CN115529530A - Intelligent control method for internal functions of multifunctional mobile power supply sound box - Google Patents
Intelligent control method for internal functions of multifunctional mobile power supply sound box Download PDFInfo
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Abstract
The invention provides an intelligent control method for internal functions of a multifunctional mobile power supply sound box, which comprises the following steps: acquiring function trigger information, analyzing the function trigger information, and determining a target function set to be controlled of the mobile power supply sound box; determining a target state of a target device corresponding to the target function set to be controlled, and generating a target control instruction corresponding to the target device based on the target state; and determining a cooperative relationship and an independent relationship between the target devices, and controlling the target devices to execute corresponding functional operations according to the cooperative relationship and the independent relationship based on the target control instruction. Different functions in the multifunctional mobile power supply sound box are accurately and reliably controlled through the control command, so that the control accuracy of the different functions in the mobile power supply sound box is improved, and the operation effect of the multifunctional mobile power supply sound box is guaranteed.
Description
Technical Field
The invention relates to the technical field of equipment control, in particular to an intelligent control method for internal functions of a multifunctional mobile power supply sound box.
Background
At present, with the continuous development of science and technology, more and more intelligent products appear in the life of people, and a multifunctional mobile power supply sound box is one of the products;
the traditional sound box only has the function of sound amplification, and the multifunctional mobile power supply sound box can integrate a mobile energy storage power supply, an emergency lamp, a solar panel, a portable sound box, a radio and a K-band microphone sound box, so that great convenience is provided for the life needs of people, but the operation effect of the multifunctional mobile power supply sound box directly influences the use experience of users while great convenience is provided;
due to the fact that the functional modules are complex, when the multifunctional mobile power supply sound box receives the control instruction, the type of the control instruction cannot be accurately and reliably analyzed, and therefore the control effect on different internal functions in the multifunctional mobile power supply sound box is greatly reduced;
therefore, the invention provides an intelligent control method for internal functions of a multifunctional mobile power supply sound box.
Disclosure of Invention
The invention provides an intelligent control method for internal functions of a multifunctional mobile power supply sound box, which is used for accurately and effectively confirming a target function set to be controlled of the multifunctional mobile power supply sound box and target states of target devices, providing convenience and guarantee for generating corresponding control instructions through a cooperative relation and an independent relation between the target devices, and finally accurately and reliably controlling different functions in the multifunctional mobile power supply sound box through the control instructions, so that the control accuracy of the different functions in the mobile power supply sound box is improved, and the operation effect of the multifunctional mobile power supply sound box is guaranteed.
The invention provides an intelligent control method for internal functions of a multifunctional mobile power supply sound box, which comprises the following steps:
step 1: acquiring function trigger information, analyzing the function trigger information, and determining a target function set to be controlled of the mobile power supply sound box;
step 2: determining a target state of a target device corresponding to the target function set to be controlled, and generating a target control instruction corresponding to the target device based on the target state;
and step 3: and determining a cooperative relationship and an independent relationship between the target devices, and controlling the target devices to execute corresponding functional operations according to the cooperative relationship and the independent relationship based on the target control instruction.
Preferably, in step 1, the method for intelligently controlling the internal functions of the multifunctional mobile power supply sound box acquires function trigger information, and includes:
acquiring allowable trigger modes of the mobile power supply sound box, extracting mode characteristics of the allowable trigger modes, and configuring a function trigger monitoring strategy for each allowable trigger mode based on the mode characteristics, wherein the allowable trigger modes comprise physical trigger and wireless control trigger;
acquiring state parameter values of each allowable trigger mode when the mobile power supply sound box is in a standby state based on a function trigger monitoring strategy, and monitoring real-time state parameters of each allowable trigger mode of the mobile power supply sound box in real time through the function trigger monitoring strategy based on a preset time interval;
when the real-time state parameter changes relative to the state parameter value, the mobile power supply sound box is judged to be triggered, and function triggering information of the mobile power supply sound box is obtained through an allowable triggering mode based on a function triggering monitoring strategy.
Preferably, in step 1, analyzing the function trigger information, and determining a target to-be-controlled function set of the mobile power supply sound box, the method includes:
acquiring the obtained function trigger information, and converting the function trigger information into a corresponding data text, wherein the data text comprises target trigger data corresponding to the function trigger information;
extracting data characteristics of the target trigger data based on the data text, clustering the target trigger data based on the data characteristics, and obtaining a temporary classification data set based on a clustering result;
meanwhile, acquiring isolated trigger data after clustering, determining the similarity between the isolated trigger data and each temporary classified data set, and classifying the isolated trigger data to the temporary classified data set with the maximum similarity to obtain a final classified data set;
and extracting attribute information of the classified data set, matching the attribute information with attributes of a preset function list, and obtaining a target function set to be controlled corresponding to the function trigger information based on a matching result.
Preferably, the method for intelligently controlling the internal functions of the multifunctional mobile power supply sound box, which obtains a target function set to be controlled corresponding to the function trigger information based on the matching result, includes:
acquiring an obtained target function set to be controlled, and carrying out quantization processing on the target function set to be controlled to obtain a single independent function to be controlled;
extracting functional attributes of the single independent functions to be controlled, carrying out similarity detection on the single independent functions to be controlled based on the functional attributes, and determining whether the same target functions to be controlled exist in the target function set to be controlled based on the similarity detection result;
when the same target functions to be controlled exist, determining the main target functions to be controlled based on the sequence of the received timestamps, and removing the remaining same target functions to be controlled;
otherwise, finishing the verification of the target function set to be controlled.
