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Intelligent riding control method and system based on information sharing and projection mapping

A projection mapping and information sharing technology, applied in the field of information sharing, can solve the problems of not being able to accompany pets for a long time, not having too much time to take pets out for a walk, and companion robots unable to take pets out for a walk, etc.

Active Publication Date: 2019-06-14
江苏亨诺科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Nowadays, with the acceleration of the pace of life and the increase of pressure, people keep animals as pets in order to eliminate loneliness or for entertainment purposes. Due to the need to work, they cannot accompany pets for a long time or do not have much time to take pets for a walk. Therefore, the market Companion robots have appeared on the Internet. When users go to work, companion robots can play with pets. However, companion robots can only play with pets in the house. Some animals, such as dogs, like freedom and exercise. It is the nature of dogs. Adequate exercise It can make them relax, enjoy happiness, and relieve loneliness and loneliness, which is not only beneficial to their physical and mental health, but also cultivates a good character; when users are busy, they have no time to take pets for a walk, and companion robots cannot take pets go for a walk

Method used

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  • Intelligent riding control method and system based on information sharing and projection mapping
  • Intelligent riding control method and system based on information sharing and projection mapping
  • Intelligent riding control method and system based on information sharing and projection mapping

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0080] refer to figure 1 , Figure 5-13 shown.

[0081] Specifically, this embodiment provides an intelligent riding control method based on information sharing and projection mapping, the method includes the following steps:

[0082] S1. After the information receiving module 51 inside the processing device 5 receives the assisted riding instruction sent by the user's external equipment, the auxiliary ingestion module 52 inside the processing device 5 controls the auxiliary camera 40 installed in front of the auxiliary bicycle 10 to capture the auxiliary riding in real time. image, while the auxiliary starting module 53 inside the processing device 5 controls the auxiliary platform 11 arranged at the tail end of the auxiliary bicycle 10 to start;

[0083] S2. After the start-up of the auxiliary platform 11 is controlled by the auxiliary starting module 53, the pin telescopic module 54 inside the processing device 5 controls the pin telescopic motor 30 fixed at the inner pos...

Embodiment 2

[0097] refer to figure 2 , Figure 6-13 shown.

[0098] Specifically, this embodiment is basically the same as Embodiment 1, the difference is that in this embodiment, after S4 (the weight acquisition module 58 controls the weight sensor 42 to acquire weight information in real time), the method further includes the following steps:

[0099] S40, after the information analysis module 60 analyzes that the weight at the top position of the protective telescopic plate 24 exceeds the preset weight, the splicing telescopic module 66 inside the processing device 5 controls the splicing telescopic motor arranged at the internal position of the front end of the stretched protective telescopic plate 24 35 drives the splicing expansion plate 36 to stretch out and fix the splicing groove 37 below the auxiliary closure cover 20 to reinforce the connection between the auxiliary closure cover 20 and the protection expansion plate 24;

[0100] S41. After the splicing telescopic module 66 ...

Embodiment 3

[0102] refer to Figure 3-4 , Figure 6-13 shown.

[0103] Specifically, this embodiment is basically the same as Embodiment 1, the difference is that in this embodiment, after S8 (the information sending module 64 sends the assisted riding start information to the user's external device), the method further includes The following steps:

[0104] S80. The speed acquisition module 68 inside the processing device 5 controls the speed sensor 43 disposed inside the auxiliary bicycle 10 to acquire the speed information of the auxiliary bicycle 10 in real time. After the speed acquisition module 68 controls the speed sensor 43 to acquire the speed information of the auxiliary bicycle 10, the information The analysis module 60 analyzes in real time whether the speed of the auxiliary bicycle 10 is lower than a preset speed according to the speed information of the auxiliary bicycle 10;

[0105] S81. If the information analysis module 60 analyzes that the speed of the auxiliary bicy...

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PUM

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Abstract

The invention relates to an intelligent riding control method and system based on information sharing and projection mapping. The intelligent riding control method comprises the following steps of: controlling an auxiliary camera to take an auxiliary image and controlling an auxiliary platform to start through a processing device if the processing device receives an auxiliary riding instruction; controlling a bolt telescopic motor to drive a fixed bolt to fully contract and controlling a protective unmanned aerial vehicle to hang a closed auxiliary top cover to ascend through the processing device; controlling an unmanned aerial vehicle camera to take an image of the unmanned aerial vehicle and controlling a protective driving motor to drive a protective telescopic plate to extend throughthe processing device; lowering the closed auxiliary top cover and placing on the top of the protective telescopic plate by controlling the protective unmanned aerial vehicle and controlling a weightsensor to get weight information through the processing device; controlling the start of an auxiliary track and analyzing whether the top weight of the protective telescopic plate exceeds the preset weight through the processing device, controlling a fixed telescopic motor to drive a fixed telescopic pillar to extend through the processing device if exceeds; planning the auxiliary image into a spatial projection mapping image and controlling a projection mapping device to project and map the spatial image onto the surface of the protective telescopic plate through the processing device.

Description

technical field [0001] The present invention relates to the field of information sharing, in particular to an intelligent riding control method and system based on information sharing and projection mapping. Background technique [0002] As the amount of information increases, the presentation of information becomes more and more diverse. The development of information technology makes it possible to realize virtual reality and augmented reality technology. Before the birth of this type of technology, the real world we live in is difficult to present information beyond time and space. However, through virtual technology and simulation, any information can be superimposed on the real world, allowing users to perceive rich visual information, thereby achieving a sensory experience beyond reality. The goal of virtual reality is to seamlessly connect the information of the physical world with the information of the virtual world, and realize the one-to-one mapping from atoms t...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A63B69/16A63B71/06
Inventor 金驰
Owner 江苏亨诺科技有限公司