Amazon plans to land drone delivery down the road from Houston

prime spot

Amazon Prime Air drones will fly into College Station later this year. Photo courtesy of Amazon

A Houston neighbor will be among the first in the nation to test pilot a game-changing delivery system. Amazon has announced plans to deploy its state-of-the art Prime Air drone delivery in College Station, Texas later this year.

The online juggernaut is already reaching out to College Station customers, telling them that they’ll soon receive free and fast drone delivery on thousands of everyday items. The deployment marks the largest selection of items to ever be available for drone delivery, per Amazon. College Station joins Lockeford, California as targeted test sites for drone launch.

“We are impressed with so many aspects of College Station,” notes an Amazon blog post announcing the news. “The innovative research conducted by Texas A&M University, the small-town feel, and the sense of community that is clear from the minute you arrive in town all make it a very special place.”

Jeff Bezos’ empire plans to also collaborate with the Aggies on tech. “We are thrilled about the opportunity to launch this service in College Station and partner with the city and its world-class university on some of the great work they’ve been doing in the area drone technology,” the post adds.

How will it work? Once onboarded, College Station customers can then view Prime Air-eligible items on Amazon, where they can place orders and receive an estimated arrival time with a status tracker for their order.

Amazon Prime Air’s New Delivery Dronewww.youtube.com

Drones will then fly to the designated delivery location, descend to the customer’s backyard, and hover at a safe height. The drones will then safely release the package, rise back up to altitude, and return to base, per Amazon.

Amazon is touting the difference of its drone fleet versus the masses. Prime Air drones fly up to 50 miles per hour, up to an altitude of 400 feet, and carry packages of up to 5 pounds.

Unlike most drones, Amazon notes, Prime Air drones utilize a sophisticated, sense-and-avoid system allowing them to operate at greater distances while safely and reliably avoiding other aircraft, people, pets, and obstacles. That means the drones can identify objects such as aircraft, birds, or static places such as trees and chimneys, avoid them, and select a safe space to land and later, safely leave.

“Being one of the first drone delivery locations for Amazon puts College Station at the forefront of this exciting technology,” said John Sharp, chancellor of The Texas A&M University System, in a statement. “What happens here will help advance drone delivery for the rest of the country and perhaps the rest of the world. We welcome Amazon to our community and stand ready to assist however we can.”

College Station, Amazon promises, will benefit by more than just speedy, environmentally friendly delivery. “We’re bringing more than drone delivery to Lockeford and College Station,” notes the Amazon blog. “Through these Prime Air drone deliveries, we will create new jobs, build partnerships with local organizations, and help to reduce the impact of climate change on future generations.”

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This article originally ran on CultureMap.

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Houston unicorn closes $421M to fuel first phase of flagship energy project

Heating Up

Houston geothermal unicorn Fervo Energy has closed $421 million in non-recourse debt financing for the first phase of its flagship Cape Station project in Beaver County, Utah.

Fervo believes Cape Station can meet the needs of surging power demand from data centers, domestic manufacturing and an energy market aiming to use clean and reliable power. According to the company, Cape Station will begin delivering its first power to the grid this year and is expected to reach approximately 100 megwatts of operating capacity by early 2027. Fervo added that it plans to scale to 500 megawatts.

The $421 million financing package includes a $309 million construction-to-term loan, a $61 million tax credit bridge loan, and a $51 million letter of credit facility. The facilities will fund the remaining construction costs for the first phase of Cape Station, and will also support the project’s counterparty credit support requirements.

Coordinating lead arrangers include Barclays, BBVA, HSBC, MUFG, RBC and Société Générale, with additional participation from Bank of America, J.P. Morgan and Sumitomo Mitsui Trust Bank, Limited, New York Branch.

“As demand for firm, clean, affordable power accelerates, EGS (Enhanced Geothermal Systems) is set to become a core energy asset class for infrastructure lenders,” Sean Pollock, managing director, project Finance at RBC Capital Markets, said in a news release. “Fervo is pioneering this step change with Cape Station, a vital contribution to American energy security that RBC is proud to support.”

The oversubscribed financing marks Cape Station’s shift from early-stage and bridge funding to a long-term, non-recourse capital structure, according to the news release.

