CN112211526A - Intelligent service method and system based on meeting room movement - Google Patents

Abstract

An intelligent service method and system based on meeting room movement, comprising: controlling a high-definition camera to shoot a high-definition image and analyzing whether a meeting room is in a meeting or not, if so, acquiring state information fed back by a leaving button and analyzing whether the leaving button is in a pressed state or not, if so, acquiring serial number information of a matched self-driving meeting chair and controlling a corresponding self-driving meeting chair to move to the inner side of a meeting switch door on a silent track, controlling a first iris sensor to acquire iris information of a person and binding the iris information of the person with the self-driving meeting chair, controlling the meeting switch door to move on a silent slide rail and controlling the self-driving meeting chair to automatically reset on the silent track, and controlling the conference switch door to be closed, controlling the second iris sensor to acquire iris information of personnel in the area outside the conference switch door and analyzing whether the self-driven conference chair is matched, and if so, controlling the matched self-driven conference chair to move to the area inside the conference switch door on a mute track and controlling the conference switch door to be opened through a mute slide rail.

Description

Intelligent service method and system based on meeting room movement

Technical Field

The invention relates to the field of conference services, in particular to an intelligent service method and system based on meeting room movement.

Background

At present, with the rapid development of global economy and the continuous expansion of enterprise scale, new requirements appear for enterprise management, and managers of enterprises often need to exchange information, release services and discuss through meetings in order to make rapid response to enterprise decisions; when a conference is carried out, if a person needs to enter or exit the conference room, the person often interrupts the speech, discussion and the like of the conference person.

Therefore, how to combine together meeting and office automation for when the meeting detects that there is meeting personnel to leave the meeting room when going on, the meeting chair through automatic movement will this meeting personnel move to the supplementary access door position that the meeting room set up, so that the meeting personnel leave through the silence door and automatic control meeting chair moves and resets, thereby it is the problem that needs to solve at present badly to reduce meeting personnel's interference of access meeting room to meeting personnel.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the disadvantages in the background art, embodiments of the present invention provide an intelligent service method and system based on meeting room movement, which can effectively solve the problems related to the background art.

The technical scheme is as follows:

an intelligent service method based on meeting room movement, the method comprising the steps of:

s1, controlling a high-definition camera arranged in the conference room to start to capture a high-definition image in real time according to a conference instruction sent by the conference terminal and analyzing whether the conference room carries out a conference or not in real time according to the high-definition image;

s2, if yes, acquiring state information fed back by a leaving button corresponding to a conference person and arranged on the conference table in real time, and analyzing whether the leaving button is in a pressed state or not in real time according to the state information;

s3, if yes, acquiring the number information of the self-propelled conference chair matched with the pressed leaving button and controlling the self-propelled conference chair consistent with the number information to move to the inner side position of the conference switch door on the silent track of the conference room ground;

s4, controlling a first iris sensor arranged at the top end of a conference room where a conference switch door is located to start to acquire iris information of a person sitting on the self-driven conference chair in real time and binding the iris information of the person with the self-driven conference chair;

s5, controlling the conference switch door to move to enter an open state at the position of the mute slide rail, and controlling the self-driven conference chair to automatically reset at the position of the mute track after recognizing that a seated person leaves according to the high-definition image, and controlling the conference switch door to reset and close through the mute slide rail;

s6, controlling a second iris sensor arranged at the top position outside the area where the conference switch door is located to start to acquire the iris information of personnel in the area outside the conference switch door in real time, and analyzing whether the iris information of the personnel is matched with a self-driven conference chair or not according to the iris information of the personnel;

and S7, if yes, controlling the self-driven conference chair bound with the iris information of the person to move to the inner area of the conference switch door at the position of the mute track and controlling the conference switch door to enter an open state through the mute slide rail.

As a preferred mode of the present invention, after S7, the method further includes the steps of:

s70, analyzing whether a person on the outer side of the conference switch door is located at the position of a self-driven conference chair on the inner side of the conference switch door or not in real time according to the high-definition images;

s71, if yes, controlling the self-driven conference chair to automatically reset through a mute track and controlling a conference switch door to reset and close through a mute slide rail;

and S72, controlling a leaving button matched with the self-driving conference chair to release the pressing state.

