阅读说明：本技术 一种手势控制视频播放的方法 (Method for controlling video playing through gestures ) 是由 陈洪斌 于 2021-07-27 设计创作，主要内容包括：一种手势控制视频播放的方法,包括：S1：使用移动设备,连接到视频监控平台网络；S2：登录视频监控平台；S3：判断是否首次使用；若是,则进行必要的分组预案设置,包括配置多个预案,以及为每个预案选择需要播放的监控点列表；若否,则自动切换到上次查看的分组预案并自动播放；S4：按需进行相关播放控制操作；S5：注销登录或退出移动监控平台。该方法在设计理念上追求化繁为简,一键操控,弥补现有安防视频监控在移动端上使用的不足,最大限度提升用户在移动设备上的操控体验,让安防监控查看视频图像更便捷,更高效。(A method for controlling video playing through gestures comprises the following steps: s1: connecting to a video monitoring platform network using a mobile device; s2: logging in a video monitoring platform; s3: judging whether the product is used for the first time; if yes, performing necessary grouping plan setting, including configuring a plurality of plans and selecting a monitoring point list to be played for each plan; if not, automatically switching to the grouping plan checked last time and automatically playing; s4: performing related play control operation as required; s5: logging off or quitting the mobile monitoring platform. The method pursues complicated and simplified processes in the design concept, one-key operation makes up the defect that the existing security video monitoring is used on the mobile terminal, improves the operation experience of the user on the mobile equipment to the maximum extent, and enables the security monitoring to check the video images more conveniently and efficiently.)

1. A method for controlling video playing through gestures is characterized by comprising the following steps:

s1: connecting to a video monitoring platform network using a mobile device;

s2: logging in a video monitoring platform;

s3: judging whether the product is used for the first time;

if yes, performing necessary grouping plan setting, including configuring a plurality of plans and selecting a monitoring point list to be played for each plan;

if not, automatically switching to the grouping plan checked last time and automatically playing;

s4: performing relevant play control operations as required, including:

s4-1, switching grouping plans;

s4-2, sliding the screen to switch the playing pictures;

s4-3, selecting a playing picture to carry out full screen and cloud mirror control;

s4-4, controlling the switching of the picture layout mode;

s4-5, cloud mirror control, including gesture sliding to control rotation of a ball machine and gesture zooming lens push-pull control;

s4-6, providing a suspension toolbar for common configuration and play control functions, wherein the common configuration comprises adding, deleting, renaming and adjusting a monitoring point list;

s5: logging off or quitting the mobile monitoring platform.

2. The method for controlling video playing by gestures according to claim 1, wherein in S4-1, switching of grouping schemes:

the users can group the plans according to own purposes or preferences, set up flexibly and independently, divide the concerned monitoring points into a plurality of groups to preset, and switch the grouped plans by one key when needed;

at least 100 video points can be preset in each group of the pre-arranged plans;

each grouping plan supports definition of names, and identification of purposes or classification is facilitated;

the grouping plan is arranged in a toolbar popped up by clicking a screen, is positioned at the left side of the toolbar, and can be newly added by clicking "+" and can modify the name by clicking twice.

3. The method for controlling video playing by gestures according to claim 1, wherein in S4-2, sliding the screen for playing screen switching:

the whole screen picture of sliding control switches, and whole screen can both touch screen control, and the single hand indicates to touch the screen and slides, and the whole screen switches the broadcast, and a plurality of pictures can be accomplished to an operation and switch simultaneously: switching to the next 3 pictures and automatically playing when the screen is erected; switching the horizontal screen to the next 4 pictures and automatically playing;

the back-and-forth switching is also one-step operation, the number of pages switched to at present can be visually displayed below the picture, and when the pages are switched to the first page and the last page, the sliding operation is automatically switched to be one-way effective;

in the process of switching the pictures, when the code stream playing has short delay, the pictures are prompted by characters, and the playing failure is prompted correspondingly.

4. The method for controlling video playing by gestures according to claim 1, wherein in S4-3, selecting the playing picture for full screen, in the cloud mirror control:

the design of a full-screen playing page is adopted, full-screen playing is carried out, and the screen is utilized extremely; when the video is played, any shielded control element does not exist on the interface, when playing control is needed, the screen is touched lightly, a semitransparent suspension toolbar is popped up for relevant operation, and the secondary touch screen is hidden;

combining the display screen proportion of common mobile equipment, the default playing layout of 3 pictures on the vertical screen and 4 pictures on the horizontal screen; the mobile equipment with special proportion can select other picture layout modes meeting the requirements through the toolbar.

