CN111654670A

CN111654670A - Information acquisition system

Info

Publication number: CN111654670A
Application number: CN202010462264.4A
Authority: CN
Inventors: 李人杰; 尹琪; 张宇
Original assignee: Beijing Softcom Smart City Technology Co ltd
Current assignee: Beijing Softcom Smart City Technology Co ltd
Priority date: 2020-05-27
Filing date: 2020-05-27
Publication date: 2020-09-11

Abstract

The embodiment of the invention discloses an information acquisition system. The system comprises: the system comprises a server and at least one intelligent helmet in communication connection with the server; the intelligent helmet is worn on the head of at least one acquisition object and used for acquiring multimedia information of a target event and sending the acquired multimedia information of the target event to the server; the server is used for receiving the multimedia information and determining the position information of the intelligent helmet for collecting the multimedia information. The effect of randomly scheduling the acquisition object with the intelligent helmet is achieved.

Description

Information acquisition system

Technical Field

The embodiment of the invention relates to a sports event security technology, in particular to an information acquisition system.

Background

At present, security work of sports events needs security personnel to be carried out, and the sports events are held in intensive scenes, so that the number of personnel is large in the scenes, the security personnel can carry out tasks in a scattered manner, and once sudden situations exist, dangerous events such as crowding and trampling of the personnel are easy to happen, and the security personnel can not reach dangerous positions in time to carry out order maintenance.

Disclosure of Invention

The embodiment of the invention provides an information acquisition system, which can achieve the effect of randomly scheduling an acquisition object with an intelligent helmet.

An embodiment of the present invention provides an information acquisition system, including:

the system comprises a server and at least one intelligent helmet in communication connection with the server;

the intelligent helmet is worn on the head of at least one acquisition object and used for acquiring multimedia information of a target event and sending the acquired multimedia information of the target event to the server;

the server is used for receiving the multimedia information and determining the position information of the intelligent helmet for collecting the multimedia information.

Optionally, the system further comprises: a display device communicatively connected to the server; the server is further used for sending the position information of at least one intelligent helmet and the map information where the intelligent helmet is located to the display device; and the display equipment is used for receiving the position information and the map information and displaying the position information and the map information.

Optionally, the server is further configured to determine at least one associated smart helmet corresponding to the target event, and send the location information to the at least one associated smart helmet.

Optionally, the server is further configured to pre-store a corresponding relationship between first attribute information of at least one of the smart helmets and second attribute information of the acquisition object wearing the smart helmet; the server is further used for determining at least one associated acquisition object corresponding to the target event based on the target event, and determining at least one associated intelligent helmet corresponding to the target event based on the corresponding relation.

Optionally, the server is further configured to construct an event temporary group based on at least one of the associated smart helmets, and generate a dedicated channel for the event temporary group.

Optionally, the intelligent helmet is provided with a voice call module; the server is further used for establishing call connection among the intelligent helmets in the event temporary group through the voice call module.

Optionally, the server is further configured to generate a voice call instruction based on a voice trigger operation input from the outside, and send the voice call instruction to the intelligent helmet; the intelligent helmet is further used for generating a voice signal based on the received voice call instruction and externally input voice information, and sending the voice signal to the server;

the server is further used for receiving the voice signal and playing the voice information based on the voice signal.

Optionally, the intelligent helmet is further configured to generate an alarm signal based on receiving an alarm operation input from the outside, and send the alarm signal to the server; the server is further used for receiving the alarm signal and determining the position information of the intelligent helmet.

Optionally, the server is further configured to: generating a position information signaling signal based on the position information of the intelligent helmet determined according to the alarm signal, and sending the position information signaling signal to at least one associated intelligent helmet associated with the intelligent helmet generating the alarm signal; the intelligent helmet is further used for receiving the position information signaling signal and playing the position information of the intelligent helmet, which generates the alarm signal, based on the position information signaling signal.

Optionally, the server is further configured to store multimedia information of a target event and the voice information collected by at least one of the smart helmets.

According to the technical scheme of the embodiment of the invention, the information acquisition system is provided, and the system comprises: the system comprises a server and at least one intelligent helmet in communication connection with the server; the intelligent helmet is worn on the head of at least one acquisition object and used for acquiring multimedia information of a target event and sending the acquired multimedia information of the target event to the server; the server is used for receiving the multimedia information and determining the position information of the intelligent helmet for collecting the multimedia information. Therefore, the acquisition object wearing the intelligent helmet can be scheduled at will according to the determined position information of the intelligent helmet for acquiring the multimedia information.