As a preferred mode of the present invention, after S1, the method further includes the steps of:

s10, controlling a pressure detection platform arranged in the area outside the entrance and the exit of the conference room to start to acquire pressure information in real time and analyzing whether a human body steps on the pressure information for more than preset time in real time according to the pressure information;

and S11, if yes, controlling a light-emitting ground layer arranged in the area inside the entrance and exit of the conference room to start to enter a warning flashing state, and controlling the flashing frequency of the light-emitting ground layer to increase according to the increase of the pressure detection platform pressure time.

As a preferred mode of the present invention, after S5, the method further includes the steps of:

s50, controlling the suspension equipment arranged at the top position outside the conference switch door to start and controlling a flight camera arranged outside the started suspension equipment to shoot a flight image in real time;

s51, controlling the suspension equipment to hover at the top of the person leaving the conference room in real time according to the flying image and extracting the conference image contained in the high-definition image in real time;

and S52, transmitting the extracted conference image to a projection device arranged at the lower position of the suspension device and controlling the projection device to project the conference image to the ground in front of the person in real time.

As a preferred mode of the present invention, after S53, the method further includes the steps of:

s54, analyzing whether the meeting in the meeting room is ended or not in real time according to the meeting image;

s55, if yes, controlling the projection equipment to project meeting ending prompt information to the ground in front of the personnel and acquiring positioning data corresponding to the suspension equipment in real time;

and S56, controlling the flying equipment to return to the top position outside the door of the conference switch through a flying image according to the positioning data and the recorded flying route.

An intelligent service system based on meeting room movement uses an intelligent service method based on meeting room movement, and comprises a meeting service device, a prompt identification device and a server;

the conference service device comprises a self-driven conference chair, a mute track, a conference switch door, a mute slide rail, a suspension device, a projection device and a positioning unit, wherein the self-driven conference chair is arranged in a conference room, is set with corresponding number information and is bound with a leaving button; the silent track is laid on the ground of the conference room and used for providing self-driven movement of the conference chair; the conference switch door is arranged on the side wall of the conference room and used for providing emergency personnel to enter and exit; the mute slide rail is arranged on the ground position of the side wall of the conference room and used for providing movement of a conference switch door; the suspension device is arranged at the top of a room outside the conference switch door and used for following personnel who urgently leave the conference room; the projection equipment is arranged at the position below the suspension equipment and used for projecting information; the positioning unit is arranged at an internal position of the suspension device and used for positioning the real-time position of the suspension device and acquiring positioning data of a corresponding position;

the prompt identification device comprises a high-definition camera, a departure button, a first iris sensor, a second iris sensor, a pressure detection platform, a light-emitting ground layer and a flight camera, wherein the high-definition camera is arranged at an internal position of the conference room and used for shooting an internal environment image of the conference room; the leaving button is arranged at the position of the conference table and corresponds to the self-driven conference chair; the first iris sensor is arranged at the top of the conference room at the inner side of the conference switch door and used for acquiring iris information of personnel who leave the conference room emergently; the second iris sensor is arranged at the top of a room outside an opening and closing door of the conference room and used for acquiring iris information of personnel entering the conference room; the pressure detection platform is arranged at the ground position of the area outside the entrance and the exit of the conference room and is used for acquiring pressure information; the luminous ground layer is arranged at the ground position of the area at the inner side of the entrance and the exit of the conference room and is used for emitting warning light; the flight camera is arranged at the external position of the suspension equipment and used for shooting an environmental image around the suspension equipment;

the server sets up in meeting room place building internal position, the server includes:

the wireless module is used for being wirelessly connected with a self-driven conference chair, a conference switch door, a suspension device, a projection device, a positioning unit, a high-definition camera, a departure button, a first iris sensor, a second iris sensor, a pressure detection platform, a light-emitting ground layer, a flight camera, a conference terminal and the internet respectively;

the high-definition shooting module is used for controlling the high-definition camera to be started or closed;

the information analysis module is used for processing and analyzing the information according to the specified information;

the information acquisition module is used for acquiring the designated information corresponding to the designated object;

the self-driven moving module is used for controlling the self-driven conference chair to execute the set silent track moving operation according to the set steps;

the first iris module is used for controlling the first iris sensor to be started or closed;

the information binding module is used for binding the specified information with the specified object;

the conference switch module is used for controlling the conference switch door to execute the set silent sliding rail movement operation according to the set steps;

and the second iris module is used for controlling the second iris sensor to be started or closed.

