Usability Evaluation Approach of Educational Resources Software Using Mixed Intelligent Optimization

Aiming at the problems of strong subjectivity and uncertain fuzziness of attribute weights in the software usability evaluation approach, an evaluation approach based on mixed intelligent optimization was proposed, which combines subjective and objective methods to measure software usability for educational resources software. Firstly, the usability evaluation index system of educational resources software was established, and the basic probability assignment was generated by the interval method from the historical sample data. Then the weight optimization problem was adapted to the smooth optimization problem by the maximum entropy function method, and the hybrid social cognitive optimization (HSCO) algorithm was introduced to solve the optimal weights of evidence. Finally, the software usability level was fused by DS evidence theory. The experimental results show that the educational resources software usability evaluation approach can objectively and truly reflect the usability of the software. It provides an efficient way to evaluate the usability of the software.


Introduction
In the era of user-centered product design, a good user experience is the direct way to keep the user's viscosity, for the usability is an important software feature.Software usability evaluation is an important part in the process of software quality assurance.Therefore, usability as product quality evaluation indicator gradually becomes a key factor to be considered in the design of software development.
Software usability evaluation is an important part of software credibility evaluation.Software credibility evaluation is mainly based on the related standard of software quality by the establishment of evaluation model and tool.In the past, the usability of software systems was evaluated subjectively and the process was not well defined, and there was no mature evaluation method that is accepted by most people [1].Although usability evaluation and analysis methods and methodologies were being developed, software usability evaluation method research is still in its early infancy.At the same time, the usability of software is closely related to the specific applications and users, and software usability evaluation research has all kinds of different methods in different software systems [2].
With the rapid development of the mobile applications, usability of mobile applications is in the focus of the software usability researches.Harrison et al. [3] introduced the PACMAD (People at the Centre of Mobile Application Development) usability mode to solve the limitations of existing usability models when they are applied to mobile applications.Field studies and lab experiments are two methodologies most often applied by researchers; Kaikkonen et al. [4] found that field testing is worthwhile when combining usability tests with a field pilot or contextual study.Chen [5] proposed evaluation method for mobile B2C interface program which is based on adaptation touch interaction and natural gesture interaction and includes usability evaluation index system and analytic hierarchy process (AHP) method for optimizing the weights.Zhang et al. [6] proposed quality indicators system of software products and presented a simple usability evaluation method from the perspective of users and experts.Liu et al. [7] proposed a usability assessment method based on Usability Maturity Model for organizational human-centeredness at some software enterprises, which gives a feasible strategy for introducing usability engineering in the industry.Guo et al. [8] presented a usability evaluation model for application software based on user emotion; however, the evaluation process is entirely subjective assessment that was not easily convincing.
Van Nuland et al. [9] found that usability testing, particularly within the anatomical sciences teaching online, should be employed during the design and development phases, as well as during its delivery.Zhao et al. [10] used fuzzy analytic hierarchy process to quantitatively evaluate software usability, but the result of this method was still greater uncertainty.Li et al. [11] constructed a weighted sum of software usability evaluation method, but the weight of the distribution was not very objective.Li et al. [12] proposed a method of using the AHP method to determine the weight of the weighted DS evidence theory; the initial weight and the initial probability distribution were given by the experts.
Mainly based on subjective evaluation by experts and users, these traditional methods adopt the method of analytic hierarchy process (AHP) and the weighted average to evaluate the software usability.Software usability evaluation problem is ultimately a multiple attribute decision-making problem, which depends on how to establish the availability index system, how to assign attribute weights, and how to fuse the multiple attributes.
DS (Dempster-Shafer) evidence theory uses quantitative and qualitative data to establish the assessment model with great advantage under the unified recognition framework, which helps obtain more accurate results for multiple attribute decision-making (MADM) problems [13].Literature [14] proposed a hybrid approach to develop the partner evaluation model for tourism partner selection problem, by applying the DS evidence theory and satisfactory principle as alternative framework.Literature [15] proposed a MADM method based on evidential reasoning approach with unknown attribute weights in intuitionistic fuzzy environment.When DS evidence theory is applied for MADM problems, there are two main key problems [16]: basic probability assignment (BPA) generation and attribute weight optimization problems.
At present, there are two kinds of BPA generating methods: expert subjective set method and automatically generating method according to the historical knowledge.Multiple experts independent set methods always have high conflicts.Literature [17] proposed Dynamic Belief Fusion (DBF) method to assign probabilities to individual detectors, which optimally fused information from all detectors.Literature [18] automatically generated BPA which used the history sample data to identify results.Literature [19] generated random numbers based on set theory and presented evidence fusion strategy based on distance.So far, basic probability assignment is no good way to generate.Traditional BPA generation needs complete information to support.But the usability evaluation indexes are different, since software usability metric in different software varies greatly.And because usability testing data are poor and available empirical knowledge is scarce, usability evaluation is very subjective and uncertain.Interval number theory [20] only requires the upper and lower bounds of the information scope, so it is very suitable for the application field in which characteristic information is poor, fuzzy, and imprecise.In literature [21], the basic probability assignment (BPA) is generated based on the distance between interval numbers to improve belief Markov chain model.
To reduce the negative impact of single inaccurate attribute and improve accuracy and stability of the determining system, it is very necessary to fuse the property from multiple aspect sources.But the importance of each attribute in judgment system is different, so the attribute fusion should consider the influence of the weight of the different characteristics.To deal with different weights, the weighted synthesis technology widely uses similarity weighted method and the weighted average method [22].Literature [23] put forward a kind of evidence synthesis method based on practical experience.But, at present, the DS evidence theory rarely discusses optimization weight acquisition method.The traditional weight acquisition methods mainly have expert subjective weights determining method and history statistical method, which are all difficult to obtain the optimal weight value.Aimed at the shortage of the weighted method in determining the weights of evidence theory, literature [24] uses particle swarm algorithm combining historical data value to obtain the optimal weights in the weighted information fusion problem, but the particle swarm optimization (PSO) algorithm is easy to premature and cannot guarantee the global convergence.Literature [25] proposes a weighted classifier combination method to minimize the distances between fusion results obtained by Dempster's rule to enhance the classification accuracy.
We apply DS evidence theory to software usability evaluation and establish the software usability evaluation index system in view of the education resources, and a software usability evaluation method based on DS evidence reasoning is proposed.In the new method, the basic probability assignment is produced by using the method of interval number in combination with historical data; the weight optimization problem is transmitted to a smooth optimization problem through maximum entropy function method; the hybrid social cognitive optimization (HSCO) algorithm [26] is adopted to solve the optimal weights problem.As a multiple attribute decision-making problem, software usability evaluation is eventually better solved.
The primary contributions of the paper are as follows: (1) A software usability evaluation index system of the educational resources software based on the ISO/IEC25000 series standards is introduced, which fully considers the characteristics of the educational resources software and the characteristics of the target user.Usability evaluation index system is flexible and is more in line with the needs of educational resources software usability evaluation.
(2) The basic probability assignment is generated through the interval number theory from the history of the sample data.Interval number theory is very suitable for poor evaluation information and fuzzy imprecise characteristics.
(3) To obtain better fusion effect, the hybrid social cognitive optimization algorithm is used to optimize the different weights of evidence, in which global convergence is guaranteed.

