In brief

Abstract

PAGE 1103 Researchers from the Republic of Korea present a self-capacitance sensing technique for touch screen panels with alternating panel charge sharing, which effectively suppresses low-frequency noise and achieves better signal-to-noise ratio. SNR is improved by 7.65 dB compared to conventional panel charge sharing based techniques. PAGE 1148 A deep reinforcement learning-based approach for the delay-constrained buffer-aided relay selection in a cooperative cognitive network is proposed by Chinese researchers. The proposed algorithm can solve the complicated relay selection problem and achieves the optimal throughput when the buffer size and number of relays is large. Schematic of proposed analog front-end circuit. PAGE 1111 Brazilian researchers present an alternative analysis method to derive the voltage-current transmission matrix of transmission line sections. The method efficiently computes the relationship between the voltages and currents at the input and output of a circuit modelled through N identical cascaded two-port networks. The overall framework of the proposed Q-Learning algorithm. PAGE 1116 Researchers from Daejeon, Republic of Korea, present a new method for training convolutional neural networks that are designed to detect targets of interest in hyperspectral images. Using synthetic training data only, a Siamese CNN has been trained to learn robust features for the detection task. Experimental results on real hyperspectral images show the effectiveness of the proposed method. Circuit model composed of N identical cascaded two-ports. PAGE 1130 Indian researchers have designed and presented a photonic configurable logic block with a 1×1 Mach-Zehnder modulator as a universal photonic gate, capable of performing logical operations with the help of a field-programmable gate array as a configuration controller. The device exhibits neglibile transmission loss and a flexible switching control when compared to existing 2×2 MZI-basd photonic gates. A band image from the hyperspectral data cube (l) and ground truth for targets of interest (r). Cross-section details of the designed 1×1 Mach-Zehnder modulator.