CN114442815A - Short video frequency control system based on intelligent wearing - Google Patents

Abstract

The invention discloses an intelligent wearing-based short video frequency control system, which comprises intelligent wearing equipment, a dynamic information acquisition module, a dynamic analysis module, a human body information acquisition module, a human body analysis module, a data receiving module, a data processing module, a master control module and an information sending module; the intelligent wearable device comprises a first wearable device and a second wearable device, and the first wearable device and the second wearable device only operate one at the same time; the first wearable device is used for acquiring first dynamic information and first human body information, and the second wearable device is used for acquiring second dynamic information and second human body information; the dynamic information acquisition module is used for receiving the acquired first dynamic information and second dynamic information and sending the first dynamic information and the second dynamic information to the dynamic analysis module. The invention has various short video regulation and control modes and meets different use requirements.

Description

Short video frequency control system based on intelligent wearing

Technical Field

The invention relates to the field of intelligent wearing, in particular to a short video frequency control system based on intelligent wearing.

Background

The intelligent wearable equipment is a general name for intelligently designing daily wearing and developing wearable equipment by applying a wearable technology, such as watches, bracelets, glasses, clothing and the like;

short video refers to video content played on various new media platforms, suitable for being watched in a mobile state and a short-time leisure state, pushed at high frequency, and is different from several seconds to several minutes;

when watching the short video through intelligent playback equipment, can use intelligent wearing equipment to control short video broadcast promptly, when using intelligent wearing equipment to control short video broadcast, need pass through short video frequency control system.

The existing short-video frequency control system has the problems of single control mode and poor control effect, and brings certain influence on the use of the short-video frequency control system based on intelligent wearing, so that the short-video frequency control system based on intelligent wearing is provided.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: how to solve current short video frequency control system, there is the problem that control mode is single and control effect is not good enough, has brought certain influence for the use based on short video frequency control system, provides a short video frequency control system based on intelligence is dressed.

The invention solves the technical problems through the following technical scheme, and the invention comprises the following steps: the intelligent wearable device comprises a first wearable device and a second wearable device, wherein the first wearable device and the second wearable device only operate one at the same time, the first wearable device is used for acquiring first dynamic information and first human body information, the second wearable device is used for acquiring second dynamic information and a second human body information dynamic information acquisition module, the dynamic information acquisition module is used for receiving the acquired first dynamic information and second dynamic information and sending the first dynamic information and the second dynamic information to the dynamic analysis module, the first dynamic information comprises first upper end information, first lower end information, first left side information and first right side information, and the second dynamic information comprises second upper end information, second left side information and second right side information; the dynamic analysis module is used for processing the first dynamic information and the second dynamic information to generate dynamic evaluation information, and the dynamic evaluation information comprises a first evaluation parameter and a second evaluation parameter; the human body information acquisition module is used for receiving first human body information and second human body information which are acquired, wherein the first human body information is human body temperature information and human body pulse information, the second human body information comprises human body temperature information, and the first human body information and the second human body information are sent to the human body analysis module; the human body analysis module is used for processing the first human body information and the second human body information to generate living body verification information; the data receiving module is used for receiving the dynamic evaluation information and the living body verification information, sending the dynamic evaluation information and the living body verification information to the data processing module, and automatically storing the dynamic evaluation information and the living body verification information; the data processing module is used for processing the dynamic evaluation information and the living body verification information to generate equipment operation information and video regulation and control information; and the master control module controls the information sending module to send the equipment operation information and the video regulation and control information to a preset receiving terminal after the equipment operation information and the video regulation and control information are generated.

Further, dynamic acquisition devices are arranged in the upper direction, the lower direction, the left direction and the right direction inside the first wearable device and used for acquiring first dynamic information, and dynamic acquisition devices are arranged at the upper end and the left end and the right end inside the second wearable device and used for acquiring second dynamic information.

The first wearable device comprises a wearable main body, a display screen embedded on the outer surface of the front end of the wearable main body and fixing belts arranged at the top end and the bottom end of the wearable main body, wherein a placing groove is formed in the outer surface of the rear end of the wearable main body;

the second wearable device comprises a wearable ring embedded in the placing groove on the first wearable device, and an opening is formed in the outer part of the wearable ring;

dynamic collecting devices are arranged on the upper inner wall surface, the lower inner wall surface, the left inner wall surface, the right inner wall surface and the left inner wall surface of the wearing main body, and dynamic collecting devices are arranged at the upper end and the left end and the right end of the inside of the wearing ring;

the dynamic acquisition device comprises an outer cover, a pressure rod and a pressure sensor, wherein the pressure rod and the pressure sensor are arranged in the outer cover.

