CN111912941A - Sensory test method, sensory test system, and computer-readable storage medium - Google Patents

Abstract

The disclosure provides a sensory test method, a sensory test system and a computer readable storage medium, and relates to the technical field of information. The sensory test method comprises the following steps: selecting at least one test sample from the list of samples; determining a sensory test template corresponding to the test sample; generating sensory test information according to the test sample and the sensory test template; determining at least one tester corresponding to the sensory test information; issuing the sensory test information to a test account of a tester; and receiving sensory test feedback information filled by the tester from the test account number. The method and the device realize informatization in the sensory test process, and can distribute the sensory test information and receive the sensory test feedback information on line, so that the sensory test on the sample is realized more conveniently and efficiently, and the cost of the sensory test is saved.

Description

Sensory test method, sensory test system, and computer-readable storage medium

Technical Field

The present disclosure relates to the field of information technology, and in particular, to a sensory test method, a sensory test system, and a computer-readable storage medium.

Background

Sensory testing refers to the use of sensory organs by sensory testers to test the sensory characteristics of products.

In the traditional sensory test method, after a customer sends a test sample to be subjected to sensory test to a tester, the design, distribution, filling and recovery of a sensory test questionnaire are completed on line, and the statistical analysis and filing record of test results on the sensory test questionnaire are also completed on line.

Disclosure of Invention

The technical problem that this disclosure solved is, how to realize the sense organ test to the sample more convenient efficient.

According to an aspect of an embodiment of the present disclosure, there is provided a sensory testing method including: selecting at least one test sample from the list of samples; determining a sensory test template corresponding to the test sample; generating sensory test information according to the test sample and the sensory test template; determining at least one tester corresponding to the sensory test information; issuing the sensory test information to a test account of a tester; and receiving sensory test feedback information filled by the tester from the test account number.

In some embodiments, determining a sensory test template corresponding to the test sample comprises: under the condition that whether the difference exists among the plurality of test samples is unknown, adopting a difference analysis template as a sensory test template corresponding to the plurality of test samples; under the condition that the difference exists between a plurality of known test samples and the difference degree between a plurality of unknown test samples, adopting a scale analysis template as a sensory test template corresponding to the plurality of test samples; under the conditions that the differences among a plurality of test samples are known and the reasons of the differences among the test samples are unknown, adopting a descriptive analysis template as a sensory test template corresponding to the test samples; in the case of unknown satisfaction values of the test samples, a scale analysis template is used as a sensory test template corresponding to the test samples.

In some embodiments, generating sensory test information from the test sample and the sensory test template comprises: generating different random number codes for a plurality of test samples respectively; filling the random number code of each test sample into the sensory test template to generate sensory test information.

In some embodiments, the sensory testing method further comprises: and analyzing and processing the sensory test feedback information received from the test account numbers of the multiple testers by using the confidence coefficient operation function corresponding to the sensory test template to obtain the sensory test results of the test samples, wherein the sensory test results comprise a sensory test conclusion and the confidence coefficient of the sensory test conclusion.

In some embodiments, the sensory testing method further comprises: and filling the sense test conclusion and the sense test basic information into a sense test report template to generate a sense test report of the test sample, wherein the sense test basic information comprises the test date, the test place, the test sample batch, the total number of testers and the test number.

In some embodiments, determining at least one tester to which the sensory test information corresponds includes: and determining at least one tester corresponding to the sensory test information according to the historical test accuracy of each tester.

In some embodiments, the sensory testing method further comprises: according to the sensory test feedback information and the standard feedback information of the sensory test information, determining the accuracy of the sensory test feedback information; and determining the historical test accuracy of the tester according to the accuracy of the sensory test feedback information filled by the tester in the past.

In some embodiments, the sensory testing method further comprises: the accuracy of the sensory test feedback information filled by the tester in the past and the historical test accuracy of the tester are related to the basic information of the tester; in response to a query request for a tester, basic information of the tester, accuracy of sensory test feedback information filled by the tester over time, and historical test accuracy of the tester are displayed.

