CN109286862B

CN109286862B - Information processing method and device, electronic device and storage medium

Info

Publication number: CN109286862B
Application number: CN201810859002.4A
Authority: CN
Inventors: 王滨宇
Original assignee: China Mobile Communications Group Co Ltd; MIGU Music Co Ltd; MIGU Culture Technology Co Ltd
Current assignee: China Mobile Communications Group Co Ltd; MIGU Music Co Ltd; MIGU Culture Technology Co Ltd
Priority date: 2018-07-31
Filing date: 2018-07-31
Publication date: 2022-02-18
Anticipated expiration: 2038-07-31
Also published as: CN109286862A

Abstract

The embodiment of the invention discloses an information processing method and device, electronic equipment and a storage medium. The information processing method applied to the first electronic equipment comprises the following steps: acquiring position information and equipment identification information of at least one second electronic equipment in a preset space; determining a control parameter corresponding to the at least one second electronic device according to the position information and an effect requirement to be presented by the at least one second electronic device; and sending the corresponding control parameter to the at least one second electronic device according to the device identification information.

Description

Information processing method and device, electronic device and storage medium

Technical Field

The present invention relates to the field of information technologies, and in particular, to an information processing method and apparatus, an electronic device, and a storage medium.

Background

With the rapid development of the cultural industry, the film, television and performance industry is increasingly popular with the masses as the core of the cultural industry. Meanwhile, in order to bring better experience to users, the related multimedia technology also becomes the focus of the technical development of the industry.

In the performance industry (such as a concert, a evening, etc.), the performance industry mainly focuses on the scene, so that the requirements on the music and/or the lighting effect of the scene are higher. At present, in order to bring better hearing experience to users in an art performance field, equipment supporting high-demand effects is generally required to be developed, so that on one hand, the research and development difficulty is high, and on the other hand, the hardware cost is high when the equipment is purchased.

Disclosure of Invention

In view of the above, embodiments of the present invention are intended to provide an information processing method and apparatus, an electronic device, and a storage medium.

The technical scheme of the invention is realized as follows:

an information processing method is applied to a first electronic device and comprises the following steps:

acquiring position information and equipment identification information of at least one second electronic equipment in a preset space;

determining a control parameter corresponding to the at least one second electronic device according to the position information and an effect requirement to be presented by the at least one second electronic device;

and sending the corresponding control parameter to the at least one second electronic device according to the device identification information.

Based on the above scheme, the method further comprises:

and generating a control chart based on the position information and the equipment identification information.

Based on the above scheme, the determining a control parameter corresponding to the at least one second electronic device according to the location information and the effect requirement to be presented by the at least one second electronic device includes:

and determining the control parameter corresponding to the at least one second electronic device according to the control instruction corresponding to the control chart, the position parameter and the effect requirement required to be presented by the at least one second electronic device.

Based on the above scheme, the method further comprises:

sending the control chart to a third electronic device;

receiving a control instruction generated by the third electronic device based on an operation acting on the control chart;

and sending control parameters to the second electronic equipment based on the control instruction.

and respectively determining a first control parameter and a second control parameter for the second electronic equipment in different areas according to the position information and the combined effect requirements presented by the plurality of second electronic equipment in different areas.

Based on the above scheme, the determining, according to the location information and the combined effect requirement exhibited by the plurality of second electronic devices in different areas, a first control parameter and a second control parameter for the second electronic devices in different areas respectively includes:

determining the first control parameter according to the combined effect requirement, wherein the first control parameter is used for controlling at least one second electronic device located in a first area;

determining the relative positions of the first area and the second area according to the position information;

and determining a second control parameter according to the combined effect requirement, the relative position and the first control parameter, wherein the second control parameter is used for controlling at least one second electronic device located in the second area.

Based on the above scheme, the determining a second control parameter according to the combined effect requirement, the relative position, and the first control parameter includes at least one of:

transforming the first control parameter to obtain the second control parameter according to the relative position, the combined effect requirement and a first control strategy; the first control strategy is a weakening strategy, and the strength of the preset effect triggered by the second control parameter is smaller than that triggered by the first control parameter;

transforming the first control parameter to obtain a second control parameter according to the relative position, the combined effect requirement and a second control strategy; the second control strategy is an enhancement strategy, and the strength of the preset effect triggered by the second control parameter is greater than that triggered by the first control parameter.

and determining a control parameter corresponding to the at least one second electronic device according to the position information, the effect mode and the effect requirement to be presented by the at least one second electronic device.

Based on the above scheme, the effect mode includes:

a sound effect mode;

a light effect mode;

and simultaneously comprises a mixed effect mode of sound effect and light effect.

Based on the scheme, if the current effect mode is the sound effect mode, the control parameter is a sound effect control parameter; the sound effect control parameters include at least one of:

sound effect of pronunciation;

sound volume;

pronunciation time sequence;

and/or the presence of a gas in the gas,

if the current effect mode is the light effect mode, the control parameter is a light effect control parameter; the light effect control parameter comprises at least one of:

luminous efficacy;

the brightness of the emitted light;

a light emission timing sequence;

and/or the presence of a gas in the gas,

if the current effect mode is the mixed effect mode, the control parameter is a mixed control parameter; the mixing control parameter comprises at least one of:

sound effect of pronunciation;

sound volume;

pronunciation time sequence;

luminous efficacy;

the brightness of the emitted light;

and (4) light emitting time sequence.

An information processing method applied to a second electronic device includes:

acquiring position information;

reporting the position information and the equipment identification information of the second electronic equipment to the first electronic equipment;

receiving a control parameter sent by the first electronic equipment;

and presenting a preset effect according to the control parameter.

Based on the scheme, the position information and the equipment identification information are used for the first electronic equipment to generate a control chart;

the receiving of the control parameter sent by the first electronic device includes:

receiving the control parameters sent by the first electronic device based on the control instructions of the control chart.

Based on the above scheme, the acquiring of the location information includes at least one of:

scanning preset identification information to obtain the position information corresponding to the preset identification information, wherein the preset identification information comprises: two-dimensional codes and/or one-dimensional codes;

receiving the position information input by a user from a human-computer interaction interface;

receiving the location information from a fourth electronic device.

Based on the scheme, the presenting the predetermined effect according to the control parameter comprises at least one of the following steps:

presenting a preset sound effect according to the sound effect control parameter corresponding to the sound effect mode;

presenting a preset light effect according to the light effect control parameter corresponding to the light effect mode;

and presenting the preset sound effect and the preset light effect according to the mixing control parameter corresponding to the mixing effect mode simultaneously containing the sound effect and the light effect.

An information processing method applied to a third electronic device, the method comprising:

detecting a first operation acting on a control map or a position map for presenting position information within a preset space;

determining effect position information of an effect requirement required to be presented by at least one second electronic device in a preset space according to the first operation, and generating a control instruction comprising the effect position information;

and sending the control instruction to a first electronic device for controlling the at least one second electronic device.

Based on the above scheme, the determining, according to the first operation, the effect location information of the effect requirement to be presented by the at least one second electronic device in the preset space includes:

determining a vector or an array comprising at least two pieces of position information according to the sequence of different pieces of position information acted on the control chart or the position chart by the first operation, wherein the sequence of the position information in the vector or the array corresponds to the sequence; and the sequencing is used for determining the time sequence of the presentation effect of the at least two second electronic devices corresponding to the at least two pieces of position information.

Based on the above scheme, the control instruction further includes effect indication information.

Based on the above scheme, the effect indication information includes at least one of the following:

a mode identifier of an effect mode requiring at least one second electronic device to present effects;

at least one effect identifier of the second electronic equipment is required to present effects;

at least one effect control parameter for the second electronic device to present an effect.

Based on the above scheme, the method further comprises:

determining the effect mode according to a second operation before generating the control instruction;

and/or the presence of a gas in the gas,

before the control instruction is generated, determining the effect to be presented according to a third operation;

and/or the presence of a gas in the gas,

and before the control instruction is generated, determining the control strategy used by the effect control parameter generation according to the effect to be presented.

Based on the above scheme, the determining of the effect control parameter includes:

and generating the effect control parameter according to the operation parameter of the first operation and the effect to be presented.

Based on the above scheme, the generating the effect control parameter according to the operation parameter of the first operation and the effect to be presented includes at least one of:

determining a time sequence parameter of a presentation effect of the second electronic equipment according to the sequence of the position coordinates of the screen acted by the first operation, wherein the time sequence parameter comprises: a lighting timing and/or a sound emission timing;

determining an intensity parameter of the second electronic device presenting effect according to the pressure parameter of the first operation acting on the screen coordinate position, wherein the intensity parameter comprises: the brightness of emitted light and/or the volume of emitted sound.

Based on the scheme, the position information comprises the seat area of the control map or the position map and/or the identification information of the second electronic device corresponding to the seat area.

