Can A.I. Automate Vertical Farming?

Hey Everyone,

Today I want to talk about something a little bit different and it’s the advent of AI in more sustainable farming practices, namely Vertical Farming. As Ag-tech (agricultural technology) improves, it also begins to become more autonomous.

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Trying to Understand the Key Components of Vertical Farming

Vertical farming is not just an agricultural novelty; it’s a testament to human ingenuity and adaptability. The blending of agronomy with technology offers a valuable future for our food supply.

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When I think of for AI for good really means I often think of healthcare, science and those technologies that can sustain us better. I’ve always wondered about the viability, cost-efficacy and sustainability of vertical farming.

Growing Up: How Vertical Farming Works

This is from the YouTube Channel: The B1M.

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What is Vertical Farming?

Vertical farming is the practice of growing crops in vertically stacked layers. It often incorporates controlled-environment agriculture, which aims to optimize plant growth, and soilless farming techniques such as hydroponics, aquaponics, and aeroponics.

Vertical farming is a type of food-production system in which food is grown in an indoor environment where growing conditions like temperature, light, and humidity can be controlled. In theory, it can be controlled by artificial intelligence systems.

Benefits of Vertical Farming

Vertical farms can when properly managed:

Increase in crop yield

Decrease in water usage

Be situated in urban environments, e.g. “Smart cities”

With the advancement of green technology married with artificial intelligence, our smart cities might actually begin to improve our sustainable living.

Part of the argument for vertical farming is that the current food system must be more sustainable, cost-effective, and good for people and our planet. Vertical farming and hydroponics can solve existing problems and improve the system, leading to a healthier and more sustainable future.

This article is not going to cover the recent failures in Vertical farming startups and companies nor explore today’s leaders. Ag-tech doesn’t get much press, and vertical farming while challenging, has tremendous long-term rewards for human civilization and our cities.

Why Vertical Farming Might Matter to Smart Cities

They also change supply chain dynamics being closer to their consumers. Furthemore and this is important I think, the advantages of this kind of agriculture include growing more food in less space and eschewing pesticides.

China’s Autonomous Vertical Farming Breakthrough

So this week there was some PR out of China that caught my attention.

China has unveiled its first domestically developed unmanned vertical plant factory in Chengdu, Sichuan Province. Developed by the Institute of Urban Agriculture under the Chinese Academy of Agricultural Sciences, the 20-storied vertical farm is a first of its kind.

In China they conceive of this as a system can be utilized for food production in urban areas as well as in deserts and on barren lands. Vertical farming is often considered a promising and innovative approach to address certain challenges in agriculture. Allowing for the cultivation of crops in stacked layers, maximizes the use of vertical space.

With more climate change impacting China in recent years, vertical farming might also be a more controlled environment.

Unaffected by climate constraints, new Chengdu facility can reportedly produce a harvest of lettuce every 35 days under AI-controlled environmental conditions

Vertical farms are seen as an essential means of bringing enough food to arid and urban parts of China, with automated facilities that provide year-round harvests

The biggest downside of vertical farms is the large amount of energy it takes to grow crops: between 30-176 kWh per kg more than greenhouses. Given that China has a real-estate crisis, allocating some of those unused spaces to vertical farming might make some sense. The cost of real estate and technology, as well as farms running on fossil fuels, are some of the issues preventing greater adoption at scale.

So in comparison to horizontal farming, there is the issue of plants getting an adequate amount of sunlight and water when crops are grown vertically. The team that developed this 20-storied art of specimen found a solution.

Supporting Urban Horticulture

According to the Chinese media reports, the team at the Institute of Urban Agriculture (IUA), Chinese Academy of Agricultural Sciences (CAAS) deployed robots that can grow and harvest a crop of lettuce in just 35 days, claim the researchers in a report.

This is possible due to an artificial intelligence-based control system. This control system utilizes advanced technologies and algorithms to monitor, analyze, and adjust key environmental variables within the vertical farming facility.

Robots and AI are beginning to automate vertical farming systems more efficiently.

Vertical farms save water, prevent pesticide pollution and avoid extreme weather — but their Achilles’ heel is their massive electricity use. It’s not clear from the report how China has solved or improved that lingering issue.

Though the report does claim the facility utilizes “advanced plant light formulas” to improve light efficiency, overcoming challenges related to low light efficiency and high energy consumption. 