As a preferred aspect of the present invention, the server further includes:

and the button operation module is used for controlling the departure button to execute the set ejection operation according to the set steps.

As a preferred aspect of the present invention, the server further includes:

the pressure identification module is used for controlling the pressure detection platform to be started or closed;

and the ground light-emitting module is used for controlling the ground light-emitting layer to execute the set warning flashing operation according to the set steps.

As a preferred aspect of the present invention, the server further includes:

the suspension control module is used for controlling the suspension equipment to execute the set flight operation according to the set steps;

the flight shooting module is used for controlling the start or the close of the flight camera;

the information extraction module is used for extracting the information contained in the specified information;

the information transmission module is used for transmitting the specified information to the specified object;

and the projection control module is used for controlling the projection equipment to execute the set projection operation according to the set steps.

As a preferred aspect of the present invention, the server further includes:

and the positioning control module is used for controlling the starting or the closing of the positioning unit.

The invention realizes the following beneficial effects:

1. after the intelligent service system is started, if the meeting room is detected to carry out a meeting, state information fed back by a leaving button in the meeting room is acquired in real time, if the leaving button is detected to be in a pressed state, a self-driven meeting chair carrying meeting personnel matched correspondingly is moved to the inner side area of a meeting switch door, then iris information of the meeting personnel is acquired and is bound with the self-driven meeting chair, then the meeting switch door is controlled to be opened so that the personnel can leave the meeting room, and after the personnel leave the meeting room, the self-driven meeting chair is controlled to automatically reset and the meeting switch door is automatically closed; if the iris information of personnel in the area outside the conference switch door is detected to be bound with the self-driven conference chair in the conference room, the self-driven conference chair which is correspondingly bound is moved to the memory area of the conference switch door and the conference switch door is controlled to be automatically opened so that the personnel leaving the conference room can return to the conference room again, and therefore the interference of the conference personnel entering and exiting the conference room on the conference personnel is reduced.

2. When a meeting room is detected to carry out a meeting, pressure information acquired by a pressure detection platform in the area outside the entrance and the exit of the meeting room is acquired in real time, if a human body is detected to be positioned on the pressure detection platform and exceeds the preset time, a light-emitting ground layer in the area inside the entrance and the exit of the meeting room is controlled to start to flash for warning, and the flashing frequency of the light-emitting ground layer is controlled to increase along with the increase of the pressed time of the pressure detection platform.

3. When a person leaves a meeting room, a suspension device is allocated for the person and follows the person in real time, then a meeting image in the meeting room is projected to the ground position in front of the person in real time, and after the meeting is finished, the suspension device cancels the projection and automatically returns to reset; and if the personnel return to the meeting room again, the suspension equipment cancels the projection and automatically returns to reset.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a flow chart of a method for intelligent services provided by one example of the present invention;

fig. 2 is a flowchart of a method for resetting a person leaving a self-propelled conference chair according to one example of the present invention;

FIG. 3 is a flowchart of a method for prompting stepping on by an import-export person according to an exemplary embodiment of the present invention;

FIG. 4 is a flow chart of a levitation apparatus control method according to one embodiment of the present invention;

FIG. 5 is a flow chart of a meeting end return method provided by one example of the present invention;

FIG. 6 is a connection diagram of an intelligent service system provided by one example of the present invention;

fig. 7 is a schematic top view of a conference room area provided by one example of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example one

Referring to fig. 1-2, fig. 6-7.

Specifically, the present embodiment provides an intelligent service method based on meeting room movement, where the method includes the following steps:

in S1, specifically, after the server 3 receives a conference instruction sent by a conference terminal that maintains a long connection relationship, the high definition capturing module 31 included in the server 3 controls the high definition camera 20 disposed in the conference room to start capturing a high definition image in real time, where the high definition image is an environmental image inside the conference room captured by the high definition camera 20; after the high definition camera 20 is started, the information analysis module 32 analyzes whether a meeting is performed in a meeting room in real time according to the high definition image, that is, whether the projection device 15 is in an open state or whether a person performs a speech operation is analyzed.