An information processing apparatus applied to a first electronic device, comprising:

the first acquisition module is used for acquiring the position information and the equipment identification information of at least one second electronic equipment in a preset space;

the determining module is used for determining a control parameter corresponding to the at least one second electronic device according to the position information and an effect requirement to be presented by the at least one second electronic device;

and the first sending module is used for sending the corresponding control parameters to the at least one second electronic device according to the device identification information.

An information processing apparatus applied to a second electronic device, comprising:

the second acquisition module is used for acquiring the position information;

the second sending module is used for reporting the position information and the equipment identification information of the second electronic equipment to the first electronic equipment;

the second receiving module is used for receiving the control parameters sent by the first electronic equipment;

and the presentation module is used for presenting a preset effect according to the control parameter.

An information processing apparatus applied to a third electronic device, comprising:

the first detection module is used for detecting a first operation acting on a control map or a position map, and the position map or the control map is used for presenting position information in a preset space;

the determining and generating module is used for determining effect position information of an effect demand required to be presented by at least one second electronic device in a preset space according to the first operation and generating a control instruction comprising the effect position information;

and the third sending module is used for sending the control instruction to the first electronic equipment for controlling the at least one second electronic equipment.

An electronic device, comprising: memory, one or more processors, and executable programs stored on the memory and executable by the one or more processors,

the one or more processors, when running the executable program, perform an information processing method as provided in any of the preceding aspects.

A computer readable storage medium having an executable program stored thereon, wherein the executable program comprises instructions, and wherein the one or more processors execute the executable program to perform the information processing method as provided by any one of the preceding aspects.

In the information processing method and apparatus, the electronic device, and the storage medium according to embodiments of the present invention, the first electronic device receives the location information and the device identification information of the second electronic device, generates the control map based on the correspondence between the location information and the device identification information pointing to the same second electronic device, and controls the second electronic device to present the predetermined effect based on the operation instruction corresponding to the control map. Therefore, the first electronic equipment can control the combination of the plurality of second electronic equipment to present the required effect through the control chart, the equipment capability of single equipment does not need to be improved, and the difficulty of effect presentation is reduced; and meanwhile, one or more second electronic devices are utilized to display the effect, so that the resources of the second electronic devices are fully utilized, and the effect display is realized simply and conveniently at low cost.

Drawings

Fig. 1 is a schematic flowchart of a first information processing method according to an embodiment of the present invention;

FIG. 2A is a schematic illustration of a position diagram provided in accordance with an embodiment of the present invention;

FIG. 2B is a diagram illustrating a control chart according to an embodiment of the present invention;

FIG. 3 is a flowchart illustrating a second information processing method according to an embodiment of the present invention;

FIG. 4 is a flowchart illustrating a third information processing method according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a selection interface of an effect mode according to an embodiment of the present invention;

FIG. 6 is a flowchart illustrating a fourth information processing method according to an embodiment of the present invention;

fig. 7 is a flowchart illustrating a fifth information processing method according to an embodiment of the present invention;

FIG. 8 is a diagram illustrating a first information processing apparatus according to an embodiment of the present invention;

FIG. 9 is a diagram illustrating a second information processing apparatus according to an embodiment of the present invention;

FIG. 10 is a diagram illustrating a third information processing apparatus according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram of an equipment system according to an embodiment of the present invention;

FIG. 12 is a diagram illustrating effects applied to a control chart according to an embodiment of the present invention;

fig. 13 is a schematic structural diagram of an electronic device according to an embodiment of the present invention.

Detailed Description

The technical solution of the present invention is further described in detail with reference to the drawings and the specific embodiments of the specification.

As shown in fig. 1, an embodiment of the present invention provides an information processing method applied to a first electronic device, including:

step S110: acquiring position information and equipment identification information of at least one second electronic equipment in a preset space;

step S120: determining a control parameter corresponding to the at least one second electronic device according to the position information and an effect requirement to be presented by the at least one second electronic device;

step S130: and sending the corresponding control parameter to the at least one second electronic device according to the device identification information.

The first electronic device provided by the embodiment may be various types of electronic devices, for example, various types of servers, and the server may include: the multimedia server provides multimedia service, which can comprise audio server and video server. For another example, the first electronic device may also be a gateway device for the second electronic device to access.

The second electronic device may be a device carried by a user, for example, an electronic device carried by a spectator at a stadium or concert venue, and may include: wearable devices such as a mobile phone, a shielded computer, and a smart band that a user carries are examples of the second electronic device but not limited to the device.

In step S110, the second electronic device reports its own location information and device identification information to the first electronic device. The position information may be information obtained by positioning the second electronic device through a positioning module, position information input by a user and received through a human-computer interaction interface, or position information obtained by interacting the second electronic device with other electronic devices.

The location information is used to indicate a location where the first electronic device is specifically located, and specific content of the location information may include: the position coordinates, the seat number, the serial number, and the like may indicate information of a spatial position where the first electronic device is located.

In some embodiments, the device identification information may be various indication information capable of indicating the first electronic device, for example, various identification information such as a Mobile phone number of the second electronic device, an International Mobile Equipment Identity (IMEI) of the second electronic device, and the like.

In other embodiments, the device identification information may also be temporary identification information that is allocated to the corresponding second electronic device by the first electronic device after the second electronic device establishes a connection with the first electronic device, and in short, the device identification information herein may be various information capable of identifying the second electronic device.

Thus, the first electronic device may receive the location information and the device identifier information reported by the second electronic device. The location information and the device identification information may be reported by the second electronic device at one time to reduce signaling interaction with the first electronic device, and the location information and the device identification information may also be reported separately. In short, the step S110 can be implemented in many ways, and is not limited to any one of the above.

In this embodiment, the number of the second electronic devices is multiple. The second electronic device may be a second electronic device located in a predetermined space, for example, an electronic device located in a studio, or an electronic device located in a gym.

The preset space may be: defining a certain space range of a geographic boundary or a space range formed based on buildings; or a spatial range formed by covering based on a certain communication device as a center. The building may be a variety of venues, such as a stadium, a studio, a museum or a casino, etc. The communication device may be: a base station, etc.

After receiving the position information and the device identification information, the first electronic device determines a control parameter corresponding to at least one second electronic device according to the position information and the effect requirement.

The effect requirement may be automatically determined by the first electronic device or determined by the first electronic device based on user input. For example, the first electronic device receives an effect identification determination of the presented effect.

The effect requirements here may be: the requirement parameters of the at least one electronic device for the desired rendering effect are required, for example, the effect requirement can be used to define the required rendering effect such as lighting pattern, sound effect, and the like. The effect demand is not limited to the demand parameter, and may be information such as a demand policy for determining a desired presentation effect in advance.

The control parameter may be information for directly controlling presentation of an effect by the second electronic device.

For example, the control parameters may be one or more lighting control parameters for lighting of the second electronic device, and/or one or more articulation control parameters for articulation of the electronic device.

In step S130, after the first electronic device sends the control parameter to the corresponding second electronic device, one or more of the second electronic devices may present a preset effect; for example, controlling a single second electronic device to present a single device effect; or the control parameters are sent to a plurality of second electronic devices, the plurality of second electronic devices respectively present corresponding effects, and one combined effect after the effects presented by the plurality of electronic devices are combined is obtained.

Therefore, the first electronic equipment can utilize one or more second electronic equipment to present the required effect, the effect requirement is met, special effect presenting equipment does not need to be set, the effective use of the second electronic equipment is improved, and the hardware cost and/or the software cost required by purchasing the special equipment are reduced.

In some embodiments, the method further comprises: after receiving the location information and the device identification information, generating a control chart according to a correspondence between the location information and the device identification information, where the correspondence includes: the location information and the device identification information point to the same second electronic device.

Fig. 2A shows an example of a position map, and the position map shown in fig. 2A includes position information (1, 1), (1, 2), which may be composed of two coordinate values of a horizontal coordinate and a vertical coordinate. In some embodiments, the position information may also be a single sequence number that is sorted from front to back and from left to right. Fig. 2A may be a position diagram corresponding to a performance scene, so the position of the stage is also shown in fig. 2A to facilitate subsequent control personnel to distinguish the control orientation.

Fig. 2B shows an example of a control chart, and the control chart shown in fig. 2B contains position information (1 st row, No. 1, cellular phone 1), which may be composed of two coordinate values of a horizontal row coordinate and a vertical row coordinate. In some embodiments, the position information may also be a single sequence number that is sorted from front to back and from left to right. Corresponding second electronic devices, e.g. cell phone 1, cell phone 2, are also shown in the control diagram. The control chart shown in fig. 2B is a performance scene control chart corresponding to a performance scene, and therefore, the position of the stage is also shown in fig. 2B to facilitate the subsequent control personnel to distinguish the control direction.