In some embodiments, the sensory testing method further comprises: and determining the test workload of each tester according to the number of sensory tests contained in the sensory test feedback information.

According to another aspect of an embodiment of the present disclosure, there is provided a sensory testing system including: a sample selection module configured to select at least one test sample from a list of samples; a template determination module configured to determine a sensory test template corresponding to the test sample; the information generation module is configured to generate sensory test information according to the test sample and the sensory test template; the tester determining module is configured to determine at least one tester corresponding to the sensory test information; the information issuing module is configured to issue the sensory test information to a test account of a tester; and the information receiving module is configured to receive sensory test feedback information filled by a tester from the test account.

In some embodiments, the template determination module is configured to: under the condition that whether the difference exists among the plurality of test samples is unknown, adopting a difference analysis template as a sensory test template corresponding to the plurality of test samples; under the condition that the difference exists between a plurality of known test samples and the difference degree between a plurality of unknown test samples, adopting a scale analysis template as a sensory test template corresponding to the plurality of test samples; under the conditions that the differences among a plurality of test samples are known and the reasons of the differences among the test samples are unknown, adopting a descriptive analysis template as a sensory test template corresponding to the test samples; in the case of unknown satisfaction values of the test samples, a scale analysis template is used as a sensory test template corresponding to the test samples.

In some embodiments, the information generation module is configured to: generating different random number codes for a plurality of test samples respectively; filling the random number code of each test sample into the sensory test template to generate sensory test information.

In some embodiments, the sensory testing system further comprises an information analysis module configured to: and analyzing and processing the sensory test feedback information received from the test account numbers of the multiple testers by using the confidence coefficient operation function corresponding to the sensory test template to obtain the sensory test results of the test samples, wherein the sensory test results comprise a sensory test conclusion and the confidence coefficient of the sensory test conclusion.

In some embodiments, the sensory testing system further comprises a report generation module configured to: and filling the sense test conclusion and the sense test basic information into a sense test report template to generate a sense test report of the test sample, wherein the sense test basic information comprises the test date, the test place, the test sample batch, the total number of testers and the test number.

In some embodiments, the tester determination module is configured to: and determining at least one tester corresponding to the sensory test information according to the historical test accuracy of each tester.

In some embodiments, the sensory testing system further comprises a historical test accuracy determination module configured to: according to the sensory test feedback information and the standard feedback information of the sensory test information, determining the accuracy of the sensory test feedback information; and determining the historical test accuracy of the tester according to the accuracy of the sensory test feedback information filled by the tester in the past.

In some embodiments, the sensory testing system further comprises an information display module configured to: the accuracy of the sensory test feedback information filled by the tester in the past and the historical test accuracy of the tester are related to the basic information of the tester; in response to a query request for a tester, basic information of the tester, accuracy of sensory test feedback information filled by the tester over time, and historical test accuracy of the tester are displayed.

In some embodiments, the sensory testing system further comprises a workload determination module configured to: and determining the test workload of each tester according to the number of sensory tests contained in the sensory test feedback information.

According to yet another aspect of an embodiment of the present disclosure, there is provided another sensory testing system including: a memory; and a processor coupled to the memory, the processor configured to perform the aforementioned sensory testing method based on instructions stored in the memory.

According to yet another aspect of an embodiment of the present disclosure, there is provided a computer-readable storage medium, wherein the computer-readable storage medium stores computer instructions, which when executed by a processor, implement the aforementioned sensory testing method.

The method and the device realize informatization in the sensory test process, and can distribute the sensory test information and receive the sensory test feedback information on line, so that the sensory test on the sample is realized more conveniently and efficiently, and the cost of the sensory test is saved.

Other features of the present disclosure and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which proceeds with reference to the accompanying drawings.

