.
“Vertical farms are greener, cheaper, and more city-friendly than anything we’ve seen before.”
— Dr. Princeton Wong, CFO of KanayaAI
Hydroponics: Greener, Faster, and Pesticide-Free
The farm’s hydroponic vertical farming system is a game-changer for sustainability. By growing crops in nutrient-rich water instead of soil, hydroponics reduces water usage by up to 90% compared to traditional agriculture. This method also eliminates the need for pesticides, ensuring a steady supply of clean, healthy greens like lettuce, kale, and spinach. With the ability to run 12 crop cycles per year—far more than conventional farms—KanayaAI’s approach delivers fresh produce to Hong Kong’s urban population all year round.
Robots and AI: Precision Farming in Real Time
A network of cameras and sensors constantly monitors plant health, capturing real-time data on growth, nutrient levels, and environmental conditions. This information feeds directly into AI systems that optimize every aspect of the growing process, from lighting to irrigation. The result is consistently high-quality crops, grown with minimal human intervention.
- Planting, monitoring, and harvesting—all handled by robots
- Real-time data ensures optimal growth and resource use
- Consistent, pesticide-free produce delivered on a subscription basis
Blockchain Transparency and Community Ownership on the peaq Network
The peaq network brings the entire operation onchain, assigning each machine a unique blockchain ID for full transparency and traceability. Through DualMint’s tokenization, individuals and communities can invest in the farm by purchasing tokens tied directly to its real-world cashflows. This decentralized ownership model means that anyone can share in the farm’s financial success, with projected yields of up to 20% APY.
By merging AI-optimized vertical farm technology, hydroponic vertical farming, and blockchain-based ownership, KanayaAI and its partners are setting a new benchmark for AI automation farming in urban environments. The result is a transparent, efficient, and community-driven approach to food production—one that could shape the future of agriculture in cities worldwide.
Tokenized Asset Classes: Community-Owned, Robot-Maintained, Yield-Generating Farms
The launch of the world’s first tokenized robo-farm in Hong Kong marks a turning point for both agriculture and blockchain. This pioneering vertical farm, developed by KanayaAI, tokenized by DualMint, and deployed on the peaq network, is not just a showcase of AI-driven automation—it is a live demonstration of how Machine Economy blockchain models can open up real-world asset ownership to everyone, not just institutional investors.
Opening Farm Ownership to the Community
Traditionally, large-scale agricultural infrastructure has been the domain of major investors and corporations. The tokenized robo-farm Hong Kong project changes that. Through blockchain tokenization on the peaq platform, anyone can now join the token access waitlist peaq App or DualMint and secure a stake in a working, revenue-generating vertical farm. This democratizes access, allowing individuals and communities to co-own and benefit from the infrastructure that supplies their daily food.
Real-World Cashflows, Not Speculation
Unlike many crypto assets that rely on speculative value, the tokens issued by DualMint are directly tied to the farm’s actual performance. Token holders receive a share of the farm’s operational profits, with an estimated annual percentage yield tokenized assets of around 20%. This yield is based on real-world cashflows from the sale of fresh produce—lettuce, kale, and spinach—delivered to local consumers on a subscription basis.
- Yield comes from farm profits, not speculation
- Projected APY: ~20% for token holders
- Revenue shares distributed as NFTs
- Token access waitlist now live on peaq App and DualMint
Revenue-Sharing NFTs: DeFi Meets Tangible Output
In a unique blend of decentralized finance and real-world production, revenue shares are delivered as NFTs. These NFTs represent actual ownership in the farm’s output, bringing DeFi-style income models to productive, physical assets. This approach provides a more stable, utility-based yield compared to volatile crypto markets. As Bill Lee, CEO of DualMint, puts it:
“Grocery demand is steady, even when crypto is a roller coaster—these robots keep on earning.”
The Machine Economy Model: Productive Robots as Assets
This initiative is a practical example of the Machine Economy blockchain vision, where assets are not just digital promises but real, productive robots. By bringing machines like the vertical farm onchain, peaq enables community co-ownership and direct participation in the economic benefits of automation. Token holders can monitor, interact with, and earn from their share of the infrastructure, all through the peaq platform.
Joining the Token Access Waitlist
The token whitelist peaq platform and DualMint waitlist are now open for early registrants, who will enjoy 24-hour advance access to the upcoming token sale. This opens the door for widespread community participation in a new asset class—one that is tied to real-world, income-generating operations rather than speculative hype.
With the farm set to go live in Q4 2025, this model is poised to expand, with more “Boring Robots” planned for the peaq network—each offering yield-bearing, essential services to communities worldwide.