In some embodiments, the control map can reflect the correspondence. For example, an image area is assigned to each of the second electronic devices on the control chart, the image area corresponding to the position information, and thus, if a user instruction acting on the image area is detected, the user instruction may be considered to act on the second electronic device corresponding to the position information. Of course, this is merely an example and specific implementations may be limited thereto.

In step S130, based on the control instruction corresponding to the control chart, a control parameter is sent to the second electronic device, and the control parameter causes the second electronic device to present a predetermined effect, where the effect may include: one or more of sound effects, light effects, vibration effects, and the like.

The control command may be directly applied to the control map, or may be applied to a position map mapped to the control map. The location map may only record seating information or audience seating information within the gym, but does not correspond the image area of the location map to the device identification information of the second electronic device.

In this embodiment, the first electronic device generates a control map in combination with the location information and the device identification information of the second electronic device, and controls the second electronic device to execute a predetermined effect according to a control instruction corresponding to the control map, thereby controlling a plurality of second electronic devices to cooperatively present an overall predetermined effect.

Due to the generation of the control diagram, the first electronic equipment or a user of the first electronic equipment or the control equipment of the first electronic equipment can be conveniently controlled to display the preset effect by one or more second electronic equipment in the preset space based on the control diagram, and a certain second electronic equipment does not need to be specially selected for single control, so that the control is simplified; meanwhile, the second electronic equipment is fully utilized to present the preset effect, expensive special equipment is not needed to be purchased, and the method has the characteristics of low cost and good effect.

In some embodiments, the step S130 may include: and determining a control parameter corresponding to the at least one second electronic device according to the control instruction corresponding to the control chart, the position information and the effect requirement required to be presented by the at least one second electronic device.

The control instruction may be a control instruction generated by an operation acting on the control chart detected by the first electronic device itself; the first electronic device may also receive a control instruction from another device, for example, a control instruction received from a third electronic device.

For example, in some embodiments, as shown in fig. 3, the step S130 may include:

step S131: sending the control chart to a third electronic device;

step S132: receiving a control instruction generated by the third electronic device based on an operation acting on the control chart;

step S133: and sending control parameters to the second electronic equipment based on the control instruction.

In this embodiment, the third electronic device may be a control device of the first electronic device, and the third electronic device may establish a direct connection with the first electronic device, or establish a remote connection with the third electronic device. In some further embodiments, the third electronic device may be a cloud device.

Specifically, the third electronic device may be a mobile control device carried by a control person, for example, a handheld control phone or a control tablet computer. In some embodiments, the first electronic device may be a fixed device that is relatively fixedly disposed, and the third electronic device may be a mobile device, which facilitates easy control of the presentation of the predetermined effect by a control person.

As such, the control instruction is detected by the third electronic device, and the control instruction is generated directly based on the operation of the control map.

The operation can be various operations received by the human-computer interaction interface, for example, a sliding operation corresponding to the control chart is detected; detecting a click operation corresponding to the control chart; detecting a voice operation corresponding to the control chart; detecting an eye operation corresponding to the control chart, and the like. The line of sight operation may include: pupil movement operations collected by a pupil positioning technology, eye movement operations detected by an eye tracker, and the like.

In some embodiments, the third electronic device receives the control map, so the operation may directly act on the control map, in other embodiments, the third electronic device may receive a location map or a location map with a preset space (e.g., a studio, a concert venue, a stadium) stored in advance, the operation may act on the location map, and the third electronic device provides the control instruction to the first electronic device based on the location map; and the first electronic equipment generates the control parameter based on the mapping relation between the position map and the control instruction.

The sliding operation and the clicking operation can be various gesture operations acting on the touch screen.

In some embodiments, the step S130 may include:

The combined effect requirement here may be: a demand parameter requiring an effect that at least two second electronic devices collectively present; can be distinguished from a single demand parameter requiring only a single effect exhibited by a single second electronic device. In some embodiments, as shown in fig. 4, the step S130 may include:

step S1331: determining the first control parameter according to the combined effect requirement, wherein the first control parameter is used for controlling at least one second electronic device located in a first area;

step S1332: determining the relative positions of the first area and the second area according to the position information;

step S1333: determining a second control parameter according to the combined effect requirement, the relative position and the first control parameter, wherein the second control parameter is used for controlling at least one second electronic device located in the second area;

step S1334: sending the first control parameter to at least one second electronic device located in a first area; and transmitting the second control parameter to at least one second electronic device located in a second area.

The first region may be different from the second region, for example, the second region may be all or a part of the region outside the first region within the preset spatial range.

The first area indicated by the control instruction may be: the area corresponding to the position information carried in the control instruction; or, an area surrounded by the position information carried in the control command.

In the present embodiment, the control instruction indicates the first area. The second region outside the first region may be included in addition to the first region within a preset space. The second region and the first region may both be sub-regions of the preset space. The second region may be an adjacent region of the first region, or may be a non-adjacent region of the first region. The position relationship between the second area and the first area can be determined according to the preset effect which needs to be presented currently.

In this embodiment, the control parameters corresponding to the first area and the second area are different, and the first area corresponds to the first control parameter, that is, the second electronic device located in the first area may present a desired effect according to the first control parameter; and the second electronic equipment in the second area presents the required effect according to the second control parameter. The plurality of second electronic devices within the first area and the second area may combine to exhibit the desired effect.

Alternatively, the first and second control parameters may be different.

For example, the first control parameter and the second control parameter are different including, but not limited to, the following;

the first control parameter and the second control parameter are of different types, for example, the first control parameter is for a light control parameter; the second control parameter is a sound effect control parameter;

the first control parameter and the second control parameter are the same type of control parameter, but the parameter values of the control parameters are different, for example, the first control parameter and the second control parameter are both light control effects, but the light brightness values, the light colors and/or the light on-off time sequences corresponding to the parameter values are different, and the like.

In this embodiment, the first control parameter and the second control parameter may be at least partially different.

The first control parameter and the second control parameter are general terms, and are not limited to a single parameter, and may be a combination of parameters of a plurality of parameters. The parameters may include: one or more of light parameters, sound effect parameters, vibration parameters, and the like.

In the embodiment of the present invention, the relative position may include: distance and/or direction.

In some embodiments, the generation of the second control parameter is related to the first control parameter and the distance, e.g., the magnitude of the parameter value of the second control parameter is positively or negatively related to the distance.

In other embodiments, the second control parameter is generated in a direction relative to the first control parameter, and the functional relationship of the transformation between the second control parameter and the first control parameter may be different.

In still other embodiments, the second control parameter is generated based on a transformation of the first control parameter, but the functional relationship of this transformation is determined by both the distance and the direction.

For example, if the first area only includes one second electronic device, and the second electronic device is taken as a center to control other second electronic devices to present light effects in different directions, the colors of the lights in different directions are different, and the brightness of the lights is higher the closer to the first area, then the second control parameter is not only determined by the distance but also determined by the direction.

In a first manner, the step S1334 may include:

transforming the first control parameter to obtain the second control parameter according to the relative position, the combined effect requirement and a first control strategy; the first control strategy is a weakening strategy, and the strength of the preset effect triggered by the second control parameter is smaller than that triggered by the first control parameter.

In a second manner, the step S1334 may include:

In this embodiment, the second control parameter is generated based on the first control parameter, i.e. the second control parameter is associated with the first control parameter and is not completely independent of the first control parameter.

In this embodiment, the generation of the second control parameter is determined by the first control parameter and the corresponding control strategy.

In this embodiment, the first control strategy is a gradual decrease strategy, and the second control strategy and the first control strategy may be opposite strategies. The first control strategy is a weakening strategy; the second control strategy is an enhancement strategy.

Thus, under the first control strategy, the effect generated by the triggering of the second control parameter is weaker than that generated by the triggering of the first control parameter, and under the second control strategy, the effect generated by the triggering of the second control parameter is stronger than that generated by the triggering of the first control parameter.

In some embodiments, the step S120 may include:

Different effect modes correspond to different presentation effects, and parameters for controlling the presentation of the effects are also different. For example, the effect modes include: a sound effect mode; a light effect mode; and simultaneously comprises a mixed effect mode of sound effect and light effect.

The above are merely examples of several effect modes, and in particular implementation, the effect mode is not limited to any one of the effect modes, for example, the effect mode may also control a vibration effect mode in which one or more second electronic devices vibrate.

FIG. 5 is a diagram of a selection interface for an effect mode. And displaying option audio control corresponding to the sound effect mode and option light effect control corresponding to the light effect mode in the interface.

In some embodiments, the effect modes include:

a sound effect mode;

a light effect mode;

The sound effect mode is that the first electronic equipment controls a plurality of electronic equipment in a preset space to synchronously present a preset sound effect based on a control chart, so that an expected combined sound effect is generated; for example, mobile phones carried by audiences at a concert scene are used as audio playing devices together to combine the audio playing devices into a required audio playing effect.