Drawings

Fig. 1 is a schematic structural diagram of an information acquisition system according to a first embodiment of the present invention;

fig. 2 is a schematic diagram of an intelligent helmet according to a first embodiment of the present invention;

fig. 3 is a schematic structural diagram of an information acquisition system in the second embodiment of the present invention;

fig. 4 is a schematic diagram of a display device in the second embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

Fig. 1 is a schematic structural diagram of an information acquisition system according to an embodiment of the present invention, and as shown in fig. 1, the system includes: a server 11 and at least one smart helmet 12 communicatively connected to the server 11. The intelligent helmet 12 is worn on the head of at least one acquisition object, and is used for acquiring multimedia information of a target event and sending the acquired multimedia information of the target event to the server 11; and the server 11 is configured to receive the multimedia information and determine location information of the intelligent helmet 12 that collects the multimedia information.

For example, the collection object may be a person wearing the smart helmet 12 who is in order or is in emergency for a sporting event, for example, a security person, a medical rescuer, or the like for a sporting event. The target event may be an event collected by a collection object using a smart helmet, for example, an event such as a match in a sporting event, a person falling or being injured at a playing field, and the like. The multimedia information may be video information and/or picture information, for example, video information and/or picture information of the captured target event.

Referring to the schematic diagram of the intelligent helmet described in fig. 2, the intelligent helmet 12 may be worn on the head of the collecting subject, as shown in a diagram b in fig. 2, and when the collecting subject wears the intelligent helmet, the intelligent helmet may be stably fixed to the head by using an adjuster, a pull strap, and a latch provided on the intelligent helmet.

As shown in a of fig. 2, a multimedia capturing device is disposed on the smart helmet 12, and the multimedia capturing device may be, for example: binocular cameras, etc. The multimedia collection device can be used to collect multimedia information of a target event and send the multimedia information to a server in communication with the intelligent helmet 12 through the communication module. The communication module may be disposed inside the smart helmet 12, and may be, for example: bluetooth, wifi, zigbee, etc.

The server 11 may receive the multimedia information sent by the intelligent helmet 12, and may receive a signal sent by a bluetooth module of the intelligent helmet for collecting the multimedia information according to a signal sent by the communication module, for example, taking the communication module as bluetooth as an example, and based on the received bluetooth signal, may determine the location information of the intelligent helmet for collecting the multimedia information.

Optionally, the server 11 is further provided with a storage module, configured to store the received collected multimedia information of the target event, so that a subsequent administrator can query and trace the multimedia information of the target event at any time.

Therefore, security personnel wearing the intelligent helmet can be scheduled at will according to the determined position information of the intelligent helmet for collecting the multimedia information.

Example two

Fig. 3 is a schematic structural diagram of an information acquisition system according to a second embodiment of the present invention, and the second embodiment of the present invention may be combined with various alternatives in the foregoing embodiments. In the embodiment of the present invention, optionally, the system further includes: a display device 13 communicatively connected to the server 11.

Optionally, the server 11 is further configured to send the location information of at least one of the intelligent helmets and the map information where the intelligent helmet is located to the display device; and the display device 13 is used for receiving the position information and the map information and displaying the position information and the map information.

For example, the server 11 may send the location information of the at least one intelligent helmet and the map information where the intelligent helmet is located to the display device, and the display device may receive the location information and the map information of the at least one intelligent helmet, as shown in fig. 4, the location information of the at least one intelligent helmet and the map information where the intelligent helmet is located are displayed on a display interface of the display device as shown in fig. 4.

The display device may also display other information, for example, by clicking the identifier of the intelligent helmet in fig. 4, for example, clicking a button in the diagram number "1" in fig. 4, the server may accurately send the position information of the intelligent helmet to the display device in real time in response to the operation, and display the position information on the display device.

It is also possible that the server responds to this operation by clicking a button in the drawing number "4" in fig. 4, and the server transmits the stored target event to the display device and displays it on the display device. The target event collected by the intelligent helmet can be displayed and recorded in real time at the figure number "6" in fig. 4.

Clicking a button in a diagram number '7' in fig. 4, the server responding to the operation can send multimedia information of the target event collected by the intelligent helmet to the display device, and the display interface can be switched from a map interface in a diagram in fig. 4 to a video interface in b diagram in fig. 4.