5. The method for controlling video playback by gesture according to claim 1, wherein in S4-4, in the screen layout mode switching control:

when a user rotates between the horizontal screen and the vertical screen, the layout of the playing picture can be automatically switched, the horizontal screen and the vertical screen rotate, and the video layout is self-adaptive; when switching, the original monitoring video is kept to be played continuously, the excessive monitoring pictures can be played automatically, and the monitoring pictures which are not required to be displayed can be stopped automatically.

6. The method for controlling video playing by gestures according to claim 1, wherein in S4-5, in the cloud mirror control: the picture and sliding zooming control of the dome camera comprises the following steps:

after entering a cloud mirror control mode through the suspension toolbar, automatically paving the selected picture on the full screen;

the screen is slid in a plurality of directions obliquely from top to bottom, left to right, and the rotation of the dome camera can be controlled directly according to the sliding direction;

the two finger touch screen contraction operations can control the zoom-out of the lens picture, and the two finger touch screen amplification operations can control the zoom-in of the lens picture;

and clicking the number at the upper right corner can quickly carry out calling control of the preset bit.

7. The method for controlling video playing by gestures according to claim 1, wherein, in S4-6, the functions of the common configuration and control provided by the floating toolbar include:

configuring and controlling a grouping plan, including adding, deleting, renaming and clicking a switching plan of the grouping plan;

selecting picture control, including full screen control, cloud mirror control and screen display proportion control;

the picture layout control is used for realizing the playing of videos with different picture numbers and corresponding layouts, and the video playing control is effective only when the screen is horizontally displayed;

and configuring the monitoring points for playing the plan, and selecting a monitoring point list needing to be played for the current plan.

Technical Field

The method is used for a mobile equipment end of security monitoring, improves the operation experience of video playing through gesture control of touch equipment (pad or mobile phone), and particularly relates to a method for controlling video playing through gestures.

Background

The existing security monitoring system is usually implemented by operating client software on a PC (personal computer) when monitoring videos are checked. With the progress of science and technology, the demand of people on convenience for viewing monitoring videos is increased sharply, a plurality of manufacturers of video monitoring systems provide control software of a mobile terminal, the control and display methods are different, most of the control habits of PC software are still kept, and the actual operation is inconvenient.

First, the screen of a mobile device is typically small and can display limited content. Many playing buttons are placed on the playing interface of the mobile terminal of many existing video monitoring systems, and even an equipment list tree is kept, so that the window for playing the video becomes very small, the monitoring picture is not clear, and especially when multiple pictures are previewed simultaneously.

In addition, it is inconvenient for multiple videos to be played simultaneously, and too many playing pictures are displayed simultaneously, which not only challenges network bandwidth, but also tests decoding playing performance, and the more pictures are played simultaneously, the smaller the picture is, the more the picture is not clear.

Moreover, when the video of the monitoring ball machine is played, the cloud mirror control operation is inconvenient. The existing common solution is that after a playing picture is selected, control arrows (up, down, left, right, and the like) are displayed on the picture, and the control arrows or corresponding areas are clicked to control, so that the control speed and the control angle are not sensitive enough, and the effect is not good; another solution is to pop up a control panel similar to a PC interface, which has many directional buttons, so that the operation is inconvenient, and the originally small playing picture can be easily blocked.

With the gradual maturity of touch screens, gesture control has become a daily habit of people; the network transmission and mobile equipment decoding capability is also rapidly improved in the technology, and the requirement of multi-video playing can be met. More users look over the surveillance video by using the mobile terminal are trending, the security monitoring is more and more popularized in the use of the mobile terminal, and a good mobile terminal looks over the control experience of the surveillance video and is certainly popular with users.

Disclosure of Invention

In order to make up the defect that the existing security video monitoring is used on a mobile terminal, facilitate video playing control on the mobile terminal, view monitoring video images anytime and anywhere, improve the use experience of the security monitoring mobile terminal, and enable the security monitoring to view the video images more conveniently and efficiently, the invention provides a method for controlling video playing through gestures.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a method for controlling video playing through gestures comprises the following steps:

s1: connecting to a video monitoring platform network using a mobile device;

s2: logging in a video monitoring platform;

s3: judging whether the product is used for the first time;

if yes, performing necessary grouping plan setting, including configuring a plurality of plans and selecting a monitoring point list to be played for each plan;

if not, automatically switching to the grouping plan checked last time and automatically playing;

s4: performing relevant play control operations as required, including:

s4-1, switching grouping plans;

s4-2, sliding the screen to switch the playing pictures;

s4-3, selecting a playing picture to carry out full screen and cloud mirror control;

s4-4, controlling the switching of the picture layout mode;

s4-5, cloud mirror control, including gesture sliding to control rotation of a ball machine and gesture zooming lens push-pull control;

s4-6, providing a suspension toolbar for common configuration and play control functions, wherein the common configuration comprises adding, deleting, renaming and adjusting a monitoring point list;

s5: logging off or quitting the mobile monitoring platform.