“Non-recourse financing has historically been considered out of reach for first-of-a-kind projects,” David Ulrey, CFO of Fervo Energy, said in a news release. “Cape Station disrupts that narrative. With proven oil and gas technology paired with AI-enabled drilling and exploration, robust commercial offtake, operational consistency, and an unrelenting focus on health and safety, we have shown that EGS is a highly bankable asset class.”

Fervo continues to be one of the top-funded startups in the Houston area. The company has raised about $1.5 billion prior to the latest $421 million. It also closed a $462 million Series E in December.

According to Axios Pro, Fervo filed for an IPO that would value the company between $2 billion and $3 billion in January.

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This article first appeared on EnergyCapitalHTX.com.

Houston food giant Sysco to acquire competitor in $29 billion deal

Mergers & Acquisitions

Sysco, the nation's largest food distributor, will acquire supplier Restaurant Depot in a deal worth more than $29 billion.

The acquisition would create a closer link between Sysco and its customers that right now turn to Restaurant Depot for supplies needed quickly in an industry segment known as “cash-and-carry wholesale.”

Sysco, based in Houston, serves more than 700,000 restaurants, hospitals, schools, and hotels, supplying them with everything from butter and eggs to napkins. Those goods are typically acquired ahead of time based on how much traffic that restaurants typically see.

Restaurant Depot offers memberships to mom-and-pop restaurants and other businesses, giving them access to warehouses stocked with supplies for when they run short of what they've purchased from suppliers like Sysco.

It is a fast growing and high-margin segment that will likely mean thousands of restaurants will rely increasingly on Sysco for day-to-day needs.

Restaurant Depot shareholders will receive $21.6 billion in cash and 91.5 million Sysco shares. Based on Sysco’s closing share price of $81.80 as of March 27, 2026, the deal has an enterprise value of about $29.1 billion.

Restaurant Depot was founded in Brooklyn in 1976. The family-run business then known as Jetro Restaurant Depot, has become the nation's largest cash-and-carry wholesaler.

The boards of both companies have approved the acquisition, but it would still need regulatory approval.

Shares of Sysco Corp. tumbled 13% Monday to $71.26, an initial decline some industry analysts expected given the cost of the deal.

Houston researcher builds radar to make self-driving cars safer

eyes on the road

A Rice University researcher is giving autonomous vehicles an “extra set of eyes.”

Current autonomous vehicles (AVs) can have an incomplete view of their surroundings, and challenges like pedestrian movement, low-light conditions and adverse weather only compound these visibility limitations.

Kun Woo Cho, a postdoctoral researcher in the lab of Rice professor of electrical and computer engineering Ashutosh Sabharwal, has developed EyeDAR to help address such issues and enhance the vehicles’ sensing accuracy. Her research was supported in part by the National Science Foundation.

The EyeDAR is an orange-sized, low-power, millimeter-wave radar that could be placed at streetlights and intersections. Its design was inspired by that of the human eye. Researchers envision that the low-cost sensors could help ensure that AVs always pick up on emergent obstacles, even when the vehicles are not within proper range for their onboard sensors and when visibility is limited.

“Current automotive sensor systems like cameras and lidar struggle with poor visibility such as you would encounter due to rain or fog or in low-lighting conditions,” Cho said in a news release. “Radar, on the other hand, operates reliably in all weather and lighting conditions and can even see through obstacles.”

Signals from a typical radar system scatter when they encounter an obstacle. Some of the signal is reflected back to the source, but most of it is often lost. In the case of AVs, this means that "pedestrians emerging from behind large vehicles, cars creeping forward at intersections or cyclists approaching at odd angles can easily go unnoticed," according to Rice.

EyeDAR, however, works to capture lost radar reflections, determine their direction and report them back to the AV in a sequence of 0s and 1s.

“Like blinking Morse code,” Cho added. “EyeDAR is a talking sensor⎯it is a first instance of integrating radar sensing and communication functionality in a single design.”

After testing, EyeDAR was able to resolve target directions 200 times faster than conventional radar designs.

While EyeDAR currently targets risks associated with AVs, particularly in high-traffic urban areas, researchers also believe the technology behind it could complement artificial intelligence efforts and be integrated into robots, drones and wearable platforms.

“EyeDAR is an example of what I like to call ‘analog computing,’” Cho added in the release. “Over the past two decades, people have been focusing on the digital and software side of computation, and the analog, hardware side has been lagging behind. I want to explore this overlooked analog design space.”

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