Drawings

In order to more clearly illustrate the embodiments of the present disclosure or technical solutions in the related art, the drawings required to be used in the description of the embodiments or the related art will be briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present disclosure, and for those skilled in the art, other drawings may be obtained according to the drawings without inventive exercise.

Fig. 1 illustrates a flow diagram of a sensory testing method of some embodiments of the present disclosure.

Figure 2 shows a flow diagram of a sensory testing method of further embodiments of the present disclosure.

Fig. 3 shows a flow diagram of a sensory testing method of further embodiments of the present disclosure.

Fig. 4 illustrates a schematic structural diagram of a sensory testing system of some embodiments of the present disclosure.

Fig. 5 shows a schematic structural diagram of a sensory testing system according to further embodiments of the present disclosure.

Detailed Description

The technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the described embodiments are only a part of the embodiments of the present disclosure, and not all of the embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the disclosure, its application, or uses. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

Some embodiments of the sensory test methods of the present disclosure are first described in conjunction with fig. 1.

Fig. 1 illustrates a flow diagram of a sensory testing method of some embodiments of the present disclosure. As shown in fig. 1, the present embodiment includes steps S101 to S106.

In step S101, at least one test sample is selected from the sample list.

Assume that the selected test samples are test sample 1 and test sample 2, and the sensory test lot was established for test sample 1 and test sample 2.

In step S102, a sensory test template corresponding to the test sample is determined.

The sensory test can be classified into sensory difference analysis, sensory scale analysis, sensory descriptive analysis, sensory taste analysis, and the like according to the purpose and need of the sensory test. The sensory difference analysis means that the difference degree of the sensory attributes of the test samples is qualitatively analyzed through sensory tests; the sensory difference analysis can be used for sensory tests of scenes such as factory quality control, market sampling, raw material replacement, packaging material change, formula optimization and the like. Sensory scale analysis refers to the quantitative analysis of the degree of difference in sensory attributes of test samples by sensory testing. Sensory descriptive analysis means open-ended textual description of the sensory attributes or sensory characteristics of the test sample by sensory testing; the flavor map, flavor trend, flavor innovation opportunity and the like of the market sample can be obtained through sensory descriptive analysis. The sensory preference analysis is a method for analyzing preference degree of overall sensory and/or sensory attributes of the product through sensory test; through the analysis of the sensory preference degree, the information of the sensory preference degree, the preference ranking degree and the like of the product can be obtained.

In view of this, a corresponding sensory test template may be selected when adding a test protocol to a test sample. In the case of unknown differences among a plurality of test samples, a difference analysis template is used as a sensory test template corresponding to the plurality of test samples, for example, a three-point method, a two-three point method or a pair method difference analysis template is used, so as to analyze whether the differences exist among the plurality of test samples. Under the condition that the difference between a plurality of test samples is known and the difference degree between the plurality of test samples is unknown, the scale analysis template is adopted as the sensory test template corresponding to the plurality of test samples, for example, a 5-division or 9-division scale analysis template is adopted, and the specific division can be freely edited and adjusted according to actual needs so as to analyze the difference degree between the plurality of test samples. In the case that the differences among the plurality of test samples are known and the reasons for the differences among the plurality of test samples are unknown, the descriptive analysis template is adopted as the sensory test template corresponding to the plurality of test samples, for example, the descriptive analysis template containing the names of the editable attributes and the intensity of the editable attributes can be adopted so as to analyze what the differences among the plurality of test samples are. Under the condition that the satisfaction value of the test sample is unknown, the scale analysis template is adopted as the corresponding sensory test template of the test sample, for example, a 9-division scale analysis template is adopted, and the specific division can be freely edited and adjusted according to actual needs so as to analyze the satisfaction value of the test sample.

In step S103, sensory test information is generated based on the test sample and the sensory test template.