The invention also has the following additional technical features:

the technical scheme of the invention is further specifically optimized as follows: s4-1, in the handover of grouping plans:

the users can group the plans according to own purposes or preferences, set up flexibly and independently, divide the concerned monitoring points into a plurality of groups to preset, and switch the grouped plans by one key when needed;

not less than 100 video frequency points can be preset in each group of the plan (the number system can be configured).

Each grouping plan supports definition of names, and identification of purposes or classification is facilitated;

the grouping plan is arranged in a toolbar popped up by clicking a screen, is positioned at the left side of the toolbar, and can be newly added by clicking "+" and can modify the name by clicking twice.

The technical scheme of the invention is further specifically optimized as follows: s4-2, in the process of switching the playing pictures by sliding the screen:

the whole screen picture of sliding control switches, and whole screen can both touch screen control, and the single hand indicates to touch the screen and slides, and the whole screen switches the broadcast, and a plurality of pictures can be accomplished to an operation and switch simultaneously: switching to the next 3 pictures and automatically playing when the screen is erected; the landscape switches to the next 4 pictures and plays automatically.

The back-and-forth switching is also one-step operation, the number of pages to be switched to at present can be visually displayed below the picture, and when the pages are switched to the first page and the last page, the sliding operation is automatically switched to be one-way effective.

In the process of switching the pictures, when the code stream playing has short delay, the pictures are prompted by characters, and the playing failure is prompted correspondingly.

The concept similar to the narrow frame or no frame of the mobile phone adopts the design of a full-screen playing page, and full-screen playing is realized, so that the screen is utilized extremely; when the video is played, any shielded control element does not exist on the interface, when playing control is needed, the screen is touched lightly, a semitransparent suspension toolbar is popped up to perform related operations, and the secondary touch screen is hidden.

The technical scheme of the invention is further specifically optimized as follows: s4-3, selecting a playing picture to be full screen, wherein in the cloud mirror control:

when multiple pictures are played simultaneously, a single picture is not clear, full-screen control can be performed, and the control can be realized by double-clicking the picture or through a suspension tool; if full screen is not wanted, double-clicking the picture again can recover.

If the monitoring picture is a controllable ball machine, the cloud mirror control mode can be entered through the suspension toolbar, and the function key S4-5 is specifically controlled; the cloud mirror control mode can be exited through a return icon in the upper left corner of the toolbar.

The technical scheme of the invention is further specifically optimized as follows: s4-4, in the picture layout mode switching control:

when a user rotates between the horizontal screen and the vertical screen, the layout of the playing picture can be automatically switched, the horizontal screen and the vertical screen rotate, and the video layout is self-adaptive; during switching, the original monitoring video is kept to be played continuously as much as possible, the excessive monitoring pictures can be played automatically, and the monitoring pictures which are not required to be displayed can be stopped automatically (for example, 3 pictures are switched to 4 pictures).

By combining the display screen proportion of common mobile equipment, the default playing layout of 3 pictures on the vertical screen and 4 pictures on the horizontal screen, the proportion of each picture is very coordinated; the mobile device with special proportion can select other picture layout modes which meet the requirement, such as single picture, 2 pictures, 9 pictures and the like, through the toolbar.

The technical scheme of the invention is further specifically optimized as follows: s4-5, in the cloud mirror control: the picture and sliding zooming control of the dome camera comprises the following steps:

after entering a cloud mirror control (holder rotation and lens visual field control) mode through the suspension toolbar, automatically paving a selected picture on a full screen;

the screen is slid in a plurality of directions obliquely from top to bottom, left to right, and the rotation of the dome camera can be controlled directly according to the sliding direction, and the rotating direction is just opposite to the control on a PC (personal computer), so that the habit of touch screen control is met;

the two finger touch screen contraction operations can control the zoom-out of the lens picture, and the two finger touch screen amplification operations can control the zoom-in of the lens picture;

the sliding and zooming operation modes are what you see, and the like, and the method is as convenient as looking up a picture in a mobile phone;

in addition, the calling control of the preset position can be quickly carried out by clicking the number at the upper right corner, and the design concept of one-key operation control is also met (the preset position refers to a camera supporting the control of a cloud mirror, such as a monitoring ball machine, a plurality of preset scene positions, and the picture is quickly switched to the appointed monitoring scene by calling different preset position serial numbers).