Further, the specific process of the dynamic analysis module for processing the first dynamic information and the second dynamic information to generate the dynamic evaluation information is as follows:

the method comprises the following steps: extracting the collected first dynamic information, and acquiring first upper end information, first lower end information, first left side information and first right side information from the first dynamic information;

step two; when a pressure rod in a dynamic acquisition device at a corresponding position extends out and extrudes to a pressure sensor, the pressure sensor senses pressure and stress duration, and the pressure and stress duration in the first upper end information, the first lower end information, the first left side information and the first right side information are sorted to obtain a first evaluation parameter;

step three: and extracting second dynamic information, acquiring second upper end information, second left side information and second right side information from the second dynamic information, wherein the second upper end information, the second left side information and the second right side information are respectively the pressure magnitude and the stress duration sensed by the pressure sensor when a pressure rod in the dynamic acquisition device at a corresponding position extends out and is extruded to the pressure sensor, and the second upper end information, the second left side information and the second right side information are collated to obtain a second evaluation parameter.

Further, the living body verification information includes first living body authentication information and second living body authentication information, the first living body authentication information includes first living body information and first non-living body information, the second living body authentication information includes second living body information and second non-living body information, and the human body analysis module processes the first human body information and the second human body information to generate the living body verification information as follows:

s1: extracting first acquired human body information, extracting body temperature information and pulse information from the first human body information, generating first living body information when the body temperature information is within a preset value range or the pulse information is within a preset value range, and generating first non-living body information when the body temperature information is not within the preset value range and the pulse information is 0;

s2: and extracting the collected second human body information, extracting the body temperature information from the second human body information, generating second living body information when the body temperature information is within a preset value range, and generating second non-living body information when the body temperature information is not within the preset value range.

Further, the data processing module processes the living body verification information, and the specific process of generating the device operation information is as follows: extracting the collected first living body authentication information and the second living body authentication information, wherein the first living body authentication information is first living body information and the second living body authentication information is second living body information, generating equipment operation information, sending the equipment operation information to a first wearing equipment, and controlling the short video by the first wearing equipment, when the first living body authentication information is the first non-living body information and the second living body authentication information is the second living body information, generating device operation information, at which time the device operation information is transmitted to the second wearable device, the second wearable device controlling the short video, when the first living body authentication information is first living body information and the second living body authentication information is second non-living body information, and generating equipment operation information, wherein the equipment operation information is sent to the first wearable equipment, and the first wearable equipment controls the short video.

Further, the video regulation and control information includes sound regulation and control information, play/pause regulation and control information, previous video regulation and control information, and next video regulation and control information, and the specific process of the video regulation and control information generated by processing the dynamic evaluation information by the data processing module is as follows:

SS 1: extracting the collected dynamic evaluation information and acquiring a first evaluation parameter and a second evaluation parameter;

SS 2: when the first wearable device is a control main body, extracting first evaluation parameter information, and acquiring pressure and stress duration in first upper end information, first lower end information, first left side information and first right side information from the first evaluation parameter information;

SS 3: marking the pressure in the first upper-end information as K1, marking the stress duration in the first upper-end information as P1, and generating video regulation and control information when the pressure K1 is greater than a preset value and the stress duration P1 is greater than a preset time, wherein the video regulation and control information is the last video regulation and control information at this moment;

SS 4: marking the pressure in the first lower-end information as K2, marking the stress duration in the first lower-end information as P2, and when the pressure K2 is greater than a preset value and the stress duration P2 is greater than a preset time, generating video regulation and control information, wherein the video regulation and control information is the next video regulation and control information;

SS 5: continuously acquiring first left information twice, sequentially marking the pressure of the acquired first left information as Q1 and Q2, marking the total stress duration in the first left information as T1, and generating video regulation and control information when Q1 and Q2 are both greater than preset values and the total stress duration T1 is greater than the preset values, wherein the video regulation and control information is play/pause regulation and control information;

SS 6: continuously collecting first right-side information twice, marking pressure information in the first right-side information twice as R1 and R2, calculating a time interval between stress duration recording end time points in the first right-side information twice, marking the time interval as E, generating sound regulation and control information when R1 and R2 are larger than preset values and E is larger than preset time, wherein the generated regulation and control information is sound height-adjusting information, and generating sound regulation and control information when R1 and R2 are larger than the preset values and E is smaller than the preset time, wherein the generated regulation and control information is sound height-adjusting information;

