A consciousness numerical simulation driven digital human interaction system and method based on quantum computing features
By generating consciousness intensity values through quantum computing to drive digital human animation and voice dialogue, and combining them with industrial-grade service modules, the dynamic performance and commercialization issues of digital human interaction modes have been solved, resulting in a highly stable and evolvable digital human system.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- 黄承斌
- Filing Date
- 2026-03-23
- Publication Date
- 2026-07-07
AI Technical Summary
Existing digital human interaction modes lack the ability to dynamically and continuously express consciousness. Quantum computing has not achieved unified driving with digital human animation, voice, and dialogue, and lacks industrial-grade functions, making it difficult to commercialize.
It employs parameterized circuits based on quantum computing to extract quantum features, generates consciousness intensity values through nonlinear transformations, drives digital human animation, voice and dialogue, and is equipped with an industrial-grade service architecture, including user authentication, caching, payment and backend training modules.
It achieves dynamic and continuous digital human interaction, possesses high stability and evolvability, supports commercial applications, and avoids ethical risks.
Smart Images

Figure CN122347232A_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the fields of quantum artificial intelligence, 3D digital human interaction, and multimodal human-computer interaction. Background Technology
[0002] Current digital human interaction modes are fixed and lack the ability to dynamically and continuously express consciousness. Quantum computing has the advantage of high-dimensional feature representation, but related solutions are mostly still in the experimental stage, failing to form a complete system that can be engineered and commercialized, and also failing to achieve unified driving of quantum computing with digital human animation, voice, and dialogue. At the same time, existing digital human platforms lack industrial-grade functions such as user authentication, caching, payment, and background training, making it difficult to achieve commercial implementation. Summary of the Invention
[0003] This invention provides a consciousness numerical simulation-driven digital human interaction system and method based on quantum computing features. It extracts quantum features through parameterized quantum circuits, calculates the numerical value of consciousness strength in a purely mathematical sense, and realizes dynamic interaction of digital humans without generating real consciousness. It is equipped with an industrial-grade service architecture and can be directly deployed commercially.
[0004] This invention comprises a quantum computing module, a consciousness value generation module, a multimodal control module, and an industrial-grade service module. Quantum features are obtained through quantum circuits, and consciousness strength values are generated through nonlinear transformations, driving digital human animation, voice, and dialogue strategies in real time. The system features autonomous background training, distributed caching, data persistence, user authentication, and payment functions, enabling highly stable, evolvable, and scalable digital human interaction.
[0005] The technical solution system includes a quantum computing module, a consciousness simulation module, a multimodal driving module, a speech synthesis module, a user permission module, a data storage module, a payment module, a backend training module, and a 3D digital human front-end module.
[0006] The workflow is as follows: user input enters the quantum computing module, and quantum features are output through quantum state evolution; the consciousness module generates consciousness intensity values based on quantum features; the multimodal module drives the digital human's performance based on the numerical values; and the industrial-grade module provides authentication, caching, storage, payment, and background autonomous training. Attached Figure Description Figure 1. System Overall Architecture Diagram. This diagram illustrates the overall system architecture flow, showcasing the full-link operational architecture and data flow logic of the consciousness numerical simulation-driven digital human interaction system based on quantum computing characteristics. User input information first enters the quantum computing processing module, where it performs calculations and outputs quantum feature data using parameterized quantum circuits, quantum gates, and quantum entanglement operations. The data then flows to the consciousness value generation module, where, after nonlinear transformation and normalization, a mathematically simulated consciousness strength value in the range of 0 to 1 is generated. This consciousness strength value is input to the multimodal linkage control module, driving the three major functions of animation, voice, and dialogue strategies, ultimately presenting the interactive effects on the 3D digital human front-end display module. An industrial-grade service support module runs throughout the entire system, providing basic services such as user authentication, distributed caching, data persistence, and order payment. The background autonomous training module continuously optimizes model parameters asynchronously and feeds the optimization results back to the quantum computing processing module, constructing a complete closed-loop control system to achieve autonomous iterative evolution of the system. Figure 2. Flowchart of Quantum Circuit and Consciousness Strength Calculation. This diagram details the complete calculation process of quantum circuit operations and consciousness strength values. First, the input vector and semantic features are initialized with qubits. Then, RY, RZ, and RX quantum rotation gate operations and CNOT quantum entanglement gate operations are executed sequentially to complete the overall quantum state evolution. Subsequently, the Pauli operator expectation value is obtained through measurement and used as the output quantum feature data. The quantum feature data is then connected to the neural network. Detailed Implementation
[0007] Quantum computing employs a 6-bit parameterized circuit, using rotation gates and entanglement gates to achieve quantum state evolution and output quantum features. The consciousness module converts these features into continuous values between 0 and 1 using a neural network. The system backend utilizes API services, caching, and a database for high availability, while the frontend uses a 3D engine to display a digital human, with the intensity of consciousness controlling the animation amplitude in real time.
