5/17/2023 0 Comments Satellite downlink![]() ![]() Further, with growing environmental concerns, low-orbit earth monitoring is likely to become more important. These findings could pave the way for a significant leap in downlink technology. Indeed, as the researchers demonstrated, their innovative transmitter design showed a high power efficiency as well as a high equivalent isotropically radiated power over a wide range of angles (from -60° to +60°). This could enable a practical device based on our technology,” says Dr. But, with our internal calibration for deterioration, this traditional constraint is lifted. This has been a fundamental limitation of using dual circular polarization. “As the load is tuned and the transmitter forms a larger angle with the receiver, the circular polarization deteriorates. In addition to the adaptive impedance circuity, a circular polarization detection circuitry was also integrated to calibrate the circular polarization upon beam steering. With this innovation, a satellite will be able to transmit to a receiver on earth for a wide range of angles,” explains Associate Professor Atsushi Shirane, one of the authors in the study. “In our study, we were able to lower the losses and increase the transmission efficiency by using an adaptive impedance tuning circuitry, realized with a low-loss pi-type transformer-based load tuner. Their work was presented in the IEEE Radio Frequency Integrated Circuits Symposium and published in the conference proceedings. The degraded polarization appears as noise in the receiver, reducing the signal-to-noise ratio.Īgainst this backdrop, researchers from Tokyo Institute of Technology (Tokyo Tech), Japan have now proposed, in a new study, what is the first reported dual circular polarization transmitter for satellites in the Ka band based on a standard silicon CMOS process. However, transmission devices in the Ka range have so far been largely inefficient owing to a degradation of the signal beam polarization with the transmitter changing direction. The Ka band allows for smaller antennas than those for conventional downlink frequencies and a phased array-based transmission, which enables transmission link control independent of the satellite position. In this regard, the Ka band for satellite communication in the microwave frequency range between 17–31 GHz offers several advantages. ![]() The data transmitted from the satellite terminals to the receivers on Earth, known as “downlink,” is steadily increasing and, as a result, requires new frequency domains. In addition, new benchmark instances are also provided for DSIDSP that could be used in the future research.Low earth orbit (LEO) satellites are being increasingly used for environmental monitoring of the earth, as well for logistic purposes, such as the navigation of maritime vessels. Our experimental results disclose that the algorithm NSGA2ALNS is a viable alternative to solve DSIDSP more efficiently and demonstrates superior outcomes based on various performance metrics. Results of extensive computational experiments carried out using benchmark instances are also presented. Harnessing the power of an adaptive large neighborhood search (ALNS) algorithm with a nondominated sorting genetic algorithm II (NSGA-II), an adaptive bi-objective memetic algorithm, NSGA2ALNS, is developed to solve DSIDSP. The DSIDSP is formulated as a bi-objective problem of optimizing the image data transmission rate and the service-balance degree. ![]() To offer additional modeling flexibility and renewed capabilities, a dynamic satellite image data downlink scheduling problem (DSIDSP) which combines two interlinked operations of image data segmentation and image data downlink dynamically was introduced. However, with recent developments in satellite technology, the traditional SIDSP is poorly effective for modern satellites due to the more complicated and additional opportunities for the satellite. The satellite image data downlink scheduling problem (SIDSP) plays a critical role in the mission planning operation of earth observation satellites. ![]()
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