SS 7: when the second wearable device is a control main body, extracting a second evaluation parameter, and acquiring pressure and stress duration of second upper-end information, second left-side information and second right-side information from the second evaluation parameter;

SS 8: continuously acquiring second upper-end information twice, wherein the pressure in the acquired second upper-end information twice is marked as F1 and F2, the total stress duration in the second upper-end information is marked as G, when the F1 and the F2 are both greater than a preset value and the total stress duration G is greater than the preset value, video regulation and control information is generated, and at the moment, the video regulation and control information is play/pause regulation and control information;

SS 9: extracting the pressure and the stress duration in the second left information, marking the pressure as H1 and the stress duration as Z1, and when the pressure H1 is greater than a preset value and the stress duration Z1 is greater than a preset time, generating video regulation and control information, wherein the video regulation and control information is the previous video regulation and control information;

SS 10: and extracting the pressure and the stress duration in the second right-side information, marking the pressure as H2 and the stress duration as Z2, and when the pressure H2 is greater than a preset value and the stress duration Z2 is greater than a preset time, generating video regulation and control information, wherein the video regulation and control information is the next video regulation and control information.

The system further comprises a habit acquisition module, wherein the habit acquisition module is used for acquiring strength information of the shaking equipment when the user performs video regulation and control, and the data processing module processes the strength information of the shaking equipment when the user performs video regulation and control to generate threshold adjustment information.

The data processing module processes the strength information of the shaking equipment when the user performs video regulation and control to generate the threshold adjustment information, and the specific process is as follows: the strength information of the shaking equipment, which is acquired when the user performs video control for x times, namely the pressure information sensed by the pressure sensor, is marked as Ureal, when the average value U of the pressure information Ureal for x times is larger than a preset value, threshold value adjusting information is generated, and the pressure threshold value is determined from SS2 to a preset value in SS 10.

Compared with the prior art, the invention has the following advantages: this short video frequency control system based on intelligence is dressed, switching adjustment and volume adjustment in short time are carried out through setting up two kinds of different controlgear, can satisfy user's different user demands, simultaneously through the live body verification that sets up, maloperation when can wearing two equipment simultaneously, the malfunctioning situation of short video frequency control that leads to takes place, and can enough realize multiple different modes through rocking wearing equipment and come to carry out broadcast control to short video, different user demands have been satisfied, let short video regulation and control more convenient, still carried out automatic regulation and control optimization according to user's use custom, thereby let intelligent wearing equipment's use experience better, thereby let this system be worth using widely more.

Drawings

FIG. 1 is a system block diagram of the present invention;

fig. 2 is an overall structure diagram of the intelligent wearable device of the invention;

FIG. 3 is a connection view of a first wearable device and a second wearable device of the present invention;

FIG. 4 is an interior view of the wearing body of the present invention;

FIG. 5 is an overall structure diagram of the dynamic acquisition device of the present invention;

fig. 6 is a view showing an inner structure of a wearing ring of the present invention.

In the figure: 1. a wearing body; 2. wearing a ring; 3. a display screen; 4. fixing belts; 5. a placement groove; 6. a dynamic collection device; 61. a housing; 62. a pressure lever; 63. a pressure sensor.

Detailed Description

The following examples are given for the detailed implementation and specific operation of the present invention, but the scope of the present invention is not limited to the following examples.

As shown in fig. 1 to 6, the present embodiment provides a technical solution: the short video frequency control system based on intelligent wearing comprises intelligent wearing equipment, a dynamic information acquisition module, a dynamic analysis module, a human body information acquisition module, a human body analysis module, a data receiving module, a data processing module, a master control module and an information sending module;

the intelligent wearable device comprises a first wearable device and a second wearable device, and the first wearable device and the second wearable device only operate one at the same time;

the first wearable device is used for acquiring first dynamic information and first human body information, and the second wearable device is used for acquiring second dynamic information and second human body information;

the dynamic information acquisition module is used for receiving the acquired first dynamic information and second dynamic information and sending the first dynamic information and the second dynamic information to the dynamic analysis module, the first dynamic information comprises first upper end information, first lower end information, first left side information and first right side information, the second dynamic information comprises second upper end information, second left side information and second right side information, the dynamic analysis module processes the first dynamic information and the second dynamic information to generate dynamic evaluation information, and the dynamic evaluation information comprises first evaluation parameters and second evaluation parameters;

