CN112188320B - Information processing method and device and electronic equipment - Google Patents

Abstract

The application provides an information processing method, which is applied to a first electronic device serving as a receiving device and comprises the following steps: receiving broadcasted data to be output, wherein the broadcasted data to be output comes from a second electronic device serving as a calling device; processing the data to be output, and outputting the processed data to be output; sending the complex data back to the second electronic device via unicast. In the scheme, after the data to be output transmitted by the calling party in a broadcasting mode is received, the data to be output is processed and output, the reply data is only sent to the second electronic device in a unicast mode and is not sent to other IP interphones, the situation that the other IP interphones receive the reply data is avoided, and the safety of the reply data sent to the second electronic device by the first electronic device is improved on the premise that the invalid voice received by the other IP interphones is reduced.

Description

Information processing method and device and electronic equipment

Technical Field

The present application relates to the field of electronic devices, and in particular, to an information processing method and apparatus, and an electronic device.

Background

The network IP interphone utilizes a data channel of mobile communication to digitize and compress voice, and then sends the voice out through the existing public mobile data network to form a trunking communication system.

However, after receiving the voice of the calling party, the network IP interphone can only reply the voice to all receiving devices through broadcasting, and cannot reply the voice to the calling party alone, so that a device which does not need to receive the message listens to a large amount of invalid voice, which brings inconvenience to the actual use scene.

Disclosure of Invention

In view of this, the present application provides an information processing method, which solves the problem in the prior art that a device that does not need to receive the message cannot receive a large amount of invalid voices because the network IP interphone cannot reply to the caller alone.

In order to achieve the above purpose, the present application provides the following technical solutions:

an information processing method applied to a first electronic device includes:

receiving broadcasted data to be output, wherein the broadcasted data to be output comes from a second electronic device serving as a calling device;

processing the data to be output, and outputting the processed data to be output;

sending the complex data back to the second electronic device via unicast.

Preferably, in the method, the processing the data to be output includes:

and analyzing the data to be output, and extracting a sending address carried by the data to be output, wherein the sending address is the address of the second electronic equipment.

Preferably, the method for sending the complex data back to the second electronic device by unicast includes:

receiving a reply instruction, wherein the reply instruction is generated based on the operation of triggering reply by a user;

acquiring reply data;

and sending the reply data to the second electronic equipment based on the sending address.

Preferably, in the method, the processing the data to be output includes:

analyzing and determining an environment type to which the surrounding environment of the first electronic equipment belongs;

and processing the data to be output according to a processing mode matched with the first environment type based on the fact that the surrounding environment belongs to the first environment type, so as to obtain target output data.

Preferably, in the method, the analyzing determines the type of the environment to which the surrounding environment belongs, and includes:

acquiring space environment information and/or character environment information of the first electronic equipment, wherein the character information comprises related information of characters in a space environment;

and analyzing and determining the environment type of the surrounding environment based on the first electronic equipment space environment information and/or the character environment information.

Preferably, the above method, acquiring the spatial environment information of the first electronic device, includes:

acquiring spatial position information of the first electronic equipment;

determining a key event of the spatial location where the first electronic device is located based on the spatial location information, wherein the key event is an event needing attention in the spatial location.

Preferably, in the method, the determining the key event of the spatial location based on the spatial location information includes:

analyzing and obtaining landmark information corresponding to the spatial position information based on the spatial position information;

and acquiring the landmark information corresponding to the key event.

An information processing apparatus comprising:

the receiving module is used for receiving broadcasted data to be output, and the broadcasted data to be output comes from a second electronic device serving as calling equipment;

the processing module is used for processing the data to be output and outputting the processed data to be output;

and the sending module is used for sending the complex data to the second electronic equipment through unicast.

Preferably, in the apparatus described above, the processing module is specifically configured to analyze and determine an environment type to which an environment around the first electronic device belongs; and processing the data to be output according to a processing mode matched with the first environment type based on the fact that the surrounding environment belongs to the first environment type, so as to obtain target output data.