The technical scheme of the invention is further specifically optimized as follows: s4-5, in the general configuration and control of the suspension toolbar: the method realizes the common functions of configuring the packet browsing plan and controlling the playing, and comprises the following steps:

configuring and controlling a grouping plan, including adding, deleting, renaming and clicking a switching plan of the grouping plan;

selecting picture control, including full screen control, cloud mirror control and screen display proportion control (switching between full picture and adaptive resolution);

picture layout control, which is effective only in the horizontal screen, including 1 picture, 4 pictures, 9 pictures, etc.;

and a preset playing monitoring point selecting function for selecting a monitoring point list needing to be played for the current preset.

Compared with the prior art, the invention is simplified, and pursues the extreme user experience on the premise of not influencing the common functions. Its advantages mainly include the following aspects:

the method has the advantages that: the display screen ratio of the playing picture is large, and the image display is clearer; full screen playing and maximum screen utilization rate; the monitoring picture can be displayed by the maximum screen utilization rate, so that the monitoring picture can be seen more clearly under the same condition;

the screen rotates, and the layout self-adaptation is more humanized;

the sliding screen controls the image switching more conveniently, and the sliding control is more in line with the habit of a touch screen; controlling the sliding of the touch screen, and switching the whole screen picture; the touch screen slides, and the operation of accomplishing full screen picture switching is very convenient, and operating procedure has been less to minimum, and a plurality of pictures of operation completion switch simultaneously: the vertical screen is switched to the next 3 pictures and automatically played, and the horizontal screen is switched to the next 4 pictures and automatically played.

The switching back and forth is also a one-step operation, and the page switched to is displayed under the picture in a direct view.

The picture has a text prompt in the process of playing the code stream, and also has a prompt in the failure of playing.

The whole screen is switched, and more monitoring pictures are easy to browse; simultaneously the mobile device is at horizontal screen, when erecting the screen switching, the video can the self-adaptation to rationally carry out automatic layout switching: 3 pictures are displayed on the vertical screen, 4 pictures are displayed on the horizontal screen, and the screen layout is more reasonable and humanized;

the method has the advantages that: multiple groups of plans are preset, more monitoring points can be preset in each group, and the one-key switching of the plans is more efficient; the grouping plan is freely preset and is used for classified monitoring and fast switching; the user can follow his or her own use or preference. Dividing the concerned monitoring points into a plurality of groups for presetting, and switching grouping plans by one key when needed;

not less than 100 video frequency points can be preset in each group of the plan (the number system can be configured).

Each grouping plan supports definition of names, and identification of purposes or classification is facilitated; .

The method has the advantages that: the gesture sliding controls the ball machine to rotate, and the gesture zooming lens is controlled to push and pull; the cloud mirror controls the operation to be visible, the gesture sliding is realized, and the zooming operation is more in line with the touch screen habit. In addition, when necessary operation is performed on a monitored picture (such as full-screen control and cloud mirror control), a semi-transparent suspension control toolbar can be popped up only by lightly touching the screen, and then the operation can be completed by clicking a related button. The floating toolbar comprises three functions of grouping plan configuration and switching, selecting playing picture control and picture layout mode control. Only a cloud mirror control mode is needed through the floating menu, and the selected picture is automatically paved on the full screen;

the screen is slid in a plurality of directions obliquely from top to bottom, left to right, and the rotation of the dome camera can be controlled directly according to the sliding direction, and the rotating direction is just opposite to the control on a PC (personal computer), so that the habit of touch screen control is met;

the two finger touch screen contraction operations can control the zoom-out of the lens picture, and the two finger touch screen amplification operations can control the zoom-in of the lens picture;

the sliding and zooming operation modes are what you see, and the like, and the method is as convenient as looking up a picture in a mobile phone;

and the calling control of the preset position can be quickly carried out by clicking the number at the upper right corner, and the design concept of one-key operation control is also met.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic flow chart illustrating a method for controlling video playing by gesture according to the present invention;

FIG. 2 is a schematic diagram of a vertical screen and horizontal screen playing effect of the present invention;

FIG. 3 is a schematic diagram of a horizontal multi-frame playing effect of the present invention;

FIG. 4 is a schematic diagram of the gesture sliding and the whole screen switching (after sliding twice to the left) playing effect of the present invention;

FIG. 5 is a schematic diagram of a floating toolbar for grouping a predetermined play effect according to the present invention;

FIG. 6 is a schematic diagram of the playing effect of controlling zooming-in pictures by gesture sliding and zooming and controlling the gesture amplification of the ball game machine according to the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings, in order that the present disclosure may be more fully understood and fully conveyed to those skilled in the art. While the exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the invention is not limited to the embodiments set forth herein.

