Tolomatic’s John Fenske and Mason Cousins weigh in on how the industry is repositioning as electrification, systems ...

Motion systems expert Michael Everman discusses why design engineers are opting to bundle multi-axis precision into drop-in ...

Combining precision manufacturing expertise with advanced robotics engineering to build scalable automation solutions.

We have considerable expertise in MPC as a powerful tool for providing optimal control in dynamic environments, ensuring real-time performance and adaptability. Our work includes developing predictive ...

A twisted pair of photonic crystals integrated with MEMS can dynamically control the handedness of light on a chip.

This article examines engineering concepts for transitioning from 12-V to 48-V power systems, with a particular emphasis on ...

Networks exist in both nature — such as biological systems like food webs and gene regulatory networks — and in engineered systems as seen in power ...

Robotics development hinges on critical physical components like actuators, sensors, and AI compute, which are concentrated in specific countries, creating chokepoints that influence global dominance.

GHz phased array radar system featuring Pulse Linear Frequency Modulated (LFM) modulation and based on an AMD Artix-7 FPGA. Two versions are available: the AERIS-10N (Nexus), providing up to 3km range ...

The real "showstopper" in a standard digital PLL is the interaction between the loops. In a typical design, the Phase Detector and the Frequency Detector run simultaneously.

This technical FAQ examines three modeling gaps identified in engineering literature and outlines algorithmic methods to address them.

Researchers at the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) have created a chip-scale device that can dynamically control the "handedness" of light as it passes ...