the human body acquisition module is used for receiving first human body information and second human body information which are acquired, wherein the first human body information is human body temperature information and human body pulse information, the second human body information comprises human body temperature information, the first human body information and the second human body information are sent to the human body analysis module, and the human body analysis module processes the first human body information and the second human body information to generate living body verification information;

the data receiving module is used for receiving evaluation parameter information and living body verification information and sending the dynamic evaluation information and the living body verification information to the data processing module, and the data processing module processes the dynamic evaluation information and the living body verification information to generate equipment operation information and video regulation and control information;

after the equipment operation information and the video regulation and control information are generated, the master control module controls the information sending module to send the equipment operation information and the video regulation and control information to a preset receiving terminal;

the regulation and control system further comprises a habit acquisition module, the habit acquisition module is used for acquiring strength information of shaking equipment when a user performs video regulation and control, and the data processing module processes the strength information of shaking equipment when the user performs video regulation and control to generate threshold adjustment information.

The specific process of processing the strength information of the shaking equipment when the user performs video regulation and control by the data processing module to generate threshold value adjustment information is as follows: the strength information of the shaking equipment, which is acquired when the user performs video regulation for x times, namely the pressure information sensed by the pressure sensor 63 is marked as Ureal, when the average value U of the pressure information Ureal for x times is larger than a preset value, threshold value regulation information is generated, and the pressure threshold value is from SS2 to a preset value in SS 10;

through the process, intelligent user habit collection can be realized, so that the pressure threshold value of video regulation and control can be adjusted according to the user habit, when the user is found to exert too much force for a long time, the adjustment threshold value is automatically reduced, the shaking force of the hand of the user can be reduced, the hand loss is reduced, the use experience of intelligent wearable equipment is greatly improved, and the system is worthy of popularization and use.

The short video played on the intelligent equipment is controlled in different modes by setting control settings of different control equipment, the requirements of different video regulation and control are met, the two different control modes adopt a simpler and more convenient regulation and control mode to control the playing of the short video played on the intelligent equipment, the short-time switching adjustment and volume adjustment are carried out by setting two different control equipment, different use requirements of users can be met, meanwhile, the misoperation caused when two equipment are worn simultaneously can be realized through the set in vivo verification, the failure condition of the short video regulation and control can be caused, the short video can be controlled in different modes by shaking the wearable equipment, different use requirements are met, and the regulation and control of the short video are more convenient, still carry out automatic regulation and control optimization according to user's use habit to let intelligent wearing equipment's use experience better, thereby let this system be worth using widely more.

The upper, lower, left and right directions in the first wearable device are all provided with dynamic acquisition devices 6 for acquiring first dynamic information, the upper end and left and right ends in the second wearable device are all provided with dynamic acquisition devices 6 for acquiring second dynamic information, the first wearable device comprises a wearable main body 1, a display screen 3 embedded on the outer surface of the front end of the wearable main body 1 and fixing bands 4 arranged at the top end and bottom end of the wearable main body 1, the outer surface of the rear end of the wearable main body 1 is provided with a placing groove 5, the second wearable device comprises a wearable ring 2 embedded in the placing groove 5 on the first wearable device, the exterior of the wearable ring 2 is provided with an opening, the upper, lower, left and right inner wall surfaces in the wearable main body 1 are all provided with dynamic acquisition devices 6, the upper end and left and right ends in the wearable ring 2 are all provided with dynamic acquisition devices 6, when the first wearable device is used for control, namely, data are acquired through four dynamic acquisition devices 6 in the wearable main body 1, so that video playing control is performed, the wearable main body 1 is worn on the wrist through the fixing bands 4, namely, wearing of the first wearable device is completed, the wearable ring 2 is arranged in the placing groove 5 on the first wearable device, loss of the wearable ring 2 can be effectively avoided, namely, loss of the second wearable device is completed, the wearable ring 2 is worn on the fingers, namely, wearing of the second wearable device is completed, the wearable ring 2 has certain elasticity and is provided with an opening, fingers with different thicknesses can be better adapted, and people with fingers with different thicknesses can wear the second wearable device more stably;

the dynamic acquisition device comprises a housing 61, a pressure rod 62 and a pressure sensor 63, wherein the pressure rod 62 and the pressure sensor are arranged inside the housing 61.

When the user shakes the first wearing device or the second wearing device in one direction, the pressure rod 62 in the outer cover 61 extends out to abut against the pressure sensor 63, and the pressure sensor 63 is stressed to generate pressure data.