The specific form of the sensory test information may be, for example, a sensory test electronic questionnaire. When sensory test information is generated, different random number codes are generated for a plurality of test samples, for example, when sensory test is performed by a three-point method, three test samples are displayed as test sample 1, test sample 2 and test sample 1, and the generated random number codes are 849, 490 and 172 respectively to represent the three test samples in the sensory test process. It will be appreciated by those skilled in the art that the same test samples in the same set of sensory tests also have different random number codes and that no duplication occurs between all the random number codes generated. Then, the random number code of each test sample is filled in the sensory test template to generate sensory test information. In addition, the generated sensory test information can be maintained to form a sensory test information base for the design of the subsequent sensory test electronic questionnaire.

The step of generating sensory test information may be performed by a sensory test designer. Specifically, a plurality of sensory test questions may be designed by a plurality of sensory testers, each sensory test corresponds to one sensory test question and a plurality of testers, and a sensory test electronic questionnaire is composed of the plurality of sensory test questions. Each tester can only complete the assigned sensory test questions and sensory test electronic questionnaire.

In step S104, at least one tester corresponding to the sensory test information is determined.

When the testers are added, at least one tester corresponding to the sensory test information can be determined according to the historical test accuracy of each tester.

In step S105, the sensory test information is issued to the test account of the tester.

Those skilled in the art will appreciate that the tester's test account number may be pre-assigned by an administrator of the sensory testing system.

In step S106, sensory test feedback information filled out by the tester is received from the test account.

For example, after the testers make evaluations between evaluations, the testers log in the sensory test system by using the test account numbers, and fill in sensory test feedback information in a sensory test part in the sensory test module. After all testers complete the sensory test, the sensory test feedback information filled by all testers can be automatically counted and summarized in the sensory test system.

The method and the device realize informatization in the sensory test process, and can release sensory test information and receive sensory test feedback information on line, so that the sensory test of a sample is realized more conveniently and efficiently, the sensory test work efficiency of testers is improved, and the manpower cost, the material resource cost and the time cost of the sensory test are saved.

Those skilled in the art will understand that the sensory test method provided in the above embodiments can cover the categories of beverages, foods, health products, skin care products, cosmetics, and the like, and can satisfy the sensory test services of the product from the concept generation stage, the formula development stage, the product (consumer) test stage, the factory sampling stage, the market sampling stage, and the like, in a full flow and a full cycle. In addition, the sensory test method provided by the embodiment can also provide a cosmetic safety and efficacy evaluation test service, and the sensory test system can perform and verify human body tests related to cosmetic safety, such as irritation, allergy and the like, and skin-related efficacy tests, such as moisturizing, whitening, anti-aging and the like.

Further embodiments of the sensory test methods of the present disclosure are described below in conjunction with fig. 2. The embodiments enable management of sensory test results and sensory test reports.

Figure 2 shows a flow diagram of a sensory testing method of further embodiments of the present disclosure. As shown in fig. 2, on the basis of the embodiment of fig. 1, the present embodiment further includes step S207 to step S208.

In step S207, the sensory test feedback information received from the test account numbers of the multiple testers is analyzed and processed by using the confidence coefficient operation function corresponding to the sensory test template, so as to obtain the sensory test result of the test sample, where the sensory test result includes a sensory test conclusion and the confidence coefficient of the sensory test conclusion.

Assuming that sensory test feedback information received from test account numbers of a plurality of testers obeys binomial distribution, parameters such as alpha, beta and the like can be preset in a confidence coefficient operation function corresponding to the sensory test template, and after the confidence coefficient operation function is analyzed and processed, the confidence coefficient of a sensory test conclusion and a sensory test conclusion can be obtained. The confidence level generally includes a confidence interval, and the upper limit of the confidence interval can determine whether the plurality of test samples are similar, and the lower limit of the confidence interval can determine whether the plurality of test samples are different. If the lower limit of the confidence interval is not greater than zero, it can generally be determined that there is no difference between the plurality of test samples; differences between multiple test samples can generally be determined if the lower limit of the confidence interval is greater than zero.