An electronic device, comprising: the device comprises a communication unit, a collection unit and a processor;

the communication unit is used for receiving broadcasted data to be output, and the broadcasted data to be output comes from a second electronic device serving as calling equipment;

the processor is used for processing the data to be output and outputting the processed data to be output;

the acquisition unit is used for acquiring reply data;

the communication unit is further configured to send the complex data back to the second electronic device by unicast.

As can be seen from the foregoing technical solutions, compared with the prior art, the present application provides an information processing method applied to a first electronic device serving as a receiving device, the method including: receiving broadcasted data to be output, wherein the broadcasted data to be output comes from a second electronic device serving as a calling device; processing the data to be output, and outputting the processed data to be output; sending the complex data back to the second electronic device by unicast. In the scheme, after the data to be output transmitted by the calling party in a broadcasting mode is received, the data to be output is processed and output, the reply data is only sent to the second electronic device in a unicast mode and is not sent to other IP interphones, the situation that the other IP interphones receive the reply data is avoided, and the safety of the reply data sent to the second electronic device by the first electronic device is improved on the premise that the invalid voice received by the other IP interphones is reduced.

Drawings

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

Fig. 1 is a schematic view of a scene to which the information processing method of the present application is applied;

fig. 2 is a flowchart of embodiment 1 of a method for processing information provided in the present application;

fig. 3 is a flowchart of embodiment 2 of a method for processing information provided by the present application;

fig. 4 is a flowchart of embodiment 3 of a method for processing information provided by the present application;

fig. 5 is a flowchart of embodiment 4 of a method for processing information provided in the present application;

FIG. 6 is a schematic diagram of an embodiment of an information processing apparatus according to the present application;

fig. 7 is a schematic structural diagram of an embodiment of an electronic device provided in the present application.

Detailed Description

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

Fig. 1 is a schematic view of a scenario in which the information processing method of the present application is applied, where the application scenario includes a plurality of electronic devices, and 5 electronic devices are shown in fig. 1, and the plurality of electronic devices have the same structure and function. In a specific implementation, the plurality of electronic devices are network IP interphones belonging to the same local area network. Specifically, one of the network IP interphones 101 serves as a calling device, and the other network IP interphones 102 and 105 serve as called devices. The user uses the calling device to send the calling data to each called device in a broadcasting mode through the local area network. The called device processes the received call data to obtain processed data to be output, wherein the user of the called device 102 triggers the unicast function of the calling device and sends back the data to the calling device 101 based on the unicast function. In fig. 1, a solid line indicates a broadcast mode for transferring data, an arrow direction indicates a data transfer direction, and a dotted line indicates a unicast mode for transferring data, and the arrow direction indicates a data transfer direction.

The calling device sends the collected data to each called device in a broadcasting mode. The method is applied to the electronic equipment serving as the called equipment.

As shown in fig. 2, a flowchart of embodiment 1 of a method for processing information provided by the present application, where the method is applied to an electronic device serving as a first electronic device, and the method includes the following steps:

step S201: receiving broadcasted data to be output, wherein the broadcasted data to be output comes from a second electronic device serving as a calling device;

wherein the calling device broadcasts data to each called device, and the called device receives the broadcasted data to be output.

In a specific implementation, after the network IP intercom is connected to a local area network, a control end device (such as a router and a hotspot device) of the local area network allocates an IP (Internet Protocol Address) to the network IP intercom, the network IP intercom broadcasts the IP Address of the network IP intercom to other network IP intercom through the local area network, and the other network IP intercom receives and records the IP addresses of the other intercom broadcasted in the local area network, so as to broadcast based on the IP Address in the following process.

Specifically, the network IP interphone in the application is provided with specific functions: broadcast and reply.

The broadcasting is to send the collected data to each network IP interphone in the local area network, and if there are 5 network IP interphones in the local area network, the collected data is sent to other 4 network IP interphones.

The reply is to send the collected data to a specific network IP interphone in the local area network, and generally, the specific network IP interphone is a device that previously sends the data to the local network IP interphone.

In this embodiment, the calling device acquires all IP addresses in its storage local area network based on the operation of triggering broadcast, and establishes transmission channels between the calling device and all IP addresses, so as to transmit call data based on the transmission channels.