The lighting effect mode is that the first electronic equipment controls a plurality of electronic equipment in a preset space to synchronously present preset lighting effects based on a control chart, so that an expected combined lighting effect is generated; for example, mobile phones carried by audiences at a concert site are used as lighting equipment together to combine the lighting equipment into a required lighting effect. The required light effect is generated by controlling the brightness and/or color and the like of the screen of the mobile phone carried by the audience.

The mixed effect mode can control the sound effect and the light effect simultaneously, but is worthy of notice that the mixed control effect can control the sound effect and the light effect simultaneously, but does not show that the sound effect and the light effect need to be simultaneously at any moment. In the mix effect mode, only sound effects may be presented, and also only light effects may be presented, indicating that the mix effect mode provides a simultaneous mix effect mode of such light effects and sound effects.

In other embodiments, the mixed effect mode can be used to control not only sound and light effects, but also other effects, such as vibration effects of a cell phone.

In some embodiments, the control parameters include: and the parameter values are used for controlling the strength of the effect, the effect switching time sequence and other information. In still other embodiments, the control parameters may further include: content data, which is data providing the predetermined effect. For example, audio control effects, the parameter values may include: one or more of a volume parameter, a timbre parameter, a play timing parameter, a pitch parameter. The content data may include: audio content, which determines the content audio content currently played, such as currently played song, ring tone, etc.

In some implementations, if the current effect mode is an audio effect mode, the control parameter includes at least one of:

sound effect of pronunciation; the sound effects may include, but are not limited to: song playing, ring playing and audio special effect;

sound volume; the pronunciation volume indicates the occurring volume value, and the larger the volume value is, the more sound is sensed;

pronunciation time sequence; the pronunciation timing may include: the absolute time of pronunciation of the second electronic device and the order of pronunciation of each audio device can be used, and in any case, the pronunciation time sequence indicates the presentation time and/or order in the process of presenting the predetermined effect by the plurality of second electronic devices.

If the current effect mode is the light effect mode, the control parameter includes at least one of the following:

luminous efficacy; the luminous light effect can indicate parameters of various light effects such as patterns, luminous directions, luminous colors and the like presented by luminescence;

the brightness of the emitted light; the light emission luminance may include: light illuminance, etc.

And the light emitting time sequence can be used for indicating the absolute time of light emitting or the sequence of the plurality of second electronic devices to emit light cooperatively.

If the current effect mode is the mixed effect mode, the control parameter includes at least one of:

sound effect of pronunciation;

sound volume;

pronunciation time sequence;

luminous efficacy;

the brightness of the emitted light;

and (4) light emitting time sequence.

The control parameters can be referred to in the foregoing embodiments, and are not repeated here.

In some embodiments, the step S130 may include:

and sending the control parameters corresponding to the current effect mode to the corresponding second electronic equipment based on the control instruction corresponding to the control chart.

The presentation of the predetermined effect has different effect modes, the current control parameter being associated with the current effect mode. The first electronic device or the third electronic device is associated with the current effect mode when generating the control parameter. Therefore, the method provided by the embodiment of the invention allows the first electronic device and/or the third electronic device to select the corresponding effect mode for effect control according to the effect requirement required to be presented currently.

In the embodiment of the present invention, the method further includes:

and establishing connection with the second electronic equipment.

The establishing of the connection may comprise:

receiving an access request of second electronic equipment;

and responding to the access request, and establishing connection with the second electronic equipment.

In some embodiments, the second electronic device carries its own location information and device identification information in the access request. The first electronic device obtains the location information and the device identification information in the access request, so that the first electronic device does not need to additionally receive the location information and the device identification information. Through the establishment of the connection, the reliability of the connection between the first electronic device and the second electronic device can be ensured, and the presentation of the combination effect of a plurality of second electronic devices is conveniently ensured in the follow-up process.

In some further embodiments, when the first electronic device allows the second electronic device to access, the second electronic device may be authenticated based on the location information, and the second electronic device is allowed to access only if the location information of the second electronic device is located in the preset space. In some further embodiments, the second electronic device may compare the location information reported by the multiple second electronic devices, and if the location information reported by the multiple second electronic devices is consistent, a conflict processing policy is adopted to process the conflict, for example, a priority access processing policy is adopted to allow the first second electronic device reporting the same location information to access and deny the access of the second electronic device reporting the same location information subsequently. For another example, the re-reporting policy indicates that the second electronic device reporting the same location information re-submits the location information, so that the problem of collision caused by the fact that the location information submitted by some electronic devices is not correct can be avoided.

In some embodiments, in order to facilitate connection between the first electronic device and the second electronic device, the first electronic device may broadcast the connection parameters in the preset space directly or through other access devices, and if the second electronic device enters the preset space, the connection parameters may be received, so that connection with the first electronic device is automatically established. For example, a first electronic device or an access device of the first electronic device located in a preset space may broadcast a WiFi account and a password for WiFi, and trigger a second electronic device entering the preset space to automatically connect, so that connection establishment between the first electronic device and the second electronic device may be automatically completed. Or the first electronic equipment triggers the second electronic equipment to pop up the connection prompt through the broadcast message, and if the user only connects after seeing the connection prompt, the connection establishment of the first electronic equipment and the second electronic equipment can be simply and conveniently completed.

The preset space of the embodiment of the invention can be the scene of various shows or evenings.

As shown in fig. 6, the present embodiment provides an information processing method, which is applied to a second electronic device, and includes:

step S210: acquiring position information;

step S220: reporting the position information and the equipment identification information of the second electronic equipment to the first electronic equipment;

step S230: receiving a control parameter sent by the first electronic equipment;

step S240: and presenting a preset effect according to the control parameter.

In this embodiment, the second electronic device may be an electronic device carried by a user such as a viewer, and may be a controlled device of the first electronic device.

The second electronic device will automatically report its own location information and device identification information to the first electronic device. The related meanings of the location information and the device identification information are referred to in the foregoing embodiments and will not be repeated here.

In some embodiments, the location information and the device identification information are used for the first electronic device to generate a control map; the control parameter received in step S230 may be sent in the control based on the control map. For example, after the second electronic device reports the location information and the device identification information, the first electronic device may draw a control map, and then, based on a control instruction corresponding to the control map, the first electronic device may return a control parameter to the second electronic device, and the second electronic device may receive the control parameter and then control the effect presentation of itself based on the control parameter.

In some embodiments, the step S210 may include:

scanning preset identification information to obtain position information corresponding to the preset identification information, wherein the preset identification information comprises: two-dimensional codes and/or one-dimensional codes; for example, the predetermined space may be an external ticket, the audience may have a ticket after entering the predetermined area, and the ticket displays preset landmark information corresponding to various position information, such as a two-dimensional code or a barcode; the barcode is one of the one-dimensional codes, and thus, the first electronic device obtains the position information in a scanning manner.

The step S210 may include:

receiving the position information input by a user from a human-computer interaction interface; for example, the position information input by the user, such as the seat number input by the user, is received from the man-machine interaction interface through a touch screen or a keyboard or voice.

The step S210 may include:

receiving the location information from a fourth electronic device.

In some specific cases, a fourth electronic device is further disposed at a specific position of the preset space, for example, the fourth electronic device transmits position information to the second electronic device.

For example, a Near Field Communication tag (NFC) storing a seat number of the auditorium is attached to the auditorium, and the second electronic device such as a mobile phone can read the position information by approaching the fourth electronic device.

Of course, in some embodiments, in the case that the user purchases tickets on the network, when the user takes tickets on the automatic ticket taking machine, the ticket taking machine informs the second electronic device carried by the user of the corresponding location information according to the tickets taken by the user, and at this time, the fourth electronic device may be the ticket taking machine.

In some embodiments, the fourth electronic device may also be a check-in device, e.g., the check-in device automatically transmits location information of a seat where the user is about to sit to the second electronic device when the user checks in.

In still other embodiments, the user selects a seat when purchasing a ticket, such as a performance ticket; the second electronic device obtains the position information from the ticket purchasing system in advance, so that when the second electronic device performs information interaction with the first electronic device after arriving at the scene, the second electronic device directly reports the prestored position information to the first electronic device.

In some embodiments, the step S230 may include at least one of:

The presentation of the predetermined effects of the plurality of second electronic devices may be organically combined into one overall combined effect, which is an effect desired by the first electronic device or the control device of the first electronic device (corresponding to the aforementioned third electronic device).

As shown in fig. 7, the present embodiment provides an information processing method applied to a third electronic device, the method including:

step S310: detecting a first operation acting on a control map or a position map for presenting position information within a preset space;

step S320: determining effect position information of an effect requirement required to be presented by at least one second electronic device in a preset space according to the first operation, and generating a control instruction comprising the effect position information;

step S330: and sending the control instruction to a first electronic device for controlling the at least one second electronic device.