From Lettuce to Kale: Redefining Urban Food Supply, One Robot at a Time
Hong Kong’s first tokenized robo-farm is transforming the way city dwellers access fresh leafy greens. By combining advanced robotics, AI-driven vertical farming features, and a fresh produce subscription model, this initiative brings farm-to-table into the heart of the city—redefining sustainable urban farming solutions for the modern age.
Fresh Produce, Grown for Subscribers
The farm’s core offering is simple but revolutionary: a steady supply of fresh produce—lettuce, kale, and spinach—grown locally and delivered directly to subscribers. This fresh produce subscription model in Hong Kong ensures that residents receive high-quality greens, harvested at peak freshness, without the long supply chains or unpredictable market swings that often impact urban food supply. With the subscription system, city residents can count on a reliable, healthy food source, supporting both food security and urban sustainability.
Vertical Design for Urban Efficiency
Space is at a premium in Hong Kong, making traditional agriculture nearly impossible within city limits. The solution? Go vertical. The farm’s compact, multi-layered structure multiplies output per square meter, making it ideal for dense urban environments. By stacking crops in climate-controlled towers, the farm maximizes usable space and enables continuous, year-round production—achieving up to 12 harvest cycles per year. This approach not only boosts crop yield sustainability metrics but also provides predictable, stable output regardless of external weather conditions.
Climate Controls and Sensor Monitoring
Every leafy green produced comes with a built-in climate report, thanks to the farm’s sophisticated network of sensors. These sensors monitor temperature, humidity, and other key environmental factors, ensuring optimal conditions for each crop. The result is consistent quality and high sustainability standards, with vertical farm climate controls playing a crucial role in maintaining healthy, resilient plants. Real-time data also allows for rapid adjustments, further enhancing crop yield and reducing waste.
Community-Driven Crop Planning
Unlike traditional farms, this vertical robo-farm puts community input at the center of its operations. Through digital platforms, subscribers can provide direct feedback on which crops to prioritize in upcoming cycles. This creates a dynamic, responsive supply chain where local preferences shape production—ensuring that the farm’s output matches the tastes and needs of its urban customers. It’s a new model for fresh leafy greens production, where the community has a real say in what ends up on their plates.
Predictable Yields, Year-Round
One of the most significant advantages of vertical farming features is the ability to deliver predictable, year-round yields. With 12 harvests per year, the farm is not limited by seasons or unpredictable weather. This continuous output supports food security for Hong Kong’s residents and helps stabilize prices, making fresh greens accessible to more people. The subscription model further insulates the supply from market volatility, ensuring a steady stream of produce regardless of external economic factors.
Leonard Dorlöchter, co-founder of peaq, states: “We invite people to earn from robots, not just be replaced by them.”
By leveraging automation, data-driven climate controls, and community engagement, this tokenized vertical farm sets a new standard for sustainable urban farming solutions—delivering fresh, healthy produce to city residents, one robot at a time.
Hedging Crypto Volatility: Stable Returns from Real-World Robot Farms
The launch of Hong Kong’s first tokenized robo-farm marks a turning point for investors seeking stability in a notoriously unpredictable crypto landscape. Unlike most digital assets, where value can swing wildly on speculation and sentiment, the annual percentage yield from tokenized assets in this project is directly linked to a fundamental, steady demand: food. This unique model, powered by peaq’s blockchain tokenization agriculture platform and KanayaAI’s robotics, offers token holders revenue sharing based on the farm’s operational profits—not on the ups and downs of token trading.
Yields Anchored in Grocery Demand, Not Crypto Speculation
The core innovation of this tokenized farm revenue NFT model is its connection to real-world economics. As Bill Lee, CEO of DualMint, explains, “Letting robots do the work is more dependable than hoping for green candles in DeFi charts.” The farm’s yield—estimated at a healthy 20% APY—is generated from the sale of fresh produce like lettuce, kale, and spinach to local consumers on a subscription basis. This means the returns are tied to the stable, ongoing need for groceries, rather than the volatile swings of altcoins or speculative DeFi tokens.
- Stable Consumer Demand: Grocery needs remain consistent, even when crypto markets are turbulent.
- Weatherproof Asset: Token holders benefit from a revenue stream that is less exposed to digital market shocks.
- Physical Backing: Robots and AI-driven systems work around the clock, creating a tangible floor beneath digital assets.
Transparent Performance, Real-World Revenue
One of the standout features of this decentralized finance DeFi integration is transparency. Farm performance data—including crop yields, operational costs, and revenue—is tracked and published on the peaq blockchain ledger. This ensures that token holders can verify the farm’s productivity and the source of their returns, eliminating the “smoke and mirrors” that sometimes cloud digital asset projects.
Unlike speculative tokens, these tokenized farm revenue NFTs are backed by tangible economics: food supply, operational efficiencies, and subscription revenue. The vertical farm’s semi-autonomous robots, managed by AI, optimize every stage of production, reducing costs and maximizing output. This efficiency is directly reflected in the profits shared with token holders.