Specifically, the calling device may collect voice information of a user, compress voice information fragments according to a preset fragment principle, and transmit the compressed voice information fragments to the called device in real time based on the transmission channel.

The network IP interphone can be provided with a specific key, and the broadcasting triggering operation can be realized by long-time pressing or clicking specific keys.

The long press refers to that only the action of pressing a key can be maintained in the process of acquiring the voice information, and the user is prevented from forgetting to send the voice.

Specifically, at the end of the call, the end can be realized by stopping the action of pressing the key or clicking the specific key again, and the call is ended by stopping collecting the voice information and sending the call data and disconnecting the transmission channel between the calling device and each called device.

Step S202: processing the data to be output, and outputting the processed data to be output;

after receiving the data to be output broadcasted by the calling equipment, processing the data to be output so as to enable the data to be output to meet a specific condition.

And outputting the processed data to be output so that a user of the first electronic device can know the processed data to be output.

It should be noted that the processing procedure will be described in detail in the following embodiments, and the details are not described in this embodiment.

Step S203: sending the complex data back to the second electronic device via unicast.

When the user of the first electronic device has information to reply to the second electronic device, the user sends the reply data to the second electronic device through unicast instead of other electronic devices in the local area network, so that invalid information received by other electronic devices is reduced, and the safety of the information between the first electronic device and the second electronic device is ensured.

The specific implementation process of step S203 will be described in detail in the following embodiments, and details are not described in this embodiment.

In summary, an information processing method provided in this embodiment is applied to a first electronic device, where the first electronic device serves as a receiving device, and the method includes: receiving broadcasted data to be output, wherein the broadcasted data to be output comes from a second electronic device serving as a calling device; processing the data to be output, and outputting the processed data to be output; sending the complex data back to the second electronic device via unicast. In the scheme, after the data to be output transmitted by the calling party in a broadcasting mode is received, the data to be output is processed and output, the reply data is only sent to the second electronic device in a unicast mode and is not sent to other IP interphones, the situation that the other IP interphones receive the reply data is avoided, and the safety of the reply data sent to the second electronic device by the first electronic device is improved on the premise that the invalid voice received by the other IP interphones is reduced.

As shown in fig. 3, a flowchart of embodiment 2 of the information processing method provided by the present application includes the following steps:

step S301: receiving broadcasted data to be output, wherein the broadcasted data to be output comes from a second electronic device serving as a calling device;

step S301 is the same as step S201 in embodiment 1, and details are not described in this embodiment.

Step S302: analyzing the data to be output, and extracting a sending address carried by the data to be output, wherein the sending address is the address of the second electronic equipment;

the data to be output comprises a sending address, a receiving address and target data. The transmission address is an address of the second electronic device as the calling device, the reception address is an address of the first electronic device as the called device, and the target data is data that the calling device targets to the called device.

For example, the target data is voice data of the user collected at the calling device.

Specifically, after the first device receives the data to be output, the data to be output is analyzed, and the sending address carried in the data to be output is extracted to obtain the address of the second electronic device.

Step S303: receiving a reply instruction, wherein the reply instruction is generated based on the operation of triggering reply by a user;

the reply instruction can be triggered based on triggering of a specific reply function key in the first electronic device.

In particular, the reply instruction may trigger a unicast function.

In a specific implementation, the unicast function is to feed back the information received before, so to ensure timely and effective information transmission, it is necessary to ensure that the unicast is triggered in a short time after the data to be output is received last time.

Specifically, when a unicast function is triggered, judging a timestamp of data to be output received last time, and replying if the time interval between the current time and the timestamp is smaller than a preset time threshold; otherwise, the unicast function trigger is invalid.

As a specific example, when data to be output is received, a prompt message is generated in the first electronic device, and indicates that an indicator light or an icon is turned on to prompt that the user is currently the valid time for reply, and if the time exceeds a preset time threshold, the indicator light or the icon is turned off to indicate that the valid time for reply is ended.