In this embodiment, the information processing method may be applied to a third electronic device, where the third electronic device may establish a connection with the first electronic device, and may be a direct control device of the first electronic device or an indirect control device of the second electronic device.

In some embodiments, the control instruction is configured to enable the first electronic device to send a control parameter to the second electronic device, where the control parameter is configured to enable the second electronic device to present a predetermined effect.

The determining, according to the first operation, the effect location information of the effect requirement required to be presented by the at least one second electronic device in the preset space in step S320 may include: determining a vector or an array comprising at least two pieces of position information according to the sequence of different pieces of position information acted on the control chart or the position chart by the first operation, wherein the sequence of the position information in the vector or the array corresponds to the sequence; and the sequencing is used for determining the time sequence of the presentation effect of the at least two second electronic devices corresponding to the at least two pieces of position information.

In some embodiments, the control instruction further comprises effect indication information.

The effect indication information includes at least one of: a mode identifier of an effect mode requiring at least one second electronic device to present effects; at least one effect identifier of the second electronic equipment is required to present effects; at least one effect control parameter for the second electronic device to present an effect.

The effect modes herein may include: a sound effect mode, a light effect mode, a mixing effect mode or a vibration effect mode.

In some embodiments, prior to generating the control instruction, determining the effect mode according to a second operation; and/or determining the effect to be presented according to a third operation before the control instruction is generated; and/or the presence of a gas in the gas,

The second operation and the third operation may be various types of user operations, such as manual operation or voice operation. The manual operation can be a click operation and/or a sliding operation and the like.

In some embodiments, the determining of the effect control parameter comprises:

In some embodiments, the generating the effect control parameter according to the operation parameter of the first operation and the effect to be presented includes at least one of:

In addition, the location information includes a seating area of the control map or the location map, and/or identification information of a second electronic device corresponding to the seating area.

In some embodiments, the third electronic device may directly display the control chart or a position map mapped with the control chart, and detect a control command applied to the control chart or the position map, where the control command may be generated by a sliding operation, a clicking operation, a voice operation, a line-of-sight operation, or the like.

In step S320, information is sent to the first electronic device based on the control command, and the information may directly carry the control command. In some embodiments, the sent message further carries other information besides the control instruction.

In this way, the third electronic device can control the presentation of the effect of the second electronic device through the first electronic device.

In some embodiments, the method further comprises: receiving the control chart from the first electronic device;

the step S310 includes:

control commands acting on the control map are detected.

The third electronic device may receive the control chart from the first electronic device, the third electronic device displays the control chart, and the detected control instruction may be a user instruction directly acting on the control chart.

In still other embodiments, the first and second electrodes may be,

the step S310 may include: a control command acting on a position map corresponding to the control map is detected.

In some embodiments, the step S310 may include at least one of:

detecting a slide operation corresponding to the control chart;

detecting a click operation corresponding to the control chart;

detecting a voice operation corresponding to the control chart.

Of course, the operation of generating the control command is not limited to the slide operation, the click operation, the voice operation, and the like, and may be a line-of-sight operation, and the like.

The effect of the embodiment of the invention can be the sound effect, the light effect or the mixed effect of the sound effect and the light effect, and can also be the vibration effect of the electronic equipment.

In some particular cases, the second electronic device may also be a device capable of moving on its own, such as a ground robot, which automatically reports location information and device identification information after a plurality of ground robots form a robot array into the array to control formation changes of the robots. The predetermined effect may be an array movement effect of a plurality of devices, or the like.

As shown in fig. 8, the present embodiment provides an information processing apparatus applied to a first electronic device, including:

a first obtaining module 110, configured to obtain location information and device identification information of at least one second electronic device in a preset space;

a determining module 120, configured to determine, according to the location information and an effect requirement to be presented by the at least one second electronic device, a control parameter corresponding to the at least one second electronic device;

a first sending module 130, configured to send, according to the device identification information, the corresponding control parameter to the at least one second electronic device.

The information processing apparatus herein may be applied to a first electronic device, which may be a master device for effect presentation.

The first obtaining module 110, the determining module 120 and the first sending module 130 may be program modules, and after being executed by the processor, the program modules can control a plurality of second electronic devices to present a predetermined effect, so as to generate a combined effect.

In some embodiments, the apparatus further comprises:

and the control chart generation module is used for generating a control chart based on the position information and the equipment identification information.

In some embodiments, the determining module is specifically configured to determine the control parameter corresponding to the at least one second electronic device according to the control instruction corresponding to the control chart, the location information, and an effect requirement to be presented by the at least one second electronic device.

In some embodiments, the first sending module is further configured to send the control chart to a third electronic device;

In some embodiments, the determining module is specifically configured to determine, according to the location information and a combined effect requirement that needs to be presented by a plurality of second electronic devices in different areas, a first control parameter and a second control parameter for the second electronic devices in the different areas, respectively.

In some embodiments, the determining module is specifically configured to determine the first control parameter according to the combined effect requirement, where the first control parameter is used to control at least one second electronic device located in a first area; determining the relative positions of the first area and the second area according to the position information; and determining a second control parameter according to the combined effect requirement, the relative position and the first control parameter, wherein the second control parameter is used for controlling at least one second electronic device located in the second area.

The determining module may be configured to perform at least one of:

The determining module may be further configured to determine a control parameter corresponding to the at least one second electronic device according to the location information, the effect mode, and an effect requirement to be presented by the at least one second electronic device.

For example, the effect modes include:

a sound effect mode;

a light effect mode;

For another example, if the current effect mode is the sound effect mode, the control parameter is a sound effect control parameter; the sound effect control parameters include at least one of:

sound effect of pronunciation;

sound volume;

pronunciation time sequence;

and/or the presence of a gas in the gas,

luminous efficacy;

the brightness of the emitted light;

a light emission timing sequence;

and/or the presence of a gas in the gas,

sound effect of pronunciation;

sound volume;

pronunciation time sequence;

luminous efficacy;

the brightness of the emitted light;

and (4) light emitting time sequence.

As shown in fig. 9, the present embodiment provides an information processing apparatus applied to a second electronic device, including:

a second obtaining module 210, configured to obtain location information;

a second sending module 220, configured to report the location information and the device identification information of the second electronic device to the first electronic device; (ii) a

A second receiving module 230, configured to receive the control parameter sent by the first electronic device;

and a presenting module 240, configured to present a predetermined effect according to the control parameter.

The second electronic device may be a controlled terminal device, e.g., a device held by a user; is the device ultimately used to present the predetermined effect.

The second sending module 220, the second receiving module 230, the second obtaining module 210 and the presenting module 240 may be program modules, and the functions can be implemented after being executed by a processor.

The position information and the equipment identification information are used for the first electronic equipment to generate a control chart; in some embodiments, the second receiving module 230 is configured to receive the control parameter sent by the first electronic device based on the control instruction of the control map.

In some embodiments, the second obtaining module 210 is specifically configured to perform at least one of the following:

receiving the location information from a fourth electronic device.

In other embodiments, the presenting module 240 is specifically configured to perform at least one of the following:

As shown in fig. 10, the present embodiment provides an information processing apparatus applied to a third electronic device, including:

a detection module 310, configured to detect a first operation applied to a control map or a position map, where the position map or the control map is used to present position information in a preset space;

the determining and generating module 320 is configured to determine, according to the first operation, effect location information of an effect requirement to be presented by at least one second electronic device in a preset space, and generate a control instruction including the effect location information;

a third sending module 330, configured to send the control instruction to the first electronic device for controlling the at least one second electronic device.

The device further comprises:

a third receiving module 330, configured to receive the control chart from the first electronic device;

in some embodiments, the determining and generating module 320 is specifically configured to determine a vector or an array including at least two pieces of position information according to a sequence of the first operation acting on different pieces of position information on the control chart or the position chart, where a sequence of the position information in the vector or the array corresponds to the sequence; and the sequencing is used for determining the time sequence of the presentation effect of the at least two second electronic devices corresponding to the at least two pieces of position information.

In still other embodiments, the performance indication information includes at least one of:

In still other embodiments, the apparatus further comprises:

the second detection module is used for determining the effect mode according to a second operation before the control instruction is generated;

and/or the presence of a gas in the gas,

the third detection module is used for determining the effect to be presented according to a third operation before the control instruction is generated;

and/or the presence of a gas in the gas,

and the parameter generation module is used for determining the control strategy used by the effect control parameter generation according to the effect to be presented before the control instruction is generated.

In some embodiments, the parameter generating module is specifically configured to generate the effect control parameter according to the operation parameter of the first operation and the effect to be presented.

In addition, the parameter generating module is specifically configured to determine a time sequence parameter of a presentation effect of the second electronic device according to a sequence of the first operation acting on the screen position coordinate, where the time sequence parameter includes: a lighting timing and/or a sound emission timing; determining an intensity parameter of the second electronic device presenting effect according to the pressure parameter of the first operation acting on the screen coordinate position, wherein the intensity parameter comprises: the brightness of emitted light and/or the volume of emitted sound.

