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Defense Tech Startup Epirus Raises $250 Million to Scale Anti-Drone Weapons

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Epirus, a defense technology startup, has raised $250 million in its Series D funding round to scale up the production of its anti-drone weapons. The company did not disclose its valuation for this round, though it was previously valued at $1.35 billion during its Series C funding, which raised $200 million.

The timing of this funding comes amid a surge in demand for defense technologies following Russia’s invasion of Ukraine nearly three years ago. Epirus secured a $66 million contract in 2023 to supply its flagship anti-drone system, Leonidas, to the U.S. Army.

Based in Torrance, California, Epirus specializes in developing weapons capable of destroying unmanned aerial vehicles (UAVs) using advanced technologies like lasers and microwaves.

The oversubscribed round was co-led by venture capital firm 8VC and Washington Harbour Partners LP, with participation from General Dynamics Land Systems, a division of U.S. defense giant General Dynamics. This funding brings Epirus’ total raised capital to over $550 million.

Epirus plans to use the funds to expand into international and commercial markets, strengthen its supply chain, and grow its workforce. The company will also open a new simulation center in Oklahoma to train soldiers in counter-drone warfare.

RAVEN Robot with Specialized Legs Designed for Jumping into Flight, Inspired by Birds

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Researchers from École Polytechnique Fédérale de Lausanne (EPFL), in collaboration with a scientist from the University of California, have introduced an innovative bird-inspired robot capable of launching itself into flight. Named RAVEN (Robotic Avian-inspired Vehicle for multiple Environments), the robot is designed to combine the mobility of birds on the ground with the ability to take flight. The team behind this breakthrough believes that the unique design has the potential to transform aerial vehicles, with applications in multiple environments. Aerospace engineer Aimy Wissa from Princeton University elaborated on the potential uses of RAVEN in a recent News & Views article.

The inspiration for RAVEN came from studying crows in the vicinity of the researchers’ office. The team observed how these birds use their powerful legs to spring into the air, an ability that appeared more efficient than relying solely on wing flapping. This observation led to the idea of creating a robot that could replicate this energy-efficient method of launching into flight. By integrating spring-loaded legs, the team aimed to provide the robot with a mechanism that would allow it to leap into the air before transitioning to powered flight.

To make the robot’s construction more feasible, the researchers opted for a fixed-wing design for the body. The robot’s tail was designed with a split-V configuration, which is a feature commonly found in certain birds. A single propeller powered by a front-mounted engine assists in the transition from leaping to flying. The combination of these elements, along with the robot’s spring-loaded legs, makes it capable of both hopping and flying in a manner similar to birds, offering a new form of aerial mobility.

The RAVEN robot represents a significant leap in the field of bio-inspired robotics, with its design offering insights into how robots can better interact with their environment. By mimicking the jumping and flying mechanics of birds, RAVEN could pave the way for more versatile robots, capable of performing tasks in a variety of challenging environments. The study, published in the journal Nature, highlights the growing potential for combining natural animal behaviors with robotics to create more efficient and adaptable machines.