I think eventually we’ll get vertical farming right, but it might take more integration with improved solar energy systems. The energy and agriculture industries are definitely becoming more autonomous however.

Lower Energy Consumption in their Stack

The Chinese research and development team took the lead in creating the so-called “plant light formula” to improve light efficiency, which helped overcome the challenge of “low light efficiency and high energy consumption” at plant factories.

High Efficacy of Vertical Farming Solutions

The company that gets the right combination of AI, robotics, light solutions and low energy consumption is going to do really well! The Chinese vertical farming system enables year-round, continuous production of green food in multi-story structures, addressing issues like stable local food supply in urban areas and expanding cultivation in challenging environments. 

With the ability to produce more than 10 harvests of green vegetables annually, the system enhances land utilization efficiency and conserves resources, providing a sustainable solution for future agriculture.

The research team led by Wang has found no significant difference between lab-grown plants and those from traditional farms. Indoor farms, with the ability to produce vegetables faster, are considered ideal for urban areas, wastelands, and deserts. 

It also serves as a breeding accelerator, reducing the breed time of wheat, cotton, and soybean plants by at least 50 percent. The researchers are discussing with companies like Foshan NationStar Optoelectronics to commercialize their innovative vertical farming technology.

According to the Chinese report, the 20-storey vertical unmanned plant factory they have constructed is the world’s first of its kind. I’ve always been impressed with China’s emphasis of green technology and smart city urban planning. How they have adopted and will continue to adopt EVs is many years ahead of the United States.

With the capability to produce more than 10 harvests of green vegetables a year, it is equal to an estimated annual output of over 50 tons, equivalent to the yield of about 60 mu (4 hectares) of farmland. This significantly enhances land utilization efficiency and conserves arable resources, the report said.

Many Countries are working on Vertical Farming

Korea is also working on the technology. I found this very hands-on video that impressed me. This is from the YouTube channel king process:

farming is science. process of growing fresh vegetables by Korean scientists.

There are however many cases of the tech not living up to the hype. What do you think?

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There are multiple methods of vertical farming, but ultimately the main components are:

A physical structure

An energy source

Lighting

Climate control

Water supply

A Nutrient source

As A.I., solar energy, robotics and the ag-tech behind vertical farming improves, I believe it will one day become viable on a commercial level and at scale. It’s not clear how many years we are from that point.

However vertical farming innovation is an important aspect to sustainability in urban living that some countries, governments and academics are prioritizing more than other. China’s emphasis on smart city technology fits nicely with the challenge and may be more resistant to the boom and bust hype cycles that drive a lot of U.S. innovation.

“What’s AI Got to do with it?”

A.I. and machine learning enables the regulation of all the different factors. As the technology progresses, the vertical stacks become fairly autonomous to regulate and manage temperature, humidity, lighting, nutrient levels, and guiding the robotic systems. Ultimate this could increase yields, lower expenses and lower the cost of organic produce with the need or use of pesticides.

The minimization of the use of water and the ability to produce crops year-round under regulated and controlled conditions may ultimately be more valuable than the drawback of higher energy consumption.

Should AI be Utilitarian?

A.I. and automation that is pragmatic, sustainable and improves the quality of life for the most people really attracts me. Generative A.I. that mostly deals with language and digital manipulation feels in part like product upgrades we don’t, humanity doesn’t, actually need. The world needs vertical farming, do we actually need ChatGPT? With global warming, draughts, pandemics, wars – famines become a real possibility in many vulnerable nations.

If human civilization ever needs to construct underground cities, or live on other planets, vertical farming might be part of the key to our survival. Generative A.I. that makes us even more digital beings might not have a sum total good or beneficial impact on people, human relationships or even productivity in the holistic sense.

Vertical farming is attractive also from the perspective of technology merging with more sustainable urban environments and quality of life benefits that automation will actually afford. While the energy consumption might be higher, the shorter transport and logistics actually saves on energy and cost. When you line up the benefits and the costs of vertical farming, the net positive become too many, and too good to ignore.

One can only hope one day Costco, Amazon or Walmart get big into vertical farming of perhaps a supermarket chain. I wonder if consumers will have a say when it arrives? Or perhaps it will be yet another green technology that exists more in Europe and China, than in North America.

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