External basic environmental indicators

The external basic environment is the guarantee for the sustainable development of electricity retailing companies and also an important support for the strategic transformation of electricity retailing companies under the new round of power system reform in China. Credit risk evaluation of the external infrastructure of electricity retailing companies based on the two dimensions of policies and regulations and industry operation identified five three‐level indicators.

1. Macrocontrol policies refer to the policy directives issued by the state on the reform of the power system, which affect electricity retailing companies, and environmental protection and energy‐saving policies refer to the policies, laws, and regulations that affect electricity retailing companies in the country. Industry‐related policies refer to reform policies and other guiding policies issued within the power industry. Macrocontrol policies, environmental protection and energy‐saving policies, and industry‐related policies all have an impact on electricity retailing companies, and experts can determine the level of support for the policy environment.
2. The proportion of technical talents determines the competitive environment of an electricity retailing company and directly affects its profitability. For a power sale company, the transaction volume is very important, so an indicator that reflects the change in trading power must be selected. The month‐on‐month increase in the trading volume of electricity retailing companies will increase their profit, thereby increasing their profitability and solvency.

Production and operation risk indicators

The risks of production and operation are the driving force for the sustainable development of electricity retailing companies, and the key to improving their core competitiveness. A credit risk evaluation of electricity retailing companies was carried out based on the two dimensions of operational risk and production management and four three‐level indicators.

1. Market share refers to the proportion of the electricity sold by the electricity retailing company in the total transaction power, reflecting the position and importance of the electricity retailing company in the industry. With the advancement of the new round of power system reform, the number of electricity retailing companies established in various provinces and cities in China has been increasing, and their social impact reflects the acceptance of power companies in society.
2. The reliability of power transmission is the main indicator of the safe and reliable transmission of electric energy by an electricity retailing company. When considering the ratio of the actual total transmission energy from the power generation side to the user side and the total expected transmission energy, the larger the ratio, the higher the safety and reliability rate. The success rate of the supply and demand side signing refers to the quotation of the power generation enterprise and the electricity customer to the power trading center, and finally the success rate of the supply and demand side signing.

Financial credit risk indicator

Financial credit risk is the basis for the sustainable development of electricity retailing companies and the core embodiment of their overall efficiency. A credit risk evaluation of an electricity retailing company was carried out based on three dimensions, profitability, solvency, and development capability, and eight three‐level indicators were determined.

1. The rate of return on total assets is the proportion of profits in total assets. The higher the rate of return on total assets, the stronger the ability of the electricity retailing company to create profit. The net profit of sales is the ratio of net profit to sale revenue, reflecting the profitability of the electricity trading company's energy trading. The higher the net profit, the higher the solvency of the electricity retailing company. The cost‐cost profit rate is the ratio of the total profit to the total cost, which reflects the operating cost. Operating cost management expenses account for the main business ratio, which reflects the control of the periodic expenses of different power‐selling companies in the operation process. The smaller the indicator, the stronger the cost control ability of the electricity retailing company, and the stronger the profitability.
2. The current ratio is the ratio of current assets to current liabilities. It mainly measures the ability of a company's current assets to become cash for repayment of liabilities before the short‐term debt expires. The higher the current ratio of the electricity retailing company, the stronger the company's liquidity, the stronger the short‐term solvency, and vice versa. The asset‐liability ratio refers to the ratio of total liabilities to total assets, which mainly measures the important index of the debt level, and the risk degree of the electricity retailing company.
3. The main business income growth rate refers to the ratio of the main business income of the current period to the increase in the main business income of the previous period and the income of the main business of the previous period. The growth rate of the main business income reflects the declaration period of the electricity retailing company and further reflects the important indicators of the development capability of the electricity retailing company. When the cash flow growth rate increases, the ratio of the current cash flow growth value to the previous year's cash flow is expressed by the ring ratio. The faster the indicator growth, the better the normal sustainable development capability of the electricity retailing company.

Trading credit risk indicators

Trading credit risk is a necessary condition for the sustainable development of electricity retailing companies, and also an important factor to enhance their overall image and social influence. This paper conducts a credit risk evaluation of electricity retailing companies based on the two dimensions of the energy trading status and supply and demand transaction response, and determines five third‐level indicators.

