Ty Audronis founded Tempest Droneworx to put drone data to work. Photo courtesy of Tempest Droneworx

Ty Audronis quite literally grew up in Paradise. But the Northern California town was destroyed by wildfire in 2018, including Audronis’ childhood home.

“That’s why it’s called the Campfire Region,” says the founder, who explains that the flames were started by a spark off a 97-year-old transmission line.

But Audronis, who has literally written the book on designing purpose-built drones — actually, more than one — wasn’t going to sit back and let it happen again. Currently, wildfire prevention is limited to the “medieval technology” of using towers miles apart to check for smoke signals.

“By the time you see smoke signals, you’ve already got a big problem,” Audronis says.

His idea? To replace that system with real-time, three-dimensional, multi-spectral mapping, which exactly where his company, Tempest Droneworx, comes in.

When asked how he connected with co-founder Dana Abramowitz, Audronis admits that it was Match.com — the pair not only share duties at Tempest, they are engaged to be married. It was a 2021 pre-SXSW brainstorming session at their home that inspired the pair to start Tempest.

When Audronis mentioned his vision of drone battalions, where each is doing a specialized task, Abramowitz, a serial entrepreneur and founder who prefers to leave the spotlight to her partner, told him that he shouldn’t give the idea away at a conference, they should start a company. After all, Audronis is a pioneer in the drone industry.

“Since 1997, I’ve been building multicopters,” he says.

Besides publishing industry-standard tomes, he took his expertise to the film business. But despite its name, Tempest is a software company and does not make drones.

That software is called Harbinger. Audronis explains that the real-time management and visualization solution is viewable on practically any device, including mobile or augmented reality. The system uses a video game engine for viewing, but as Audronis puts it, “the magic happens” on the back end.

Harbinger is not just drone-agnostic, but can use crowd-sourced data as well as static sensors. With the example of wildfires in mind, battalions can swarm an affected area to inform officials, stopping a fire before it gets out of hand. But fires are far from Harbinger’s only intended use.

The civilian version of Harbinger will be available for sale at the end of 2023 or beginning of 2024. For military use, Navy vet Audronis says that the product just entered Technical Readiness Level (TRL) 5, which means that they are about 18 months away from a full demo. The latest news for Tempest is that earlier this month, it was awarded a “Direct to Phase II” SBIR (Government Small Business Innovation Research) contract with the United States Department of the Air Force.

Not bad for a company that was, until recently, fully bootstrapped. He credits his time with the Houston Founder Institute, from which he graduated last February, and for which he now mentors, with many of the connections he’s made, including SBIR Advisors, who helped handle the complex process of getting their SBIR contract.

And he and Abramowitz have no plans to end their collaborations now that they’re seeing growth.

“Our philosophy behind [our business] isn’t keeping our cards close to our vest,” says Audronis. “Any potential competitors, we want to become partners.”

The company was just the two founders until five weeks ago, when Tempest’s size doubled, including a full-time developer. Once Tempest receives its SIBR check, the team will grow again to include more developers. They are currently looking for offices in the city. As Audronis says, Tempest Droneworx is “100-percent made in Houston.” Paradise may have been lost, but with Harbinger soon to be available, such a disaster need never happen again.

Dana Abramowitz and Ty Audronis co-founded Tempest Droneworks. Photo courtesy of Tempest Droneworx

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Houston researchers make headway on affordable, sustainable sodium-ion battery

Energy Solutions

A new study by researchers from Rice University’s Department of Materials Science and NanoEngineering, Baylor University and the Indian Institute of Science Education and Research Thiruvananthapuram has introduced a solution that could help develop more affordable and sustainable sodium-ion batteries.

The findings were recently published in the journal Advanced Functional Materials.

The team worked with tiny cone- and disc-shaped carbon materials from oil and gas industry byproducts with a pure graphitic structure. The forms allow for more efficient energy storage with larger sodium and potassium ions, which is a challenge for anodes in battery research. Sodium and potassium are more widely available and cheaper than lithium.