A method for controlling video playing through gestures comprises the following steps:

s1: connecting to a video monitoring platform network using a mobile device;

s2: logging in a video monitoring platform;

s3: judging whether the product is used for the first time;

if yes, performing necessary grouping plan setting, including configuring a plurality of plans and selecting a monitoring point list to be played for each plan;

if not, automatically switching to the grouping plan checked last time and automatically playing;

s4: performing relevant play control operations as required, including:

s4-1, switching grouping plans;

s4-1, in the handover of grouping plans:

the users can group the plans according to own purposes or preferences, set up flexibly and independently, divide the concerned monitoring points into a plurality of groups to preset, and switch the grouped plans by one key when needed;

not less than 100 video frequency points can be preset in each group of the plan (the number system can be configured).

Each grouping plan supports definition of names, and identification of purposes or classification is facilitated;

the grouping plan is arranged in a toolbar popped up by clicking a screen, is positioned at the left side of the toolbar, and can be newly added by clicking "+" and can modify the name by clicking twice.

S4-2, sliding the screen to switch the playing pictures;

s4-2, in the process of switching the playing pictures by sliding the screen:

the whole screen picture of sliding control switches, and whole screen can both touch screen control, and the single hand indicates to touch the screen and slides, and the whole screen switches the broadcast, and a plurality of pictures can be accomplished to an operation and switch simultaneously: switching to the next 3 pictures and automatically playing when the screen is erected; the landscape switches to the next 4 pictures and plays automatically.

The back-and-forth switching is also one-step operation, the number of pages to be switched to at present can be visually displayed below the picture, and when the pages are switched to the first page and the last page, the sliding operation is automatically switched to be one-way effective.

In the process of switching the pictures, when the code stream playing has short delay, the pictures are prompted by characters, and the playing failure is prompted correspondingly.

S4-3, selecting a playing picture to carry out full screen and cloud mirror control;

s4-3, selecting a playing picture to be full screen, wherein in the cloud mirror control:

the concept similar to the narrow frame or no frame of the mobile phone adopts the design of a full-screen playing page, and full-screen playing is realized, so that the screen is utilized extremely; when the video is played, any shielded control element does not exist on the interface, when playing control is needed, the screen is touched lightly, a semitransparent suspension toolbar is popped up to perform related operations, and the secondary touch screen is hidden.

By combining the display screen proportion of common mobile equipment, the default playing layout of 3 pictures on the vertical screen and 4 pictures on the horizontal screen, the proportion of each picture is very coordinated; the mobile device with special proportion can select other picture layout modes which meet the requirement, such as single picture, 2 pictures, 9 pictures and the like, through the toolbar.

S4-4, controlling the switching of the picture layout mode;

s4-4, in the picture layout mode switching control:

when a user rotates between the horizontal screen and the vertical screen, the layout of the playing picture can be automatically switched, the horizontal screen and the vertical screen rotate, and the video layout is self-adaptive; during switching, the original monitoring video is kept to be played continuously as much as possible, the excessive monitoring pictures can be played automatically, and the monitoring pictures which are not required to be displayed can be stopped automatically (for example, 3 pictures are switched to 4 pictures).

S4-5, in the cloud mirror control, the functions of the dome camera such as picture rotation and sliding lens zooming control are included;

s4-5, in the cloud mirror control: the zoom control of the picture rotation and the sliding lens of the dome camera comprises the following steps:

after entering a cloud mirror control (holder rotation and lens visual field control) mode through the suspension toolbar, automatically paving a selected picture on a full screen;

the screen is slid in a plurality of directions obliquely from top to bottom, left to right, and the rotation of the dome camera can be controlled directly according to the sliding direction, and the rotating direction is just opposite to the control on a PC (personal computer), so that the habit of touch screen control is met;

the two finger touch screen contraction operations can control the zoom-out of the lens picture, and the two finger touch screen amplification operations can control the zoom-in of the lens picture;

the sliding and zooming operation modes are what you see, and the like, and the method is as convenient as looking up a picture in a mobile phone;

in addition, the calling control of the preset position can be quickly carried out by clicking the number at the upper right corner, and the design concept of one-key operation control is also met (the preset position refers to a camera supporting the control of a cloud mirror, such as a monitoring ball machine, a plurality of preset scene positions, and the picture is quickly switched to the appointed monitoring scene by calling different preset position serial numbers).