1. The performance rate of the transaction contract is the ratio of the number of contract performances to the total number of transaction contracts when the power generation side and the user side trade electricity through the electricity retailing company. This indicator mainly reflects the performance willingness of the power generation side and the user side in the electricity trading process. The power load forecasting ratio is the ratio of the actual power load to the contracted load in the current period. This indicator reflects the ability of the power company to sign various users and avoid punishment caused by the deviation evaluation. Inaccurate load forecasting will affect the long‐term effective development of electricity retailing companies. The transaction deviation evaluation rate is the ratio of the actual electricity transactions and the contracted electricity in the current period. The effective control of this indicator plays a vital role in the sustainable development of an electricity retailing company. When the deviation evaluation exceeds the fixed positive or negative deviation range of the region, it will be punished. The actual power completion rate is the ratio of the actual electricity consumption to the total amount of electricity contracted, which mainly reflects the completion of the contracted power during the electricity trading process.
2. The contract rate of power sale contract is the ratio of the number of contracts for sale of electricity to the total number of contracts for the electricity retailing companies, mainly reflecting the performance of contracts in the trading methods of power generation companies and power consumers through electricity retailing companies. The interruptible load contract performance rate refers to the proportion of interruptible load contract performances in the total number of interruptible contracts, mainly reflecting the electricity retailing company's willingness to act as a link between the power generation side and the user side.

Intuitionistic fuzzy set theory

On the basis of fuzzy theory, Bulgarian scholar Atanassov et al proposed the definition of intuitionistic fuzzy sets and the basic algorithm, as follows:

Definition 1: Set $X$ to be a nonempty set, then:[Image Omitted. See PDF]is an intuitionistic fuzzy number, where ${\mu }_A\left(x\right)$ and $v_A\left(x\right)$ are respectively the membership and nonaffiliation of the element belonging to $A$:[Image Omitted. See PDF][Image Omitted. See PDF]and meet the conditions:[Image Omitted. See PDF]

Definition 2: The degree of hesitation or uncertainty of the element $x$ in $X$ belonging to $A$ is given by:[Image Omitted. See PDF]

In addition, when ${\pi }_A\left(x\right)=0$, it becomes a traditional fuzzy set, which will be a special case of the intuitionistic fuzzy set.

Definition 3: Let $\alpha =\left({\mu }_{\alpha },v_{\alpha }\right),{\alpha }_1=\left({\mu }_{{\alpha }_1},v_{{\alpha }_1}\right)$ and ${\alpha }_2=\left({\mu }_{{\alpha }_2},v_{{\alpha }_2}\right)$ be intuitionistic fuzzy numbers, where $\lambda$ is a real number and $\lambda \ge 0$, then the basic algorithm of intuitionistic fuzzy numbers is given by:[Image Omitted. See PDF][Image Omitted. See PDF][Image Omitted. See PDF][Image Omitted. See PDF]

The theory of intuitionistic fuzzy sets is an extension of fuzzy theory. Fuzzy theory can only describe the two states of “affirmative” and “negative,” while the intuitionistic fuzzy set also takes into account the state of hesitation, which is more flexible and practical in describing fuzzy information and uncertain information.

Constructing an intuitionistic fuzzy judgment matrix

Based on the meaning, characteristics, and business model of electricity retailing companies, from the perspective of sustainable development, a credit risk evaluation index system of electricity retailing companies is constructed, which will cover the external basic environment, business credit risk, financial credit risk, and transaction credit risk (see Figure for details). However, in the credit risk evaluation system of electricity retailing companies, the four first‐level indicators establish an intuitionistic fuzzy judgment matrix and compare the same‐level indicators subordinate to each index of the upper layer to establish an intuitionistic fuzzy judgment matrix:[Image Omitted. See PDF]

Among them, $i$ and $j$ represent the rows and columns of the intuitionistic fuzzy judgment matrix, respectively; in $r_{\mathit{ij}}=\left({\mu }_{\mathit{ij}},v_{\mathit{ij}}\right)$, ${\mu }_{\mathit{ij}}$ represents the degree of membership; that is, the degree of the $i$ index is more important than the $j$ index; $v_{\mathit{ij}}$ indicates the degree of nonmembership; that is, the degree of the $i$ index is more important than the $j$ index; and ${\pi }_{\mathit{ij}}$ means hesitation; that is, ${\pi }_{\mathit{ij}}=1-{\mu }_{\mathit{ij}}-v_{\mathit{ij}}$.

In addition, in the intuitionistic fuzzy judgment matrix, the IFPR data are scored by the peer‐invited experts, and the average is calculated to obtain the final score. Therefore, in order to quantify the importance of describing the credit risk evaluation indicators of electricity retailing companies, the corresponding scoring scale, namely the intuitionistic fuzzy number, is defined as shown in Table .