As will be understood by those skilled in the art, step S207 is a process of processing feedback information of the sensory test when the template is analyzed differently. When the scale analysis template is adopted, the preference data of the test sample can be determined through a corresponding sorting algorithm or a calculation formula, for example, a plurality of calculation modes such as a 9-point mean algorithm, a Top algorithm and the like are adopted, and are not listed.

In step S208, the sensory test conclusion and the sensory test basic information are filled in the sensory test report template to generate the sensory test report of the test sample, and the sensory test basic information includes the test date, the test location, the test sample batch, the total number of testers, and the test number.

For each sensory test conclusion, it may be presented in a data list style. After the report builder selects the sensory test report template, a sensory test report of the test sample can be automatically generated. In addition, the sensory test report of the test sample can be completed on line, and then the sensory test report is uploaded to a sensory test system in a plug-in mode. The flow of managing the sensory test report in the sensory test system is similar to the conventional sensory test flow, and is not described herein again.

The embodiment realizes the automatic processing of the sensory test result and the generation of the sensory test report, further realizes the informatization of the sensory test process, can generate the sensory test report more conveniently and efficiently, saves the working time for searching and statistically analyzing the sensory test result, and further saves the cost of the sensory test.

Further embodiments of the sensory test methods of the present disclosure are described below in conjunction with fig. 3. These embodiments enable management of a tester.

Fig. 3 shows a flow diagram of a sensory testing method of further embodiments of the present disclosure. As shown in fig. 3, in addition to the embodiment of fig. 1, the present embodiment further includes steps S309 to S310.

In step S309, the accuracy of the sensory test feedback information is determined based on the sensory test feedback information and the standard feedback information of the sensory test information.

For example, the performance of the answer filled by the tester may be determined according to the comparison of the answer filled by the tester in the sensory test electronic questionnaire with the standard answer.

In step S310, the accuracy of the historical test of the tester is determined according to the accuracy of the sensory test feedback information filled by the tester in the past.

For example, the accuracy of the sensory test feedback information filled by the tester in the past times is weighted and averaged, so that the historical average performance of the tester can be obtained.

In some embodiments, the method further comprises steps S311 to S312. The embodiments can construct label information of a tester and realize effective screening of the tester according to the label information of the tester.

In step S311, the accuracy of the sensory test feedback information filled out by the tester over the course and the historical test accuracy of the tester are associated with basic information of the tester (e.g., age, sex, position, test time, test place, etc.).

In step S312, in response to the query request to the tester, basic information of the tester, accuracy of sensory test feedback information filled by the tester over time, and historical test accuracy of the tester are displayed.

Those skilled in the art will appreciate that relevant information for each tester may be queried in selecting a tester, including basic information for the tester, the number of times the tester has participated in the sensory test, the accuracy of sensory test feedback information that the tester has filled in all the times, and the accuracy of historical tests for the tester.

In some embodiments, step S313 is further included. These embodiments enable statistics of the test workload.

In step S313, the test workload of each tester is determined based on the number of sensory tests included in the sensory test feedback information.

For example, the electronic questionnaire for sensory test includes N test questions, each test question has M options to be subjected to sensory test, so the number of sensory tests is N × M, and the test workload of each tester is N × M. If the reward amount of each sensory test is L, each tester can be configured with a reward amount N M L, wherein N M can be determined by the number of random number codes, and L can be freely set.

Some embodiments of the sensory testing system of the present disclosure are described below in conjunction with fig. 4.

Fig. 4 illustrates a schematic structural diagram of a sensory testing system of some embodiments of the present disclosure. As shown in fig. 4, the sensory test system 40 in the present embodiment includes: a sample selection module 401 configured to select at least one test sample from a list of samples; a template determination module 402 configured to determine a sensory test template corresponding to the test sample; an information generating module 403 configured to generate sensory test information according to the test sample and the sensory test template; a tester determining module 404 configured to determine at least one tester corresponding to the sensory test information; an information issuing module 405 configured to issue sensory test information to a test account of a tester; and the information receiving module 406 is configured to receive sensory test feedback information filled by the tester from the test account.