S4-6, common configuration and control of the suspension toolbar: the realization of common configuration and play picture control functions comprises the following steps:

configuring and controlling a grouping plan, including adding, deleting, renaming and clicking a switching plan of the grouping plan;

selecting picture control, including full screen control, cloud mirror control and screen display proportion control (switching between full picture and adaptive resolution);

picture layout control, which is effective only in the horizontal screen, including 1 picture, 4 pictures, 9 pictures, etc.;

and a preset playing monitoring point selecting function for selecting a monitoring point list needing to be played for the current preset.

S5: logging off or quitting the mobile monitoring platform.

Compared with the prior art, the invention is simplified, and pursues the extreme user experience on the premise of not influencing the common functions. Its advantages mainly include the following aspects:

the method has the advantages that: the display screen ratio of the playing picture is large, and the image display is clearer; full screen playing and maximum screen utilization rate; the monitoring picture can be displayed by the maximum screen utilization rate, so that the monitoring picture can be seen more clearly under the same condition;

the screen rotates, and the layout self-adaptation is more humanized;

the sliding screen controls the image switching more conveniently, and the sliding control is more in line with the habit of a touch screen; controlling the sliding of the touch screen, and switching the whole screen picture; the touch screen slides, and the operation of accomplishing full screen picture switching is very convenient, and operating procedure has been less to minimum, and a plurality of pictures of operation completion switch simultaneously: the vertical screen is switched to the next 3 pictures and automatically played, and the horizontal screen is switched to the next 4 pictures and automatically played.

The switching back and forth is also a one-step operation, and the page switched to is displayed under the picture in a direct view.

The picture has a text prompt in the process of playing the code stream, and also has a prompt in the failure of playing.

The whole screen is switched, and more monitoring pictures are easy to browse; simultaneously the mobile device is at horizontal screen, when erecting the screen switching, the video can the self-adaptation to rationally carry out automatic layout switching: 3 pictures are displayed on the vertical screen, 4 pictures are displayed on the horizontal screen, and the screen layout is more reasonable and humanized;

the method has the advantages that: multiple groups of plans are preset, more monitoring points can be preset in each group, and the one-key switching of the plans is more efficient; the grouping plan is freely preset and is used for classified monitoring and fast switching; the user can follow his or her own use or preference. Dividing the concerned monitoring points into a plurality of groups for presetting, and switching grouping plans by one key when needed;

not less than 100 video frequency points can be preset in each group of the plan (the number system can be configured).

Each grouping plan supports definition of names, and identification of purposes or classification is facilitated; .

The method has the advantages that: the gesture sliding controls the ball machine to rotate, and the gesture zooming lens is controlled to push and pull; the cloud mirror controls the operation to be visible, the gesture sliding is realized, and the zooming operation is more in line with the touch screen habit. In addition, when necessary operation is performed on a monitored picture (such as full-screen control and cloud mirror control), a semi-transparent suspension control toolbar can be popped up only by lightly touching the screen, and then the operation can be completed by clicking a related button. The floating toolbar comprises three functions of grouping plan configuration and switching, selecting playing picture control and picture layout mode control. Only a cloud mirror control mode is needed through the floating menu, and the selected picture is automatically paved on the full screen;

the screen is slid in a plurality of directions obliquely from top to bottom, left to right, and the rotation of the dome camera can be controlled directly according to the sliding direction, and the rotating direction is just opposite to the control on a PC (personal computer), so that the habit of touch screen control is met;

the two finger touch screen contraction operations can control the zoom-out of the lens picture, and the two finger touch screen amplification operations can control the zoom-in of the lens picture;

the sliding and zooming operation modes are what you see, and the like, and the method is as convenient as looking up a picture in a mobile phone;

and the calling control of the preset position can be quickly carried out by clicking the number at the upper right corner, and the design concept of one-key operation control is also met.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention are clearly and completely described above with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are a part of the embodiments of the present invention, but not all of the embodiments. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the above detailed description of the embodiments of the invention presented in the drawings is not intended to limit the scope of the invention as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.