Dempster-Shafer Theory
2.1.Basic Conceptions.A belief structure as introduced by Shafer provides an approach to represent nonspecific forms of uncertainty.Formally DS belief structure on space  consists of a collection of nonempty crisp subsets of  called focal elements:  1 , . . .,   .This represents the value of a variable  whose domain is called the frame of discernment [13].
Let Ω stand for a domain set for every possible value of , and every component in Ω is incompatible.And then we call Ω the differentiation frame of ; let 2 Ω stand for the power set of Ω.Let  denote the empty set.Definition 1.A basic probability assignment (BPA) is a function  : 2 Ω → [0, 1], which satisfies the following conditions: (1) ∑ ⊆Ω () = 1 and ( 2) (Ω) = 0; () is called basic probability number, which represents the proportion of all relevant and available evidence that supports the claim that a particular element of Ω belongs to the set  but to no particular subset of .
is the conflict weight that reflects the information conflict.If the conflict weight is 1, the evidences completely conflict with each other.

Weighted Transformation.
In uncertain information fusion, not all the evidences have the same importance.Some evidences are more important than others.Traditional DS evidence theory does not differentiate the importance of different evidences.To differentiate the importance of different evidences, the weighted value should be processed in the following [27].
In formula (3),   are the basic probability values of the evidence Fi;     denotes the transferred probability assignment function.Through formula (3) transferring, the weight value   of the evidence Fi is reflected in the basic probability values of the proposition, which makes the weights of each evidence be transformed equally.Then we can synthesize the basic probability values transformed by DS evidence theory.

