Commercial Aviation has great importance in the ... [ ] transport of organs for transplants in receiving patients. Studies show that commercial air carriers carry more than 9,000 organs a year on board airplanes with passengers. In the United States, an estimated 114,000 people were waiting for organ transplants, and only 30% of those got their organs on time in 2019. According to Kaiser Health News and Reveal from the Center of Investigative Reporting, nearly 170 organs could not be transplanted. Almost 370 endured near misses with delays of two hours or more because of transportation problems.
Drone racing is an increasingly popular sport with big money prizes for skilled professionals. New control algorithms developed at the University of Zurich (UZH) have beaten experienced human pilots for the first time – but they still have significant limitations. In the past, attempts to develop automated algorithms to beat humans have run into problems with accurately simulating the limitations of the quadcopter and the flight path it takes. Traditional flight paths around a complex drone racing course are calculated using polynomial methods which produce a series of smooth curves, and these are not necessarily as fast as the sharper and more jagged paths flown by human pilots. A team from the Robotics and Perception Group at UZH has developed a trajectory planning algorithm to calculates the optimal route at every point in the flight, rather than doing it section by section.
There may not have been any fans in the Olympic Stadium, but Japan still found a way to put on a show for the opening of the 2020 Summer Games. The host country charmed early with the parade of nations, which featured an orchestrated video game soundtrack, and then showed off the type of creativity it's known for with a performance involving the Olympic pictograms. But Tokyo saved the biggest spectacle for last. Towards the end of the ceremony, a fleet of 1,824 drones took to the skies above the Olympic Stadium. Initially arrayed in the symbol of the 2020 Games, they then took on the shape of the Earth before a rendition of John Lenon's "Imagine," which was reworked by Hans Zimmer for the Olympics, played across the stadium.
Industrial drones are nothing new, but the growth curve and pace of adoption is pretty astounding. The adoption of industrial drone programs by industry is expected to increase at a 66.8% compound annual growth rate over the next year. The best aerial hardware and technology stacks for keeping an eye on operations, individuals, and valued assets from above. Industrial drones are being used in major industries like insurance, mining and aggregates, using cutting-edge technologies (AI, machine learning, and deep data analytics, to name a few) to drastically reduce the time workers spend gathering and analyzing data while increasing accuracy and positively impacting the bottom line. All of these working together result in a growing field impacting industrial work and forever changing how these industries operate on a daily basis globally: smart inspections.
Zala Aero, a Russian UAV manufacturer, presented its state-of-the-art vertical takeoff and landing drone – the ZALA VTOL – at the MAKS 2021 International Aviation and Space Salon, the company told reporters during the air show. "The ZALA VTOL combines the properties of an airplane type drone and a tilt-rotor aircraft. The flight configuration changes depending on the assigned mission. The electric propulsion system enables the aircraft to be in the air for up to 4 hours, providing a range of up to 200 km in aircraft configuration," the company said. The built-in on-board computer ZX1 based on artificial intelligence makes it possible to process Full HD format data and transmit HD videos and photos over encrypted communication links to a ground control station.
My wife and I were recently driving in Virginia, amazed yet again that the GPS technology on our phones could guide us through a thicket of highways, around road accidents, and toward our precise destination. The artificial intelligence (AI) behind the soothing voice telling us where to turn has replaced passenger-seat navigators, maps, even traffic updates on the radio. How on earth did we survive before this technology arrived in our lives? We survived, of course, but were quite literally lost some of the time. My reverie was interrupted by a toll booth. It was empty, as were all the other booths at this particular toll plaza.
To be useful, drones need to be quick. Because of their limited battery life they must complete whatever task they have – searching for survivors on a disaster site, inspecting a building, delivering cargo – in the shortest possible time. And they may have to do it by going through a series of waypoints like windows, rooms, or specific locations to inspect, adopting the best trajectory and the right acceleration or deceleration at each segment. The best human drone pilots are very good at doing this and have so far always outperformed autonomous systems in drone racing. Now, a research group at the University of Zurich (UZH) has created an algorithm that can find the quickest trajectory to guide a quadrotor – a drone with four propellers – through a series of waypoints on a circuit.
To be useful, drones need to be quick. Because of their limited battery life, they must complete whatever task they have--searching for survivors on a disaster site, inspecting a building, delivering cargo--in the shortest possible time. And they may have to do it by going through a series of waypoints like windows, rooms, or specific locations to inspect, adopting the best trajectory and the right acceleration or deceleration at each segment. The best human drone pilots are very good at doing this and have so far always outperformed autonomous systems in drone racing. Now, a research group at the University of Zurich (UZH) has created an algorithm that can find the quickest trajectory to guide a quadrotor--a drone with four propellers--through a series of waypoints on a circuit.
Turbine maintenance is an expensive, high-risk task. According to a recent analysis from the news website, wind farm owners are expected to spend more than $40 billion on operations and maintenance over a decade. Another recent study finds by using drone-based inspection instead of traditional rope-based inspection, you can reduce the operational costs by 70% and further decrease revenue lost due to downtime by up to 90%. This blog post will present how drones, machine learning (ML), and Internet of Things (IoT) can be utilized on the edge and the cloud to make turbine maintenance safer and more cost effective. First, we trained the machine learning model on the cloud to detect hazards on the turbine blades, including corrosion, wear, and icing.