In S2, specifically, after the information analysis module 32 analyzes that the conference room has a conference, the information acquisition module 33 included in the server 3 acquires, in real time, status information fed back by the away button 21 corresponding to conference staff and disposed on the conference table, and meanwhile, the information analysis module 32 analyzes, in real time, whether the away button 21 is in a pressed state according to the status information of the away button 21 acquired by the information acquisition module 33 in real time.

In S3, specifically, after the information analysis module 32 analyzes that the leaving button 21 is in the pressed state, the information acquisition module 33 acquires the number information of the self-propelled conference chair 10 matched with the leaving button 21 in the pressed state, the conference table is provided with a plurality of leaving buttons 21, and each leaving button 21 is bound with one self-propelled conference chair 10; after the information obtaining module 33 obtains the number information, the self-propelled movement module 34 included in the server 3 controls the self-propelled conference chair 10 consistent with the number information to move to the inner side position of the conference switch door 12 on the silent track 11 on the ground of the conference room, so that the conference staff who need to leave the conference room can leave through the temporary entrance and exit arranged on the side wall of the conference room, and interference to other conference staff is avoided.

In S4, specifically, after the self-propelled conference chair 10 moves to the position inside the conference switch door 12, the first iris module 35 included in the server 3 controls the first iris sensor 22 disposed at the top of the conference room where the conference switch door 12 is located to start to acquire iris information of a person seated in the self-propelled conference chair 10 in real time, and after the first iris sensor 22 acquires iris information of the person, the information binding module 36 included in the server 3 binds the iris information of the person to the self-propelled conference chair 10.

In S5, specifically, after the information binding module 36 binds the iris information of the person with the self-propelled conference chair 10, the conference switch module 37 included in the server 3 controls the conference switch door 12 to move to an open state at the position of the silent slide rail 13, so that the person leaves the conference room; after the conference switch door 12 is opened, the information analysis module 32 analyzes whether the human body sitting on the self-driven conference chair 10 leaves the conference room in real time according to the high-definition image, the information analysis module 32 analyzes that the personnel leave the conference room, the self-driven mobile module 34 controls the self-driven conference chair 10 to automatically reset to the bound leaving button 21 at the position of the silent track 11 to correspond to the conference table side area, and meanwhile, the conference switch module 37 controls the conference switch door 12 to reset and close through the silent slide rail 13.

In S6, after the conference switch door 12 is closed, the second iris module 38 included in the server 3 controls the second iris sensor 23 disposed at the top position outside the area where the conference switch door 12 is located to start to acquire the iris information of the person in the area outside the conference switch door 12 in real time, and after the second iris sensor 23 acquires the iris information of the person, the information analysis module 32 analyzes whether the iris information of the person is matched with the self-driving conference chair 10, that is, whether the iris information of the person is bound with the self-driving conference chair 10.

In S7, specifically, after the information analysis module 32 analyzes that the iris information of the person matches the self-propelled conference chair 10, the self-propelled movement module 34 controls the self-propelled conference chair 10 bound to the iris information of the person to move to the inside area of the conference switch door 12 at the position of the silent rail 11, and at the same time, the conference switch module 37 controls the conference switch door 12 to enter an open state through the silent slide rail 13, so that the person leaving the conference room returns to the conference room again, and interference to other conference persons is reduced; the information binding module 36 then unbinds the iris information of the person from the bound self-propelled conference chair 10.

As a preferred mode of the present invention, after S7, the method further includes the steps of:

in S70, specifically, after the conference switch door 12 is opened, the information analysis module 32 analyzes in real time whether the person outside the conference switch door 12 is located at the position of the self-driven conference chair 10 inside the conference switch door 12 according to the high-definition image.

In S71, specifically, after the information analysis module 32 analyzes that the person is seated in the self-propelled conference chair 10, the self-propelled movement module 34 controls the self-propelled conference chair 10 to automatically return through the silent rail 11, and the conference switch module 37 controls the conference switch door 12 to return and close through the silent slide rail 13.

In S72, specifically, after the self-propelled conference chair 10 is moved and reset and the conference switch door 12 is closed, the button operation module 39 included in the server 3 controls the leaving button 21 matching with the self-propelled conference chair 10 to release the pressed state, that is, controls the leaving button 21 to automatically bounce to release the pressed state.

