Virtual human and operation method thereof
An operation method and virtual human technology, applied in the field of virtual human and its operation, can solve the problems that the characteristics of the virtual image cannot be combined with intelligence, and the structural interaction characteristics of the virtual human cannot be applied to the virtual world, etc.
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Embodiment 1
[0027] Before describing the specific embodiments of the present invention, several concepts are first introduced:
[0028] Flow calculus, a formal method proposed by Michael Thielscher in 1998 to describe the dynamically changing world and the action reasoning of intelligent agents: it is believed that any state change in the world can be regarded as the result of action. Flow calculus extends scenario calculus by introducing the concept of state. At the same time, it adopts the reasoning mechanism of Progression and uses the state update axiom to effectively solve the problem of representation and reasoning of frame problems.
[0029] Flow calculus has four basic concepts: flow (fluent), action (action), state (state), situation (situation), defined as type (sort). Flow (fluent) represents the atomic properties or states of objects in the physical world that change over time; state (state) represents a snapshot of the environment at a certain moment, which is synthesized by ...
Embodiment 2
[0108] Figure 4 A flow chart of a virtual human running method provided by the second embodiment of the present invention is shown, and the details are as follows.
[0109] Step S21, receiving a user instruction, analyzing the tasks contained therein according to the received user instruction, and obtaining a planning triplet corresponding to the task;
[0110] Preferably, the step S21 specifically includes:
[0111] receiving a user instruction, and decomposing the tasks included in the received user instruction into at least one task sequence;
[0112] A planning triplet corresponding to the task sequence is determined, and the planning triplet is composed of a plan, a task, and a state corresponding to the task sequence.
[0113] Step S22, according to the planning triplet, determine the execution pair corresponding to the task, and execute the task according to the execution pair;
[0114] Preferably, the step S22 specifically includes:
[0115] Find the behavior cont...
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