CN112163344A - Product experience method and system, product experience control device and storage medium - Google Patents

Abstract

The invention discloses a product experience method and a system, a product experience control device and a storage medium, wherein the product experience method comprises the following steps: when an experience request for a product with a specified model is received, analyzing product operation condition parameters in the experience request; determining corresponding product running state parameters according to the specified model and the product running condition parameters based on the corresponding relation among the model of the known product, the running condition parameters and the running state parameters; the integrated sample board machine is controlled to simulate the products of the appointed models to operate according to the product operation state parameters, so that the actual operation effect of the products of the appointed models can be experienced through the integrated sample board machine, wherein the integrated sample board machine is used for achieving all functions of the products of each model under the same type, all sample board machines can be replaced through the integrated sample board machine, the cost is saved, and the interactive interestingness of product experience is increased.

Description

Product experience method and system, product experience control device and storage medium

Technical Field

The invention belongs to the technical field of product experience application, and particularly relates to a product experience method and system, a product experience control device and a storage medium.

Background

With the increasing demand of consumers, the variety of products is more and more. In order to enable consumers to have better product experience before purchasing products, the products are tried on site by using a template machine at present, and the template machine is needed for one type of product. Therefore, in order to allow consumers to experience more products, more space is needed to carry the sample boards, which means more investment costs, such as the cost required by a large number of sample boards and the cost generated by the more space required for the display of a large number of sample boards.

How to save the product experience cost on the premise of not influencing the product experience of consumers becomes a problem to be solved urgently.

There is a need for a product experience method and system, a product experience control device, and a storage medium.

Disclosure of Invention

The invention aims to solve the technical problem of saving the product experience cost on the premise of not influencing the product experience of consumers.

In view of the above problems, the present invention provides a product experience method and system, a product experience control device, and a storage medium.

In a first aspect, the invention provides a product experience method applied to an integrated sample plate machine, comprising the following steps:

when an experience request for a product with a specified model is received, analyzing product operation condition parameters in the experience request;

determining corresponding product running state parameters according to the specified model and the product running condition parameters based on the corresponding relation among the model of the known product, the running condition parameters and the running state parameters;

and controlling the integrated sample board machine to simulate the products of the specified models to operate according to the product operation state parameters so as to experience the actual operation effect of the products of the specified models through the integrated sample board machine, wherein the integrated sample board machine is used for realizing all functions of the products of each model under the same type.

According to the embodiment of the present invention, preferably, the correspondence between the model number of the product, the operating condition parameter, and the operating state parameter is constructed by:

for each type of product in the same category, collecting and storing the operating condition parameters of the product and the operating state parameters when the product operates under the operating condition parameters;

and forming a corresponding relation among the model of the product, the operation condition parameters and the operation state parameters of the product when the product operates under the operation condition parameters so as to obtain the corresponding relation among the model of each model of the product, the operation condition parameters and the operation state parameters under the same type.

According to an embodiment of the present invention, preferably, storing the operating condition parameters of the product and the operating state parameters when operating under the operating condition parameters comprises the steps of:

and storing the operation condition parameters of the product and the operation state parameters when the product operates under the operation condition parameters according to the minimum unit of the parameters so as to obtain the corresponding relation between the operation condition parameters and the operation state parameters of the fine-grained product.

According to the embodiment of the present invention, preferably, determining the corresponding product operation state parameter according to the designated model and the product operation condition parameter includes the following steps:

calling a product running condition parameter corresponding to the specified model from the corresponding relation;

comparing the product running condition parameters corresponding to the specified model with the product running condition parameters in the experience request;

judging whether product operation condition parameters meeting preset conditions exist in the product operation condition parameters corresponding to the specified model or not:

and when the product running condition parameters meeting preset conditions exist in the product running condition parameters corresponding to the specified model, calling the product running state parameters simultaneously corresponding to the specified model and the product running condition parameters meeting the preset conditions from the corresponding relation, and taking the product running state parameters as the product running state parameters corresponding to the product running condition parameters in the experience request.

According to the embodiment of the present invention, preferably, the preset condition is that a difference value between the preset condition and the product operation condition parameter in the experience request is smaller than a preset threshold value.

According to an embodiment of the present invention, preferably, when the product is an air conditioner, the product operation condition parameter is at least one of temperature, humidity, operation mode, wind speed, wind type and wind sensation, and the product operation state parameter is at least one of temperature, humidity, noise, wind speed, wind type and wind sensation.

In a second aspect, the invention provides a storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of the product experience method described above.