Example two

Referring to fig. 3, shown in fig. 6-7.

Specifically, this embodiment is substantially the same as the first embodiment, except that in this embodiment, after S1, the method further includes the following steps:

in S10, specifically, after the information analysis module 32 analyzes that a meeting is performed in the meeting room, the pressure identification module 40 included in the server 3 controls the pressure detection platform 24 disposed in the area outside the entrance and exit of the meeting room to start to obtain pressure information in real time, and after the pressure detection platform 24 is started, the information analysis module 32 analyzes whether a human body steps on the pressure information for more than a preset time in real time, where the preset time is set by a meeting terminal, and is preferably 30 seconds in this embodiment; i.e. to analyze whether more than 20 kg of object is on the pressure sensing platform 24 for more than 30 seconds.

In S11, specifically, after the information analysis module 32 analyzes that the pressure detection platform 24 has a human body stepped on for more than a preset time, the ground light-emitting module 41 included in the server 3 controls the light-emitting ground layer 25 disposed in the area inside the entrance/exit of the conference room to start to enter a warning blinking state, so as to remind the conference staff in the conference room that there is a person located in the entrance/exit area of the conference room, and at the same time, the ground light-emitting module 41 controls the blinking frequency of the light-emitting ground layer 25 to increase according to the increase of the pressure time of the pressure detection platform 24; for example, the pressure detection platform 24 is pressed for less than 1 minute, the flashing frequency is 12 times/minute, 5 times/minute is increased every 30 seconds after 1 minute, for example, the flashing frequency of the light-emitting ground layer 25 is 22 times/minute when the pressure detection platform is pressed for 2 minutes, and the ground light-emitting layer enters a normally-on state after 60 times/minute.

EXAMPLE III

As shown with reference to fig. 4-7.

Specifically, this embodiment is substantially the same as the second embodiment, except that in this embodiment, after S5, the method further includes the following steps:

in S50, specifically, after recognizing that the person seated in the self-propelled conference chair 10 inside the conference switch door 12 leaves the conference room, the suspension control module 42 included in the server 3 controls the suspension device 14 disposed at the top position outside the conference switch door 12 to start, and after the suspension device 14 is started, the flight capturing module 43 included in the server 3 controls the flight camera 26 disposed outside the started suspension device 14 to capture a flight image in real time, where the flight image is an image of an environment around the suspension device 14 captured by the flight camera 26.

In S51, specifically after the suspension device 14 is started and the flying camera 26 is started, the suspension control module 42 controls the suspension device 14 to hover at the top of the person leaving the conference room in real time according to the flying image, so as to move the suspension device 14 and the person synchronously; meanwhile, the information extraction module 44 included in the server 3 extracts the conference image included in the high-definition image in real time.

In S52, specifically, after the information extraction module 44 extracts the conference image included in the high-definition image in real time, the information transmission module 45 included in the server 3 transmits the extracted conference image to the projection device 15 disposed below the levitation device 14, and the projection control module 46 included in the server 3 controls the projection device 15 to project the conference image to the ground in front of the person in real time, so as to prevent the person leaving the conference room from missing the conference information.

As a preferred mode of the present invention, after S53, the method further includes the steps of:

in S54, specifically, after the projection device 15 projects the conference image to the ground in front of the person in real time, the information analysis module 32 analyzes whether the conference in the conference room is finished in real time according to the conference image, that is, analyzes that the conference person in the conference room leaves the conference room.

In S55, specifically, after the information analysis module 32 analyzes that the meeting in the meeting room is ended, the projection control module 46 controls the projection device 15 to project the meeting end prompt information to the ground in front of the person, and meanwhile, the positioning control module 47 included in the server 3 controls the positioning unit 16 of the suspension device 14 to start to obtain the real-time positioning data of the suspension device 14 in real time, and meanwhile, the information acquisition module 33 obtains the positioning data corresponding to the suspension device 14 in real time.

In S56, specifically, after the information obtaining module 33 obtains the positioning data corresponding to the levitation device 14 in real time, the levitation control module 42 controls the flying device to return to the top position outside the conference switch door 12 through a flying image according to the positioning data and the recorded flying route.

Example four

As shown with reference to fig. 6-7.

