Here we examine the concept of near-sensor and in-sensor computing in which computation tasks are moved partly to the sensory terminals. We classify functions into low-level and high-level processing, and discuss the implementation of near-sensor and in-sensor computing for different physical ...
The number of nodes typically used in sensory networks is growing rapidly, leading to large amounts of redundant data being exchanged between sensory terminals and computing units. To efficiently process such large amounts of data, and decrease power con
and encryption in a tight power envelope, we propose Fulmine, a System-on-Chip based on a tightly-coupled multi-core cluster augmented with specialized blocks for compute-intensive data processing and encryption functions, supporting software programmability for regular computing tasks. The Fulmine SoC...
In chemistry, the ultrasound is employed when information on the speed of sound or sound absorption can be related to various physical, thermodynamic, and transport properties. The speed of sound is appropriate property, which can be used for determination of the phase equilibrium in single ...
Therefore, we select the structure enclosed by a white transparent cube in Fig. 2(a) as the periodic unit for simulation modeling to conserve computing resources, as shown in Fig. 2(b). The electric field distribution and spectral characteristic of the NLF-SPR sensing structure, as shown in...
To the best of our knowledge, this is the first implementation of an LSNN on a low-power microcontroller that we integrated into a complete SNN-based near-sensor computing system. We designed and compared different input data encoding schemes in terms of performance and energy. We designed an ...
Nazila Merati for Web page design advice/technical support, and OMAO management for continuing support of the project. Everyone's contributions have been vital to the project. This project has been funded in part by a grant from the NOAA High Performance Computing and Communication-Visualization Ini...
23.The physiological sensor of claim 21, wherein the window layer and the diffusion region are configured to receive the optical radiation prior to the absorption region and the semiconductor wafer receiving the optical radiation. 24.The physiological sensor of claim 23, wherein the absorption regio...
A device including at least one of an NFC reader or and NFC tag. An impact sensor to detect an impact to the device. Wherein the impact to the device effects whether data is transfe
To use this library, first download the library file, paste it into the \Arduino\libraries directory, then open the examples folder and run the demo in the folder. Methods /*** @fn begin* @brief init function* @param mode data read mode* @return return 0 if the initialization succeeds,...