Preferably, in step 2, determining a target state of a target device corresponding to a target function set to be controlled, and generating a target control instruction corresponding to the target device based on the target state includes:
acquiring an obtained target function set to be controlled, analyzing the target function set to be controlled, and determining a target device corresponding to each target function to be controlled in the target function set to be controlled;
extracting a device identifier of the target device, and performing association binding on the target device and the corresponding target function to be controlled based on the device identifier;
acquiring device data of a target device corresponding to each target function to be controlled based on the association binding result, extracting data characteristics of the device data, and classifying the device data of the target device based on the data characteristics to obtain a sub-device data set;
drawing a data value change curve of each sub-device data set based on the classification result, and fitting the data value change curve to obtain an association relation of data values of each sub-device in each sub-device data set;
determining a target state of a target device based on the incidence relation and the sub-device data set, simultaneously acquiring received function trigger information, and determining a control type of the target state of the target device based on the function trigger information, wherein the target state comprises a standby state and a working state;
when the control type meets a preset switching condition of a target state, performing first extraction on key data of function trigger information and second extraction on interaction attributes of a target device, and inputting the key data and the interaction attributes of the target device, which are obtained after the first extraction and the second extraction, into a pre-trained control instruction generation model for analysis to obtain a control instruction sequence;
and combining the control instruction sequences based on the triggering purpose of the function triggering information to obtain a final target control instruction.
Preferably, the method for intelligently controlling the internal functions of the multifunctional mobile power supply sound box obtains a final target control instruction, and includes:
acquiring an obtained target control instruction, determining the subordination relation between the target control instruction and a target function to be controlled, acquiring an association binding result between a target device and the corresponding target function to be controlled, and determining the corresponding relation between the target control instruction and the target device based on the association binding result and the subordination relation;
constructing a distributed transmission link based on the corresponding relation, and labeling devices of terminals of each transmission link in the distributed transmission link;
and transmitting the target control instruction to the corresponding target device through the corresponding distributed transmission link based on the labeling result.
Preferably, the method for intelligently controlling the internal function of the multifunctional mobile power supply sound box determines the target state of the target device based on the association relationship and the sub-device data set, and includes:
acquiring the target state of the obtained target device, and extracting the state attribute of the target state;
acquiring an allowable existing state list of a target device, matching the state attribute with the allowable existing state list, and determining that the current target state of the target device is abnormal when the target state of the target device is not consistent with a preset target state in the allowable existing state list based on a matching result;
rejecting the function trigger information based on the judgment result, generating a device fault detection report based on the target state of the target device, and transmitting the device fault detection report to the management terminal for alarm reminding.
Preferably, the target devices corresponding to the target to-be-controlled functions in the target to-be-controlled function set comprise a mobile energy storage power supply, an emergency lamp, a solar panel, a portable sound box, a radio and a K-zone microphone sound box.
Preferably, in step 3, a cooperative relationship and an independent relationship between target devices are determined, and the target devices are controlled to execute corresponding functional operations according to the cooperative relationship and the independent relationship based on a target control instruction, including:
acquiring target devices corresponding to the target function set to be controlled, extracting working attributes of the target devices, and determining necessary conditions required by the working of each target device based on the working attributes;
extracting parameter information of necessary conditions required by the work of each target device, meanwhile, obtaining the corresponding relation between the normal work of each target device and a preset controller in the mobile power supply sound box, and determining the control configuration parameters of preset control on each target device based on the corresponding relation;
determining a device composition map when each target device executes a corresponding target function based on the parameter information and the control configuration parameters, and associating the device composition maps of the target devices to obtain a cooperative relationship and an independent relationship between the target devices;
generating a device self-checking instruction based on the cooperative relationship and the independent relationship, performing first self-checking on the performance of each component in each target device based on the self-checking instruction, and performing second self-checking on the function of each target device based on the function execution standard of each target device after the first self-checking is passed;
when the second self-check is passed, a processing task list is created in a preset controller, and the obtained target control instruction corresponding to each target device is updated in the processing task list;
and issuing the target control command to the corresponding target device through a preset controller target control command based on the updating result, and controlling the target device to execute the corresponding functional operation according to the cooperative relationship and the independent relationship.
Preferably, the method for intelligently controlling internal functions of a multifunctional mobile power supply sound box, in which a control target device executes corresponding functional operations according to a cooperative relationship and an independent relationship, includes:
acquiring execution results of the target devices on the functional operation according to the cooperative relationship and the independent relationship, and determining real-time target state parameters of each target device based on the execution results;
transmitting the real-time target state parameters of each target device to a monitoring terminal based on a wireless transmission mode, and monitoring the running state of each target device by the monitoring terminal based on the received real-time target state parameters;
constructing a device performance evaluation model, inputting the real-time target state parameters of each target device obtained by supervision into the device performance evaluation model for analysis, and obtaining the real-time running performance of each target device;
and when the real-time running performance of the target device is lower than the corresponding preset performance threshold value, performing supervision fault alarm, and performing power-off treatment on the target device in the mobile power supply loudspeaker box based on an alarm result.
Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.
The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.
Drawings
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:
fig. 1 is a flowchart of an intelligent control method for internal functions of a multifunctional mobile power supply sound box according to an embodiment of the present invention;
fig. 2 is a flowchart of step 1 in an intelligent control method for internal functions of a multifunctional mobile power supply sound box according to an embodiment of the present invention;
fig. 3 is a flowchart of step 3 in the method for intelligently controlling the internal functions of the multifunctional mobile power supply sound box according to the embodiment of the present invention.
Detailed Description
The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.
Example 1:
the embodiment provides an intelligent control method for internal functions of a multifunctional mobile power supply sound box, as shown in fig. 1, including:
step 1: acquiring function trigger information, analyzing the function trigger information, and determining a target function set to be controlled of the mobile power supply sound box;
step 2: determining a target state of a target device corresponding to the target function set to be controlled, and generating a target control instruction corresponding to the target device based on the target state;
and step 3: and determining a cooperative relationship and an independent relationship between the target devices, and controlling the target devices to execute corresponding functional operations according to the cooperative relationship and the independent relationship based on the target control instruction.
