Uncrewed Systems Technology 052 l Keybotic Keyper l Video encoding l Dufour Aero2 l Subsea SeaCAT l Space vehicles l CUAV 2023 report l SkyPower SP engine l Cable harnesses l Paris Air Show 2023 report I Nauticus Aquanaut

14 Platform one A low-power underwater comms system that can transmit signals across kilometres has been announced (writes Nick Flaherty). Researchers at MIT in the US used piezoelectric transducers and a backscatter technique for communicating over several kilometres. Underwater backscatter enables low-power comms by encoding data in sound waves that it reflects, or scatters, back toward a receiver. This enables reflected signals to be more precisely directed at their source and to use the reflected energy to reduce the overall power consumption. A Van Atta array, in which symmetrical pairs of antennas are connected in such a way that the array reflects energy back in the direction it came from, was used to boost the efficiency of the link and reduce the power consumption. However, connecting piezoelectric nodes to make a Van Atta array reduces their efficiency. The researchers avoided this problem by placing a transformer between pairs of connected nodes so that the nodes reflect the maximum the MIT Media Lab. “There are still a few technical challenges to address, but there is a clear path from where we are now to deployment.” To better understand the limits of underwater backscatter, the team also developed an analytical model to predict the technology’s maximum range. The model, which they validated using experimental data, showed that the system could communicate across kilometre-scale distances. For instance, the researchers needed to derive a function that captures the amount of signal reflected out of an underwater piezoelectric node with a specific size, which was among the biggest challenges of developing the model. Comms Long-range subsea array amount of energy back to the source. When building the array, the researchers found that if the connected nodes were too close, they would block each other’s signals. They therefore produced a new design with staggered nodes that enables signals to reach the array from any direction. With this design, which is scalable, the more nodes in an array, the greater its comms range. The team tested the array in more than 1500 experimental trials in the Charles River in Cambridge, Massachusetts, and in the Atlantic Ocean, off the coast of Falmouth, Massachusetts, in collaboration with the Woods Hole Oceanographic Institution. The device achieved comms ranges of 300 m at 500 bit/s, more than 15 times longer than previously demonstrated, with a bit error rate of 10−3 and an input power of 1.8 W. “What started as an exciting intellectual idea a few years ago — underwater communication with a million times lower power — is now practical and realistic,” said Fadel Adib, associate professor in the Department of Electrical Engineering and Computer Science, and director of the Signal Kinetics group in October/November 2023 | Uncrewed Systems Technology The underwater comms system uses piezoelectric transducers to send signals over several kilometres SCD has developed the first shortwavelength IR (SWIR) detector that integrates event-based IR and optical imaging (writes Nick Flaherty). The SWIFT-EI uses an InGaAs detector with a resolution of 640 x 512 with 10 µm pixels. It integrates a ReadOut Integrated Circuit that provides two parallel video channels in one sensor, a standard imaging SWIR video channel, and a frame-event imaging channel classification for autonomous UAVs by showing thermal images. Sensors First integrated imager capable of up to 1500 frames/second. Rather than having the whole video frame as the output, an event-driven sensor just outputs any changes in the frame. That reduces the amount of data that needs to be processed and sent by a UAV. The event-based imaging channel can be used for laser event spot detections and multi-laser spot asynchronous laser pulse detection capabilities, while the SWIR event-based imaging increases the scope of target detection and The detector is based on InGaAs technology

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