In specific implementation, when a user presses a unicast key to trigger a reply instruction, the working mode is switched from the first mode to the second mode based on the fact that the time difference between the time of receiving the reply instruction and the time of receiving the data to be output is smaller than a preset threshold value; in the first mode, the first electronic equipment sends data to at least two devices including the second electronic equipment, and in the second mode, the first electronic equipment only sends data to the second electronic equipment;

wherein the first mode is in particular a broadcast mode and the second mode is in particular a unicast mode.

Step S304: acquiring reply data;

wherein the reply data is data obtained from the first electronic device and used for feeding back to the second electronic device.

Specifically, the reply data may be voice.

Specifically, after the first electronic device starts the unicast function/switches to the unicast mode, the information input by the user is acquired, and the information input by the user is sent to the second electronic device as the reply data.

Step S305: and sending the reply data to the second electronic equipment based on the sending address.

And establishing a transmission channel with the second electronic equipment according to the sending address of the second electronic equipment, and transmitting the reply data to the second electronic equipment based on the transmission channel.

Specifically, when the reply instruction is received, a transmission channel with the second electronic device is immediately established.

In a specific implementation, the reply data may be voice information, and the voice information acquired in real time is fragmented and compressed according to a preset fragmentation principle, and then is transmitted to the calling device in real time based on the transmission channel.

For example, three network IP interphones are installed in three rooms of a certain home, a network IP interphone a is installed in a living room, a network IP interphone B is installed in a child room, and a network IP interphone C is installed in a parent room. When a mother uses the network IP interphone A in the living room to send a voice broadcast to the network IP interphone BC to enable the living room to eat fruit bars, and the child does not want to eat the fruit at present, the broadcast sent by the mother can be replied through the network IP interphone B arranged in the child room, the child presses the reply key of the network IP interphone B for a long time and inputs the voice that the mother does not want to eat the fruit at present, the network IP interphone B establishes a transmission channel with the A based on the operation of pressing the reply key for a long time and on the basis of the received address information of the A carried in the broadcast sent by the A, and the received voice is transmitted to the A in real time.

In summary, the information processing method provided in this embodiment includes: analyzing the data to be output, and extracting a sending address carried by the data to be output, wherein the sending address is the address of the second electronic equipment; receiving a reply instruction, wherein the reply instruction is generated based on the operation of triggering reply by a user; acquiring reply data; and sending the reply data to the second electronic equipment based on the sending address. In the scheme, when the first electronic device replies the calling device, the target sending device is determined based on the sending address carried in the received data to be output, and the reply data is sent to the second electronic device through the sending address, so that the aim of replying the calling device is fulfilled.

As shown in fig. 4, a flowchart of embodiment 3 of the information processing method provided by the present application includes the following steps:

step S401: receiving broadcasted data to be output, wherein the broadcasted data to be output comes from a second electronic device serving as a calling device;

step S401 is the same as step S201 in embodiment 1, and details are not described in this embodiment.

Step S402: analyzing and determining an environment type to which the surrounding environment of the first electronic equipment belongs;

and analyzing the environment around the first electronic equipment outputting the data to be output, and determining the environment type of the first electronic equipment.

Wherein the environment type is divided into: the high-sensitivity environment, the low-sensitivity environment and the general environment can be divided into a plurality of types, such as type 1 sensitivity, type 2 sensitivity, type 3 sensitivity, type 4 sensitivity, etc., according to the sensitivity degree from high to low.

Wherein the environment type is divided into: religious type sensitivity, scene type sensitivity, character type sensitivity, etc.

Specifically, the religious type sensitivity can be more refined according to different religious types, such as Buddhism type sensitivity, Taoism type sensitivity, Islam type sensitivity and the like.

Specifically, the scene type sensitivity may be divided according to specific scene conditions, including: outdoor scenes, indoor scenes, home scenes, etc.

The character type sensitivity can be divided according to the number of characters, such as a single person, a plurality of persons and the like, and the more the number of the persons is, the higher the sensitivity degree is.

The character type sensitivity can be divided according to the identity of the character and the like, and the identity can be family identity, region identity and the like.

In specific implementation, the environment type may be set according to actual situations, such as a sensitive partition type and a specific partition type, and is not limited to the partition manner listed in this application.