Hybrid Social Cognitive Optimization (HSCO) Algorithm
By introducing human social intelligence based on social cognitive theory to artificial system, Xie et al. [28] proposed social cognitive optimization (SCO) algorithm in 2002.
In SCO optimization procedure, a knowledge library with symbolizing capability consists of many knowledge points and learning agents, which act observational learning via the neighborhood local searching by observing the selected model from tournament selection.Because SCO algorithm fully makes use of the interactions and shares of the entire social swarm, it greatly improves the convergence speed and accuracy of the swarm intelligence algorithm and makes it better than many other well-used intelligent optimization methods, such as Genetic Algorithm (GA), particle swarm optimization (PSO), and Ant Colony Optimization (ACO), in many applications [29].
To improve the global convergence speed and stability of SCO algorithm without increasing the computation, a hybrid social cognitive optimization (HSCO) algorithm, based on elitist strategy and chaotic optimization, was proposed to solve constrained NLPs in literature [26].Learning agents are partitioned into three groups in proportion: elite learning agents, chaotic learning agents, and common learning agents.The common agents in major proportion work in the search way of traditional SCO.The elite learning agents in a little proportion search via elitist selection to improve the global searching performance.The chaotic learning agents in a little proportion search via chaotic search algorithm to avoid the premature convergence.HSCO algorithm is guaranteed to converge to global optimal solution with probability of one because of the elite learning strategy and the chaotic learning strategy [30].
To select better algorithm to optimize the weight values, we compare HSCO with traditional PSO algorithm in the weight values optimum process in evaluating the usability of the convenient educational resource management platform software (http://222.24.63.99:8080/).The experiments setting is as follows: for HSCO,  pop = 350,   = 70, and  = 1000; for SCO, the number of particles is also 350.The two algorithms are executed 30 times.We calculate the mean solution by means of having a statistical computation for each run of the HSCO and PSO algorithm.
Figure 1 shows the mean fitness values of 30 times' iteration, which is performed by PSO and HSCO.The HSCO algorithm shows higher convergence velocity and higher sustainable evolutionary capability at the process of evolution than traditional PSO algorithm.HSCO algorithm can meet the requirement of numerical value in 400 iterations, while the PSO algorithm needs 900 to achieve the same fitness.The HSCO algorithm has higher efficiency in solving weight values optimum problem.Hence, we choose the HSCO algorithm to optimize the weight values in the paper.

Usability Evaluation Model of Educational
Resources Software 4.1.Model Building.The usability of software is often influenced by many factors, which are called the available attributes of software.Different software focuses on different available attributes.To get the software's availability, you can firstly get the level of availability of the software on its available properties and then get the software availability comprehensively.When an available attribute can be subdivided into more detailed subattributes, the availability of this available property can be obtained by synthesizing the availability of these subattributes.The indivisible attribute is called metric element.The most important aspect of software usability evaluation is to find availability of the metric and to integrate the metric and subattributes evaluation into software availability [31].Software availability measurement model is the process of subattribute synthesis, which is a multiple attribute decision-making model.Figure 2 shows a framework for the usability evaluation of educational resources software based on evidence reasoning.
As seen from Figure 2, usability evaluation of educational resources software based on evidential reasoning includes the following key processes: (1) Establishing the evaluation index system of educational resources software usability based on multidimensional attribute, and the value of metric element is obtained (2) Generating the basic probability assignment by the interval number theory based on the historical data (3) DS weighted value optimization model for swarm intelligence and its solution (4) Hierarchical multiattribute synthetic evaluation and software final usability evaluation

Usability Evaluation Index System of Educational
Resources Software.The ISO/IEC25000:2014 [32] is an important international standard for software quality and software evaluation, and a quantitative evaluation method for software usability is provided in the standard.This paper proposes a usability evaluation index system for assessing the availability of educational resources software, which combines the characteristics of educational resources software and target user characteristics.The usability evaluation index system of educational resources software mainly considers several aspects related to the influence factors of usability in Figure 3.
(1) Functionality.Functionality is the most direct aspect of influencing usability.For the educational software based on B/S architecture, the compatibility of browser and the operability of software basic function will be directly related to the usability of the software.
(2) Effectiveness of Information.Information validity is that the software can provide users with valid value resources information.In educational software, it specifically refers to the integrity and accuracy of information resources, the speed of software access and download, and the security of software.
(3) Usability.Usability mainly involves operability, learnability, and memorability.In educational software, the reasonable arrangement and classification of various multimedia data resources can also help users find required teaching resources quickly and accurately.
(4) User Interface Design.Most educational resources software users are teachers and students, which are professional.They will consider the design of the user interface of software products from aesthetic pleasure, functional completeness, and operation convenience.
Based on the above aspects factors and ISO/IEC25000 software quality standards, this paper builds the usability evaluation index system of educational resources software as shown in Figure 4. Of course, in the specific evaluation process, we can increase or decrease evaluation indexes in Figure 4 according to the actual requirements, so the index system has certain flexibility and extensive adaptability.
The meaning of each attribute and subattribute is presented as follows.