Clicking the button in the figure number "8" in fig. 4, the server can record and save the multimedia information of the acquisition target event in response to the operation.

Clicking the ON/OFF button in the number "10" in fig. 4, the server may generate a closing instruction and an opening instruction for controlling the multimedia acquisition device of the smart helmet in response to the operation, and send the instructions to the smart helmet, and the smart helmet closes or opens the multimedia acquisition device based ON the closing instruction or the opening instruction.

When the button in the drawing number "11" in fig. 4 is clicked, the server can control the image picture displayed on the small screen in the display device to be switched to the large screen for display in response to the operation.

Therefore, the position of at least one intelligent helmet and the map information where the intelligent helmet is located can be displayed in real time, so that a user can observe the position of a collection object wearing the intelligent helmet in real time, and security personnel can be scheduled according to the position information of the collection object in real time.

According to the technical scheme of the embodiment of the invention, the information acquisition system is provided, and the system further comprises: the display equipment is in communication connection with the server, wherein the server is further used for sending the position information of at least one intelligent helmet and the map information where the intelligent helmet is located to the display equipment; the display equipment is used for receiving the position information and the map information and displaying the position information and the map information, so that the position of at least one intelligent helmet and the map information where the intelligent helmet is located can be displayed in real time, a user can observe the position of a collection object with the intelligent helmet in real time, and security personnel can be dispatched according to the position information of the collection object in real time.

EXAMPLE III

Embodiments of the present invention may be combined with various alternatives of the above embodiments. In the embodiment of the present invention, the server may further have the following functions:

For example, the associated smart helmet may be a smart helmet associated with a smart helmet that collects the target event.

Taking an example that a target event is a faint of a viewer watching a sports event, the target event is collected to be an intelligent helmet A, the server receives multimedia information of the target event sent by the intelligent helmet A, and according to the target event, at least one associated intelligent helmet corresponding to the target event is determined, for example, the at least one associated intelligent helmet corresponding to the target event is an intelligent helmet B, an intelligent helmet C and an intelligent helmet D. The server sends the position information of the intelligent helmet A to the intelligent helmet B, the intelligent helmet C and the intelligent helmet D, so that the collection object worn with the intelligent helmet B, the intelligent helmet C and the intelligent helmet D can rush to the position of the intelligent helmet A according to the received position information of the intelligent helmet A, and corresponding emergency measures and the like are taken for the sick audience. In this way, the acquisition object to which the at least one associated intelligent helmet corresponding to the target event belongs can be scheduled arbitrarily.

For example, the first attribute information may be unique identification information of the intelligent helmet, and may be one or a pair of numbers of the intelligent helmet, a number of a communication module in the intelligent helmet, or other ways that may represent unique identification of the intelligent helmet. The second attribute information may be unique identification information of the acquisition object, and may be, for example, one or more of an identity card number, a mobile phone number, a job number, a name, and the like of the acquisition object.

The server may pre-store a correspondence between the first attribute information of the smart helmet and the second attribute information of the collection object wearing the smart helmet. For example, taking the first attribute information as the serial number of the smart helmet and the second attribute information as the name of the collection object as an example, the smart helmet a is worn by zhang three, the smart helmet B is worn by zhu four, the smart helmet C is worn by wang five, and the smart helmet D is worn by zheng six, and then the server stores the corresponding relationship among zhang three, smart helmet B-zhu four, smart helmet C-wang five, and smart helmet D-zheng six in advance.

When any one collection object collects the target event, the server can determine at least one collection object corresponding to the target event based on the target event, and further can determine at least one associated intelligent helmet corresponding to the target event based on the corresponding relation between the collection object and the intelligent helmet. For example, taking a target event as a spectator watching a sports event, where lie four, king five and zheng six are medical personnel trained with professional medical knowledge, and zhang three acquires the target event, after zhang three acquires the target object, the multimedia information of the target event is transmitted to the server, since the stung spectator needs medical emergency, and lie four, king five and zheng six are medical personnel trained with professional medical knowledge, therefore, the server can determine that lie four, king five and zheng six are associated acquisition objects corresponding to the target event, and can determine that smart helmet B, smart helmet C and smart helmet D worn by lie four, king five and zheng six are associated smart helmets corresponding to the target event according to the corresponding relationship between lie four, king five and zheng six and the smart helmets worn by the server.

When the server stores the second attribute information of the collection object, it may store personal information of each collection object, for example, personal characteristics, whether or not the collection object has been subjected to a formal training in some aspect, and the like.

