IoT Startup Arable Seeks to Simplify Ag Tech

The company's solar-powered Pulsepod marries a range of sensors with an advanced rain gauge and cellular connectivity to help famers better understand the health of their crops.
By Mary Catherine O'Connor
Jun 09, 2016

Adam Wolf has been frustrated with sensor networks used to monitor farmland since he was a graduate student at UC Davis, 20 years ago. "I was an agronomist and have used this sort of equipment to do research," he says, "but by the time I finished grad school, I realized I hated this stuff."

Wolf recalls having to pull together all of the elements needed to conduct a research project, only to be disappointed with the results. "[There were] disparate sensors, with bare wires," he says. "You'd need to connect to a data logger that you'd program using an archaic language." This might all be powered by a car battery, charged by a solar panel. What's more, there were no telematics components, so the data would be collected onsite and remain there. "You'd show up six months later and realize it had stopped working a week after you left, or it was vandalized, or the battery stopped working."

Arable's solar-powered Pulsepod
Wolf went on to receive his Ph.D. degree from Stanford, where he studied remote sensing, as well as land and surface modeling, followed by postdoctoral work at Princeton University. In 2010, he partnered with Kelly Caylor, an associate professor in Princeton's department of civil and environmental engineering, to develop a sensor that could surmount the many usability hurdles Wolf had experienced with early remote sensors systems. "We're numbers people, trying to use data for something useful, and got hung up on the obstacle of collecting data, when the goal is really to do something for research or for business value," Wolf says, by way of explaining what inspired him and Caylor to develop their own sensors.

At the time, Wolf was studying forest physiology, but many of the same needs he'd had when focused on agriculture applied to sensors as well. Caylor, meanwhile, sought a system that could be used to assist subsistence farmers in sub-Sahara Africa.

Their collaboration evolved into an academic lab called Pulselab, and the initial sensor unit they developed was dubbed the Pulsepod. The duo decided to commercialize the device by means of a standalone company, Arable, which has raised $1.5 million to fund its initial product launch. This week, Arable announced that the latest version of the Pulsepod is commercially available.

The disc-shaped device runs on a battery that is recharged by solar power. It contains a six-band spectrometer, which is used to track water and chlorophyll content in a plant's leaves by measuring the amount of sunlight they absorb, as well as a four-way net radiometer and an acoustic rain gauge to track rainfall. (A net radiometer measures the difference between incoming solar radiation and outgoing [reflected] solar radiation.) The Pulsepod also includes a thermistor, air pressure and humidity sensors, and a port for an auxiliary sensor that could accommodate a moisture sensor, or a sensor to track water pressure in a linked irrigation system.

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