In San Carlos, California, under LED lighting in a controlled, 8,000-square-foot environment, a team of autonomous robots is whirring night and day between rows of leafy greens. There is no dirt, there are no pesticides, and on this indoor farm, the only humans work behind screens. This is one of the world’s first autonomously operated commercial farms, and their produce is now flying off the shelves.

As a child, roboticist Brandon Alexander spent summers in Oklahoma helping his grandfather grow potatoes, peanuts, and cotton on a 6,000-acre farm. But as CEO of Iron Ox, the start-up company behind the automated farm, he says traditional farming is now his biggest competition—and granddad understands. “He knows that for farming to survive, this is almost inevitable,” says Alexander.

At Bianchini’s Market, a family-owned grocery in the San Francisco Bay Area, the two worlds are competing for the first time. As it stands, the robots are holding their own: Between retail buyers and several local restaurants, including San Francisco’s Trace, Iron Ox saw sales more than double last quarter.

Compact spacing techniques unique to hydroponic farms allow Iron Ox to grow 30 times the yield per acre compared to outdoor farming, according to Alexander.
Compact spacing techniques unique to hydroponic farms allow Iron Ox to grow 30 times the yield per acre compared to outdoor farming, according to Alexander. Iron Ox

The San Carlos operation is not completely automated just yet. Human staff still plant the initial seed and handle post-harvest packaging. But the rest is left to robots.

Angus, a half-ton aluminum porter, roams the “field” of trays, or pallets, 24/7 with an overhead camera. On traditional farms, plants need space for their roots to absorb nutrients; on hydroponic farms, however, seeds can be planted in their trays mere inches apart. As they grow and begin crowding each other, though, this does require more attention from, say, a sleepless robot. Angus carries the 800-pound pallets in need of rearranging to a separate, industrial robotic arm that gently re-shuffles the growing pods into new compact rows. Angus is also responsible for IPM (integrated pest management) and scanning for aphids, mildew, and browning. The robotic arm’s stereo-camera (“two cameras that kind of mimic your eyes,” Alexander casually explains) creates a 3-D model of at-risk produce that’s run through a machine algorithm to diagnose the issue and quarantine or prune accordingly. “The Brain,” a cloud-based AI software, coordinates all these autonomous functions while monitoring light, nitrogen, and water levels. “It’s a neighborhood farm,” says Alexander.

A 1,000-pound aluminum porter named Angus scans for crowding, carrying plant pallets to a separate robotic arm for rearranging.
A 1,000-pound aluminum porter named Angus scans for crowding, carrying plant pallets to a separate robotic arm for rearranging. Iron Ox

He’s not wrong. Produce from Iron Ox travels less than a mile to reach Bianchini’s—itself a mere 25 miles from downtown San Francisco. In fact, evening shoppers at Bianchini can buy produce robo-picked that morning, and at price points that compete with outdoor farms: A bunch of basil sells for $2.99; four heads of baby lettuce for $4.99; and a bunch of red-veined sorrel for $2.99.

Typically, the cost of human labor required for indoor hydroponic farms has made their produce inaccessibly expensive. Jake Counne of Backyard Fresh Farms, a similarly autonomously assisted farm in Chicago, told the Chicago Tribune that employing robotics reduced his labor costs by 80 percent. For this reason, building a farm around robotics and A.I. could crack the code of making indoor farms feasible. And while Alexander’s leafy greens remain local, the consequences of Iron Ox’s success may not.

Using robotics to make indoor hydroponic farms practical could alleviate a host of agricultural problems. In 2016, World Water Forum cited farming as a major contributor to global water scarcity. But farms like Iron Ox use 90 percent less water than outdoor farms. In a 2019 report on the challenges of feeding 10 billion people by 2050, The World Resources Institute cites concern over “the difference between global agricultural land area in 2010 and the area required in 2050 … if crop yields continue to grow at past rates.” According to Alexander, Iron Ox yields 30 times more produce per acre over the course of a year than conventional farms, and without using any arable land. A 2016 report from the National Center for Biotechnology on Chemical Pesticides urged a “drastic reduction in the use of agrochemicals,” and indoor farms alleviate the need for herbicides and pesticides.

This vision-enabled robot runs 3-D scanned models of the plants through a machine learning algorithm for quality control.
This vision-enabled robot runs 3-D scanned models of the plants through a machine learning algorithm for quality control. Iron Ox

For now, Iron Ox’s goals are more pointed. “How can we make your salad pop? We try to prioritize that,” Alexander says. Following the success of the San Carlos location, he does plan to set up robotic farms near other U.S. cities, though he’s not announcing anything yet. Iron Ox is, however, hiring humans for plant science and growing teams.

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