It should be noted that, since the server stores the second attribute information of the acquisition object and the first attribute information of the smart helmet in advance, the personal information and the track information of the acquisition object can be acquired in a fuzzy retrieval manner at the display device shown in fig. 4, for example, by inputting the number, the job number, or the name of the acquisition object at the drawing number "2" in fig. 4, clicking a search button, and in response to the operation, the server can send the stored second attribute information and the first attribute information to the display device and display the second attribute information and the first attribute information on the display device.

Therefore, the associated acquisition object corresponding to the target time can be determined based on the target event, and the associated intelligent helmet corresponding to the target event is further determined, so that the position information of the intelligent helmet for acquiring the target event can be sent to the associated intelligent helmet in the following process, and the effect of randomly scheduling the acquisition object with the intelligent helmet is realized.

According to the technical scheme of the embodiment of the invention, the server is also used for determining at least one associated intelligent helmet corresponding to the target event and sending the position information to the at least one associated intelligent helmet, so that the acquisition object to which the at least one associated intelligent helmet corresponding to the target event belongs can be scheduled at will. The server is also used for pre-storing the corresponding relation between the first attribute information of at least one intelligent helmet and the second attribute information of the acquisition object wearing the intelligent helmet; the server is further configured to determine at least one associated acquisition object corresponding to the target event based on the target event, and determine at least one associated smart helmet corresponding to the target event based on the correspondence, so that the associated acquisition object corresponding to the target time is determined based on the target event, and further the associated smart helmet corresponding to the target event is determined, so that the position information of the smart helmet acquiring the target event is sent to the associated smart helmet later, and an effect of randomly scheduling the acquisition object wearing the smart helmet is achieved.

Example four

Embodiments of the present invention may be combined with various alternatives of the above embodiments. In the embodiment of the invention, the server and the intelligent helmet can also have the following functions:

For example, the temporal event group may be a team group for the target event consisting of at least one associated smart helmet determined based on the target event. For example, taking a target event as a spectator watching a sports event, lie four, king five and zheng six as medical personnel trained by professional medical knowledge, and zhang three as an example of acquiring the target event, after zhang three acquires the target event, the server determines that the intelligent helmet B, the intelligent helmet C and the intelligent helmet D worn by lie four, king five and zheng six are associated intelligent helmets corresponding to the target event, and then constructs an event temporary group by the intelligent helmets B, C and D, and generates a dedicated channel of the event temporary group.

The server constructs the event temporary group, generates a dedicated channel for the event temporary group, may be an operation performed by the user to create the event temporary group, for example, a button in "5" of the drawing in fig. 4 may be clicked, and the server may construct the event temporary group, generate a dedicated channel for the event temporary group, and display the constructed event temporary group on the display device in response to the operation.

Therefore, a special event temporary group is generated aiming at the target event, the communication and the communication in the event temporary group are facilitated, and the user experience is improved.

It should be noted that, before the target event is collected, the server may also group the relevant collection objects in advance according to the personal information of the collection objects to generate a dedicated emergency channel, for example, before the start of the sports event, all the collection staff who have received regular medical training among the collection staff may be grouped to generate a dedicated medical emergency channel, so that when the target event requiring medical emergency occurs, the collection staff of the dedicated medical emergency channel may be directly called to perform emergency treatment on the staff requiring medical emergency. Specifically, the server may click a button in a drawing number "9" in fig. 4, in response to the operation, group the related acquisition objects according to the stored personal information of the acquisition objects, generate a dedicated emergency channel, and then send the group and the dedicated emergency channel to the display device for display.

For example, as shown in fig. 2, a voice call module, which may be, for example, a microphone, is disposed in the intelligent helmet, and the number of the voice call modules is two, and the two voice call modules are symmetrically disposed in the intelligent helmet, and when the acquisition device wears the intelligent helmet, the two microphones may be respectively located on two sides of a cheek of the acquisition object. When the acquisition personnel of the temporary event group need voice communication, the server enables each intelligent helmet in the temporary event group to establish voice communication connection through the voice communication module, so that the acquisition personnel in the temporary event group can carry out voice communication, and the acquisition objects corresponding to the intelligent helmets in the temporary event group can be conveniently and effectively communicated.