The specific process of the dynamic analysis module for processing the first dynamic information and the second dynamic information to generate the dynamic evaluation information is as follows:

the method comprises the following steps: extracting the collected first dynamic information, and acquiring first upper end information, first lower end information, first left side information and first right side information from the first dynamic information;

step two; when the first upper end information, the first lower end information, the first left side information and the first right side information are respectively the pressure of the pressure rod 62 in the dynamic acquisition device 6 at the corresponding positions and are extruded to the pressure sensor 63, the pressure and the stress duration sensed by the pressure sensor 63 are sorted to obtain first evaluation parameters;

step three: and extracting second dynamic information, and acquiring second upper end information, second left side information and second right side information from the second dynamic information, wherein the second upper end information, the second left side information and the second right side information are respectively the pressure magnitude and the stress duration sensed by the pressure sensor 63 when the pressure rod 62 in the dynamic acquisition device 6 at the corresponding position extends out and is extruded to the pressure sensor 63, and the second upper end information, the second left side information and the second right side information are collated to obtain a second evaluation parameter.

The first evaluation parameter and the second evaluation parameter are obtained through the steps, so that a parameter basis is provided for the subsequent generation of the video control information.

The living body verification information comprises first living body authentication information and second living body authentication information, the first living body authentication information comprises first living body information and first non-living body information, the second living body authentication information comprises second living body information and second non-living body information, and the specific process of the human body analysis module for processing the first human body information and the second human body information to generate the living body verification information is as follows:

s1: extracting first acquired human body information, extracting body temperature information and pulse information from the first human body information, generating first living body information when the body temperature information is within a preset value range or the pulse information is within a preset value range, and generating first non-living body information when the body temperature information is not within the preset value range and the pulse information is 0;

s2: and extracting the collected second human body information, extracting body temperature information from the second human body information, generating second living body information when the body temperature information is within a preset value range, and generating second non-living body information when the body temperature information is not within the preset value range.

Carry out the live body authentication before carrying out video control, can know whether intelligent wearing equipment dresses on user's health promptly, can effectually avoid the user to place intelligent wearing equipment in the pocket, intelligent wearing equipment rocks the situation of the maloperation that leads to and takes place, more humanized.

The data processing module processes the living body verification information, and the specific process of generating the equipment operation information is as follows: extracting the collected first living body authentication information and the second living body authentication information, wherein the first living body authentication information is the first living body information and the second living body authentication information is the second living body information, generating equipment operation information, sending the equipment operation information to the first wearing equipment at the moment, controlling the short video by the first wearing equipment, when the first living body authentication information is the first non-living body information and the second living body authentication information is the second living body information, generating device operation information, at which time the device operation information is transmitted to the second wearable device, the second wearable device controlling the short video, when the first living body authentication information is first living body information and the second living body authentication information is second non-living body information, and generating equipment operation information, wherein the equipment operation information is sent to the first wearing equipment, and the first wearing equipment controls the short video.

Through the process, the main equipment can be better determined, a user can use different wearing equipment to perform short video regulation according to actual conditions, if the user wears the first wearing equipment in summer, the arm is hot and sweaty, the user can select the second wearing equipment to perform video control, but when the first wearing equipment and the second wearing equipment are worn simultaneously, the user only selects the first wearing equipment as the main control equipment in order to avoid repeated errors of control signals.

The video regulation and control information comprises sound regulation and control information, play/pause regulation and control information, previous video regulation and control information and next video regulation and control information, and the specific process of processing the dynamic evaluation information by the data processing module to generate the video regulation and control information is as follows:

SS 1: extracting the collected dynamic evaluation information and acquiring a first evaluation parameter and a second evaluation parameter;

SS 2: when the first wearable device is a control main body, extracting first evaluation parameter information, and acquiring pressure and stress duration in first upper end information, first lower end information, first left side information and first right side information from the first evaluation parameter information;

SS 3: marking the pressure in the first upper-end information as K1, marking the stress duration in the first upper-end information as P1, and when the pressure K1 is greater than a preset value and the stress duration P1 is greater than a preset time, generating video regulation and control information, wherein the video regulation and control information is the previous video regulation and control information;

the process realizes that the first wearable device is shaken upwards according to a certain force, namely the first wearable device can control the intelligent playing device to play the last short video;