“For years, we’ve known that sodium and potassium are attractive alternatives to lithium,” Pulickel Ajayan, the Benjamin M. and Mary Greenwood Anderson Professor of Engineering at Rice, said in a news release. “But the challenge has always been finding carbon-based anode materials that can store these larger ions efficiently.”

Lithium-ion batteries traditionally rely on graphite as an anode material. However, traditional graphite structures cannot efficiently store sodium or potassium energy, since the atoms are too big and interactions become too complex to slide in and out of graphite’s layers. The cone and disc structures “offer curvature and spacing that welcome sodium and potassium ions without the need for chemical doping (the process of intentionally adding small amounts of specific atoms or molecules to change its properties) or other artificial modifications,” according to the study.

“This is one of the first clear demonstrations of sodium-ion intercalation in pure graphitic materials with such stability,” Atin Pramanik, first author of the study and a postdoctoral associate in Ajayan’s lab, said in the release. “It challenges the belief that pure graphite can’t work with sodium.”

In lab tests, the carbon cones and discs stored about 230 milliamp-hours of charge per gram (mAh/g) by using sodium ions. They still held 151 mAh/g even after 2,000 fast charging cycles. They also worked with potassium-ion batteries.

“We believe this discovery opens up a new design space for battery anodes,” Ajayan added in the release. “Instead of changing the chemistry, we’re changing the shape, and that’s proving to be just as interesting.”

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This story originally appeared on EnergyCapitalHTX.com.

FAA demands investigation into SpaceX's out-of-control Starship flight

Out of this world

The Federal Aviation Administration is demanding an accident investigation into the out-of-control Starship flight by SpaceX on May 27.

Tuesday's test flight from Texas lasted longer than the previous two failed demos of the world's biggest and most powerful rocket, which ended in flames over the Atlantic. The latest spacecraft made it halfway around the world to the Indian Ocean, but not before going into a spin and breaking apart.

The FAA said Friday that no injuries or public damage were reported.

The first-stage booster — recycled from an earlier flight — also burst apart while descending over the Gulf of Mexico. But that was the result of deliberately extreme testing approved by the FAA in advance.

All wreckage from both sections of the 403-foot (123-meter) rocket came down within the designated hazard zones, according to the FAA.

The FAA will oversee SpaceX's investigation, which is required before another Starship can launch.

CEO Elon Musk said he wants to pick up the pace of Starship test flights, with the ultimate goal of launching them to Mars. NASA needs Starship as the means of landing astronauts on the moon in the next few years.

TMC med-tech company closes $2.5M series A, plans expansion

fresh funding

Insight Surgery, a United Kingdom-based startup that specializes in surgical technology, has raised $2.5 million in a series A round led by New York City-based life sciences investor Nodenza Venture Partners. The company launched its U.S. business in 2023 with the opening of a cleanroom manufacturing facility at Houston’s Texas Medical Center.

The startup says the investment comes on the heels of the U.S. Food and Drug Administration (FDA) granting clearance to the company’s surgical guides for orthopedic surgery. Insight says the fresh capital will support its U.S. expansion, including one new manufacturing facility at an East Coast hospital and another at a West Coast hospital.

Insight says the investment “will provide surgeons with rapid access to sophisticated tools that improve patient outcomes, reduce risk, and expedite recovery.”

Insight’s proprietary digital platform, EmbedMed, digitizes the surgical planning process and allows the rapid design and manufacturing of patient-specific guides for orthopedic surgery.

“Our mission is to make advanced surgical planning tools accessible and scalable across the U.S. healthcare system,” Insight CEO Henry Pinchbeck said in a news release. “This investment allows us to accelerate our plan to enable every orthopedic surgeon in the U.S. to have easy access to personalized surgical devices within surgically meaningful timelines.”

Ross Morton, managing Partner at Nodenza, says Insight’s “disruptive” technology may enable the company to become “the leader in the personalized surgery market.”

The startup recently entered a strategic partnership with Ricoh USA, a provider of information management and digital services for businesses. It also has forged partnerships with the Hospital for Special Surgery in New York City, University of Chicago Medicine, University of Florida Health and UAB Medicine in Birmingham, Alabama.