In a third aspect, the present invention provides a product experience control device, comprising a memory and a processor, the memory having stored thereon a computer program, which when executed by the processor, performs the steps of the product experience method described above.

In a fourth aspect, the present invention provides a product experience system, comprising:

the product experience control device;

and the integrated sample board machine is connected with the product experience control device and is used for being controlled by the product experience control device so as to simulate the operation of a product with a specified model.

According to an embodiment of the present invention, preferably, the product experience system further includes:

and the cloud server is connected with the product experience control device and is used for storing the corresponding relation among the model, the running condition parameters and the running state parameters of the known product so that the product experience control device can determine the corresponding running state parameters of the product according to the specified model and the running condition parameters of the product in the experience request.

Compared with the prior art, one or more embodiments in the above scheme can have the following advantages or beneficial effects:

by applying the product experience method, when an experience request for a product with a specified model is received, the product operation condition parameters in the experience request are analyzed; determining corresponding product running state parameters according to the specified model and the product running condition parameters based on the corresponding relation among the model of the known product, the running condition parameters and the running state parameters; the integrated sample board machine is controlled to simulate the products of the appointed models to operate according to the product operation state parameters, so that the actual operation effect of the products of the appointed models can be experienced through the integrated sample board machine, wherein the integrated sample board machine is used for achieving all functions of the products of each model under the same type, the integrated sample board machine can replace sample board machines of multiple models of the same type, a large number of sample board machines are omitted, a large number of required spaces of the sample board machines during display are omitted, and a large amount of input cost caused by the large number of sample board machines and the required spaces of the sample board machines during display can be saved on the premise of not affecting product experience.

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.

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 flow diagram illustrating a method for product experience in accordance with an embodiment of the present invention;

FIG. 2 is a flow chart of a product experience method according to an embodiment of the invention;

FIG. 3 is a diagram illustrating a first stage of a method of applying a five-product experience system in accordance with an embodiment of the present invention;

FIG. 4 is a diagram illustrating a second stage of the application method of the product experience system according to an embodiment of the present invention.

Detailed Description

The following detailed description of the embodiments of the present invention will be provided with reference to the drawings and examples, so that how to apply the technical means to solve the technical problems and achieve the technical effects can be fully understood and implemented. It should be noted that, as long as there is no conflict, the embodiments and the features of the embodiments of the present invention may be combined with each other, and the technical solutions formed are within the scope of the present invention.

Example one

In order to solve the technical problems in the prior art, the embodiment of the invention provides a product experience method.

Referring to fig. 1, the product experience method of the embodiment is applied to an integrated sample board machine, and includes the following steps:

s110, monitoring whether an experience request for a product with a specified model is received in real time:

if yes, go to step S120;

if not, no response is given;

s120, analyzing the product operation condition parameters in the experience request;

s130, based on the model of the known product, the corresponding relation between the running condition parameters and the running state parameters, calling the product running condition parameters corresponding to the specified model from the corresponding relation;

s140, comparing the product running condition parameters corresponding to the specified model with the product running condition parameters in the experience request;

s150, judging whether the product running condition parameters meeting preset conditions exist in the product running condition parameters corresponding to the specified model:

if yes, go to step S160;

if not, no response is given;

s160, calling product running state parameters corresponding to the specified model and the product running condition parameters meeting the preset conditions from the corresponding relation, and taking the product running state parameters as the product running state parameters corresponding to the product running condition parameters in the experience request;

s170, controlling the integrated sample board machine to simulate the product of the appointed model to operate according to the product operation state parameter, so as to experience the actual operation effect of the product of the appointed model through the integrated sample board machine, wherein the integrated sample board machine is used for realizing all functions of the product of each model in the same type.

In step S130, the correspondence between the model of the product, the operating condition parameters, and the operating state parameters is constructed by:

for each type of product in the same category, collecting and storing the operating condition parameters of the product and the operating state parameters when the product operates under the operating condition parameters;

and forming a corresponding relation among the model of the product, the operation condition parameters and the operation state parameters of the product when the product operates under the operation condition parameters so as to obtain the corresponding relation among the model of each model of the product, the operation condition parameters and the operation state parameters under the same type.

Wherein storing the operating condition parameters of the product and the operating state parameters when operating under said operating condition parameters comprises the steps of:

and storing the operation condition parameters of the product and the operation state parameters when the product operates under the operation condition parameters according to the minimum unit of the parameters so as to obtain the corresponding relation between the operation condition parameters and the operation state parameters of the fine-grained product.