In some embodiments, the template determination module 402 is configured to: under the condition that whether the difference exists among the plurality of test samples is unknown, adopting a difference analysis template as a sensory test template corresponding to the plurality of test samples; under the condition that the difference exists between a plurality of known test samples and the difference degree between a plurality of unknown test samples, adopting a scale analysis template as a sensory test template corresponding to the plurality of test samples; under the conditions that the differences among a plurality of test samples are known and the reasons of the differences among the test samples are unknown, adopting a descriptive analysis template as a sensory test template corresponding to the test samples; in the case of unknown satisfaction values of the test samples, a scale analysis template is used as a sensory test template corresponding to the test samples.

In some embodiments, the information generation module 403 is configured to: generating different random number codes for a plurality of test samples respectively; filling the random number code of each test sample into the sensory test template to generate sensory test information.

In some embodiments, the sensory testing system 40 further includes an information analysis module 407 configured to: and analyzing and processing the sensory test feedback information received from the test account numbers of the multiple testers by using the confidence coefficient operation function corresponding to the sensory test template to obtain the sensory test results of the test samples, wherein the sensory test results comprise a sensory test conclusion and the confidence coefficient of the sensory test conclusion.

In some embodiments, the sensory testing system 40, further includes a report generation module 408 configured to: and filling the sense test conclusion and the sense test basic information into a sense test report template to generate a sense test report of the test sample, wherein the sense test basic information comprises the test date, the test place, the test sample batch, the total number of testers and the test number.

In some embodiments, tester determination module 404 is configured to: and determining at least one tester corresponding to the sensory test information according to the historical test accuracy of each tester.

In some embodiments, the sensory testing system 40 further comprises a historical test accuracy determination module 400 configured to: according to the sensory test feedback information and the standard feedback information of the sensory test information, determining the accuracy of the sensory test feedback information; and determining the historical test accuracy of the tester according to the accuracy of the sensory test feedback information filled by the tester in the past.

In some embodiments, the sensory testing system 40 further includes an information display module 409 configured to: the accuracy of the sensory test feedback information filled by the tester in the past and the historical test accuracy of the tester are related to the basic information of the tester; in response to a query request for a tester, basic information of the tester, accuracy of sensory test feedback information filled by the tester over time, and historical test accuracy of the tester are displayed.

In some embodiments, the sensory testing system further comprises a workload determination module 410 configured to: and determining the test workload of each tester according to the number of sensory tests contained in the sensory test feedback information.

A specific application example of the sensory test system is described in detail below.

Firstly, a sensory testing subsystem is built, the sensory testing subsystem can specifically comprise the modules 401, 402, 403, 404, 405, 406, 407, 409 and 410, and the module 408 is arranged in a laboratory information management subsystem. Therefore, the sensory test subsystem and the laboratory information management subsystem are in signal connection through the interface to jointly form a sensory test system, and therefore the whole process of sensory test is achieved.

Those skilled in the art will appreciate that the sensory testing subsystem and the laboratory information management subsystem may be used independently or interactively, without functional interaction between the two. The design mode of the sensory testing subsystem may adopt a singleton mode, a factory mode, an agent mode, a production and consumption mode, and the like. During specific design, the implementation of each method is simple, the calling of other methods is not influenced, and each method forms a method library. The method in the method library is provided for each tester, and the method library production method is then synchronized to the corresponding customer user account.

The laboratory information management subsystem does not perform the sensory testing, but rather performs the sensory testing function by invoking the relevant interface of the testing subsystem, which is also referred to as a proxy mode. The sensory test engineer can manage the inspection process of the sensory test through the sensory test subsystem and send the test result to the laboratory information management subsystem; the laboratory information management subsystem can be used for performing informatization management on test data, test results and testers in the sensory test process, issuing a sensory test report and completing other inspection business processes.