Consistency test and correction

Based on the distance measure of the intuitionistic fuzzy set, the consistency test formula of the intuitionistic fuzzy judgment matrix is obtained:[Image Omitted. See PDF]where $R$ represents the intuitionistic fuzzy judgment matrix; that is, $R={\left(r_{\mathit{ij}}\right)}_{n\times n}$, which is obtained by comparing each layer of indicators according to the relative importance degree, and $\overline{R}$ represents the intuitionistic fuzzy consistency judgment matrix; that is, $\overline{R}={\left({\overline{r}}_{\mathit{ij}}\right)}_{n\times n}$. It is calculated based on the intuitionistic fuzzy judgment matrix, and its construction method is as follows:

1. When $j>i$, let ${\overline{r}}_{\mathit{ij}}=\left({\overline{\mu }}_{\mathit{ij}},{\overline{v}}_{\mathit{ij}}\right)$, then

• When $j=i+1$, then

• When $j<i$, then

After the above steps are calculated, an intuitionistic fuzzy consistency judgment matrix $\overline{R}={\left({\overline{r}}_{\mathit{ij}}\right)}_{n\times n}$ is obtained. The calculation results are taken into Equation (7) for consistency testing. If $d\left(\overline{R},R\right)<0.1$, it passes the consistency test; otherwise, it will not pass the test. It is then necessary to introduce the iteration parameter $\sigma$. By adjusting the different values of $\sigma$, the intuitionistic fuzzy consistency judgment matrix is changed until the consistency test is finally passed. The value range of the parameter is $\sigma \in \left[0,1\right]$, and iterative test is performed with −0.01 as compensation from 1 to the specific conversion process:[Image Omitted. See PDF][Image Omitted. See PDF]

Through the above calculation, the converted intuitionistic fuzzy consistency judgment matrix $\tilde{R}={\left({\tilde{r}}_{\mathit{ij}}\right)}_{n\times n}$, where ${\tilde{r}}_{\mathit{ij}}={\left({\tilde{\mu }}_{\mathit{ij}},{\tilde{v}}_{\mathit{ij}}\right)}_{n\times n}$, is obtained. After obtaining the judgment matrix, it is also brought into Formula (13) for the consistency check, until it finally passes the test.[Image Omitted. See PDF]

Calculating indicator weights

According to the intuitionistic fuzzy consistency judgment matrix, each indicator is calculated for the weight of the upper layer.[Image Omitted. See PDF]

Dynamic adjustment mechanism of hesitation

In order to improve the adaptability of the IFAHP, considering the actual situation of electricity retailing companies and various credit risk indicators, a penalty mechanism is proposed to adjust the hesitation in the intuitionistic fuzzy judgment matrix.

Suppose $n_{\pi }$, when $n_{\pi }>1$, let:[Image Omitted. See PDF]

In the formula, $N_{\pi }$ is the total number of indicators that are expected to affect the credit risk of the company, and $n_{\pi }$ is the number of indicators that actually affect the credit risk of the company. Moreover, the larger the $n_{\pi }$, the worse the credit of the electricity retailing company, and the higher the risk level. According to the adjusted hesitation degree value ${\pi }_{\mathit{ij}}^{{}^{\prime }}$, combined with the hesitation degree distribution of Table , the ${\mu }_{\mathit{ij}}$ and $v_{\mathit{ij}}$ grading levels are automatically adjusted, thereby flexibly changing the index weight and improving the comprehensive evaluation of the electricity retailing company.

Integrated credit risk evaluation

According to the algorithm of intuitionistic fuzzy numbers, that is:[Image Omitted. See PDF][Image Omitted. See PDF]

The weights of the secondary indicators and the corresponding primary indicator weights are aggregated and weighted.[Image Omitted. See PDF][Image Omitted. See PDF]

After the above calculation steps are completed, the ranking function, based on the intuitionistic fuzzy set, is used to perform a final comprehensive evaluation of the credit risk level of the electricity retailing company, and the calculation formula is:[Image Omitted. See PDF]$\pi \omega$ and $\mu \omega$ represent the hesitation degree and membership degree of $W$ obtained by the weight calculation, respectively.

Credit risk evaluation of different electricity retailing companies

Basic IFAHP method

On the basis of the IFAHP, this paper invited peer experts to obtain the initial data of the electricity retailing companies A, B, C, D, and E, according to the scoring scale given in Table . Then, after calculating the arithmetic average, the intuitionistic preference relationship between the layers of A, B, C, D, and E is obtained. Due to space limitations, the paper only gives the intuitionistic fuzzy preference relationship between the first‐level indicators of electricity retailing company A, as shown in Tables .