Optionally, the server is further configured to generate a voice call instruction based on a voice trigger operation input from the outside, and send the voice call instruction to the intelligent helmet; the intelligent helmet is further used for generating a voice signal based on the received voice call instruction and externally input voice information, and sending the voice signal to the server; the server is further used for receiving the voice signal and playing the voice information based on the voice signal.

For example, the voice trigger operation may be a voice-enabled operation performed by the user, for example, a button for clicking a voice-enabled button, for example, a button with a drawing number "12" in fig. 4 may be clicked. The voice call instruction may be an instruction that a voice call can be made. The voice information may be spoken voice audio of a collecting subject wearing the smart helmet.

The intelligent helmet is applied to an actual scene, when a user clicks a button of a figure number 12, the server responds to the operation to generate a voice call instruction and sends the voice call instruction to the intelligent helmet, the intelligent helmet receives the voice call instruction and voice information spoken by a collection person wearing the intelligent helmet, generates a voice signal and sends the voice signal to the server, and the server can play the voice information spoken by the collection person wearing the intelligent helmet based on the received voice signal. So that the server can know the voice communication information of the acquisition personnel wearing the intelligent equipment in real time.

It should be noted that the server may also store the voice information, so that a subsequent administrator may trace back the voice information.

For example, the alarm operation may be an alarm operation performed by an acquiring person wearing the intelligent helmet, for example, as shown in fig. 2, an alarm module is provided on the intelligent helmet, and when the acquiring person wearing the intelligent helmet presses the alarm module, an alarm signal may be generated. The intelligent helmet sends the alarm signal to the server, and the server can determine the position information of the intelligent helmet which gives an alarm based on the received alarm signal. In this way, the position information of the alarming intelligent helmet can be determined based on the alarming operation of the external input received by the intelligent helmet, so that the associated intelligent helmet can be dispatched according to the determined position information of the alarming intelligent helmet. The effect of randomly scheduling the collection object wearing the intelligent helmet is achieved.

It should be noted that, the server may further send the alarm signal to the display device, and display the alarm signal on the display, for example, after the server sends the alarm signal to the display device, the SOS alarm indicator light at the position "3" in the display device may flash, and when the flashing SOS alarm indicator light is clicked, the server responds to the operation, and sends the position information of the intelligent helmet that alarms to the display device, and the display device may display the position information of the intelligent helmet that alarms.

For example, the position information signaling signal may be a signal that converts the position information of the intelligent helmet determined according to the alarm signal into voice information, for example, the position information of the intelligent helmet determined according to the alarm signal is: and the Xinjiang province of the east Li region of Tianjin city carries the forward X building M layer, and the position information command signal converts the position information into voice information.

The server sends the position information signaling signal to the intelligent helmet associated with the intelligent helmet generating the alarm signal, and when the intelligent helmet associated with the intelligent helmet generating the alarm signal receives the position information signaling signal, the position information of the intelligent helmet generating the alarm signal is played based on the position information signaling signal.

The method is applied to an actual scene, a target event is a spectator who watches a sports event, Liqu, Wangwu and Zhengliu are medical personnel who are trained by professional medical knowledge, Zhang III acquires the target event as an example, after Zhang III acquires the target object, Zhang III presses an alarm module on an intelligent helmet worn by the target object to generate an alarm signal, and the alarm signal is sent to a server. The server determines the position information of the intelligent helmet worn by Zhang III based on the alarm signal, for example, the position information of the intelligent helmet worn by Zhang III is determined as follows: the method comprises the steps of carrying out forward X building M layer propagation in the Korean high and new area in the Donglidistrict in Tianjin City, generating a position information voice command signal of the position information, sending the position information voice command signal to a smart helmet B, a smart helmet C and a smart helmet D which are worn by the four Li, the five Wang and the Zheng six related to Zhang three, and playing the position information of the forward X building M layer propagation in the Korean high and new area in Tianjin City when the smart helmet B, the smart helmet C and the smart helmet D which are worn by the four Li, the five Wang and the Zheng six receive the position information voice command signal, wherein the specific playing content can be' please visit the forward X building M layer propagation in the Korean high and new area in the Donglidistrict in Tianjin City.

Therefore, at least one associated intelligent helmet associated with the intelligent helmet generating the alarm signal can receive and play the position information of the intelligent helmet generating the alarm signal in real time, and user experience is improved.

It should be noted that, as shown in fig. 2, two sound box modules may be disposed in the smart helmet and symmetrically disposed in the smart helmet. The sound box module can be used for playing the position information of the intelligent helmet determined according to the alarm signal.