Second level index
First  (1) Functionality Completeness.The software products can provide users with various functions for performing a task.
Compatibility.The software products in system and browser environment can work steadily without exclusion phenomenon.
Fault Tolerance.When users make some illegal or incorrect input and operation, the software products can still work properly without crashes. (

2) Effectiveness
Resource Accuracy.The software products can provide users with useful data resources.
Resource Integrity.Data resources should ensure the integrity of the content.
Access Speed.It is the total time from clicking the website page to completely opening the page.
Download Speed.It is the speed through which users download documents, pictures, and multimedia resources.
Safety.Software products should protect data resources and users' information.
(3) Usability Learnability.A user who has never used the new software can get quickly familiar with the basic functions of the software.Operability.The software should make users operate easily in the software interface design, button layout, link form, and so forth.
Controllability.Skilled users of software can give feedback on defects in a timely manner, and new improvements can be explained.

(4) Experience
Beauty.The users have a comfortable feeling for the software design features.
Pleasure.The users enjoy the overall process of software operation.
Achievability.The users have a psychological balance feeling resulting between the desire and the reality.

Basic Probability Assignment Generation Based on Interval
Number.In this paper, the interval number, which evaluates the similarity between intervals by using the interval distance, is used to generate the BPA, which is based on the historical sample data [19].
Let interval number  = [ − ,  + ] and interval number  = [ − ,  + ]; then the distance (, ) between interval numbers  and  is given in the following formula [33]: The similarity degree (, ) between the interval numbers  and  is given in the following formula [33]: is support coefficient.The function of  is to adjust the dispersion degree of similarity degree, and the dispersion of data can be increased by adjusting , which can avoid excessive data concentration caused by identification error increases.Support coefficient is usually obtained by experience.
BPA generation algorithm with interval numbers includes the following four steps, described as follows: (1) Interval number model is constructed by the maximum and minimum historical value of the characteristic attributes of the collected samples.
(2) The distance between attribute value of sample and interval number of model to be identified is calculated according to formula (4).
(4) BPA is generated by similarity degree normalization.

DS Weighted Values Optimum Model.
To reduce influence of the inaccuracy of a single feature to the system's judgment and improve accuracy and stability of the system's judgment, it is necessary to integrate the features of various aspects.However, the importance of each feature in system judgment is different, so the influence of weight of different features on judgment result should be considered in the process of feature fusion [15].To obtain objective weighted values of different features from the historical decision sample evidence data, we should build DS weighted values optimum model.

DS Weight Values Optimum Algorithm.
Figure 5 shows the fundamental principle of DS weight values optimum algorithm.The process includes two phases, which are weight values optimum procedure and synthetic decision procedure [24].
In the weight values optimum procedure, upper values   max and lower values   min are generally given by experts based on historical decision sample evidence data.The purpose of the evidence synthesis is to identify the goal as accurately as possible.Because the target  0 is known, the weight value optimization is to find the best weight that maximizes  0 synthesis BPA ( 0 ) and has the biggest difference from other targets.
In the synthetic decision procedure, the weight is interpolated to obtain the weights of the online optimization.Through the weight optimization and the weight interpolation phase, expert subjective experience and historical decision data have been used in a comprehensive way, and the optimization weight is got, which greatly improves the fusion effect of multiple evidence.

Weighted Optimum Model. The objective function is as follows:
where (  ) is the basic probability assignment of   ; obviously ( 0 ) − (  ) > 0.
The objective function is a nonlinear mini-max optimization problem [34]: Subject to In formula (9), ( 0 ) − (  ) > 0, 0 ≤   ≤ 1, ∑  =1   = 1,   min ≤   ≤   max , and   max and   min indicate the upper bound and lower bound on the weights of the evidence given by the expert .Therefore, the weight optimization model is a constrained mini-max optimization problem.
Using maximum entropy function method, the nonlinear constrained mini-max problem can be transformed into a smooth optimization problem [34].In formula (7), the maximum entropy function of () in  ∈   is As long as  is large enough, the maximum entropy function can take the place of the objective function ().So the weighted optimum problem can be transformed into an unconstrained optimization problem with a smooth function [20].

