Gravitational radiation a tonsorial metric of space-time provides clues how the physical universe floats in the higher dimensional Hyperspace Scientists are amazed with the new computer simulation models that are predicting the way our physical universe floats in the higher dimensional Hyperspace. The new data centers around the a tonsorial metric of space-time through sensitive Gravitational radiation detectors. It can be a massive breakthrough in physics once scientists understand how the higher dimensions in the Hyperspace delivers the Gravitational radiation to influence the physical universe. Gravitational Radiation is to gravity what light is to electromagnetism. It is produced when massive bodies accelerate. You can accelerate any body so as to produce such radiation, but due to the feeble strength of gravity, it is entirely undetectable except when produced by intense astrophysical sources such as supernovae, collisions of black holes, etc. All oscillating radiation fields can be quantified, and in the case of gravity, the intermediate boson is called the "graviton" in analogy with the photon.
The computer simulation models are explicitly showing the presence of higher dimensions and immense gravitational radiation in the holes between the web of space-time curvature of our universe.