Step S403: processing the data to be output according to a processing mode matched with the first environment type based on the fact that the surrounding environment belongs to the first environment type, and obtaining target output data;

the first electronic device is preset with a corresponding relation between the environment type and the processing mode.

Wherein, the processing mode may include: no processing, filtering of specific information, prompts, etc.

Specifically, based on the environment type, different processing modes are selected for specific information contained in the data to be output.

In specific implementation, the content included in the data to be output is analyzed, a mode of not processing is selected when the content does not include specific information corresponding to certain first environment types, and a mode of filtering the specific information or prompting is selected when the content includes specific information corresponding to certain first environment types.

Step S404: sending the complex data back to the second electronic device by unicast.

Step S404 is the same as step S203 in embodiment 1, and details are not described in this embodiment.

In summary, in the information processing method provided in this embodiment, the processing the to-be-output data includes: analyzing and determining an environment type to which the surrounding environment of the first electronic equipment belongs; and processing the data to be output according to a processing mode matched with the first environment type based on the fact that the surrounding environment belongs to the first environment type, so as to obtain target output data. In the scheme, different processing modes are selected according to the environment types of different environments where the first electronic device is located, the data to be output is processed and then output, so that the output data is matched with the environment, and the problem caused by outputting of untimely data is prevented.

As shown in fig. 5, a flowchart of embodiment 4 of the information processing method provided in the present application includes the following steps:

step S501: receiving broadcasted data to be output, wherein the broadcasted data to be output comes from a second electronic device serving as a calling device;

step S501 is the same as step S401 in embodiment 3, and details are not described in this embodiment.

Step S502: acquiring space environment information and/or character environment information of the first electronic equipment, wherein the character information comprises related information of characters in a space environment;

step S503: analyzing and determining the environment type of the surrounding environment based on the first electronic equipment space environment information and/or the character environment information;

the environment information of the first electronic device is analyzed, specifically at least one of the spatial environment information and the human environment information is analyzed.

In specific implementation, the environment type can be determined by selecting which one of the spatial environment information and the personal environment information or the combination of the spatial environment information and the personal environment information is adopted according to actual conditions.

Specifically, the obtaining of the spatial environment information of the first electronic device includes:

acquiring spatial position information of the first electronic equipment;

determining a key event of the spatial location where the first electronic device is located based on the spatial location information, wherein the key event is an event needing attention in the spatial location.

For example, the key event may be an event related to a particular action, person, time, and the like.

The spatial position information may be a fixed position of the first electronic device or a non-fixed position.

In a specific implementation, each network IP intercom may be fixedly disposed at a certain position in a room, such as a bedroom, a living room, a dining room, a kitchen, a toilet, or a courtyard. When the network IP interphone is set at the fixed position, the set position may be added to the parameters of the network IP interphone.

In specific implementation, each network IP interphone may also be not fixed in position, for example, when a user carries with him or her and the position of the network IP interphone changes, the position of the network IP interphone also changes. The network IP interphone may be provided with a Positioning System, such as a GPS (Global Positioning System), a beidou System, a Galileo (Galileo), and the like, and the position of the IP interphone is obtained according to the Positioning of the Positioning System.

Specifically, when the spatial environment of the first electronic device changes, the type of the environment is determined by considering the spatial environment information analysis, and when the human beings around the first electronic device change, the type of the environment is determined by considering the human environment information analysis; the environment type is determined in combination with the analysis of the spatial environment information and the human environment information for more accurate analysis.

In specific implementation, the specific process of analyzing the personal environment information includes: the method comprises the steps of carrying out image analysis through a camera arranged in a family, and determining whether a specific person exists or not or whether a person is doing specific actions/things in a voiceprint ratio equivalent mode.

As an example, the first electronic device is a network IP interphone fixedly installed at a certain position, and the first electronic device can perform analysis and judgment only by using the personal environment information.