SS 4: marking the pressure in the first lower-end information as K2, marking the stress duration in the first lower-end information as P2, and when the pressure K2 is greater than a preset value and the stress duration P2 is greater than a preset time, generating video regulation and control information, wherein the video regulation and control information is the next video regulation and control information;

the process realizes that the first wearable device is shaken downwards according to a certain force, namely the first wearable device can control the intelligent playing device to play the next short video;

SS 5: continuously collecting first left information twice, sequentially marking the pressure of the obtained first left information as Q1 and Q2, marking the total stress time in the first left information as T1, and generating video regulation and control information when Q1 and Q2 are both greater than preset values and the total stress time T1 is greater than the preset values, wherein the video regulation and control information is play/pause regulation and control information;

the process realizes that the first wearing equipment is continuously shaken to the left side, namely the intelligent playing equipment can be controlled to play and pause the video, when the short video is played, the first wearing equipment is continuously shaken to the left side, namely the video is controlled to pause, when the short video is played in pause, the first wearing equipment is continuously shaken to the left side, namely the video is controlled to play, so that a user can conveniently and quickly control the intelligent playing equipment to play and pause the short video according to actual requirements;

SS 6: continuously collecting first right-side information twice, marking pressure information in the first right-side information twice as R1 and R2, calculating a time interval between stress duration recording end time points in the first right-side information twice, marking the time interval as E, generating sound regulation and control information when R1 and R2 are larger than preset values and E is larger than preset time, wherein the generated regulation and control information is sound height-adjusting information, and generating sound regulation and control information when R1 and R2 are larger than the preset values and E is smaller than the preset time, wherein the generated regulation and control information is sound height-adjusting information;

the process realizes that the first wearing device is shaken towards the right side twice continuously, when the interval of the two times is smaller than the preset value, the intelligent playing device increases the playing volume of the short video, and when the interval of the two times is larger than the preset value, the intelligent playing device increases the playing volume of the short video, so that a user can more conveniently adjust the volume during the playing of the short video;

SS 7: when the second wearable device is a control main body, extracting a second evaluation parameter, and acquiring pressure and stress duration of second upper-end information, second left-side information and second right-side information from the second evaluation parameter;

SS 8: continuously acquiring second upper-end information twice, wherein the pressure in the acquired second upper-end information twice is marked as F1 and F2, the total stress duration in the second upper-end information is marked as G, when the F1 and the F2 are both greater than a preset value and the total stress duration G is greater than the preset value, video regulation and control information is generated, and at the moment, the video regulation and control information is play/pause regulation and control information;

the process realizes that the second wearable device is continuously shaken towards the upper end according to a certain force, namely the intelligent playing device can be controlled to play and pause the video, when the short video is played, the second wearable device is continuously shaken towards the upper end to control the video to pause, when the short video is played in pause, the second wearable device is continuously shaken towards the upper end to control the video to play, so that a user can conveniently and quickly control the intelligent playing device to play and pause the short video according to actual requirements;

SS 9: extracting the pressure and the stress duration in the second left information, marking the pressure as H1 and the stress duration as Z1, and when the pressure H1 is greater than a preset value and the stress duration Z1 is greater than a preset time, generating video regulation and control information, wherein the video regulation and control information is the previous video regulation and control information;

the process realizes that the second wearable device is shaken to the left side according to a certain force, namely the second wearable device can control the intelligent playing device to play the previous short video;

SS 10: extracting the pressure and the stress duration in the second right-side information, marking the pressure as H2 and the stress duration as Z2, and when the pressure H2 is greater than a preset value and the stress duration Z2 is greater than a preset time, generating video regulation and control information, wherein the video regulation and control information is the next video regulation and control information;

above-mentioned process has realized rocking the second wearing equipment to the right side according to certain dynamics, can play last short video through second wearing equipment control smart play equipment promptly.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless explicitly specified otherwise.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (8)

1. Short video frequency control system based on intelligence is dressed, its characterized in that includes:

the intelligent wearable device comprises a first wearable device and a second wearable device, wherein the first wearable device and the second wearable device only operate one at the same time, the first wearable device is used for acquiring first dynamic information and first human body information, and the second wearable device is used for acquiring second dynamic information and second human body information;

the dynamic information acquisition module is used for receiving the acquired first dynamic information and second dynamic information and sending the first dynamic information and the second dynamic information to the dynamic analysis module; the first dynamic information comprises first upper end information, first lower end information, first left side information and first right side information, and the second dynamic information comprises second upper end information, second left side information and second right side information;