In this embodiment, the function triggering information refers to a triggering operation that needs to be controlled, and is clicked or sent to the multifunctional mobile power supply sound box.
In this embodiment, the target function set to be controlled refers to a function type that needs to be controlled for the multifunctional mobile power supply speaker, and specifically may be to turn on/off a power supply, turn on/off an illumination lamp, turn on/off a radio, and the like.
In this embodiment, the target device refers to each hardware device that the target function set of waiting to control corresponds, specifically can be mobile energy storage power supply, emergency light, solar energy electroplax, portable audio amplifier, radio, K song area mark microphone audio amplifier.
In this embodiment, the target state is used to represent a current working type of the target device, and may specifically be in a working state, a shutdown state, or a standby state.
In this embodiment, the target control instruction is a control instruction for controlling the target device to switch the operating state, and specifically, the target control instruction may be a control instruction for controlling the target device to switch from the operating state to the standby state.
In this embodiment, the coordination relationship refers to a relationship that each target device needs coordination to correspond to a function when operating, and specifically, when the target control function is to turn on an emergency lamp, the mobile energy storage power supply and the emergency lamp need to be controlled to operate simultaneously to complete the corresponding function.
In this embodiment, the independent relationship refers to a device that can work alone in the target device, and may be specifically a solar panel in a multifunctional mobile power supply sound box.
The beneficial effects of the above technical scheme are: the target to-be-controlled function set of the multifunctional mobile power supply sound box and the target states of all target devices are accurately and effectively confirmed, convenience and guarantee are provided for generating corresponding control instructions through the cooperative relation and the independent relation between the target devices, and finally, different functions in the multifunctional mobile power supply sound box are accurately and reliably controlled through the control instructions, so that the control accuracy of the different functions in the mobile power supply sound box is improved, and the operation effect of the multifunctional mobile power supply sound box is guaranteed.
Example 2:
on the basis of embodiment 1, this embodiment provides an intelligent control method for internal functions of a multifunctional mobile power supply sound box, as shown in fig. 2, in step 1, acquiring function trigger information, including:
step 101: acquiring allowable trigger modes of the mobile power supply loudspeaker box, extracting mode characteristics of the allowable trigger modes, and configuring a function trigger monitoring strategy for each allowable trigger mode based on the mode characteristics, wherein the allowable trigger modes comprise physical trigger and wireless control trigger;
step 102: acquiring state parameter values of each allowable trigger mode when the mobile power supply sound box is in a standby state based on a function trigger monitoring strategy, and monitoring real-time state parameters of each allowable trigger mode of the mobile power supply sound box in real time through the function trigger monitoring strategy based on a preset time interval;
step 103: when the real-time state parameter changes relative to the state parameter value, the mobile power supply sound box is judged to be triggered, and function triggering information of the mobile power supply sound box is obtained through an allowable triggering mode based on a function triggering monitoring strategy.
In this embodiment, the allowable trigger mode refers to a mode that is supported by the mobile power supply sound box and can change the operating state of the mobile power supply sound box, and specifically, the allowable trigger mode may be changed by triggering a key or by wirelessly sensing (sending an instruction through a smart device), where the allowable trigger mode is at least one.
In this embodiment, the mode feature refers to a trigger characteristic of the allowable trigger mode, specifically, pressing and dynamic sensing.
In this embodiment, the function trigger monitoring policy refers to a parameter for monitoring an operating state of the corresponding allowable trigger mode, so as to determine whether there is a trigger operation or a trigger action on the portable power source sound box.
In this embodiment, the physical trigger is a button pressing type trigger.
In this embodiment, the wireless control triggering is to send an instruction to trigger through the smart device.
In this embodiment, the state parameter value refers to a value of an operation parameter corresponding to the allowable trigger mode when the mobile power supply sound box is in standby.
In this embodiment, the preset time interval is set in advance, and is used for monitoring the change condition of the operation parameter of the allowable trigger mode in real time through the function trigger monitoring strategy.
In this embodiment, the real-time status parameter refers to a current operation parameter variation condition of the allowable trigger mode, and a value of the real-time status parameter may be the same as or different from a value of a status parameter of each allowable trigger mode in the standby state.
The beneficial effects of the above technical scheme are: through confirming the permissible trigger mode of multi-functional portable power source audio amplifier to can allow the corresponding function trigger monitoring strategy of trigger mode configuration to each, can allow the operating parameter of trigger mode to monitor through function trigger monitoring strategy to each, thereby be convenient for when can allowing the operating parameter of trigger mode to change, in time accurately effectively acquire the trigger information of current multi-functional portable power source audio amplifier, for the control to different functions in the multi-functional portable power source audio amplifier provides convenience and guarantee.
Example 3:
on the basis of embodiment 1, this embodiment provides an intelligent control method for internal functions of a multifunctional mobile power supply sound box, and in step 1, the function trigger information is analyzed, and a target to-be-controlled function set for the mobile power supply sound box is determined, including:
acquiring the obtained function trigger information, and converting the function trigger information into a corresponding data text, wherein the data text comprises target trigger data corresponding to the function trigger information;
extracting data characteristics of the target trigger data based on the data text, clustering the target trigger data based on the data characteristics, and obtaining a temporary classification data set based on a clustering result;
meanwhile, acquiring isolated trigger data after clustering, determining the similarity between the isolated trigger data and each temporary classified data set, and classifying the isolated trigger data to the temporary classified data set with the maximum similarity to obtain a final classified data set;
and extracting attribute information of the classified data set, matching the attribute information with attributes of a preset function list, and obtaining a target function set to be controlled corresponding to the function trigger information based on a matching result.
In this embodiment, the data text refers to a recorded text obtained by converting the function trigger information into a corresponding text form.