Specifically, the embodiment provides an intelligent service system based on meeting room movement, and an intelligent service method based on meeting room movement is used, the intelligent service system comprises a meeting service device 1, a prompt recognition device 2 and a server 3, the meeting service device 1 comprises a self-driving meeting chair 10, a silent track 11, a meeting switch door 12, a silent slide rail 13, a suspension device 14, a projection device 15 and a positioning unit 16, and the self-driving meeting chair 10 is arranged in a meeting room, is set with corresponding number information, and is bound with a leaving button 21; the silent track 11 is laid on the ground of the conference room and used for providing the self-driven conference chair 10 to move; the conference switch door 12 is arranged at a position of a side wall of the conference room and used for providing emergency personnel to enter and exit; the mute slide rail 13 is arranged on the ground of the side wall of the conference room and used for providing the movement of the conference switch door 12; the suspension device 14 is arranged at the top position of the room outside the conference switch door 12 and used for following the personnel who urgently leave the conference room; the projection device 15 is arranged below the suspension device 14 and used for projecting information; the positioning unit 16 is arranged at an internal position of the levitation device 14, and is used for positioning a real-time position of the levitation device 14 and acquiring positioning data of a corresponding position;

the prompt recognition device 2 comprises a high-definition camera 20, a departure button 21, a first iris sensor 22, a second iris sensor 23, a pressure detection platform 24, a light-emitting ground layer 25 and a flight camera 26, wherein the high-definition camera 20 is arranged at an internal position of a conference room and used for shooting an internal environment image of the conference room; the leaving button 21 is arranged at the position of the conference table and corresponds to the self-driven conference chair 10; the first iris sensor 22 is arranged at the top of the conference room inside the conference switch door 12 and used for acquiring iris information of personnel who leave the conference room emergently; the second iris sensor 23 is arranged at the top of the room outside the opening and closing door of the conference room and used for acquiring iris information of personnel entering the conference room; the pressure detection platform 24 is arranged at the ground position of the area outside the entrance and the exit of the conference room and is used for acquiring pressure information; the luminous ground layer 25 is arranged on the ground position of the area at the inner side of the entrance and the exit of the conference room and is used for emitting warning light; the flight camera 26 is disposed at an external position of the suspension device 14, and is configured to capture an image of an environment around the suspension device 14;

server 3 sets up in meeting room place building internal location, server 3 includes:

the wireless module 30 is used for being wirelessly connected with the self-driven conference chair 10, the conference switch door 12, the suspension device 14, the projection device 15, the positioning unit 16, the high-definition camera 20, the departure button 21, the first iris sensor 22, the second iris sensor 23, the pressure detection platform 24, the light-emitting ground layer 25, the flying camera 26, the conference terminal and the internet respectively;

the high-definition shooting module 31 is used for controlling the high-definition camera 20 to be started or closed;

an information analysis module 32 for processing and analyzing the information according to the designated information;

an information obtaining module 33, configured to obtain specification information corresponding to a specified object;

the self-driven moving module 34 is used for controlling the self-driven conference chair 10 to execute the set silent track 11 moving operation according to the set steps;

a first iris module 35 for controlling the first iris sensor 22 to be turned on or off;

an information binding module 36, configured to bind the specific information with the specific object;

the conference switch module 37 is used for controlling the conference switch door 12 to execute the set movement operation of the mute slide rail 13 according to the set steps;

and a second iris module 38 for controlling the second iris sensor 23 to be turned on or off.

As a preferred aspect of the present invention, the server 3 further includes:

and a button operation module 39 for controlling the leave button 21 to perform the set eject operation according to the set steps.

As a preferred aspect of the present invention, the server 3 further includes:

the pressure identification module 40 is used for controlling the pressure detection platform 24 to be started or closed;

and the ground light-emitting module 41 is used for controlling the ground light-emitting layer to execute the set warning flashing operation according to the set steps.

As a preferred aspect of the present invention, the server 3 further includes:

a levitation control module 42 for controlling the levitation device 14 to perform the set flight operations according to the set steps;

a flight shooting module 43 for controlling the flight camera 26 to be turned on or off;

an information extraction module 44 for extracting information contained in the designation information;

an information transmission module 45 for transmitting the designation information to the designation object;

and a projection control module 46 for controlling the projection device 15 to perform the set projection operation according to the set steps.