Further embodiments of the sensory testing system of the present disclosure are described below in conjunction with fig. 5.

Fig. 5 shows a schematic structural diagram of a sensory testing system according to further embodiments of the present disclosure. As shown in fig. 5, the sensory test system 50 of this embodiment includes: a memory 510 and a processor 520 coupled to the memory 510, the processor 520 being configured to perform the sensory testing method of any of the foregoing embodiments based on instructions stored in the memory 510.

Memory 510 may include, for example, system memory, fixed non-volatile storage media, and the like. The system memory stores, for example, an operating system, an application program, a Boot Loader (Boot Loader), and other programs.

The sensory testing system 50 may also include an input-output interface 530, a network interface 540, a storage interface 550, and the like. These interfaces 530, 540, 550 and the connections between the memory 510 and the processor 520 may be, for example, via a bus 560. The input/output interface 530 provides a connection interface for input/output devices such as a display, a mouse, a keyboard, and a touch screen. The network interface 540 provides a connection interface for various networking devices. The storage interface 550 provides a connection interface for external storage devices such as an SD card and a usb disk.

The present disclosure also includes a computer readable storage medium having stored thereon computer instructions which, when executed by a processor, implement the sensory testing method of any of the foregoing embodiments.

The present disclosure is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the disclosure. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The above description is only exemplary of the present disclosure and is not intended to limit the present disclosure, so that any modification, equivalent replacement, or improvement made within the spirit and principle of the present disclosure should be included in the scope of the present disclosure.

Claims (20)

1. A sensory testing method comprising:

selecting at least one test sample from the list of samples;

determining a sensory test template corresponding to the test sample;

generating sensory test information according to the test sample and the sensory test template;

determining at least one tester corresponding to the sensory test information;

issuing the sensory test information to a test account of the tester;

and receiving sensory test feedback information filled by the tester from the test account.

2. The sensory test method according to claim 1, wherein the determining a sensory test template corresponding to the test sample comprises:

under the condition that whether differences exist among a plurality of test samples or not is unknown, adopting a difference analysis template as a sensory test template corresponding to the plurality of test samples;

in the case that the difference between a plurality of the test samples is known and the degree of the difference between the plurality of the test samples is unknown, adopting a scale analysis template as a sensory test template corresponding to the plurality of the test samples;

in the case that the differences among a plurality of the test samples are known and the reasons of the differences among the test samples are unknown, adopting a descriptive analysis template as a sensory test template corresponding to the test samples;

and in the case of unknown satisfaction value of the test sample, adopting a scale analysis template as a corresponding sensory test template of the test sample.

3. The sensory test method according to claim 1, wherein the generating sensory test information from the test sample and the sensory test template comprises:

generating different random number codes for a plurality of the test samples respectively;

filling the random number code of each test sample into the sensory test template to generate sensory test information.

4. The sensory test method according to claim 1, further comprising:

and analyzing and processing the sensory test feedback information received from the test account numbers of the testers by using the confidence coefficient operation function corresponding to the sensory test template to obtain the sensory test result of the test sample, wherein the sensory test result comprises a sensory test conclusion and the confidence coefficient of the sensory test conclusion.

5. The sensory test method according to claim 4, further comprising:

and filling the sensory test conclusion and the sensory test basic information into a sensory test report template to generate a sensory test report of the test sample, wherein the sensory test basic information comprises test date, test place, test sample batch, total number of testers and test number.

6. The sensory test method according to claim 1, wherein the determining at least one tester to which the sensory test information corresponds includes:

and determining at least one tester corresponding to the sensory test information according to the historical test accuracy of each tester.

7. The sensory test method according to claim 6, further comprising:

according to the sensory test feedback information and the standard feedback information of the sensory test information, determining the accuracy of the sensory test feedback information;

and determining the historical test accuracy of the tester according to the accuracy of the sensory test feedback information filled by the tester in the past.