In this embodiment, the target trigger data refers to specific data content obtained by converting the function trigger information into a corresponding text format.
In this embodiment, the data characteristics refer to a value range of the target trigger data, an association relationship between data, and the like.
In this embodiment, the temporary classification data set refers to a classification result obtained by clustering the obtained target trigger data according to data features, and the classification result may include data that is not classified.
In this embodiment, the isolated trigger data refers to target trigger data that is not classified into any He Yilei after the target trigger data is classified.
In this embodiment, the attribute information refers to a data type corresponding to each categorized data set and a function type of a representation of the target trigger data included in the data set.
In this embodiment, the preset function list attribute is set in advance and is used for storing the function attribute corresponding to each function type of the portable power source loudspeaker box.
The beneficial effects of the above technical scheme are: the obtained function trigger information is analyzed, the function trigger information is classified, each classified function trigger information is deeply analyzed, the function type corresponding to each type of function trigger information is accurately and effectively judged, the accuracy rate of determining the target function set to be controlled is ensured, and convenience and guarantee are provided for accurate function control of the multifunctional mobile power supply loudspeaker box.
Example 4:
on the basis of embodiment 3, this embodiment provides an intelligent control method for internal functions of a multifunctional mobile power supply sound box, and obtaining a target to-be-controlled function set corresponding to function trigger information based on a matching result includes:
acquiring an obtained target function set to be controlled, and carrying out quantization processing on the target function set to be controlled to obtain a single independent function to be controlled;
extracting functional attributes of the single independent functions to be controlled, carrying out similarity detection on the single independent functions to be controlled based on the functional attributes, and determining whether the same target functions to be controlled exist in the target function set to be controlled based on the similarity detection result;
when the same target functions to be controlled exist, determining the main target functions to be controlled based on the sequence of the received timestamps, and removing the remaining same target functions to be controlled;
otherwise, finishing the verification of the target function set to be controlled.
In this embodiment, the quantization processing refers to splitting all the target functions to be controlled included in the target function set to be controlled to obtain a single and independent function to be controlled in the target function set to be controlled.
In this embodiment, the single independent function to be controlled refers to a single function to be controlled obtained by quantizing the target function set to be controlled, and may represent a function that needs to be controlled specifically, for example, may be to control a radio in a mobile power supply speaker.
In this embodiment, the function attribute refers to a function type, a function execution characteristic, and the like of a single independent function to be controlled.
In this embodiment, the target function to be controlled means that at least two identical functions to be controlled exist in the target function set to be controlled.
In this embodiment, the receiving order of the timestamps refers to the time order of the trigger information received by the mobile power supply sound box.
In this embodiment, the main target function to be controlled refers to a function to be controlled that determines the function to be controlled that is the earliest in receiving time of the mobile power supply speaker as the function to be controlled that needs to be reserved.
The beneficial effects of the above technical scheme are: by analyzing the obtained function set to be controlled, the function attribute with the control function, which is independent from each other, in the target function set to be controlled is accurately and effectively analyzed, so that the repeated loan control functions in the target function set to be controlled are screened according to the function data, the control effect on the multifunctional mobile power supply sound box is guaranteed, and the accuracy of controlling different functions in the multifunctional mobile power supply sound box is guaranteed.
Example 5:
on the basis of embodiment 1, this embodiment provides an intelligent control method for internal functions of a multifunctional mobile power supply speaker, where in step 2, a target state of a target device corresponding to a target function set to be controlled is determined, and a target control instruction corresponding to the target device is generated based on the target state, and the method includes:
acquiring an obtained target function set to be controlled, analyzing the target function set to be controlled, and determining a target device corresponding to each target function to be controlled in the target function set to be controlled;
extracting a device identifier of the target device, and performing association binding on the target device and the corresponding target function to be controlled based on the device identifier;
acquiring device data of a target device corresponding to each target function to be controlled based on the association binding result, extracting data characteristics of the device data, and classifying the device data of the target device based on the data characteristics to obtain a sub-device data set;
drawing a data value change curve of each sub-device data set based on the classification result, and fitting the data value change curve to obtain an association relation of each sub-device data value in each sub-device data set;
determining a target state of a target device based on the incidence relation and the sub-device data set, simultaneously acquiring received function trigger information, and determining a control type of the target state of the target device based on the function trigger information, wherein the target state comprises a standby state and a working state;
when the control type meets a preset switching condition of a target state, performing first extraction on key data of function trigger information and second extraction on interaction attributes of a target device, and inputting the key data and the interaction attributes of the target device, which are obtained after the first extraction and the second extraction, into a pre-trained control instruction generation model for analysis to obtain a control instruction sequence;
and combining the control instruction sequences based on the triggering purpose of the function triggering information to obtain a final target control instruction.
In this embodiment, the target devices corresponding to the target functions to be controlled in the target function set to be controlled include a mobile energy storage power supply, an emergency light, a solar panel, a portable sound box, a radio, and a K-band microphone sound box
In this embodiment, the target device refers to specific hardware corresponding to different functions to be controlled in the mobile power supply sound box, and specifically, when the function to be controlled is reception, the target device is a radio in the mobile power supply sound box.
In this embodiment, the device identifier is a label for labeling different target devices, and the type and function of the corresponding target device can be determined quickly and accurately and effectively by using the label.
In this embodiment, the association binding refers to associating the target to-be-controlled function with the corresponding target device, so as to conveniently send a corresponding target control instruction to the corresponding target device according to different target to-be-controlled functions.
In this embodiment, the device data refers to the device type of the target device, and the operation mode and the operation condition of different target devices during the operation process.
In this embodiment, the data feature refers to a key data segment capable of characterizing the subject matter of the device data, and specifically may be data characterizing the type of the target device.
In this embodiment, classifying the device data of the target device based on the data feature refers to classifying the device data.