In some embodiments, the location information includes a seating area of the control map or location map, and/or identification information of a second electronic device to which the seating area corresponds.

The detecting module 310 is specifically configured to detect a control instruction acting on the control chart.

In some embodiments, the detection module 310 may be configured to detect a control command acting on a position map corresponding to the control map.

In some embodiments, the detection module 310 is specifically configured to perform at least one of:

detecting a slide operation corresponding to the control chart;

detecting a click operation corresponding to the control chart;

detecting a voice operation corresponding to the control chart.

Several specific examples are provided below in connection with any of the embodiments described above:

example 1:

this example provides an information processing method, and fig. 11 is a device system to which this scheme can be applied. In the scheme, after the user enters the concert site, the user can use a mobile terminal (such as a mobile phone; corresponding to the second electronic device) to establish connection with the concert master control server (corresponding to the first electronic device) in a mode of scanning the two-dimensional code (or directly inputting a specific number) on the seat.

The main control server can generate a field seat vector diagram according to the seat number carried by the access mobile phone and the field seat information in a simulation mode. The thread may be one of the control charts described above as a vector map.

The main control server sends the seat vector diagram to a main control terminal (corresponding to the third electronic device), and then a control person can trigger a control instruction through a specific sliding gesture operation on the field seat vector diagram displayed on the main control terminal, so that the server sends a control signal to a mobile phone corresponding to a seat (a seat located in the first area) through which a trajectory of the user sliding gesture operation passes, and the mobile phone can pronounce sound normally according to the control signal sent by the main control server.

The mobile phones outside the sliding region (corresponding to the second region) perform sound emission after sound volume adjustment according to the relative position with the sliding region (the farther the mobile phone is in the relative position, the lower the sound emission sound volume).

Through the mode, the main control server can accurately control the sound effect, the volume and the sound time of the mobile phone of each live audience accessed to the server, and through the mode, when the mobile phone is applied to a large-scale live such as a concert or a concert at the same time, the stereo music effects from far to near, from near to far, from front to back and from back to front can be presented for the live audience, and the stereo surrounding music effects are realized without purchasing a large amount of high-end sound equipment like the related technology and through a complicated sound equipment arrangement mode.

Example 2:

the present example provides, based on example 1, an information processing method including:

step 1: the user uses the mobile terminal to establish connection with a master control server of a concert site;

it should be noted that the master control server at the concert site may be a server temporarily built at the concert site; or may be a server corresponding to an existing Application (APP) of the concert organizer, for example, when migu music is used as the organizer of a concert, migu music may use the server of the migu music APP as a support server of the concert and provide related support for the concert.

When the master control server is a server temporarily built at a concert site, a user can log in the server by using a mobile phone in a mode of manually inputting a website (or scanning a two-dimensional code) when entering the concert site, and execute the next operation according to the instruction of the server; and when the master control server is the server corresponding to the original APP of the party organizing the concert, the user can directly access the master control server through the original APP of the party organizing installed on the mobile phone.

In addition, it should be noted that, when the concert organizer provides the concert live support through the server corresponding to the existing APP (for convenience of description, the background server corresponding to the music APP is described later as an example), because the server provides the relevant support for the audience at the concert live, and also provides the service for other users using the APP, in order to distinguish whether the accessed user needs the service support at the concert live or needs other normal service supports, in the scheme, when the audience at the concert live needs to establish a connection with the music APP server as the main control server of the concert through a mobile phone, the user can input specific identification information (such as scanning a specific two-dimensional code on the concert ticket or inputting a digital identification provided by the concert organizer in advance), and the music APP will carry the identification information when sending a connection request to the background server of the music APP, therefore, the music APP can determine that the user is a site audience of the concert according to the identification information, and provide relevant services of the concert site for the audience.

Step 2: a user uploads position information of a concert site to a main control server through a mobile terminal;

the position information refers to indication information of a seat position where the user sits in the concert, and the user can obtain the current position information of the user by scanning a two-dimensional code arranged on the seat by using a mobile phone; or the user can manually input the seat number where the user is located at present.

When the main control server is a server of the existing APP of the party organization of the concert, after the mobile terminal obtains the current position information (seat number) of the user, the mobile terminal can upload the seat number to the main control server, so that the main control server stores the corresponding relation between the account used by the user for logging in the APP and the seat number, and the purpose of binding the mobile terminal used by the user and the seat number is achieved.

And when the master control server is a server temporarily built on site, after the mobile terminal establishes connection with the master control server by executing the step 1, the master control server creates a corresponding temporary account number for the mobile terminal according to respective equipment identification of the mobile terminal, and then after the mobile terminal acquires the seat number of the user, the mobile terminal uploads the seat number to the master control server so that the master control server stores the corresponding relation between the temporary account corresponding to the mobile terminal and the seat number.

And step 3: the main control server generates a position reference map (which can be one of the control maps) for representing the position relationship of each mobile terminal connected with the server at the concert site according to the concert site seat map and the determined corresponding relationship between the mobile terminal and the seat number;

assuming that the master control server generates a binary digit group representing the position of each user terminal accessing the master control server by executing step 3 as shown in fig. 2A, the position of each mobile phone at the concert site is represented by a combination of two groups of digits of a first row (X) and a first column (Y), for example, each digit of the X row represents a serial number of each column of the concert site, and each digit of the Y column represents a serial number of each row of the concert site. For example, as shown in fig. 2A, where (4, 3) indicates that the mobile phone 12 is located at the concert site in the 3 rd row, 4 th row.

The effect shown in the table below may also be one of the control charts described previously.

And 4, step 4: and (3) the main control server sends the two-dimensional array generated by executing the step (3) to the main control terminal, and then the main control terminal can generate a position reference map according to the received two-dimensional array and display the position reference map on a display interface.

After receiving the two-dimensional array which is sent by the master control server and represents the position of each user terminal accessed into the master control server, the master control terminal can render and generate a position reference map according to the two-dimensional array, and the position reference map represents the seat map of the concert site and the corresponding relation between each seat and the user terminal.

When the main control terminal displays the position reference map, the position coordinates of each seat display area on the position reference map on the display screen of the main control terminal are recorded. For example, it is assumed that, by performing step 4, the position reference diagram generated and displayed by the master client is as shown in fig. 2B, in which a number of seating diagrams of concert scenes are displayed, and in the simulation diagram, each seating diagram includes position coordinates of a number of master terminal display screens.

And 5: the main control terminal receives the user terminal effect mode selected by the main control personnel through the appointed operation and uploads the effect mode selected by the main control personnel to the main control server;

it should be noted that, with the method provided by the present invention, not only the audio device of the user terminal accessing the master control server at the concert site can be controlled, but also the flash lamp and the screen color brightness of the user terminal device accessing the master control server can be controlled.

When the method provided by the scheme is adopted to control the user terminal accessed to the main control server, the main control personnel firstly needs to select the effect mode, if the main control terminal displays the position reference image, the control type is firstly displayed by referring to the figure 5 for the main control personnel to select, and if the main control personnel selects the audio control, the audio playing module of the user terminal accessed to the main control server can be controlled through subsequent operation; when the user selects the light effect control, the master control personnel can control the flash lamp or the screen brightness of the user terminal accessed to the master control server through subsequent operation.

It should be noted that, after the main control personnel selects the effect mode, a specific control mode can be further selected. For example, assume that the master selects the effect mode as: and audio control, further, the master control terminal displays selectable audio effects for master control personnel to select, each audio effect corresponds to a unique identifier, after the user selects an audio effect, the master control terminal uploads the unique identifier corresponding to the audio effect selected by the master control personnel and an effect mode to the master control server together, and the master control server issues the audio effect (such as a specific audio clip) selected by the master control personnel to each user terminal connected with the master control server, so that the user terminal can cache or download the audio clip in advance. And when the master control personnel select the effect modes as follows: and (3) controlling the lighting effect, further, displaying various lighting effect effects by the main control terminal for main control personnel to select, and uploading the unique identifier corresponding to the lighting effect selected by the main control personnel and the effect mode to the main control server by the main control terminal after the main control personnel selects the lighting effect.

Step 6: the method comprises the steps that a main control terminal receives a control instruction triggered by a main control worker through a sliding gesture operation and uploads the control instruction to a main control server;

in order to enable the main control server to determine the user terminal corresponding to the control instruction, in this example, after receiving the first operation, the main control terminal first determines the user terminal corresponding to the control instruction according to the sliding track corresponding to the sliding gesture operation that triggers the control instruction, and then uploads the user terminal identifier corresponding to the control instruction when sending the control instruction to the main control server.