When there are a plurality of product operation condition parameters in the experience request, in step S140, comparing the product operation condition parameter corresponding to the specified model with the product operation condition parameter in the experience request, including the following steps:

comparing the product operating condition parameters corresponding to the specified model with each of the product operating condition parameters in the experience request,

correspondingly, in step S150, determining whether a product operation condition parameter meeting a preset condition exists in the product operation condition parameters corresponding to the specified model includes the following steps:

for each product operation condition parameter in the experience request, judging whether a product operation condition parameter meeting a preset condition exists in the product operation condition parameters corresponding to the specified model;

and when the product running condition parameters meeting the preset conditions exist in the product running condition parameters corresponding to the specified model for each product running condition parameter in the experience request, judging that the product running condition parameters meeting the preset conditions exist in the product running condition parameters corresponding to the specified model.

In step S150, the preset condition is that a difference value between the preset condition and the product operation condition parameter in the experience request is smaller than a preset threshold.

In step S170, the integrated sample plate machine covers the structural differences of all models of the same kind of product as much as possible.

According to the product experience method, the operation condition parameters of the product and the operation state parameters of the product during operation under the operation condition parameters are collected and stored through a big data technology, a brand-new product experience interaction mode is realized by combining an integrated sample board machine, and the input cost of product experience in the mode of originally carrying out a large number of sample board machines is reduced.

Example two

In order to solve the above technical problems in the prior art, an embodiment of the present invention provides a product experience method based on the first embodiment, where in the first embodiment, the product is an air conditioner, the product operating condition parameter is at least one of temperature, humidity, operating mode, wind speed, wind type, and wind sensation, and the product operating state parameter is at least one of temperature, humidity, noise, wind speed, wind type, and wind sensation.

Referring to fig. 2, the product experience method of the embodiment is applied to an integrated sample board machine, and includes the following steps:

s210, monitoring whether an experience request for the air conditioner with the specified model is received in real time:

if yes, go to step S220;

if not, no response is given;

s220, analyzing the air conditioner operation condition parameters in the experience request;

s230, based on the known corresponding relation among the model of the air conditioner, the operation condition parameters and the operation state parameters, the operation condition parameters of the air conditioner corresponding to the specified model are called from the corresponding relation;

s240, comparing the air conditioner running condition parameters corresponding to the specified model with the air conditioner running condition parameters in the experience request;

s250, judging whether the air conditioner operation condition parameters meeting preset conditions exist in the air conditioner operation condition parameters corresponding to the specified model:

if yes, go to step S260;

if not, no response is given;

s260, calling air conditioner running state parameters which correspond to the specified model and the air conditioner running condition parameters meeting the preset conditions from the corresponding relation, and taking the air conditioner running state parameters which correspond to the air conditioner running condition parameters in the experience request;

s270, when the operating state parameter of the air conditioner is temperature and/or humidity, controlling the integrated sample board machine to display the temperature and/or the humidity; and when the operating state parameter of the air conditioner is at least one of noise, wind speed, wind type and wind sensation, controlling the integrated sample board machine to produce the effect of the at least one of the noise, the wind speed, the wind type and the wind sensation.

The working mode comprises a cooling mode and a heating mode, and the wind type comprises up wind and down wind.

According to the invention, by collecting the operating condition parameters of the product during operation and the operating state parameters of the product during operation under the operating condition parameters and designing the integrated sample board machine based on the operating condition parameters, one integrated sample board machine is finally realized to replace all sample board machines, a brand new product experience mode is provided, the investment cost is saved, and the product experience interest is increased.

EXAMPLE III

In order to solve the above technical problems in the prior art, an embodiment of the present invention further provides a storage medium.

A storage medium of the present embodiment, on which a computer program is stored, which when executed by a processor, implements the steps of:

when an experience request for a product with a specified model is received, analyzing product operation condition parameters in the experience request;

determining corresponding product running state parameters according to the specified model and the product running condition parameters based on the corresponding relation among the model of the known product, the running condition parameters and the running state parameters;

and controlling the integrated sample board machine to simulate the products of the specified models to operate according to the product operation state parameters so as to experience the actual operation effect of the products of the specified models through the integrated sample board machine, wherein the integrated sample board machine is used for realizing all functions of the products of each model under the same type.