In this embodiment, the sub-device data set refers to a data set of a plurality of different data types obtained by classifying device data.
In this embodiment, the incidence relation is used to represent a corresponding relation between current data values of different functional units in the target device, and the target state of the target device can be accurately and effectively determined through the incidence relation.
In this embodiment, determining the target state of the target device based on the association relationship and the sub-device data set means determining the target state of the target device according to the data values corresponding to the functional units in the target device and the corresponding data types, and may specifically be that when the data types of the target device include power data, current data, and voltage data, and the power data value is power ordered for the target device, the current data is 10A, and the voltage data is 220v, the target device is represented to be currently in the working state.
In this embodiment, the control type refers to a type that needs to change the state of the target device, and specifically may be to change the target device from an operating state to a standby state, or may be to change the target device from the standby state to the operating state.
In this embodiment, when the control type meets the preset switching condition of the target state, it indicates whether the control type meets the requirement for switching the target state of the target device, and specifically, when the target state of the target device is the working state, and the control type is switched from the standby state to the working state, the switching condition is not met, otherwise, when the control type is switched from the working state to the standby state, the switching condition is met.
In this embodiment, the preset switching condition is set in advance, and is used to measure whether the operating state of the target device needs to be switched.
In this embodiment, the key data refers to a data field in the function trigger information, which can characterize the type or purpose of the function trigger information.
In this embodiment, the interaction attribute refers to the interaction type and the interaction characteristics between the target device and the user and between the target device and the controller.
In this embodiment, the control instruction generation model trained in advance is acquired in advance.
In this embodiment, the control instruction sequence refers to all instruction elements capable of controlling the function of the target device.
In this embodiment, the triggering purpose refers to a control function to be finally realized by the function triggering information, that is, the purpose of switching the state of the mobile power supply sound box.
The beneficial effects of the above technical scheme are: the target device corresponding to the target to-be-controlled function is accurately and effectively determined by analyzing the target to-be-controlled function set, secondly, the current target state of the target device is accurately and reliably judged by analyzing the device data of the target device, and finally, the function trigger information and the target state are uniformly analyzed, so that when the target state of the target device meets the control type of the function trigger information, a corresponding target control instruction is generated, the accuracy of target control instruction generation can be guaranteed, accurate and reliable control over the internal functions of the multifunctional mobile power supply sound box is facilitated, and convenience and guarantee are provided for guaranteeing the operation effect of the multifunctional mobile power supply sound box.
Example 6:
on the basis of embodiment 5, this embodiment provides an intelligent control method for internal functions of a multifunctional mobile power supply sound box, and obtains a final target control instruction, including:
acquiring an obtained target control instruction, determining the subordination relation between the target control instruction and a target function to be controlled, acquiring an association binding result between a target device and the corresponding target function to be controlled, and determining the corresponding relation between the target control instruction and the target device based on the association binding result and the subordination relation;
constructing a distributed transmission link based on the corresponding relation, and labeling devices of terminals of each transmission link in the distributed transmission link;
and transmitting the target control instruction to the corresponding target device through the corresponding distributed transmission link based on the labeling result.
In this embodiment, the dependency relationship refers to a corresponding relationship between the target control instruction and the target function to be controlled, in order to determine a corresponding relationship between the target control instruction and the target device.
In this embodiment, the distributed transmission link is a transmission link corresponding to each target device, so as to ensure that the target control instruction is transmitted to the corresponding target device.
In this embodiment, the device labeling refers to performing device type labeling on a distributed transmission link according to a type of a target device linked by the distributed transmission link, so as to upload a target control instruction to a distributed transmission link corresponding to the target device.
The beneficial effects of the above technical scheme are: the method comprises the steps of determining the subordination relation between a target control instruction and a target function to be controlled and the association binding result between a target device and the corresponding target function to be controlled, accurately and effectively determining the corresponding relation between the target control instruction and the target device, and finally constructing a distributed transmission link according to the corresponding relation to accurately and effectively transmit the target control instruction to the corresponding target device, so that the accuracy of controlling different internal functions in the multifunctional mobile power supply sound box is guaranteed, and the control effect is guaranteed.
Example 7:
on the basis of embodiment 5, this embodiment provides an intelligent control method for internal functions of a multifunctional mobile power supply speaker, where the method for determining a target state of a target device based on an association relationship and a sub-device data set includes:
acquiring the target state of the obtained target device, and extracting the state attribute of the target state;
acquiring an allowable existing state list of a target device, matching the state attribute with the allowable existing state list, and determining that the current target state of the target device is abnormal when the target state of the target device is not consistent with a preset target state in the allowable existing state list based on a matching result;
rejecting the function trigger information based on the judgment result, generating a device fault detection report based on the target state of the target device, and transmitting the device fault detection report to the management terminal for alarm reminding.
In this embodiment, the state attribute refers to a type of a target state of the target device, and specifically may be whether the target state is currently an operating state or a standby state.
In this embodiment, the allowable presence state list is used to record the allowable states of the target device, and specifically, only the target state of the target device is allowed to be an operating state or a standby state.
In this embodiment, the preset target state is set in advance, and specifically, only the target state of the target device is allowed to be an operating state or a standby state.
In this embodiment, the device fault detection report refers to an alarm report generated when the target state of the target device is abnormal, and is intended to send an alarm prompt to a manager.
The beneficial effects of the above technical scheme are: through analyzing the target state of the target device, when the target state of the target device does not meet the state requirement, a corresponding device fault detection report is generated in time and alarm reminding is carried out, so that managers can overhaul or maintain the target device in time, and the control effect and the control accuracy of the internal functions of the multifunctional mobile power supply sound box are guaranteed.
