SYNCHRONIZING PHYSICAL AND VIRTUAL ENVIRONMENTS USING QUANTUM ENTANGLEMENT

Organization Name

INTERNATIONAL BUSINESS MACHINES CORPORATION

Inventor(s)

Aaron K. Baughman of Cary NC (US)

Eduardo Morales of KEY BISCAYNE FL (US)

Micah Forster of Round Rock TX (US)

Sarbajit K. Rakshit of Kolkata (IN)

SYNCHRONIZING PHYSICAL AND VIRTUAL ENVIRONMENTS USING QUANTUM ENTANGLEMENT - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240029375 titled 'SYNCHRONIZING PHYSICAL AND VIRTUAL ENVIRONMENTS USING QUANTUM ENTANGLEMENT

Simplified Explanation

The abstract describes a patent application that involves accessing video footage of a physical object in a real-world environment. The application detects a specific feature of the object in the video and encodes it into a quantum state called a qubit. This qubit is then entangled with another qubit, forming an entangled qubit pair. The application further detects the quantum state of the second qubit and generates computer-generated content of a virtual environment that includes a virtual object corresponding to the physical object. The properties of the virtual object are determined based on the detected quantum state.

• The patent application involves accessing video footage of a physical object and encoding its feature into a quantum state.
• The encoded quantum state is entangled with another qubit, forming an entangled qubit pair.
• The quantum state of the second qubit is detected and used to generate computer-generated content of a virtual environment.
• The virtual environment includes a virtual object that corresponds to the physical object, with the properties of the virtual object determined by the detected quantum state.

Potential Applications:

• Augmented reality experiences where virtual objects correspond to real-world objects.
• Virtual simulations that accurately represent physical objects and their properties.
• Quantum computing applications that utilize entangled qubit pairs for information processing.

Problems Solved:

• Enhancing the realism and accuracy of virtual environments by incorporating real-world object features.
• Improving the efficiency and effectiveness of quantum computing by utilizing entangled qubit pairs.

Benefits:

• More immersive and interactive augmented reality experiences.
• Accurate representation of physical objects in virtual simulations.
• Potential advancements in quantum computing capabilities.

Original Abstract Submitted

an embodiment includes accessing captured video of a first physical object in a physical environment. the embodiment also includes detecting a feature of the first physical object in a first frame of the video. the embodiment encodes a first qubit with a first quantum state based on a first value of the feature of the first physical object, and then entangles the first qubit with a second qubit forming an entangled qubit pair. the embodiment detects a second quantum state of the second qubit of the entangled qubit pair and renders computer-generated content of a virtual environment that includes a computer-generated first virtual object that corresponds to the first physical object, where the rendering comprises determining a property of the first virtual object based on the detected second quantum state.