Determining corresponding product running state parameters according to the specified model and the product running condition parameters, wherein the method comprises the following steps:

calling a product running condition parameter corresponding to the specified model from the corresponding relation;

comparing the product running condition parameters corresponding to the specified model with the product running condition parameters in the experience request;

judging whether a product running condition parameter meeting a preset condition exists in the product running condition parameters corresponding to the specified model, wherein the preset condition is that a difference value between the preset condition parameter and the product running condition parameter in the experience request is smaller than a preset threshold value:

and when the product running condition parameters meeting preset conditions exist in the product running condition parameters corresponding to the specified model, calling the product running state parameters simultaneously corresponding to the specified model and the product running condition parameters meeting the preset conditions from the corresponding relation, and taking the product running state parameters as the product running state parameters corresponding to the product running condition parameters in the experience request.

Example four

In order to solve the technical problems in the prior art, the embodiment of the invention also provides a product experience control device.

The product experience control device of the embodiment comprises a memory and a processor, wherein the memory stores a computer program, and the computer program realizes the following steps when being executed by the processor:

when an experience request for a product with a specified model is received, analyzing product operation condition parameters in the experience request;

determining corresponding product running state parameters according to the specified model and the product running condition parameters based on the corresponding relation among the model of the known product, the running condition parameters and the running state parameters;

and controlling the integrated sample board machine to simulate the products of the specified models to operate according to the product operation state parameters so as to experience the actual operation effect of the products of the specified models through the integrated sample board machine, wherein the integrated sample board machine is used for realizing all functions of the products of each model under the same type.

Determining corresponding product running state parameters according to the specified model and the product running condition parameters, wherein the method comprises the following steps:

calling a product running condition parameter corresponding to the specified model from the corresponding relation;

comparing the product running condition parameters corresponding to the specified model with the product running condition parameters in the experience request;

judging whether a product running condition parameter meeting a preset condition exists in the product running condition parameters corresponding to the specified model, wherein the preset condition is that a difference value between the preset condition parameter and the product running condition parameter in the experience request is smaller than a preset threshold value:

and when the product running condition parameters meeting preset conditions exist in the product running condition parameters corresponding to the specified model, calling the product running state parameters simultaneously corresponding to the specified model and the product running condition parameters meeting the preset conditions from the corresponding relation, and taking the product running state parameters as the product running state parameters corresponding to the product running condition parameters in the experience request.

EXAMPLE five

In order to solve the technical problems in the prior art, the embodiment of the invention also provides a product experience system.

The product experience system of the present embodiment includes:

the product experience control device;

the integrated sample board machine is connected with the product experience control device and is used for being controlled by the product experience control device so as to simulate the operation of a product with a specified model;

and the cloud server is connected with the product experience control device and is used for storing the corresponding relation among the model, the running condition parameters and the running state parameters of the known product so that the product experience control device can determine the corresponding running state parameters of the product according to the specified model and the running condition parameters of the product in the experience request.

The application method of the product experience system of the embodiment is as follows:

the application method of the product experience system of the embodiment mainly comprises two stages, and the specific flow is as follows:

in the first stage, referring to fig. 3, the cloud server wirelessly communicates with products of the same type and different models:

1: A. b, C, D are products of the same type and different models of enterprises, run in the home of the consumer, and collect data of product running through the technology of internet of things without revealing privacy and under the permission of the consumer;

2: uploading the collected data to a cloud server at a proper time for integrated storage;

3: the storage of data is done in the smallest units of the product for data support as subsequent software.

In the second stage, referring to fig. 4, the cloud server is connected to control software (specifically, a product experience control device), and the control software is connected to hardware (an integrated sample board machine):

1: various hardware modules required to be used in a product experience link are arranged in hardware, such as noise simulation, a fan and the like;

2: the software layer performs multi-dimensional visual display of products based on the previously collected data, so that consumers can know the products of enterprises more comprehensively;

3: with the continuous operation of the data collection work in the first stage and the continuous increase of the data volume of the product operation data, the software can be optimized and upgraded continuously by utilizing a big data technology, and a more complete function is provided, namely, the realization of the software core function depends on the operation data, and the software can provide a finer-grained function by a mathematical modeling means along with the accumulation of the data volume and the increase of the data dimension so as to realize the optimization of the software;

4: the method comprises the following steps that a consumer can control intelligent hardware by operating software equipped with the intelligent hardware in a shop, the software level provides multi-dimensional indexes of products, such as temperature, humidity, wind speed, wind type and the like, the consumer can intuitively feel corresponding reactions made by the hardware by adjusting the indexes, such as the noise size, the wind type, the wind feeling, the humidity change and the like, namely, a plurality of modes which can be selected by a user are provided through a large amount of collected data, the software sends operation parameters of corresponding hardware equipment to corresponding modules according to the mode selected by the user, and the modules operate;

5: the intelligent software and hardware need to be networked, and the cloud service is conveniently docked.