It should be noted that, as shown in fig. 2, a power module may be further disposed in the intelligent helmet, and the power module is configured to supply power to the intelligent helmet.

According to the technical scheme of the embodiment of the invention, the server is further used for constructing the event temporary group based on at least one associated intelligent helmet and generating the special channel of the event temporary group, so that the special event temporary group is generated aiming at the target event conveniently, communication and exchange in the event temporary group are facilitated, and user experience is improved. The intelligent helmet is provided with a voice communication module; the server is further used for establishing call connection among the intelligent helmets in the event temporary group through the voice call module, so that the collection personnel in the event temporary group can carry out voice call, and the collection objects corresponding to the intelligent helmets in the event temporary group can be conveniently and effectively communicated. The server is further used for generating a voice call instruction based on voice trigger operation input from the outside and sending the voice call instruction to the intelligent helmet; the intelligent helmet is further used for generating a voice signal based on the received voice call instruction and externally input voice information, and sending the voice signal to the server; the server is further used for receiving the voice signal and playing the voice information based on the voice signal, so that the server can know the voice communication information of the acquisition personnel wearing the intelligent equipment in real time. The intelligent helmet is further used for generating an alarm signal based on receiving an alarm operation input from the outside and sending the alarm signal to the server; the server is further used for receiving the alarm signal and determining the position information of the intelligent helmet, so that the position information of the alarming intelligent helmet can be determined based on the alarm operation of external input received by the intelligent helmet, and the related intelligent helmet can be dispatched according to the determined position information of the alarming intelligent helmet. The effect of randomly scheduling the collection object wearing the intelligent helmet is achieved. The server is further configured to: generating a position information signaling signal based on the position information of the intelligent helmet determined according to the alarm signal, and sending the position information signaling signal to at least one associated intelligent helmet associated with the intelligent helmet generating the alarm signal; the intelligent helmet is further used for receiving the position information signaling signal and playing the position information of the intelligent helmet generating the alarm signal based on the position information signaling signal, so that at least one associated intelligent helmet associated with the intelligent helmet generating the alarm signal can receive and play the position information of the intelligent helmet generating the alarm signal in real time, and user experience is improved.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims

1. An information acquisition system, the system comprising: the system comprises a server and at least one intelligent helmet in communication connection with the server;

2. The system of claim 1, further comprising: a display device communicatively connected to the server;

the server is further used for sending the position information of at least one intelligent helmet and the map information where the intelligent helmet is located to the display device;

and the display equipment is used for receiving the position information and the map information and displaying the position information and the map information.

3. The system of claim 1, wherein the server is further configured to determine at least one associated smart helmet corresponding to the target event and send the location information to at least one of the associated smart helmets.

4. The system according to claim 3, wherein the server is further configured to store in advance a correspondence between first attribute information of at least one of the smart helmets and second attribute information of the acquisition object wearing the smart helmet;

the server is further used for determining at least one associated acquisition object corresponding to the target event based on the target event, and determining at least one associated intelligent helmet corresponding to the target event based on the corresponding relation.

5. The system of claim 4, wherein the server is further configured to construct a temporary group of events based on at least one of the associated smart helmets and generate a dedicated channel for the temporary group of events.

6. The system of claim 5, wherein the smart helmet is provided with a voice call module;

the server is further used for establishing call connection among the intelligent helmets in the event temporary group through the voice call module.

7. The system of claim 6, wherein the server is further configured to generate a voice call instruction based on an externally input voice trigger operation, and send the voice call instruction to the smart helmet;

the intelligent helmet is further used for generating a voice signal based on the received voice call instruction and externally input voice information, and sending the voice signal to the server;

8. The system of claim 4, wherein the smart helmet is further configured to generate an alarm signal based on an alarm operation of receiving an external input, and to transmit the alarm signal to the server;

the server is further used for receiving the alarm signal and determining the position information of the intelligent helmet.

9. The system of claim 8, wherein the server is further configured to: generating a position information signaling signal based on the position information of the intelligent helmet determined according to the alarm signal, and sending the position information signaling signal to at least one associated intelligent helmet associated with the intelligent helmet generating the alarm signal;

the intelligent helmet is further used for receiving the position information signaling signal and playing the position information of the intelligent helmet, which generates the alarm signal, based on the position information signaling signal.

10. The system of claim 6, wherein the server is further configured to store multimedia information of the target event collected by at least one of the smart helmets and the voice information.