As a preferred aspect of the present invention, the server 3 further includes:

and a positioning control module 47 for controlling the positioning unit 16 to start or stop.

It should be understood that, in the fourth embodiment, the specific implementation process of each module described above may correspond to the description of the above method embodiments (the first to the third embodiments), and is not described in detail here.

The system provided in the fourth embodiment is only illustrated by dividing the functional modules, and in practical applications, the above-mentioned functions may be distributed by different functional modules according to needs, that is, the internal structure of the system is divided into different functional modules to complete all or part of the functions described above.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (10)

1. An intelligent service method based on meeting room movement, which is characterized by comprising the following steps:

s1, controlling a high-definition camera arranged in the conference room to start to capture a high-definition image in real time according to a conference instruction sent by the conference terminal and analyzing whether the conference room carries out a conference or not in real time according to the high-definition image;

s2, if yes, acquiring state information fed back by a leaving button corresponding to a conference person and arranged on the conference table in real time, and analyzing whether the leaving button is in a pressed state or not in real time according to the state information;

s3, if yes, acquiring the number information of the self-propelled conference chair matched with the pressed leaving button and controlling the self-propelled conference chair consistent with the number information to move to the inner side position of the conference switch door on the silent track of the conference room ground;

s4, controlling a first iris sensor arranged at the top end of a conference room where a conference switch door is located to start to acquire iris information of a person sitting on the self-driven conference chair in real time and binding the iris information of the person with the self-driven conference chair;

s5, controlling the conference switch door to move to enter an open state at the position of the mute slide rail, and controlling the self-driven conference chair to automatically reset at the position of the mute track after recognizing that a seated person leaves according to the high-definition image, and controlling the conference switch door to reset and close through the mute slide rail;

s6, controlling a second iris sensor arranged at the top position outside the area where the conference switch door is located to start to acquire the iris information of personnel in the area outside the conference switch door in real time, and analyzing whether the iris information of the personnel is matched with a self-driven conference chair or not according to the iris information of the personnel;

and S7, if yes, controlling the self-driven conference chair bound with the iris information of the person to move to the inner area of the conference switch door at the position of the mute track and controlling the conference switch door to enter an open state through the mute slide rail.

2. The intelligent service method based on the movement of the meeting room as claimed in claim 1, wherein after S7, the method further comprises the following steps:

s70, analyzing whether a person on the outer side of the conference switch door is located at the position of a self-driven conference chair on the inner side of the conference switch door or not in real time according to the high-definition images;

s71, if yes, controlling the self-driven conference chair to automatically reset through a mute track and controlling a conference switch door to reset and close through a mute slide rail;

and S72, controlling a leaving button matched with the self-driving conference chair to release the pressing state.

3. The intelligent service method based on the movement of the meeting room as claimed in claim 1, wherein after S1, the method further comprises the following steps:

s10, controlling a pressure detection platform arranged in the area outside the entrance and the exit of the conference room to start to acquire pressure information in real time and analyzing whether a human body steps on the pressure information for more than preset time in real time according to the pressure information;

and S11, if yes, controlling a light-emitting ground layer arranged in the area inside the entrance and exit of the conference room to start to enter a warning flashing state, and controlling the flashing frequency of the light-emitting ground layer to increase according to the increase of the pressure detection platform pressure time.

4. The intelligent service method based on the movement of the meeting room as claimed in claim 1, wherein after S5, the method further comprises the following steps:

s50, controlling the suspension equipment arranged at the top position outside the conference switch door to start and controlling a flight camera arranged outside the started suspension equipment to shoot a flight image in real time;

s51, controlling the suspension equipment to hover at the top of the person leaving the conference room in real time according to the flying image and extracting the conference image contained in the high-definition image in real time;

and S52, transmitting the extracted conference image to a projection device arranged at the lower position of the suspension device and controlling the projection device to project the conference image to the ground in front of the person in real time.

5. The intelligent service method based on the movement of the meeting room as claimed in claim 4, wherein after S53, the method further comprises the following steps:

s54, analyzing whether the meeting in the meeting room is ended or not in real time according to the meeting image;

s55, if yes, controlling the projection equipment to project meeting ending prompt information to the ground in front of the personnel and acquiring positioning data corresponding to the suspension equipment in real time;

and S56, controlling the flying equipment to return to the top position outside the door of the conference switch through a flying image according to the positioning data and the recorded flying route.