HSCO Algorithm Optimization
Weight.The problem of formula ( 6) is transformed into a smooth unconstrained optimization problem through the maximum entropy function method, which is equivalent to solving the following extreme optimization problem: In formula (11),  is a larger positive number which generally is 10 5 .We use the hybrid social cognitive optimization (HSCO) algorithm to search the optimal weight.The research result shows that the weighted algorithm of this evidence theory is effective and has better fusion result than the particle swarm optimization algorithm.When HSCO algorithm is used to solve this problem,   () is used as the fitness evaluation function of the knowledge point.
As the same processing, Table 3 presents BPA generation process of the easy memory interval number similarity, Table 4 presents BPA generation process of the operability interval number similarity, and Table 5 presents BPA generation process of the controllable interval number similarity.From the BPA generation process, it is seen that interval number generating method is simple and requires less decisionmaking object information.

Analysis of
Then we get the result as shown in the fifth line in Table 6.According to literature [21], traditional PSO algorithm is not guaranteed to converge to global optimal solution with probability of one, because the traverse direction of particle iteration formula is too strong.Otherwise, HSCO algorithm is guaranteed to converge to global optimal solution with probability of one because of the elite learning strategy and the chaotic learning strategy.
To evaluate the performance of the HSCO, we compare HSCO algorithm with traditional PSO algorithm in the weight values optimum process of the convenient educational resources management platform software in Section 3. From Section 3 analysis, the HSCO algorithm has higher efficiency in solving weight values optimum problem.So, this paper chooses the HSCO algorithm to optimize the weight values.
To obtain objective weighted values of different features from the historical decision sample evidence data, we build DS weighted values optimum model according to Section 4.4 using traditional PSO algorithm and HSCO algorithm, respectively.The result of the weighted values after optimization is shown in Table 7. From Table 7, we can see that the weights of the four evidences are different.The knowledge from the historical evaluation samples is very helpful to more accurately carry out the usability evaluation of the new educational resources software.
Table 6 shows the BPA results of four usability subattributes, equal weight DS fusion result, weight fusion result optimized by using particle swarm optimization (PSO) algorithm, and weight fusion optimization results using the HSCO algorithm.It can be seen from Table 6 that the optimizing evidence synthesis results can more clearly recognize the level of the usability than the standard DS synthesis results, because the optimizing evidence synthesis may reflect different importance of different evidence.Compared with traditional particle swarm optimization algorithm [22], the fusion results have stronger recognition ability and better solve the problem of the multiple attribute fusion.The BPA values of the primary index can be obtained from the evidence of the interval numbers, and the final multiattribute fusion evaluation can be produced by weighted DS evidence theory.

Evaluation Results and User Test Results
Contrast.To judge the applicability of the usability evaluation method proposed in this paper, four public educational resource sites in Table 8 are evaluated by the method of this article.60 students, who used the four sites to learn lessons, give four educational resources availability vote sorting result.From Table 8, we can see that evaluation results and the availability of 60 students sorting results are consistent, and the proposed method is an effective educational resources assessment approach, which has important guiding significance for educational resource availability design.

Conclusion
This paper proposes a novel educational resource software usability assessment method.The method uses the interval number theory to generate BPA, which is more simple and convenient.DS evidence theory fuses evaluation results of all the evidence, which greatly eliminates fuzziness of evidence synthesis.Meanwhile, evidence weight optimization makes the quantitative results more accurate.Experimental results show that the novel evaluation method is of accurate recognition rate even in the case of few sample data.
Based on the clear evaluation results, we can trace back the software usability problems to a certain extent and put forward improvement scheme to enhance the usability of the software.
In the future, we will research further the following problems.Firstly, we will try to apply the proposed method to more practical educational resources software and import extra procedure to reduce attribute weights computational complexity.Furthermore, the possible dependencies among the attributes of the actual software system will be considered to improve the proposed method.

Figure 2 :Figure 3 :
Figure 2: Usability evaluation frame of educational resources software based on evidential reasoning.
are obtained by normalized operation as follows.The results are shown in the last column of Weight Values Optimum Algorithm.According to the DS theory in Section 2.1, the equal weight usability evaluation fusion of the four attributes and their subattributes is as follows.Set the matrix of the BPA obtained by interval number theory 0.171480 0.193658 0.226026 0.254993 0.155448 0.170009 0.199624 0.233557 0.248038 0.155448 0.176101 0.197455 0.231127 0.239869 0.150747 0.180622 0.210483 0.237712 0

Table 7 :
Weighted values after optimization.

Table 8 :
Four public educational resources sites.