For example, three network IP interphones are installed in three rooms of a certain home, a network IP interphone a is installed in a living room, a network IP interphone B is installed in a child room, and a network IP interphone C is installed in a parent room. When a mother uses the network IP interphone A in the living room to send a voice broadcast to the network IP interphone BC to broadcast 'the fruit bar in the living room', the network IP interphone B arranged in the child room analyzes the character environment of the room to determine that the child is doing homework in the room at present, and the homework is a preset specific action, then the network IP interphone B filters the voice.

For example, three network IP interphones are installed in three rooms of a certain home, a network IP interphone a is installed in a living room, a network IP interphone B is installed in a child room, and a network IP interphone C is installed in a parent room. When a mother uses a network IP interphone A in a living room to initiate voice broadcasting to a network IP interphone BC, the network IP interphone B arranged in a child room analyzes the character environment of the room, it is determined that the child in the room has other people except the family, and the voice broadcasting is analyzed to determine that information related to privacy exists, a prompt message is generated, and the network IP interphone B plays the voice broadcasting based on the prompt message: you have a message to press the "broadcast" key to play.

As an example, the spatial location of the first electronic device may change, and if the user uses the first electronic device during a moving process, the user needs to perform analysis and judgment in combination with the spatial environment information of the first electronic device.

Specifically, the determining the key event of the spatial location based on the spatial location information includes:

analyzing and obtaining landmark information corresponding to the spatial position information based on the spatial position information;

and acquiring the landmark information corresponding to the key event.

Wherein the key events are related to landmarks involved in spatial location.

Specifically, the longitude and latitude of the spatial position of the first electronic device are determined based on the positioning system, corresponding landmark information is determined based on the longitude and latitude, a corresponding key event is searched based on the landmark information,

for example, after determining the longitude and latitude of the spatial location of the first electronic device based on the positioning system, it is determined that the landmark information corresponding to the longitude and latitude is an islamic church, and key events corresponding to the islamic church, such as notes about entering the islamic church, are searched.

For example, three people travel to a place, and carry the Internet Protocol (IP) interphone DEF to communicate with each other. The positioning system based on the network IP interphone can position in real time. The first user uses the network IP interphone D to send broadcast information, the called device E determines that the landmark information corresponding to the longitude and the latitude is an Islamic church based on the longitude and the latitude where the called device E is located, and key events corresponding to the Islamic church are searched, such as notes entering the Islamic church and the like. After the broadcast information is received, analyzing the broadcast information based on the key event, determining that a word is not suitable for being played in the Islamic church, generating a prompt message by the network IP interphone E, and playing by the network IP interphone B based on the prompt message: you have a message to notice that you are in the Islamic church area and please play it as appropriate.

Step S504: processing the data to be output according to a processing mode matched with the first environment type based on the fact that the surrounding environment belongs to the first environment type, and obtaining target output data;

step S505: sending the complex data back to the second electronic device via unicast.

Steps S504 to 505 are the same as steps S403 to 404 in embodiment 3, and are not described in detail in this embodiment.

In summary, in the information processing method provided in this embodiment, the analyzing and determining the environment type to which the surrounding environment belongs includes: acquiring space environment information and/or character environment information of the first electronic equipment, wherein the character information comprises related information of characters in a space environment; and analyzing and determining the environment type of the surrounding environment based on the first electronic equipment space environment information and/or character environment information. According to the scheme, the environment type of the surrounding environment of the first electronic device is determined based on the space environment information and/or the character environment information of the first electronic device, so that different processing modes are selected based on the environment type to process the data to be output, the output data is matched with the environment, and the problem caused by the fact that the data is not output timely is prevented.

Corresponding to the embodiment of the information processing method provided by the application, the application also provides a corresponding embodiment of an information processing device.

Fig. 6 is a schematic structural diagram of an embodiment of an information processing apparatus provided by the present application, where the information processing apparatus includes the following structures: a receiving module 601, a processing module 602 and a sending module 603;

the receiving module is used for receiving broadcasted data to be output, and the broadcasted data to be output comes from a second electronic device serving as calling equipment;

the processing module is used for processing the data to be output and outputting the processed data to be output;

and the sending module is used for sending the complex data back to the second electronic equipment through unicast.