the dynamic analysis module is used for processing the first dynamic information and the second dynamic information to generate dynamic evaluation information, and the dynamic evaluation information comprises a first evaluation parameter and a second evaluation parameter;

the human body information acquisition module is used for receiving the acquired first human body information and second human body information and sending the first human body information and the second human body information to the human body analysis module, wherein the first human body information is human body temperature information and human body pulse information, and the second human body information comprises human body temperature information;

the human body analysis module is used for processing the first human body information and the second human body information to generate living body verification information;

the data receiving module is used for receiving the dynamic evaluation information and the living body verification information, sending the dynamic evaluation information and the living body verification information to the data processing module, and automatically storing the dynamic evaluation information and the living body verification information;

the data processing module is used for processing the dynamic evaluation information and the living body verification information to generate equipment operation information and video regulation and control information;

and the master control module controls the information sending module to send the equipment operation information and the video regulation and control information to a preset receiving terminal after the equipment operation information and the video regulation and control information are generated.

2. The intelligent wearing-based short video frequency control system according to claim 1, characterized in that: dynamic collecting devices are arranged in the first wearable device in the upper, lower, left and right directions and used for collecting first dynamic information, and dynamic collecting devices are arranged at the upper end and the left and right ends of the second wearable device in the first wearable device and used for collecting second dynamic information;

the first wearable device comprises a wearable main body, a display screen embedded on the outer surface of the front end of the wearable main body and fixing belts arranged at the top end and the bottom end of the wearable main body, wherein a placing groove is formed in the outer surface of the rear end of the wearable main body;

the second wearable device comprises a wearable ring embedded in the placing groove on the first wearable device, and an opening is formed in the outer part of the wearable ring;

dynamic collecting devices are arranged on the upper inner wall surface, the lower inner wall surface, the left inner wall surface, the right inner wall surface and the left inner wall surface of the wearing main body, and dynamic collecting devices are arranged at the upper end and the left end and the right end of the inside of the wearing ring;

the dynamic acquisition device comprises an outer cover, a pressure rod and a pressure sensor, wherein the pressure rod and the pressure sensor are arranged in the outer cover.

3. The intelligent wearing-based short video frequency control system according to claim 2, wherein: the specific process of the dynamic analysis module for processing the first dynamic information and the second dynamic information to generate the dynamic evaluation information is as follows:

the method comprises the following steps: extracting the collected first dynamic information, and acquiring first upper end information, first lower end information, first left side information and first right side information from the first dynamic information;

step two; when a pressure rod in a dynamic acquisition device at a corresponding position extends out and extrudes to a pressure sensor, the pressure sensor senses pressure and stress duration, and the pressure and stress duration in the first upper end information, the first lower end information, the first left side information and the first right side information are sorted to obtain a first evaluation parameter;

step three: and extracting second dynamic information, acquiring second upper end information, second left side information and second right side information from the second dynamic information, wherein the second upper end information, the second left side information and the second right side information are respectively the pressure magnitude and the stress duration sensed by the pressure sensor when a pressure rod in the dynamic acquisition device at a corresponding position extends out and is extruded to the pressure sensor, and the second upper end information, the second left side information and the second right side information are collated to obtain a second evaluation parameter.

4. The intelligent wearing-based short video frequency control system according to claim 1, characterized in that: the living body verification information comprises first living body authentication information and second living body authentication information, the first living body authentication information comprises first living body information and first non-living body information, the second living body authentication information comprises second living body information and second non-living body information, and the specific process of the human body analysis module for processing the first human body information and the second human body information to generate the living body verification information is as follows:

s1: extracting first acquired human body information, extracting body temperature information and pulse information from the first human body information, generating first living body information when the body temperature information is within a preset value range or the pulse information is within a preset value range, and generating first non-living body information when the body temperature information is not within the preset value range and the pulse information is 0;

s2: and extracting the collected second human body information, extracting body temperature information from the second human body information, generating second living body information when the body temperature information is within a preset value range, and generating second non-living body information when the body temperature information is not within the preset value range.

5. The intelligent wearing-based short video frequency control system according to claim 1, characterized in that: the data processing module processes the living body verification information, and the specific process of generating the equipment operation information is as follows: extracting the collected first living body authentication information and the second living body authentication information, wherein the first living body authentication information is first living body information and the second living body authentication information is second living body information, generating equipment operation information, sending the equipment operation information to a first wearing equipment, and controlling the short video by the first wearing equipment, when the first living body authentication information is the first non-living body information and the second living body authentication information is the second living body information, generating device operation information, at which time the device operation information is transmitted to the second wearable device, the second wearable device controlling the short video, when the first living body authentication information is first living body information and the second living body authentication information is second non-living body information, and generating equipment operation information, wherein the equipment operation information is sent to the first wearing equipment, and the first wearing equipment controls the short video.