Specifically, referring to fig. 12, after the master control person triggers the control command through the sliding gesture operation, the main control terminal determines the screen position coordinate corresponding to the sliding track according to the sliding track corresponding to the sliding gesture operation input by the user, and then according to the screen position coordinates corresponding to the sliding track and the screen position coordinates contained in each seat area in the simulated diagram determined by executing the step 4, the sliding gesture operates the seat area in the simulated diagram through which the corresponding sliding track passes, further, according to the corresponding relation between the seat areas and the user terminal, the user terminal corresponding to the control instruction triggered by the user sliding gesture operation is determined, and when sending a control instruction to the main control server, uploading the identification information of the user terminal corresponding to the determined control designation to the main control server.

For example, when the sliding track corresponding to the sliding gesture operation input by the master operator is shown by the dotted line in fig. 12, and by executing step 6, the master terminal sequentially records that the screen position coordinates corresponding to each touch point on the sliding track sequentially are: (1, 2), (2, 3), (4, 3), (5, 4), (6, 5), and then the main control terminal can confirm the seat area that these position coordinates belong to, and then can confirm the user terminal that corresponds with these seat areas. In fig. 12, the screen position coordinates (1, 2) belong to the seat area of row 1, corresponding to the mobile phone 1; and the screen position coordinates (2 and 3) belong to the number 1 and the number 2, correspond to the mobile phone 2, and the like.

It should be further noted that, in order to ensure that the master control server can determine the time sequence of the master control person sliding gesture operation on the simulated diagram sequentially sliding through each seat area, so that the master control server can sequentially send control instructions to the corresponding user terminals according to the sequence, in this scheme, when the touch point where the master control person sliding gesture operation slides falls within the range of a certain seat area, the master control terminal records the current terminal system time, and takes the time as the trigger time of the control instruction of the mobile phone corresponding to the seat area, and when sending the control instruction to the master control server, uploads the determined trigger time of the control instruction of the mobile phone corresponding to each seat area to the master control server together.

In addition, the system time of each user terminal, the main control terminal and the main control server in the concert field may not be completely the same, so that after the main control server establishes connection with the user terminal and the main control terminal respectively, the user terminal and the main control terminal can adjust the local time of each terminal according to the system time of the main control server, so that the system time of the user terminal, the main control terminal and the main control server is synchronized.

And 7: the main control server sends the control instructions to the user terminal determined by the step 6 according to the effect mode received by the step 5 and the control instructions received by the step 6;

still taking the sliding gesture operation input by the main control personnel as shown in fig. 12, and taking the effect mode selected by the user by executing step 5 as the audio effect mode as an example, by executing step 6, the main control terminal sequentially sends control instructions including the identifiers of the mobile phone 1, the mobile phone 2, the mobile phone 7, the mobile phone 8, and the mobile phone 13 to the main control server, and the trigger time corresponding to each control instruction, the main control server can sequentially send the control instructions to the mobile phones according to the corresponding trigger time according to the received identifiers of the mobile phones, so that the mobile phones can respond to the control instruction sent by the main control server to play the audio cached locally in advance by executing step 5.

It should be further noted that, in order to achieve a more vivid stereoscopic music effect, in the method provided in this scheme, the main control server may directly control the user terminals carried in the control instruction sent by the main control terminal, may also control the user terminals around the user terminals, and determine the volume of the user terminals when playing audio according to the relative distance between the other user terminals and the user terminal through which the sliding track of the main control person sliding gesture operation directly passes. The master control server may set the volume of a user terminal (for convenience of description, hereinafter, these user terminals are referred to as direct control user terminals) corresponding to a user terminal identifier carried in the received control instruction to be the highest, and adjust the volume of other user terminals (for convenience of description, hereinafter, these user terminals are referred to as auxiliary user terminals) near these direct control user terminals according to the relative position between the direct control user terminals and the direct control user terminals, where the farther the relative position of the direct control user terminal at the relative position is, the smaller the volume is, so as to achieve the effect of playing stereo music with large and small sound.

For example, still taking fig. 12 as an example, assuming that the direct control user terminal is the mobile phone 13 in fig. 12, the master server sets the volume of the mobile phone to 5, and the relative position of the mobile phone 13 to the position 1 assists the user terminal to have: the master control server sets the volume of the mobile phones to be 4, wherein the mobile phones comprise a mobile phone 7, a mobile phone 8, a mobile phone 9, a mobile phone 14, a mobile phone 19, a mobile phone 18, a mobile phone 17 and a mobile phone 12; the assistant user terminal at the position 2 opposite to the mobile phone 13 has: the master control server sets the volume of the mobile phones to be 3, wherein the mobile phones comprise a mobile phone 1, a mobile phone 2, a mobile phone 3, a mobile phone 4, a mobile phone 5, a mobile phone 10, a mobile phone 15, a mobile phone 20, a mobile phone 25, a mobile phone 24, a mobile phone 23, a mobile phone 22, a mobile phone 21, a mobile phone 16, a mobile phone 11 and a mobile phone 6; in this way, the main control server may gradually decrease the volume of the auxiliary user terminal according to the relative position between the auxiliary user terminal and the direct control user terminal until the volume of the auxiliary user terminal decreases to 0. When the main control server sends a control instruction to the direct control user terminal, the main control server also sends a control instruction to the auxiliary user terminal of the direct control user terminal at the same time (and the control instructions carry a volume adjusting instruction determined according to the relative position), so that the auxiliary user terminals and the direct control user terminal can simultaneously occur, but the volume is different, and the three-dimensional music effect of the near and far is achieved. The direct control terminal here may correspond to the second electronic device located in the first area in the foregoing embodiment, and the auxiliary user terminal may be the second electronic device located in the second area in the foregoing embodiment.

By adopting the scheme for realizing the music field environment sound simulation based on the mobile phone, after a user enters a concert field, the mobile terminal (such as the mobile phone) can be used for establishing connection with a concert master control server by scanning a two-dimensional code (or directly inputting a specific number) on a seat, the server can generate a field seat vector diagram in a simulation mode according to the seat number carried by the accessed mobile phone and field seat information and send the seat vector diagram to the master control terminal, a control person can display the field seat vector diagram on the master control terminal and trigger a control instruction by a specific sliding gesture operation, so that the server sends a control signal to the mobile phone corresponding to the seat passing by the track of the user sliding gesture operation, and the mobile phone can pronounce normally according to the control signal sent by the master control server, the mobile phones outside the sliding area sound after adjusting the sound volume according to the relative position between the mobile phones and the sliding area (the farther the mobile phone is in the relative position, the lower the sound volume). Through the mode, the main control server can accurately control the sound effect, the volume and the sound time of the mobile phone of each live audience accessed to the server, and through the mode, when the mobile phone is applied to a large-scale live such as a concert or a concert at the same time, the stereo music effects from far to near, from near to far, from front to back and from back to front can be presented for the live audience, and the stereo surrounding music effects are realized without purchasing a large amount of high-end sound equipment like the related technology and through a complicated sound equipment arrangement mode.

The user terminal establishes connection with the main control server and sends position information to the main control server, so that the main control server can generate a two-dimensional group diagram reflecting the positions of the access user terminals and the position relationship among the access user terminals according to the position information;

the master control server sends the generated two-dimensional array to the master control terminal, so that the master control terminal can generate a concert field simulation diagram (corresponding to the control diagram) according to the two-dimensional array, and the simulation diagram is displayed, so that master control personnel can operate and control the user terminal accessed to the master control server according to the simulation diagram;

the main control server sends a control signal to the mobile phone corresponding to the seat through which the track of the sliding gesture operation of the user passes, so that the mobile phone can pronounce normally according to the control signal sent by the main control server, and the mobile phones outside the sliding area pronounce after volume adjustment according to the relative position between the mobile phones and the sliding area (the farther the mobile phone in the sliding area is located relative to the position, the lower the pronunciation volume).

An embodiment of the present invention provides an electronic device, including: memory, one or more processors, and executable programs stored on the memory and executable by the one or more processors,

when the executable program is run by the one or more processors, the information processing method provided by one or more of the technical schemes is executed.

Referring to fig. 13, the electronic device provided in this embodiment may further include: a communications interface, etc. The communication interface is used for receiving and transmitting information

A memory for storing information;

and a processor, which may be respectively connected to the communication interface and the memory, and configured to implement the information processing method provided by one or more of the foregoing technical solutions by executing computer-executable instructions stored in the memory, for example, the methods shown in fig. 1, fig. 3, fig. 4, fig. 6 to fig. 7, and fig. 11.

The memory can be various types of memories, such as random access memory, read only memory, flash memory, and the like. The memory may be used for information storage, e.g., storing computer-executable instructions, etc. The computer-executable instructions may be various program instructions, such as object program instructions and/or source program instructions, and the like.

The processor may be various types of processors, such as a central processing unit, a microprocessor, a digital signal processor, a programmable array, a digital signal processor, an application specific integrated circuit, or an image processor, among others.

The processor may be connected to the memory via a bus. The bus may be an integrated circuit bus or the like.