In practical applications, hardware (an integrated sample board machine) is displayed in a shop, and software (specifically, implemented as a product experience control device) may be a remote controller or the like equipped for the hardware.

The application method of the product experience system of the embodiment enables enterprises to design interactive software by collecting product operation data and based on big data technology; various hardware modules required for product experience are configured on the hardware; finally, through the interactive control of software and hardware, the control of the software layer to the hardware is realized, the control to the hardware can be achieved through the operation to the software by consumers, the integrated experience of various products is realized, the high input cost of the experience mode of the sample board machine can be saved, and the interactive interest in the product experience is also increased.

The application method of the product experience system of the embodiment collects runtime data of a product, and is used for optimizing product design on one hand and training a data model (corresponding relation between models, running condition parameters and running state parameters of the same product) of intelligent software and hardware on the other hand.

The application method of the product experience system of the embodiment realizes the collection of data during the product operation through the internet of things technology, applies the collected data to intelligent software and hardware through a big data technology, then provides product experience through a software control mode through the hardware, and subsequently, along with the continuous collection of the data, the software model can also continuously optimize iteration, so that the whole product experience process realizes good circulation.

Although the embodiments of the present invention have been described above, the above description is only for the convenience of understanding the present invention, and is not intended to limit the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A product experience method is applied to an integrated sample board machine and is characterized by comprising the following steps:

when an experience request for a product with a specified model is received, analyzing product operation condition parameters in the experience request;

determining corresponding product running state parameters according to the specified model and the product running condition parameters based on the corresponding relation among the model of the known product, the running condition parameters and the running state parameters;

and controlling the integrated sample board machine to simulate the products of the specified models to operate according to the product operation state parameters so as to experience the actual operation effect of the products of the specified models through the integrated sample board machine, wherein the integrated sample board machine is used for realizing all functions of the products of each model under the same type.

2. The method according to claim 1, wherein the correspondence between the model number of the product, the operating condition parameter, and the operating state parameter is constructed by:

for each type of product in the same category, collecting and storing the operating condition parameters of the product and the operating state parameters when the product operates under the operating condition parameters;

and forming a corresponding relation among the model of the product, the operation condition parameters and the operation state parameters of the product when the product operates under the operation condition parameters so as to obtain the corresponding relation among the model of each model of the product, the operation condition parameters and the operation state parameters under the same type.

3. The method of claim 2, wherein storing operating condition parameters of the product and operating state parameters when operating under said operating condition parameters comprises the steps of:

and storing the operation condition parameters of the product and the operation state parameters when the product operates under the operation condition parameters according to the minimum unit of the parameters so as to obtain the corresponding relation between the operation condition parameters and the operation state parameters of the fine-grained product.

4. The method of claim 1, wherein determining corresponding product operating condition parameters based on the specified model number and the product operating condition parameters comprises:

calling a product running condition parameter corresponding to the specified model from the corresponding relation;

comparing the product running condition parameters corresponding to the specified model with the product running condition parameters in the experience request;

judging whether product operation condition parameters meeting preset conditions exist in the product operation condition parameters corresponding to the specified model or not:

and when the product running condition parameters meeting preset conditions exist in the product running condition parameters corresponding to the specified model, calling the product running state parameters simultaneously corresponding to the specified model and the product running condition parameters meeting the preset conditions from the corresponding relation, and taking the product running state parameters as the product running state parameters corresponding to the product running condition parameters in the experience request.

5. The method of claim 4, wherein the predetermined condition is that a difference between the product operating condition parameter in the experience request and the predetermined condition is less than a predetermined threshold.

6. The method of claim 1, wherein when the product is an air conditioner, the product operation condition parameter is at least one of temperature, humidity, operation mode, wind speed, wind type, and wind sensation, and the product operation state parameter is at least one of temperature, humidity, noise, wind speed, wind type, and wind sensation.

7. A storage medium on which a computer program is stored which, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 6.

8. A product experience control apparatus comprising a memory and a processor, characterized in that the memory has stored thereon a computer program which, when executed by the processor, carries out the steps of the method according to any one of claims 1 to 6.

9. A product experience system, comprising:

the product experience control device of claim 8;

and the integrated sample board machine is connected with the product experience control device and is used for being controlled by the product experience control device so as to simulate the operation of a product with a specified model.

10. The system of claim 9, further comprising:

and the cloud server is connected with the product experience control device and is used for storing the corresponding relation among the model, the running condition parameters and the running state parameters of the known product so that the product experience control device can determine the corresponding running state parameters of the product according to the specified model and the running condition parameters of the product in the experience request.

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