Wherein, the receiving module and the sending module can be realized by the receiving function and the sending function of the communication unit in the electronic equipment.

The processing module may be a structure having an information processing function in the electronic device, such as a Central Processing Unit (CPU).

Preferably, the processing module is specifically configured to analyze and determine an environment type to which an environment around the first electronic device belongs; and processing the data to be output according to a processing mode matched with the first environment type based on the fact that the surrounding environment belongs to the first environment type, so as to obtain target output data.

Preferably, the processing module includes:

and the analysis unit is used for analyzing the data to be output and extracting a sending address carried by the data to be output, wherein the sending address is the address of the second electronic equipment.

Preferably, the sending module includes:

the receiving unit is used for receiving a reply instruction, and the reply instruction is generated based on the operation of triggering reply by a user;

an acquisition unit configured to acquire reply data;

and the sending unit is used for sending the reply data to the second electronic equipment based on the sending address.

Preferably, the processing module includes:

the analysis unit is used for analyzing and determining the environment type to which the surrounding environment of the first electronic equipment belongs;

and the processing unit is used for processing the data to be output according to a processing mode matched with the first environment type based on the fact that the surrounding environment belongs to the first environment type, so as to obtain target output data.

Preferably, the analysis unit is specifically configured to:

acquiring space environment information and/or character environment information of the first electronic equipment, wherein the character information comprises related information of characters in a space environment;

and analyzing and determining the environment type of the surrounding environment based on the first electronic equipment space environment information and/or the character environment information.

Preferably, the analysis unit is specifically configured to: acquiring the first electronic device space environment information, including:

acquiring spatial position information of the first electronic equipment;

determining a key event of the spatial location where the first electronic device is located based on the spatial location information, wherein the key event is an event needing attention in the spatial location.

Preferably, the analysis unit is specifically configured to: analyzing to obtain landmark information corresponding to the spatial position information based on the spatial position information;

and acquiring the landmark information corresponding to the key event.

In summary, the present embodiment provides an information processing apparatus, which is applied to a first electronic device, and the first electronic device serves as a receiving device, and includes: the receiving module is used for receiving broadcasted data to be output, and the broadcasted data to be output comes from a second electronic device serving as calling equipment; the processing module is used for processing the data to be output and outputting the processed data to be output; and the sending module is used for sending the complex data to the second electronic equipment through unicast. In the scheme, after the data to be output transmitted by the calling party in a broadcasting mode is received, the data to be output is processed and output, the reply data is only sent to the second electronic device in a unicast mode and is not sent to other IP interphones, the situation that the other IP interphones receive the reply data is avoided, and the safety of the reply data sent to the second electronic device by the first electronic device is improved on the premise that the invalid voice received by the other IP interphones is reduced.

Corresponding to the embodiments of the information processing method and the information processing device provided by the application, the application also provides an embodiment of electronic equipment using the information processing method.

Fig. 7 is a schematic structural diagram of an embodiment of an electronic device provided in the present application, where the electronic device serves as a first electronic device, and the electronic device includes the following structures: a communication unit 701, a processor 702, an output unit 703 and an acquisition unit 704;

the communication unit is used for receiving broadcasted data to be output, and the broadcasted data to be output comes from a second electronic device serving as calling equipment;

the processor is used for processing the data to be output;

the output unit is used for outputting the processed data to be output;

the output unit may be a display screen, a speaker, or the like capable of outputting data.

The acquisition unit is used for acquiring reply data;

the communication unit is further configured to send the complex data back to the second electronic device by unicast.

The structural functions of the above-mentioned components refer to the explanations of the embodiments of the above-mentioned information processing method and apparatus, and are not described in detail in this embodiment.

