Can we create artificial gravity, or is it still science fiction? In this video, we break the problem down using real physics ...

Spacecraft navigation explained with radio tracking, optical systems, and autonomous methods that enable deep space ...

In this video, we explain the conservation of angular momentum in AP Physics 1, showing why angular momentum remains constant and how it applies to rotating systems. You’ll see clear examples that ...

Researchers from the University of the Witwatersrand in South Africa, in collaboration with Huzhou University, discovered that the entanglement workhorse of most quantum optics laboratories can have ...

The theory that gravitons lose energy thru gravitational redshift while traveling against the force of a gravitational field ...

Abstract: Event cameras are bio-inspired sensors that capture intensity changes of pixels individually, and generate asynchronous and independent “events”. Due to the fundamental difference from the ...

Abstract: This article investigates the finite-time attitude tracking control problem of spacecraft with angular velocity sensor failures and actuator saturation. A model-free angular velocity ...

Generating ground truth 6DoF pose, velocity, and acceleration data is crucial to verify many algorithms in robotics. This repository implements [1] with some modification to estimate translational and ...

I've been working on angular velocity estimation of an object from noisy pose measurements, which is a common problem in augmented reality and surgical applications. To test my algorithms, I needed to ...