Example 8:
on the basis of embodiment 1, this embodiment provides an intelligent control method for internal functions of a functional mobile power supply speaker, as shown in fig. 3, in step 3, determining a cooperative relationship and an independent relationship between target devices, and controlling the target devices to execute corresponding functional operations according to the cooperative relationship and the independent relationship based on a target control instruction, including:
step 301: acquiring target devices corresponding to the target function set to be controlled, extracting working attributes of the target devices, and determining necessary conditions required by the working of each target device based on the working attributes;
step 302: extracting parameter information of necessary conditions required by the work of each target device, simultaneously acquiring the corresponding relation between the normal work of each target device and a preset controller in the mobile power supply sound box, and determining control configuration parameters of preset control on each target device based on the corresponding relation;
step 303: determining a device composition map when each target device executes a corresponding target function based on the parameter information and the control configuration parameters, and associating the device composition maps of the target devices to obtain a cooperative relationship and an independent relationship between the target devices;
step 304: generating a device self-checking instruction based on the cooperative relationship and the independent relationship, performing first self-checking on the performance of each component in each target device based on the self-checking instruction, and performing second self-checking on the function of each target device based on the function execution standard of each target device after the first self-checking is passed;
step 305: after the second self-check is passed, a processing task list is created in a preset controller, and the obtained target control instructions corresponding to the target devices are updated in the processing task list;
step 306: and issuing the target control command to the corresponding target device through a preset controller target control command based on the updating result, and controlling the target device to execute the corresponding functional operation according to the cooperative relationship and the independent relationship.
In this embodiment, the operation attribute is an operation type, an operation mode, and the like that characterize the target device.
In this embodiment, the requirement refers to an external factor that the target device must satisfy during operation, and specifically, when the target device is a radio, the requirement required for operation is that power needs to be supplied by a portable power source inside a portable power source sound box.
In this embodiment, the parameter data refers to specific data content corresponding to the requirement and a specific value-taking condition corresponding to the data content.
In this embodiment, the preset controller is set in advance and is an important component in the portable power supply loudspeaker box.
In this embodiment, the control configuration parameter refers to a control standard or a control mode when the controller is preset to control different target devices.
In this embodiment, the device configuration map for determining that each target device executes the corresponding target function based on the parameter information and the control configuration parameter may specifically be that, when the target control device has only one target device to be controlled, the preset controller may determine, for the current control information of each target device in the portable power source loudspeaker box, other target devices that must be relied on when the target device to be controlled operates.
In this embodiment, the device composition map is used to characterize other target devices that different target devices must rely on in operation.
In this embodiment, the device self-test instruction is used to control a preset self-test program in the target device to detect the performance of each element in the target device and the function of the target device.
In this embodiment, the component performance refers to a performance state of each component included in the target device.
In this embodiment, the first self-inspection refers to the performance inspection of each component in each target device, and is intended to determine that each component in the target device can operate stably and reliably.
In this embodiment, the function execution standard is set in advance to represent the operation condition that each target device needs to achieve during operation.
In this embodiment, the second self-test refers to detecting functions of each target device, and specifically, when the target device is a sound box, the sound generation function of the sound box needs to be detected.
In this embodiment, the processing task list is used to record a target control instruction that needs to be issued in the preset controller, so that the preset controller can perform corresponding control on different target devices.
The beneficial effects of the above technical scheme are: the necessary conditions of the work of the target devices are obtained, so that the cooperative relationship and the independent relationship between the target devices during the work can be accurately and effectively determined according to the necessary conditions, secondly, the performance and function self-checking is carried out on different target devices when target control instructions are issued, and therefore the target devices can be ensured to make corresponding feedback responses aiming at the target control instructions, and finally, the target control instructions are issued to the corresponding target devices through the preset controller, so that the accurate and effective control on different internal functions in the multifunctional mobile power supply sound box is realized, the control accuracy of different functions in the multifunctional mobile power supply sound box is improved, and the operation effect of the multifunctional mobile power supply sound box is guaranteed.
Example 9:
on the basis of embodiment 8, this embodiment provides an intelligent control method for internal functions of a functional mobile power supply speaker, where a control target device executes corresponding functional operations according to a cooperative relationship and an independent relationship, and the method includes:
acquiring execution results of the target devices on the functional operation according to the cooperative relationship and the independent relationship, and determining real-time target state parameters of each target device based on the execution results;
transmitting the real-time target state parameters of each target device to a monitoring terminal based on a wireless transmission mode, and monitoring the running state of each target device by the monitoring terminal based on the received real-time target state parameters;
constructing a device performance evaluation model, inputting the real-time target state parameters of each target device obtained by supervision into the device performance evaluation model for analysis, and obtaining the real-time running performance of each target device;
and when the real-time running performance of the target device is lower than the corresponding preset performance threshold value, performing supervision fault alarm, and performing power-off treatment on the target device in the mobile power supply loudspeaker box based on an alarm result.
In this embodiment, the real-time target state parameter refers to an operating state corresponding to the target device when executing the control instruction corresponding to the function trigger information.
In this embodiment, the real-time performance refers to the real-time performance of the target device when performing the functional operation.
In this embodiment, the preset performance threshold is set in advance and is used to represent the minimum performance value that needs to be met by the target device.
The beneficial effects of the above technical scheme are: through monitoring the real-time operation performance of the target device for executing the function trigger information, the operation effect of each target device of the multifunctional mobile power supply sound box is convenient to ensure, so that the control accuracy of the mobile power supply sound box is improved, the mobile power supply sound box is convenient to timely control to perform power-off operation when abnormal conditions exist, and the operation effect of the multifunctional mobile power supply sound box is ensured.