To sum up, the embodiment provides an electronic device, including: the device comprises a communication unit, a collection unit and a processor; the communication unit is used for receiving broadcasted data to be output, and the broadcasted data to be output comes from a second electronic device serving as calling equipment; the processor is used for processing the data to be output and outputting the processed data to be output; the acquisition unit is used for acquiring reply data; the communication unit is further configured to send back a complex data to the second electronic device by unicast. According to the scheme, after the data to be output transmitted by the caller in a broadcasting mode is received, the data to be output is processed and output, the reply data is only sent to the second electronic device in a unicast mode and is not sent to other IP interphones, the reply data is prevented from being received by the other IP interphones, and the safety of the reply data sent to the second electronic device by the first electronic device is improved on the premise that the invalid voice received by the other IP interphones is reduced.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. For the device provided by the embodiment, the description is relatively simple because the device corresponds to the method provided by the embodiment, and the relevant points can be referred to the method part for description.

The previous description of the provided embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features provided herein.

Claims (8)

1. An information processing method applied to a first electronic device includes:

receiving broadcasted data to be output, wherein the broadcasted data to be output comes from a second electronic device serving as calling equipment, and the first electronic device and the second electronic device belong to the same local area network and are internet protocol address (IP) interphones;

processing the data to be output, and outputting the processed data to be output;

sending the complex data to the second electronic equipment through unicast based on the sending address carried in the data to be output; the sending address is the address of the second electronic equipment;

wherein the processing the data to be output includes:

analyzing and determining an environment type to which the surrounding environment of the first electronic equipment belongs;

and processing the data to be output according to a processing mode matched with the first environment type based on the fact that the surrounding environment belongs to the first environment type, so as to obtain target output data.

2. The method of claim 1, the processing the data to be output, comprising:

and analyzing the data to be output, and extracting a sending address carried by the data to be output.

3. The method of claim 2, the sending the complex data back to the second electronic device via unicast, comprising:

receiving a reply instruction, wherein the reply instruction is generated based on the operation of triggering reply by a user;

acquiring reply data;

and sending the reply data to the second electronic equipment based on the sending address.

4. The method of claim 1, the analyzing determining an environment type to which the ambient environment belongs, comprising:

acquiring space environment information and/or character environment information of the first electronic equipment, wherein the character information comprises related information of characters in a space environment;

and analyzing and determining the environment type of the surrounding environment based on the first electronic equipment space environment information and/or character environment information.

5. The method of claim 4, obtaining the first electronic device spatial environment information, comprising:

acquiring spatial position information of the first electronic equipment;

determining a key event of the spatial position where the first electronic device is located based on the spatial position information, wherein the key event is an event needing attention in the spatial position.

6. The method of claim 5, the determining the key event of the spatial location based on the spatial location information, comprising:

analyzing to obtain landmark information corresponding to the spatial position information based on the spatial position information;

and acquiring the landmark information corresponding to the key event.

7. An information processing apparatus, which is applied to a first electronic device, comprising:

the receiving module is used for receiving broadcasted data to be output, the broadcasted data to be output comes from second electronic equipment serving as calling equipment, and the first electronic equipment and the second electronic equipment belong to the same local area network IP interphone;

the processing module is used for processing the data to be output and outputting the processed data to be output;

the sending module is used for sending the complex data to the second electronic equipment through unicast based on the sending address carried in the data to be output; the sending address is the address of the second electronic equipment;

the processing module is specifically configured to analyze and determine an environment type to which an ambient environment of the first electronic device belongs; and processing the data to be output according to a processing mode matched with the first environment type based on the fact that the surrounding environment belongs to the first environment type, so as to obtain target output data.

8. An electronic device, as a first electronic device, comprising: the system comprises a communication unit, a processor, an output unit and a collection unit, wherein the first electronic equipment and the second electronic equipment are network IP interphones belonging to the same local area network;

the communication unit is used for receiving the broadcasted data to be output, and the broadcasted data to be output comes from the second electronic equipment as calling equipment;

the processor is used for processing the data to be output;

the output unit is used for outputting the processed data to be output;

the acquisition unit is used for acquiring reply data;

the communication unit is further configured to send back complex data to the second electronic device through unicast based on the sending address carried in the data to be output; the sending address is the address of the second electronic equipment;

wherein the processor is configured to analyze and determine an environment type to which an environment around the first electronic device belongs; and processing the data to be output according to a processing mode matched with the first environment type based on the fact that the surrounding environment belongs to the first environment type, so as to obtain target output data.

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