6. An intelligent service system based on meeting room movement, using the intelligent service method based on meeting room movement of any one of claims 1-5, comprising a meeting service device, a prompt recognition device and a server, characterized in that:

the conference service device comprises a self-driven conference chair, a mute track, a conference switch door, a mute slide rail, a suspension device, a projection device and a positioning unit, wherein the self-driven conference chair is arranged in a conference room, is set with corresponding number information and is bound with a leaving button; the silent track is laid on the ground of the conference room and used for providing self-driven movement of the conference chair; the conference switch door is arranged on the side wall of the conference room and used for providing emergency personnel to enter and exit; the mute slide rail is arranged on the ground position of the side wall of the conference room and used for providing movement of a conference switch door; the suspension device is arranged at the top of a room outside the conference switch door and used for following personnel who urgently leave the conference room; the projection equipment is arranged at the position below the suspension equipment and used for projecting information; the positioning unit is arranged at an internal position of the suspension device and used for positioning the real-time position of the suspension device and acquiring positioning data of a corresponding position;

the prompt identification device comprises a high-definition camera, a departure button, a first iris sensor, a second iris sensor, a pressure detection platform, a light-emitting ground layer and a flight camera, wherein the high-definition camera is arranged at an internal position of the conference room and used for shooting an internal environment image of the conference room; the leaving button is arranged at the position of the conference table and corresponds to the self-driven conference chair; the first iris sensor is arranged at the top of the conference room at the inner side of the conference switch door and used for acquiring iris information of personnel who leave the conference room emergently; the second iris sensor is arranged at the top of a room outside an opening and closing door of the conference room and used for acquiring iris information of personnel entering the conference room; the pressure detection platform is arranged at the ground position of the area outside the entrance and the exit of the conference room and is used for acquiring pressure information; the luminous ground layer is arranged at the ground position of the area at the inner side of the entrance and the exit of the conference room and is used for emitting warning light; the flight camera is arranged at the external position of the suspension equipment and used for shooting an environmental image around the suspension equipment;

the server sets up in meeting room place building internal position, the server includes:

the wireless module is used for being wirelessly connected with a self-driven conference chair, a conference switch door, a suspension device, a projection device, a positioning unit, a high-definition camera, a departure button, a first iris sensor, a second iris sensor, a pressure detection platform, a light-emitting ground layer, a flight camera, a conference terminal and the internet respectively;

the high-definition shooting module is used for controlling the high-definition camera to be started or closed;

the information analysis module is used for processing and analyzing the information according to the specified information;

the information acquisition module is used for acquiring the designated information corresponding to the designated object;

the self-driven moving module is used for controlling the self-driven conference chair to execute the set silent track moving operation according to the set steps;

the first iris module is used for controlling the first iris sensor to be started or closed;

the information binding module is used for binding the specified information with the specified object;

the conference switch module is used for controlling the conference switch door to execute the set silent sliding rail movement operation according to the set steps;

and the second iris module is used for controlling the second iris sensor to be started or closed.

7. The intelligent service system based on the movement of the meeting room as claimed in claim 6, wherein the server further comprises:

and the button operation module is used for controlling the departure button to execute the set ejection operation according to the set steps.

8. The intelligent service system based on the movement of the meeting room as claimed in claim 6, wherein the server further comprises:

the pressure identification module is used for controlling the pressure detection platform to be started or closed;

and the ground light-emitting module is used for controlling the ground light-emitting layer to execute the set warning flashing operation according to the set steps.

9. The intelligent service system based on the movement of the meeting room as claimed in claim 6, wherein the server further comprises:

the suspension control module is used for controlling the suspension equipment to execute the set flight operation according to the set steps;

the flight shooting module is used for controlling the start or the close of the flight camera;

the information extraction module is used for extracting the information contained in the specified information;

the information transmission module is used for transmitting the specified information to the specified object;

and the projection control module is used for controlling the projection equipment to execute the set projection operation according to the set steps.

10. The intelligent service system based on the movement of the meeting room as claimed in claim 6, wherein the server further comprises:

and the positioning control module is used for controlling the starting or the closing of the positioning unit.

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