[0008] Beneficial effects This invention enables dynamic and continuous consciousness-simulated digital human interaction, bringing quantum AI to the practical application. It features an industrial-grade stable architecture, poses no ethical risks, and can be widely used in scenarios such as digital humans, intelligent customer service, and commercial displays.
Claims
1. A consciousness numerical simulation-driven digital human interaction system based on quantum computing characteristics, characterized in that, include: The quantum computing processing module is configured to receive an input vector and perform quantum state evolution through parameterized quantum circuits, and output quantum feature data. The consciousness value generation module is configured to perform nonlinear transformation and normalization calculations based on the quantum feature data to generate a consciousness intensity value within a preset continuous numerical range. The consciousness intensity value is a purely mathematical simulation quantity and does not constitute real consciousness or self-perception. The multimodal linkage control module is configured to drive the 3D digital human model animation, speech synthesis parameters, and dialogue response strategies in real time based on the consciousness intensity value. The industrial-grade service support module includes a distributed conversation unit, a data persistence unit, a user authentication unit, an order payment unit, and an asynchronous background training unit.
2. The system according to claim 1, characterized in that, The quantum computing processing module includes a multi-layered trainable quantum gate structure and quantum entanglement operations, supporting seamless switching between quantum simulators and real quantum computing hardware.
3. The system according to claim 1, characterized in that, The consciousness value generation module processes quantum feature data through a multi-layer neural network to output a dynamic, continuous, and autonomously evolving consciousness intensity value.
4. The system according to claim 1, characterized in that, The multimodal linkage control module outputs differentiated animation amplitude, voice emotion, response speed, and dialogue intelligence level according to different ranges of consciousness intensity values.
5. The system according to claim 1, characterized in that, The system includes a background autonomous training thread independent of the main service process, which is used to continuously optimize quantum circuit parameters and consciousness numerical models to achieve dynamic evolution of consciousness intensity.
6. The system according to claim 1, characterized in that, The industrial-grade service support module uses distributed caching to achieve session sharing and relational databases to achieve data persistence, and supports multi-process, high concurrency, and stable operation 24 / 7.
7. The system according to claim 1, characterized in that, The system stores the consciousness intensity value in a cache and pushes it to the front end in real time, forming a closed-loop control system of quantum computing, consciousness value, and digital human performance.
8. A consciousness numerical simulation-driven digital human interaction method based on quantum computing characteristics, characterized in that, include: Obtain user input or random vectors and input them into the quantum computing processing module; Quantum state evolution is performed by parameterizing quantum circuits to generate quantum characteristic data; The dynamic and continuous consciousness intensity value is calculated based on quantum characteristic data, and the consciousness intensity value is a purely mathematical simulation quantity; The consciousness intensity value is synchronized to the multimodal linkage control module and the front-end 3D digital human; the digital human's animation, speech synthesis and dialogue logic are driven by the consciousness intensity value; and user authentication, distributed caching, data persistence, order payment and back-end autonomous training are provided through the industrial-grade service support module.
9. The method according to claim 8, characterized in that, The consciousness intensity value is continuously self-optimized in the background, and can achieve long-term dynamic changes without human intervention.
10. The method according to claim 8, characterized in that, The method does not generate real consciousness; it only achieves differentiated expression of the interactive state of digital humans through numerical simulation and supports commercial SaaS deployment.