On October 7, 2025, WiMi Hologram Cloud Inc. announced that it is exploring a quantum image encryption algorithm based on a four‑dimensional chaotic system. The company described the use of the Generalized Quantum Image Representation (GQIR) method to encode classical images into quantum states, and the integration of a four‑dimensional chaotic system to generate multi‑dimensional encryption keys.
The algorithm combines pixel‑value encryption and position‑permutation encryption, both driven by chaotic keys that are continuously updated during the encryption process. A dynamic key‑update mechanism ensures that the keys evolve as each pixel is processed, making statistical analysis of the encrypted image extremely difficult. The design also incorporates a quantum parallelism layer that allows large‑scale image data to be encrypted in a short time.
By leveraging the larger key space and higher complexity of a four‑dimensional chaotic system, the new method offers advantages over traditional encryption schemes, such as reduced periodicity and increased resistance to statistical attacks. The integration of quantum computing further enhances efficiency, enabling rapid encryption of high‑resolution images that are common in WiMi’s holographic AR and entertainment products.
This breakthrough positions WiMi to strengthen its competitive moat in the AR and holographic markets by providing a next‑generation security layer for image data. The technology could open new revenue streams in secure image processing and reinforce WiMi’s reputation as a leader in quantum‑enabled solutions for the emerging holographic ecosystem.
The content on BeyondSPX is for informational purposes only and should not be construed as financial or investment advice. We are not financial advisors. Consult with a qualified professional before making any investment decisions. Any actions you take based on information from this site are solely at your own risk.