The Songar drone can accurately hit targets from hundreds of metres away, according to its manufacturer
A drone with a machine gun attached can hit targets with high precision, according to its makers. Turkey is set to become the first country to have the drone, when it gets a delivery this month.
The 25-kilogram drone has eight rotating blades to get it in the air. Its machine gun carries 200 rounds of ammunition and can fire single shots or 15-round bursts.
The U.S. military wants soldiers that have superhuman eyesight, controllable augmented muscles that turn untrained novices into expert killers, and more.
Cybernetic enhancements that fuse humans and machines are coming, and the U.S. Military wants to be prepared.
A new report from the U.S. Army Combat Capabilities Development Command Chemical Biological Center—a scientific research division of the Army with a focus on biological and chemical weapons—detailed what the field of cybernetics might look in 2050. The report, titled Cyborg Soldiers 205: Human/ Machine Fusion and the Implications for the Future of the DOD, reads like the framework for a dystopian novel set in a near future where injured soldiers are cybernetically enhanced, but come home to an America terrified of cyborgs.
“The primary objective of this effort was to determine the potential of machines that are physically integrated within the human body to augment and enhance the performance of human beings over the next 30 years,” the researchers said.
Drones can be used for some very nefarious activities. For this reason, armies and law enforcement need some effective means of countering them.
Drones are, frankly, awesome. But there are some bad actors who could use them for nefarious activities.
For these reasons, many companies around the world, including engineering-giants like Boeing and Lockheed Martin, are producing anti-drone weapons to counter the potential threats drones can offer.
A mockup of U.S. SOCOM’s TALOS suit — a bold project, but one that ultimately brought less tech than initially hoped. (DoD)
Ear, eye, brain and muscular enhancement is “technically feasible by 2050 or earlier,” according to a study released this month by the U.S. Army’s Combat Capabilities Development Command.
The demand for cyborg-style capabilities will be driven in part by the civilian healthcare market, which will acclimate people to an industry fraught with ethical, legal and social challenges, according to Defense Department researchers.
Implementing the technology across the military, however, will likely run up against the dystopian narratives found in science fiction, among other issues, the researchers added.
The report — entitled “Cyborg Soldier 2050: Human/Machine Fusion and the Implications for the Future of the DOD” — is the result of a year-long assessment.
A Ghost Robotics’ Vision 60 quadruped robot supports the soldiers of the Australian Army during an autonomous systems demonstration at the Majura Training Area, Canberra.
What could possibly go wrong?
The same week the latest movie in the Terminator franchise hit theatres, an Australian Defence Force publication ran photos of a prototype Ghost Robotics Vision 60 quadruped robot “supporting” Australian Army soldiers during an autonomous systems demonstration at the Majura Training Area, Canberra on November 8.
Chinese military contractors have already started to sell dangerous, autonomous killer robots to customers in the Middle East.
For instance, a Chinese company called Ziyan is actively marketing its Blowfish A3 — an autonomous helicopter-like drone armed with a machine gun — to international buyers, according to Defense One. While several countries have been working towards this tech for years, this news means we’re finally, and unfortunately, living in the era of killer robots.
The ATHENA system shown here destroyed multiple drones in a real-world demonstration for the Air ForceLockheed Martin
Lockheed Martin’s Advanced Test High Energy Asset (ATHENA) laser weapon engaged and destroyed multiple drone threats in a recent field test at a US government test range at Fort Sill, Oklahoma. The laser weapon system being developed for the US Air Force was used against a mix of fixed-wing and rotary drones with the aid of government command and control systems.
The development of laser weapons requires more than just creating more and more powerful beam generators. Such systems must also be compact, portable, and robust enough to deploy in the field; able to track and lock onto a target; and be able to keep the beam stable over long distances.
In addition, to be practical, such weapons must be able to integrate with existing command and control systems and radar sensors. It was to demonstrate this that was the focus of the Fort Sill test, where the ATHENA laser was operated by airmen, who were given radar tracks of the drones, which then allowed ATHENA’s beam director to slew, acquire, track, and shoot down the targets using its high-energy laser.
The skies of Syria, Yemen, and Libya swarm with armed and dangerous unmanned aerial vehicles. And the technology is spreading farther and farther afield.