Example 10:
on the basis of embodiment 1, this embodiment provides an intelligent control method of internal functions of a multifunctional mobile power supply sound box, including:
the method comprises the following steps of acquiring the total times of receiving function trigger information by a mobile power supply sound box in a preset time period and the total times of successfully triggering the mobile power supply sound box in the preset time period, calculating the recognition accuracy of the mobile power supply sound box to the function trigger information and the control accuracy of the mobile power supply sound box to internal functions based on the total times of receiving the function trigger information by the mobile power supply sound box and the total times of successfully triggering, and calculating the control effect score of the mobile power supply sound box based on the recognition accuracy and the control accuracy, wherein the specific steps comprise:
calculating the identification accuracy rate of the mobile power supply loudspeaker box to the function trigger information according to the following formula:
wherein,the identification accuracy of the mobile power supply loudspeaker box to the function trigger information is represented, and the value range is (0,1);the total times of successful triggering of the mobile power supply loudspeaker box in a preset time period are represented, and the value is smaller than;Representing the total times of receiving the function triggering information by the mobile power supply sound box in a preset time period;the number of times of false triggering contained in the total number of times of function triggering information received by the mobile power supply sound box in the preset time period is represented, and the value is smaller than;The total times which do not meet the triggering requirement in the total times of successful triggering in the preset time period are represented, and the value is less than;
Calculating the control accuracy of the mobile power supply sound box on the internal functions according to the following formula:
wherein,showing the internal functions of the mobile power supply sound boxThe control accuracy of (5) and the value range is (0,1);the number of the internal functions which need to be controlled currently in the mobile power supply loudspeaker box is represented, and the value range is [1,];a total number of categories representing internal functions contained in the portable power source speaker;is shown asThe number of times the internal function is accurately controlled;is shown asTotal number of times internal functions are controlled;
calculating the control effect score of the internal function of the mobile power supply sound box according to the following formula:
wherein,the control effect score of the internal function of the mobile power supply sound box is represented, and the value range is (0,1);representing a weight value corresponding to the recognition accuracy of the mobile power supply sound box on the function trigger information in the control effect scoring;
comparing the calculated control effect score with a preset score threshold;
if the calculated control effect score is larger than or equal to the preset score threshold value, judging that the control effect of the internal function of the mobile power supply sound box is qualified;
otherwise, judging that the control effect of the internal function of the mobile power supply sound box is unqualified, and adjusting the internal function control strategy of the mobile power supply sound box until the control effect score obtained through calculation is larger than or equal to a preset score threshold value.
In this embodiment, the preset time period is set in advance to limit the time length of monitoring.
In this embodiment, the control effect score represents how well the mobile power supply sound box controls the internal function, and the closer the value is to 1, the better the control effect of the mobile power supply sound box on the internal function is.
In this embodiment, the preset scoring threshold is set in advance, is used for representing the lowest standard of the mobile power supply sound box for controlling the internal function, and can be adjusted.
The beneficial effects of the above technical scheme are: through the identification accuracy rate of the multifunctional mobile power supply sound box to the function trigger information and the accurate and effective calculation of the control accuracy rate of the internal function, accurate and reliable calculation of the control effect of the multifunctional mobile power supply sound box to the internal function is realized conveniently according to the identification accuracy rate of the function trigger information and the control accuracy rate of the internal function, and when the control effect is not satisfied, the internal function control strategy of the mobile power supply sound box is adjusted timely, so that the control effect of the mobile power supply sound box is ensured, and the stable operation of the multifunctional mobile power supply sound box is ensured.
It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.
Claims (10)
1. An intelligent control method for internal functions of a multifunctional mobile power supply sound box is characterized by comprising the following steps:
step 1: acquiring function trigger information, analyzing the function trigger information, and determining a target function set to be controlled of the mobile power supply sound box;
step 2: determining a target state of a target device corresponding to the target function set to be controlled, and generating a target control instruction corresponding to the target device based on the target state;
and step 3: and determining a cooperative relationship and an independent relationship between the target devices, and controlling the target devices to execute corresponding functional operations according to the cooperative relationship and the independent relationship based on the target control instruction.
2. The intelligent control method for the internal functions of the multifunctional mobile power supply sound box according to claim 1, wherein in the step 1, the obtaining of the function trigger information comprises:
acquiring allowable trigger modes of the mobile power supply loudspeaker box, extracting mode characteristics of the allowable trigger modes, and configuring a function trigger monitoring strategy for each allowable trigger mode based on the mode characteristics, wherein the allowable trigger modes comprise physical trigger and wireless control trigger;
acquiring state parameter values of each allowable trigger mode when the mobile power supply sound box is in a standby state based on a function trigger monitoring strategy, and monitoring real-time state parameters of each allowable trigger mode of the mobile power supply sound box in real time through the function trigger monitoring strategy based on a preset time interval;
when the real-time state parameter changes relative to the state parameter value, the mobile power supply sound box is judged to be triggered, and function trigger information of the mobile power supply sound box is obtained through an allowable trigger mode based on a function trigger monitoring strategy.
3. The intelligent control method for the internal functions of the multifunctional mobile power supply sound box according to claim 1, wherein in step 1, the function trigger information is analyzed to determine a target function set to be controlled for the mobile power supply sound box, and the method comprises the following steps:
acquiring the obtained function trigger information, and converting the function trigger information into a corresponding data text, wherein the data text comprises target trigger data corresponding to the function trigger information;
extracting data characteristics of the target trigger data based on the data text, clustering the target trigger data based on the data characteristics, and obtaining a temporary classification data set based on a clustering result;
meanwhile, acquiring isolated trigger data after clustering, determining the similarity between the isolated trigger data and each temporary classified data set, and classifying the isolated trigger data to the temporary classified data set with the maximum similarity to obtain a final classified data set;
and extracting attribute information of the classified data set, matching the attribute information with attributes of a preset function list, and obtaining a target function set to be controlled corresponding to the function trigger information based on a matching result.