6. The intelligent wearing-based short video frequency control system according to claim 1, characterized in that: the video regulation and control information comprises sound regulation and control information, play/pause regulation and control information, previous video regulation and control information and next video regulation and control information, and the specific process of processing the dynamic evaluation information by the data processing module to generate the video regulation and control information is as follows:

SS 1: extracting the collected dynamic evaluation information and acquiring a first evaluation parameter and a second evaluation parameter;

SS 2: when the first wearable device is a control main body, extracting first evaluation parameter information, and acquiring pressure and stress duration in first upper end information, first lower end information, first left side information and first right side information from the first evaluation parameter information;

SS 3: marking the pressure in the first upper-end information as K1, marking the stress duration in the first upper-end information as P1, and when the pressure K1 is greater than a preset value and the stress duration P1 is greater than a preset time, generating video regulation and control information, wherein the video regulation and control information is the previous video regulation and control information;

SS 4: marking the pressure in the first lower-end information as K2, marking the stress duration in the first lower-end information as P2, and when the pressure K2 is greater than a preset value and the stress duration P2 is greater than a preset time, generating video regulation and control information, wherein the video regulation and control information is the next video regulation and control information;

SS 5: continuously collecting first left information twice, sequentially marking the pressure of the obtained first left information as Q1 and Q2, marking the total stress time in the first left information as T1, and generating video regulation and control information when Q1 and Q2 are both greater than preset values and the total stress time T1 is greater than the preset values, wherein the video regulation and control information is play/pause regulation and control information;

SS 6: continuously collecting first right-side information twice, marking pressure information in the first right-side information twice as R1 and R2, calculating a time interval between stress duration recording end time points in the first right-side information twice, marking the time interval as E, generating sound regulation and control information when R1 and R2 are larger than preset values and E is larger than preset time, wherein the generated regulation and control information is sound height-adjusting information, and generating sound regulation and control information when R1 and R2 are larger than the preset values and E is smaller than the preset time, wherein the generated regulation and control information is sound height-adjusting information;

SS 7: when the second wearable device is a control main body, extracting a second evaluation parameter, and acquiring pressure and stress duration of second upper-end information, second left-side information and second right-side information from the second evaluation parameter;

SS 8: continuously acquiring second upper-end information twice, wherein the pressure in the acquired second upper-end information twice is marked as F1 and F2, the total stress duration in the second upper-end information is marked as G, when the F1 and the F2 are both greater than a preset value and the total stress duration G is greater than the preset value, video regulation and control information is generated, and at the moment, the video regulation and control information is play/pause regulation and control information;

SS 9: extracting the pressure and the stress duration in the second left information, marking the pressure as H1 and the stress duration as Z1, and when the pressure H1 is greater than a preset value and the stress duration Z1 is greater than a preset time, generating video regulation and control information, wherein the video regulation and control information is the previous video regulation and control information;

SS 10: and extracting the pressure and the stress duration in the second right-side information, marking the pressure as H2 and the stress duration as Z2, and when the pressure H2 is greater than a preset value and the stress duration Z2 is greater than a preset time, generating video regulation and control information, wherein the video regulation and control information is the next video regulation and control information.

7. The intelligent wearing-based short video frequency control system according to claim 1, characterized in that: the regulation and control system further comprises a habit acquisition module, the habit acquisition module is used for acquiring strength information of the shaking equipment when the user performs video regulation and control, and the data processing module processes the strength information of the shaking equipment when the user performs video regulation and control to generate threshold value adjustment information.

8. The intelligent wearing-based short-video frequency control system according to claim 6 or 7, characterized in that: the specific process of processing the strength information of the shaking equipment when the user performs video regulation and control by the data processing module to generate threshold value adjustment information is as follows: the strength information of the shaking equipment collected when the user performs video regulation for x times, namely the pressure information sensed by the pressure sensor, is marked as U_{Fruit of Chinese wolfberry}When x times of pressure magnitude information U_{Fruit of Chinese wolfberry}Mean value of U_{Are all made of}When the threshold value is larger than the preset value, threshold value adjusting information is generated, and the threshold value in the threshold value adjusting information is the preset value in the steps SS2 to SS 10.

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