Space-time mirror array device, interaction control method thereof and storage medium
A technology of interactive control and mirror array, applied in the field of multimedia teaching, to achieve high intelligent performance, strong interactive operation performance, and the effect of enhancing interest
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Embodiment 1
[0033] Please refer to figure 1 In this embodiment, a space-time mirror array device is disclosed, which includes a plurality of optical lenses 11, a plurality of rotating mechanisms 12, a position detection component 15 and a controller 14, which will be described separately below.
[0034] A plurality of optical lenses 11 are distributed in space in an array, forming a multi-row and multi-column distribution area. When moving objects (such as pedestrians R) pass through the periphery of the distribution area, these optical lenses 11 can be seen and interactive operations can be performed with them. .
[0035]It should be noted that each optical lens 11 can use components such as glass mirrors, metal plates, reflective films, etc., as long as the surface has a smooth optical reflection area, and the objects in the environment can be imaged through the principle of mirror imaging.
[0036] The plurality of rotating mechanisms 12 are connected to the plurality of optical lenses 1
Embodiment 2
[0052] On the basis of the space-time mirror array device disclosed in Embodiment 1, an interactive control method is disclosed in this embodiment, the interactive control method is mainly in figure 1 Apply on the controller 14 in.
[0053] see Figure 8 , The interactive control method for protection in this embodiment includes steps S210-S230, which will be described respectively below.
[0054] Step S210, acquiring spatial positions of moving objects around the plurality of optical lenses and sounds of surrounding sound sources. see figure 1 , since the position detection component 15 and the sound detection component 16 are provided, the controller 14 can easily obtain the spatial position of the moving objects (such as the pedestrian R) around the distribution area of the optical lens, and the sound of the sound source (such as the pedestrian R).
[0055] In a specific embodiment, Figure 9 , the step S210 may specifically include steps S211-S212, which are respectivel
Embodiment 3
[0073] On the basis of the interactive control method of the space-time mirror array device disclosed in the second embodiment, this embodiment discloses a space-time mirror array control device.
[0074] Please refer to Figure 10 , the space-time mirror array control device 3 mainly includes a memory 31 and a processor 32 . Wherein, the memory 31 is used as a computer-readable storage medium for storing programs, and the programs may be program codes corresponding to the interactive control methods S210-S230 in the second embodiment.
[0075] The processor 32 is connected with the memory 31 and is used to execute the programs stored in the memory 31 to implement and interact with the control method. For the functions implemented by the processor 32, reference may be made to the controller 14 in Embodiment 2, which will not be described in detail here.
[0076] Those skilled in the art can understand that all or part of the functions of the various methods in the foregoing imp
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