4. The intelligent control method for the internal functions of the multifunctional mobile power supply sound box according to claim 3, wherein obtaining the target function set to be controlled corresponding to the function trigger information based on the matching result comprises:
acquiring an obtained target function set to be controlled, and carrying out quantization processing on the target function set to be controlled to obtain a single independent function to be controlled;
extracting functional attributes of the single independent functions to be controlled, performing similarity detection on each single independent function to be controlled based on the functional attributes, and determining whether the same target functions to be controlled exist in the target function set to be controlled based on the similarity detection result;
when the same target functions to be controlled exist, determining the main target functions to be controlled based on the sequence of the received timestamps, and removing the remaining same target functions to be controlled;
otherwise, finishing the verification of the target function set to be controlled.
5. The method according to claim 1, wherein in step 2, determining a target state of a target device corresponding to the target function set to be controlled, and generating a target control command corresponding to the target device based on the target state includes:
acquiring an obtained target function set to be controlled, analyzing the target function set to be controlled, and determining a target device corresponding to each target function to be controlled in the target function set to be controlled;
extracting a device identifier of the target device, and performing association binding on the target device and the corresponding target function to be controlled based on the device identifier;
acquiring device data of a target device corresponding to each target function to be controlled based on the association binding result, extracting data characteristics of the device data, and classifying the device data of the target device based on the data characteristics to obtain a sub-device data set;
drawing a data value change curve of each sub-device data set based on the classification result, and fitting the data value change curve to obtain an association relation of data values of each sub-device in each sub-device data set;
determining a target state of the target device based on the incidence relation and the sub-device data set, simultaneously acquiring received function trigger information, and determining a control type of the target state of the target device based on the function trigger information, wherein the target state comprises a standby state and a working state;
when the control type meets a preset switching condition of a target state, performing first extraction on key data of function trigger information and second extraction on interaction attributes of a target device, and inputting the key data and the interaction attributes of the target device, which are obtained after the first extraction and the second extraction, into a pre-trained control instruction generation model for analysis to obtain a control instruction sequence;
and combining the control instruction sequences based on the triggering purpose of the function triggering information to obtain a final target control instruction.
6. The intelligent control method for the internal functions of the multifunctional mobile power supply sound box according to claim 5, wherein the obtaining of the final target control instruction comprises:
acquiring an obtained target control instruction, determining the subordination relation between the target control instruction and a target function to be controlled, acquiring an association binding result between a target device and the corresponding target function to be controlled, and determining the corresponding relation between the target control instruction and the target device based on the association binding result and the subordination relation;
constructing a distributed transmission link based on the corresponding relation, and labeling devices of terminals of each transmission link in the distributed transmission link;
and transmitting the target control instruction to the corresponding target device through the corresponding distributed transmission link based on the labeling result.
7. The intelligent control method for the internal functions of the multifunctional mobile power supply sound box according to claim 5, wherein the determining the target state of the target device based on the association relationship and the sub-device data set comprises:
acquiring the target state of the obtained target device, and extracting the state attribute of the target state;
acquiring an allowable existing state list of a target device, matching the state attribute with the allowable existing state list, and determining that the current target state of the target device is abnormal when the target state of the target device is not consistent with a preset target state in the allowable existing state list based on a matching result;
rejecting the function trigger information based on the judgment result, generating a device fault detection report based on the target state of the target device, and transmitting the device fault detection report to the management terminal for alarm reminding.
8. The method according to claim 5, wherein the target devices corresponding to the target functions to be controlled in the target functions to be controlled set comprise a mobile energy storage power supply, an emergency light, a solar panel, a portable speaker, a radio, and a K-zone microphone speaker.
9. The intelligent control method for the internal functions of the multifunctional mobile power supply sound box according to claim 1, wherein in step 3, the cooperative relationship and the independent relationship between the target devices are determined, and the target devices are controlled to execute the corresponding functional operations according to the cooperative relationship and the independent relationship based on the target control instruction, comprising:
acquiring target devices corresponding to the target function set to be controlled, extracting working attributes of the target devices, and determining necessary conditions required by the working of each target device based on the working attributes;
extracting parameter information of necessary conditions required by the work of each target device, simultaneously acquiring the corresponding relation between the normal work of each target device and a preset controller in the mobile power supply sound box, and determining control configuration parameters of preset control on each target device based on the corresponding relation;
determining device composition maps of each target device when executing corresponding target functions based on the parameter information and the control configuration parameters, and associating the device composition maps of each target device to obtain a cooperative relationship and an independent relationship between the target devices;
generating a device self-checking instruction based on the cooperative relationship and the independent relationship, performing first self-checking on the performance of each component in each target device based on the self-checking instruction, and performing second self-checking on the function of each target device based on the function execution standard of each target device after the first self-checking is passed;
after the second self-check is passed, a processing task list is created in a preset controller, and the obtained target control instructions corresponding to the target devices are updated in the processing task list;
and issuing the target control command to the corresponding target device through a preset controller target control command based on the updating result, and controlling the target device to execute the corresponding functional operation according to the cooperative relationship and the independent relationship.
10. The intelligent control method for internal functions of a multifunctional mobile power supply sound box according to claim 9, wherein the control target device executes corresponding functional operations according to a cooperative relationship and an independent relationship, and comprises:
acquiring execution results of the target devices on the functional operation according to the cooperative relationship and the independent relationship, and determining real-time target state parameters of each target device based on the execution results;
transmitting the real-time target state parameters of each target device to a monitoring terminal based on a wireless transmission mode, and monitoring the running state of each target device by the monitoring terminal based on the received real-time target state parameters;
constructing a device performance evaluation model, inputting the real-time target state parameters of each target device obtained by supervision into the device performance evaluation model for analysis, and obtaining the real-time running performance of each target device;
and when the real-time running performance of the target device is lower than the corresponding preset performance threshold value, performing supervision fault alarm, and performing power-off treatment on the target device in the mobile power supply loudspeaker box based on an alarm result.
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