The fields of Digital Terrain Modeling (DTM) and LiDAR data processing have evolved rapidly, providing critical methodologies for accurately representing the Earth's surface. By integrating advanced ...

The COordinate Rotation DIgital Computer (CORDIC) algorithm is a versatile iterative method that computes a wide range of functions – including trigonometric, hyperbolic, logarithmic and exponential – ...

Purdue University’s online Graduate Certificate in Digital Signal Processing (DSP) provides specialized knowledge and practical skills in signal theory, programming, and algorithm development, ...

Learning Digital Signal Processing (DSP) techniques traditionally involves working through a good bit of mathematics and signal theory. To promote a hands-on approach, [Clyne] developed the DSP PAW ...

Traditional sonar and radar use an echo-based approach, and have been amazingly successful in sensing and tracking vehicles and objects under water, through the air, or even in space. The principle is ...

SAN FRANCISCO--(BUSINESS WIRE)--Ouster, Inc. (NYSE: OUST) (“Ouster” or the “Company”) announced today the introduction of the most powerful lidar system on chip (SoC) it has ever created, the L2X. The ...

The key design features driving the new Tensilica ConnX DSPs. What capabilities do the DSPs offer? Language and library support. Today’s automobiles incorporate dozens of embedded processors connected ...

The quadrature processing techniques employed in spectrum analysis,computer graphics, and digital communications routinely require highspeed determination of the magnitude of a complex number (vector ...

A digital signal processor is an IC or IP core designed to process signals digitally with efficiency. Analog signals are converted to digital via an analog-to-digital converter before being processed ...

Patrick Flandrin president of the association GRETSI. The notion of “signal processing” might seem like something impenetrably complex, even to scientists. However, the fact is that most of them have ...