A New Alternative for Risk-Averse Crypto Investors
For those weary of the wild swings in digital tokens, this model offers a compelling alternative. By tying blockchain tokenization agriculture to a physical, in-demand product, the project delivers a rare degree of stability for crypto investors. The farm’s operational profits—not speculative trading—determine the annual percentage yield tokenized assets can deliver.
Bill Lee, CEO of DualMint: “Letting robots do the work is more dependable than hoping for green candles in DeFi charts.”
As more “Boring Robots” are introduced to the peaq network, the vision is to democratize ownership and spread the economic benefits of automation. Each machine becomes a yield-generating asset, allowing communities to co-own and earn from real-world operations—ushering in a new era of stable, transparent, and sustainable returns in the crypto space.
The Human Touch in a Robotic World: Co-Ownership, Community, and the Future of Work
The launch of Hong Kong’s first tokenized robo-farm on the peaq network marks a turning point for community co-ownership blockchain models in agriculture. Unlike traditional farms or even most high-tech ventures, this initiative is designed to democratize ownership and participation. Anyone—not just institutional investors or large corporations—can join the waitlist, acquire tokens, and become a partner in the farm’s success. This approach signals a shift from centralized control to decentralized ownership models farming, where the benefits of automation and AI are shared broadly.
At the heart of this model is the concept of community co-ownership. Token holders are not passive investors; they are active participants. They share in the farm’s profits, with an estimated APY of 20%, and have a say in the direction of future farm initiatives. Early adopters, for example, receive 24-hour advance access to the crowdsale, giving them a head start and a stronger voice in shaping the farm’s operations. This is a new era where community members are not just end consumers but partners in technology and innovation.
Ownership in this system is visible, trackable, and transferable on the blockchain. Every token transaction is recorded, fostering transparency and trust among participants. The use of blockchain ensures that co-ownership is not only secure but also easily auditable, a key factor in building confidence among a diverse community of stakeholders. This transparency extends beyond finances; community members can also provide input on crop selection and operational decisions, ensuring that the farm’s output aligns with local needs and preferences.
The farm’s semi-autonomous “Boring Robots”—a term for machines performing essential but often overlooked daily tasks—handle the repetitive work of planting, tending, and harvesting. This automation frees humans to focus on creative, strategic, and community-oriented roles. As Leonard Dorlöchter, co-founder of peaq, explains:
“With tokenized machines, we chart a new route for humanity—where anyone can earn from AI, not just corporations.”
This vision is realized through the Machine Economy tokenized asset classes enabled by peaq. By bringing machines like the vertical farm onchain, peaq’s modular machine functions allow for flexible, scalable deployment of similar projects worldwide. The platform’s ongoing developer grants and programs—such as “Get Real Season 2”—further empower innovators to build new applications, ensuring the ecosystem remains dynamic and inclusive.
The peaq network automation model is not just about financial yield. It is about giving communities a real stake in the future of work and food production. Token models unlock participation from diverse backgrounds, not just traditional investors. This broad-based approach to value creation is a defining feature of the emerging Machine Economy, where economic gains are distributed across communities rather than concentrated in a few hands.
With the waitlist now open via the peaq App and DualMint, and early registrants promised exclusive access, the project is already attracting a wave of interest. The peaq Foundation’s commitment to developer incentives and modular machine features ensures that this is just the beginning of a broader movement toward decentralized ownership models farming and community-driven innovation.
Behind the Hype: What Could Go “Robo-Wrong” in the Machine Economy?
The launch of Hong Kong’s first tokenized, AI-optimized vertical farm by urban agritech company KanayaAI, in partnership with DualMint and peaq, marks a bold leap for blockchain agriculture and real-world blockchain farming applications. But as the Machine Economy takes root, the path forward isn’t without its bumps. Despite impressive yields and the promise of democratized ownership, experts caution that the impact of AI on agriculture in 2025 could bring a new set of challenges—technological, social, and regulatory.
Technology Hiccups: When Smart Farms Go Offline
At the heart of this vertical farm are advanced robotics and artificial intelligence, designed to optimize crop growth and automate daily operations. However, even the most sophisticated AI-optimized vertical farming systems are not immune to glitches. Sensor failures, software bugs, or network outages could disrupt irrigation, lighting, or harvesting schedules, putting entire crops at risk. Without robust backup systems and rapid-response teams, a single malfunction could lead to significant losses—raising questions about reliability and resilience in the age of automated agriculture.
Digital Divide: Who Gets to Own the Future?
The tokenization model, while innovative, could unintentionally widen the gap between tech-savvy investors and those left offline. Accessing and managing blockchain-based ownership requires a certain level of digital literacy and connectivity. In a city as diverse as Hong Kong, not everyone may be equipped to participate in these new asset classes. This raises concerns about equitable access to the financial benefits of blockchain agriculture and whether the model truly democratizes ownership or simply shifts it to a new, digitally privileged class.