The Kurdish fighters emerged from a tunnel and were spotted by a Turkish reconnaissance drone. As they were loading ammunition onto a truck in a parched Syrian landscape, the drone fed their coordinates to an F-16. It attacked seconds later, sending a huge ball of flames into the air. When the smoke cleared, there was nothing left but a crater—a success, Turkey’s defense ministry declared, as it released a video of the strike.
Turkey’s use of drones in such operations is highlighting the changing face of war in one of the world’s most volatile regions. Unmanned aerial vehicles (UAVs) turned the tide in Ankara’s decades-old counterinsurgency against the separatist Kurdistan Workers’ Party in the country’s southeast, northern Iraq, and Syria. In addition, the deployment of drones has saved the lives of Turkish soldiers and money for the defense ministry. Now it’s using UAVs to gain the upper hand against the Kurdish party’s sister organization, the People’s Protection Units. After U.S. troops began withdrawing on Oct. 9, Turkish drones, in tandem with fighter jets, started pounding a strip of land along the border with Syria to clear the way for its troops. “In most cases, they reach the scene of the attack and confirm the enemy was totally destroyed,” says Nihat Ali Ozcan, a strategist at the Economic Policy Research Foundation in Ankara. Altogether, at least three different types of drones have been deployed: mini drones used for surveillance and photography, the much larger Anka-S surveillance drone, and the Bayraktar TB-2, Turkey’s only armed drone. Continue reading… “The drone wars are already here”
Abqaiq has the world’s largest oil processing plant
When a mixed formation of cruise missiles and small drone aircraft rained explosive charges on the Saudi Arabian state oil group Aramco sites at Abqaiq and Khurais on 14 September they halved national oil output, cutting 5.7 million barrels of crude per day from the company’s production.
But they did more than economic damage. This attack has had a huge impact on how nations think about protecting their airspace.
Companies are now developing and deploying sophisticated new defences, from frying the electronic circuits with powerful beams of microwave radiation, to precise jamming systems.
While both the United States and Saudi Arabia have blamed Iran for the Abqaiq attack, it’s still not clear who was behind it.
But it would be a mistake to confuse the use of drones or UAVs (unmanned aerial vehicles) in this attack with other incidents where off-the-shelf drones have disrupted airports, football matches or political rallies, says Douglas Barrie, an air power fellow at think tank the International Institute for Strategic Studies.
Rick Smith is the Chief Executive Officer of Axon Enterprise, a pioneer in less-lethal weapons and a global market leader in law enforcement technology. He notes that the gun is antiquated technology, and it is responsible for tens of thousands of senseless killings every year. Humanity has accepted that killing is an unavoidable fact of life, but Smith argues that it doesn’t need to be this way and that we have the means to make the bullet obsolete in our lifetime.
Smith founded his company, formerly known as TASER, in 1993 with the mission of “protecting life.” The company has since expanded its focus from the eponymous electroshock weapon to an ecosystem of integrated hardware and software ranging from body-worn cameras used by the majority of major US police departments to a cloud-based evidence management system.
Smith is also the author of the new book, The End of Killing: How Our Newest Technologies Can Solve Humanity’s Oldest Problem. It is a manifesto on how we will be able to protect life without taking life “through technology that redefines public safety and makes our communities stronger, safer, and more connected.”
In this interview, Rick shares his entrepreneurship journey and details how Axon is pursuing the aforementioned mission.
Tomorrow’s wars will be faster, more high-tech, and less human than ever before. Welcome to a new era of machine-driven warfare.
Wallops island—a remote, marshy spit of land along the eastern shore of Virginia, near a famed national refuge for horses—is mostly known as a launch site for government and private rockets. But it also makes for a perfect, quiet spot to test a revolutionary weapons technology.
The sound alone of something ripping by at hypersonic speed just feet above the desert floor is worth the click!
The internet is full of many wondrous things, most of which you have likely already seen. But something you probably have never seen before is an object rocketing along a set of tracks at 6,599 miles per hour, or right around Mach 8.6. No, I did not screw those metrics up, the video below shows a test being conducted on an object that is moving far beyond the threshold of hypersonic speed (Mach 5) just a few feet over the desert floor near Alamagordo, New Mexico.