8. The sensory test method according to claim 7, further comprising:

associating the accuracy of the sensory test feedback information filled out by the tester throughout and the historical test accuracy of the tester with the basic information of the tester;

and in response to a query request of the tester, displaying basic information of the tester, accuracy of the sensory test feedback information filled by the tester in the past and historical test accuracy of the tester.

9. The sensory test method according to claim 1, further comprising:

and determining the testing workload of each tester according to the number of sensory tests contained in the sensory test feedback information.

10. A sensory testing system comprising:

a sample selection module configured to select at least one test sample from a list of samples;

a template determination module configured to determine a sensory test template corresponding to the test sample;

an information generation module configured to generate sensory test information according to the test sample and the sensory test template;

a tester determining module configured to determine at least one tester corresponding to the sensory test information;

the information issuing module is configured to issue the sensory test information to a test account of the tester;

and the information receiving module is configured to receive sensory test feedback information filled by the testers from the test account.

11. The sensory testing system of claim 10, wherein the stencil determination module is configured to:

under the condition that whether differences exist among a plurality of test samples or not is unknown, adopting a difference analysis template as a sensory test template corresponding to the plurality of test samples;

in the case that the difference between a plurality of the test samples is known and the degree of the difference between the plurality of the test samples is unknown, adopting a scale analysis template as a sensory test template corresponding to the plurality of the test samples;

in the case that the differences among a plurality of the test samples are known and the reasons of the differences among the test samples are unknown, adopting a descriptive analysis template as a sensory test template corresponding to the test samples;

and in the case of unknown satisfaction value of the test sample, adopting a scale analysis template as a corresponding sensory test template of the test sample.

12. The sensory testing system of claim 10, wherein the information generation module is configured to:

generating different random number codes for a plurality of the test samples respectively;

filling the random number code of each test sample into the sensory test template to generate sensory test information.

13. The sensory testing system of claim 10, further comprising an information analysis module configured to:

and analyzing and processing the sensory test feedback information received from the test account numbers of the testers by using the confidence coefficient operation function corresponding to the sensory test template to obtain the sensory test result of the test sample, wherein the sensory test result comprises a sensory test conclusion and the confidence coefficient of the sensory test conclusion.

14. The sensory testing system of claim 13, further comprising a report generation module configured to:

and filling the sensory test conclusion and the sensory test basic information into a sensory test report template to generate a sensory test report of the test sample, wherein the sensory test basic information comprises test date, test place, test sample batch, total number of testers and test number.

15. The sensory testing system of claim 10, wherein the tester-determination module is configured to:

and determining at least one tester corresponding to the sensory test information according to the historical test accuracy of each tester.

16. The sensory testing system of claim 15, further comprising a historical test accuracy determination module configured to:

according to the sensory test feedback information and the standard feedback information of the sensory test information, determining the accuracy of the sensory test feedback information;

and determining the historical test accuracy of the tester according to the accuracy of the sensory test feedback information filled by the tester in the past.

17. The sensory testing system of claim 16, further comprising an information display module configured to:

associating the accuracy of the sensory test feedback information filled out by the tester throughout and the historical test accuracy of the tester with the basic information of the tester;

and in response to a query request of the tester, displaying basic information of the tester, accuracy of the sensory test feedback information filled by the tester in the past and historical test accuracy of the tester.

18. The sensory testing system of claim 10, further comprising a workload determination module configured to:

and determining the testing workload of each tester according to the number of sensory tests contained in the sensory test feedback information.

19. A sensory testing system comprising:

a memory; and

a processor coupled to the memory, the processor configured to perform the sensory testing method of any one of claims 1-9 based on instructions stored in the memory.

20. A computer readable storage medium, wherein the computer readable storage medium stores computer instructions which, when executed by a processor, implement the sensory testing method of any one of claims 1 to 9.

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