In some embodiments, the electrical device may further comprise: a communication interface, which may include: a network interface, e.g., a local area network interface, a transceiver antenna, etc. The communication interface is also connected with the processor and can be used for information transceiving.

In some embodiments, the electronic device also includes a human interaction interface, which may include various input and output devices, such as a keyboard, a touch screen, and the like, for example.

In this embodiment, the electronic device may be the aforementioned first electronic device, second electronic device, or third electronic device, and if the electronic device is the first electronic device, one or more of the information processing methods executed in the first electronic device may be executed, and if the electronic device is the second electronic device, one or more of the information processing methods executed in the second electronic device may be executed; in the case of third electronic devices, one or more of the third electronic devices may be operated.

Embodiments of the present invention provide a computer storage medium, where the executable program includes instructions that, when executed by one or more processors, perform the information processing method provided in any of the above embodiments.

The executable program, for example, when executed by one or more processors, may implement one or more of the methods shown in fig. 1, 3, 4, 6-7, and 11.

The storage medium includes: a mobile storage device, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes. The storage medium may be a non-transitory storage medium.

An embodiment of the present invention provides a computer program product, which includes computer-executable instructions; after being executed, the computer-executable instructions can implement the method provided by any one of the technical solutions of the first aspect or the second aspect.

The computer program product of this embodiment may include computer-executable instructions that comprise: an application, a software development kit, a plug-in or patch, and the like.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above-described device embodiments are merely illustrative, for example, the division of the unit is only a logical functional division, and there may be other division ways in actual implementation, such as: multiple units or components may be combined, or may be integrated into another system, or some features may be omitted, or not implemented. In addition, the coupling, direct coupling or communication connection between the components shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or units may be electrical, mechanical or other forms.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed on a plurality of network units; some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, all the functional units in the embodiments of the present invention may be integrated into one processing module, or each unit may be separately used as one unit, or two or more units may be integrated into one unit; the integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.

Those of ordinary skill in the art will understand that: all or part of the steps for implementing the method embodiments may be implemented by hardware related to program instructions, and the program may be stored in a computer readable storage medium, and when executed, the program performs the steps including the method embodiments; and the aforementioned storage medium includes: a mobile storage device, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims

1. An information processing method applied to a first electronic device, the method comprising:

sending corresponding control parameters to the at least one second electronic device according to the device identification information;

the position information is used for indicating the information of the space position of the first electronic device, and comprises position coordinates, a seat number and a serial number;

the method further comprises the following steps:

sending the control chart to a third electronic device;

receiving a control instruction generated by the third electronic device based on an operation acting on the control chart; the control instruction comprises effect position information, the effect position information is a vector or an array which is determined by the third equipment based on the sequence acted on different position information on the control chart and comprises at least two pieces of position information, the sequence of the position information in the vector or the array corresponds to the sequence, and the sequence is used for determining the time sequence of the at least two pieces of second electronic equipment corresponding to the at least two pieces of position information for presenting effects;

2. The method of claim 1,

the method further comprises the following steps:

3. The method of claim 2,

determining a control parameter corresponding to the at least one second electronic device according to the position information and an effect requirement to be presented by the at least one second electronic device, including:

and determining a control parameter corresponding to the at least one second electronic device according to the control instruction corresponding to the control chart, the position information and the effect requirement required to be presented by the at least one second electronic device.

4. The method of claim 1, 2 or 3,

5. The method of claim 4,

the determining, according to the location information and the combined effect requirement that needs to be presented by the plurality of second electronic devices in different areas, a first control parameter and a second control parameter for the second electronic devices in different areas, respectively, includes:

6. The method of claim 5,

and determining a second control parameter according to the combined effect requirement, the relative position and the first control parameter, wherein the second control parameter comprises at least one of the following parameters:

7. The method of claim 1, 2 or 3,

8. The method of claim 7, wherein the effect mode comprises:

a sound effect mode;

a light effect mode;

9. The method of claim 8,

if the current effect mode is the sound effect mode, the control parameter is a sound effect control parameter; the sound effect control parameters include at least one of:

sound effect of pronunciation;

sound volume;

pronunciation time sequence;

and/or the presence of a gas in the gas,

luminous efficacy;

the brightness of the emitted light;

a light emission timing sequence;

and/or the presence of a gas in the gas,

sound effect of pronunciation;

sound volume;

pronunciation time sequence;

luminous efficacy;

the brightness of the emitted light;

and (4) light emitting time sequence.

10. An information processing method applied to a second electronic device includes:

acquiring position information;

receiving a control parameter sent by the first electronic device based on a control instruction generated by a third electronic device; the control instruction comprises effect position information, the effect position information is a vector or an array which is determined by the third equipment based on the sequence acted on different position information on the control chart and comprises at least two pieces of position information, the sequence of the position information in the vector or the array corresponds to the sequence, and the sequence is used for determining the time sequence of the at least two pieces of second electronic equipment corresponding to the at least two pieces of position information for presenting effects;

presenting a predetermined effect according to the control parameter;

the position information is used for indicating the information of the space position of the first electronic device, and the position information comprises position coordinates, a seat number and a serial number.

11. The method of claim 10, wherein the location information and the device identification information are used for the first electronic device to generate a control map;

12. The method according to claim 10 or 11,

the acquiring the position information comprises at least one of the following:

receiving the location information from a fourth electronic device.

13. The method according to claim 10 or 11,

presenting a predetermined effect, including at least one of:

14. An information processing method applied to a third electronic device, the method comprising:

determining a vector or an array comprising at least two pieces of position information according to the sequence of different pieces of position information acted on the control chart or the position chart by the first operation, wherein the sequence of the position information in the vector or the array corresponds to the sequence; the sequencing is used for determining the time sequence of the at least two second electronic equipment presenting effects corresponding to the at least two pieces of position information and generating a control instruction comprising effect position information;

sending the control instruction to a first electronic device for controlling the at least one second electronic device;

15. The method of claim 14, wherein the control instruction further comprises effect indication information.

16. The method of claim 15,

the effect indication information includes at least one of:

17. The method of claim 16,

the method further comprises the following steps:

and/or the presence of a gas in the gas,

18. The method of claim 17,

the determination of the effect control parameter comprises:

19. The method of claim 18,

generating the effect control parameter according to the operation parameter of the first operation and the effect to be presented, wherein the effect control parameter comprises at least one of the following parameters:

20. The method according to any of claims 14 to 16, wherein the location information comprises a seating area of the control map or location map, and/or identification information of a second electronic device corresponding to the seating area.

21. An information processing apparatus, applied to a first electronic device, includes:

the first sending module is used for sending corresponding control parameters to the at least one second electronic device according to the device identification information;

the first sending module is further used for sending the control chart to a third electronic device; receiving a control instruction generated by the third electronic device based on an operation acting on the control chart; the control instruction comprises effect position information, the effect position information is a vector or an array which is determined by the third equipment based on the sequence acted on different position information on the control chart and comprises at least two pieces of position information, the sequence of the position information in the vector or the array corresponds to the sequence, and the sequence is used for determining the time sequence of the at least two pieces of second electronic equipment corresponding to the at least two pieces of position information for presenting effects; and sending control parameters to the second electronic equipment based on the control instruction.

22. An information processing apparatus, applied to a second electronic device, comprising:

the second acquisition module is used for acquiring the position information;

the second receiving module is used for receiving control parameters sent by the first electronic equipment based on a control instruction generated by third electronic equipment; the control instruction comprises effect position information, the effect position information is a vector or an array which is determined by the third equipment based on the sequence acted on different position information on the control chart and comprises at least two pieces of position information, the sequence of the position information in the vector or the array corresponds to the sequence, and the sequence is used for determining the time sequence of the at least two pieces of second electronic equipment corresponding to the at least two pieces of position information for presenting effects;

the presentation module is used for presenting a preset effect according to the control parameter;

23. An information processing apparatus, applied to a third electronic device, comprising:

the determining and generating module is used for determining a vector or an array comprising at least two pieces of position information according to the sequence of the first operation on different pieces of position information on the control chart or the position chart, wherein the sequence of the position information in the vector or the array corresponds to the sequence; the sequencing is used for determining the time sequence of the at least two second electronic equipment presenting effects corresponding to the at least two pieces of position information and generating a control instruction comprising the effect position information;

a third sending module, configured to send the control instruction to a first electronic device configured to control the at least one second electronic device;

24. An electronic device, comprising: memory, one or more processors, and executable programs stored on the memory and executable by the one or more processors,

the one or more processors, when running the executable program, perform an information processing method as provided in any one of claims 1 to 9, 10 to 13, or 14 to 20.

25. A computer-readable storage medium on which an executable program is stored, the executable program comprising instructions that, when executed by one or more processors, perform an information processing method as provided in any one of claims 1 to 9, 10 to 13, or 14 to 20.