Regulatory Uncertainty: The Policy Wildcard
Urban agritech projects like KanayaAI’s robo-farm depend on favorable city policies and zoning laws. Yet, regulatory frameworks can shift unexpectedly. A change in urban planning priorities, updated food safety regulations, or new restrictions on blockchain-based asset ownership could threaten the viability of these projects overnight. For real-world blockchain farming applications to thrive, clear and supportive policies are essential—but far from guaranteed.
Workforce Impact: Who’s Left Behind?
As robots take on more agricultural tasks, from planting to harvesting, the human workforce faces disruption. While proponents argue that “Boring Robots” free people from repetitive labor, the reality is more complex. Displaced workers may struggle to find new roles, especially if retraining opportunities lag behind technological change. The impact of AI on agriculture in 2025 could thus extend beyond efficiency gains, sparking debates over job security, social safety nets, and the true cost of automation.
Security and Trust: Keeping the Chain Unbroken
Maintaining fair, hack-proof ownership on the blockchain is critical. Tokenized farms rely on smart contracts and digital wallets, making them potential targets for cyberattacks or fraud. A breach could compromise not only financial returns but also the integrity of the entire project. As more machines and assets come onchain, ironclad cybersecurity measures and transparent governance will be vital to protect both investors and the broader community.
- Tech reliability: AI glitches and hardware failures can jeopardize crops.
- Access equity: Digital illiteracy may exclude some from tokenized ownership.
- Legal hurdles: Shifting regulations could disrupt or halt operations.
- Cybersecurity: Blockchain systems must guard against hacks and fraud.
- Workforce impact: Automation may displace traditional jobs, raising social concerns.
A Glimpse Ahead: Will Robo-Farms Be as Common as Corner Stores?
The launch of Hong Kong’s first tokenized robo-farm by urban agritech company KanayaAI, in partnership with DualMint and peaq, signals a dramatic shift in how cities might feed themselves in the future. As blockchain farming applications and automation advance, the question arises: could these “Boring Robots” on the peaq network become as familiar as the corner store, reshaping the very fabric of urban life?
DualMint’s vision is clear—deploy global fleets of tokenized, yield-generating machines, each operating 24/7 to perform essential tasks like growing food, managing waste, or even supporting energy grids. By leveraging the peaq platform’s Machine Economy tokenized asset classes, these robots are not just tools, but investment opportunities. The current crowdsale waitlist for the Hong Kong robo-farm, now open through the peaq App and DualMint, is already seeing strong demand. Early registrants are promised exclusive 24-hour access, a sign that the appetite for blockchain agriculture and decentralized ownership is robust and growing.
If this model scales, millions could soon participate in a new era of urban farming—one where city dwellers co-own the infrastructure that supplies their daily greens. This democratized approach to automation could fundamentally change city food systems, making them more resilient and community-driven. As Dr. Princeton Wong, CFO of KanayaAI, notes, vertical farms like these offer eco-friendly, cost-effective solutions for densely populated cities, while tokenization empowers communities to share in the benefits.
The implications go far beyond food. Future iterations of these robo-farms could be integrated with energy grids, recycling systems, and even urban planning initiatives. Imagine a city where fleets of Boring Robots peaq automation work together to optimize not just food production, but also energy usage and waste management—an interconnected ecosystem powered by blockchain and AI. Such blockchain farming applications could help cities adapt to climate change, reduce food miles, and ensure a steady supply of fresh produce, even in times of crisis.
Industry leaders are keenly aware of the broader impact. Leonard Dorlöchter, co-founder of peaq, emphasizes that the rise of AI and robotics is raising important questions about who benefits from automation. Traditional models often concentrate wealth among a few corporations, but the Machine Economy tokenized asset classes on peaq offer a new path—one where value is distributed among many, not just a select few.
As the waitlist fills and the first harvest approaches, the world is watching to see if this experiment in blockchain agriculture will become the norm. Till Wendler, co-founder of peaq, captures the moment:
“The world’s first tokenized machine is more than a product—it’s a glimpse into the automated financial future.”
Are we ready to trust robots with our lunch—and our investments? Time will tell. What is certain is that the fusion of AI, blockchain, and community co-ownership is no longer a distant vision. With urban agritech company KanayaAI, DualMint, and peaq leading the way, the future of farming—and perhaps the future of cities themselves—may soon be automated, tokenized, and owned by all.
TL;DR: Hong Kong’s first tokenized robo-farm, powered by peaq, KanayaAI, and DualMint, blends AI, robotics, and blockchain to redefine urban agriculture. Community members can co-own and benefit financially while supporting sustainable, tech-driven food production.