First‐level index intuition preference relationship

(0.50, 0.50)	(0.42, 0.46)	(0.54, 0.38)	(0.54, 0.36)
(0.46, 0.42)	(0.50, 0.50)	(0.52, 0.35)	(0.64, 0.25)
(0.56, 0.35)	(0.48, 0.39)	(0.50, 0.50)	(0.38, 0.48)
(0.44, 0.45)	(0.46, 0.42)	(0.56, 0.33)	(0.50, 0.50)

Second‐level index intuition preference relationship

(0.50, 0.50)	(0.62, 0.26)
(0.34, 0.54)	(0.50, 0.50)

Third‐level index intuition preference relationship

(0.50, 0.50)	(0.48, 0.37)	(0.58, 0.28)
(0.40, 0.45)	(0.50, 0.50)	(0.52, 0.35)
(0.28, 0.63)	(0.28, 0.63)	(0.50, 0.50)

Third‐level index intuition preference relationship

(0.50, 0.50)	(0.48, 0.37)
(0.42, 0.37)	(0.50, 0.50)

Tables use (12)‐(14) to transform, allowing the intuitionistic fuzzy consistency judgment matrix to be obtained.[Image Omitted. See PDF]

Calculate the distance between $R_A$ and ${\overline{R}}_A$ to get $d\left({\overline{R}}_A,R_A\right)=0.2148>0.1$, failing the consistency test. If there is a need to further set the parameters, let $\sigma =0.45$, use (16)‐(18) to adjust, and get:[Image Omitted. See PDF]

After this calculation, $d\left({\tilde{R}}_A,R_A\right)=0.0985<0.1$, then the matrix ${\tilde{R}}_A$ passes the consistency test, and ${\tilde{R}}_A$ is substituted into (19) to calculate the weight:[Image Omitted. See PDF]

Similarly, based on the weight of each indicator, the total weight of each indicator is calculated as follows:[Image Omitted. See PDF]

The total weight of electricity retailing company A can be obtained (see Table ). For the total weights of electricity retailing companies B, C, D, and E, see Tables A1‐A4.

Total weight table

First‐level indicators	Second‐level indicators	Third‐level indicators	Total weight
External Basic Environment A1 $\left(0.2086,0.6932\right)$	Policies and Regulations B1 $\left(0.5283,0.5319\right)$	Macroeconomic Regulation Policy C1 $\left(0.3107,0.6396\right)$	$\left(0.0342,0.9482\right)$
Environmental Protection and Energy Conservation Policy C2 $\left(0.2868,0.6109\right)$	$\left(0.0316,0.9441\right)$
Industry‐Related Policy C3 $\left(0.2187,0.5295\right)$	$\left(0.0241,0.9324\right)$
Operations Status of Industry B2 $\left(0.3585,0.3404\right)$	Technical Talent Ratio C4 $\left(0.4338,0.4142\right)$	$\left(0.0324,0.8815\right)$
Trading Volume Month‐On‐Month Increase C5 $\left(0.4071,0.3794\right)$	$\left(0.0304,0.8744\right)$
Operational Credit Risk A2 $\left(0.2174,0.7051\right)$	Management Risk B3 $\left(0.4225,0.4118\right)$	Market Share C6 $\left(0.5283,0.5319\right)$	$\left(0.0466,0.9155\right)$
Social Influence C7 $\left(0.3585,0.3404\right)$	$\left(0.0316,0.8810\right)$
Production Risk B4 $\left(0.4554,0.4492\right)$	Power Transmission Reliability C8 $\left(0.4714,0.4632\right)$	$\left(0.0448,0.9093\right)$
Supply and Demand Side Signing Success Rate C9 $\left(0.4086,0.3826\right)$	$\left(0.0388,0.8957\right)$
Financial Credit Risk A3 $\left(0.1885,0.6655\right)$	Profitability B5 $\left(0.3679,0.7102\right)$	Rate of Return on Assets C10 $\left(0.2274,0.7210\right)$	$\left(0.0158,0.9730\right)$
Net Profit Margin C11 $\left(0.2343,0.7299\right)$	$\left(0.0162,0.9738\right)$
Cost Profit Margin C12 $\left(0.1490,0.6204\right)$	$\left(0.0103,0.9632\right)$
Management Costs Account for the Main Business Ratio C13 $\left(0.1715,0.6493\right)$	$\left(0.0119,0.9660\right)$
Solvency B6 $\left(0.2767,0.5954\right)$	Current Ratio C14 $\left(0.4552,0.4542\right)$	$\left(0.0237,0.9261\right)$
Assets Liability Ratio C15 $\left(0.4160,0.4142\right)$	$\left(0.0217,0.9207\right)$
Development Ability B7 $\left(0.2015,0.5006\right)$	Main Business Income Growth Rate C16 $\left(0.4908,0.4890\right)$	$\left(0.0186,0.9146\right)$
Growth Rate of Cash Flow C17 $\left(0.3440,0.3132\right)$	$\left(0.0131,0.8853\right)$
Transaction Credit Risk A4 $\left(0.1935,0.6723\right)$	Power Trading Status B8 $\left(0.4714,0.4632\right)$	Transaction Contract Performance Rate C18 $\left(0.3209,0.6514\right)$	$\left(0.0293,0.9387\right)$
Transaction Deviation Assessment Rate C19 $\left(0.2142,0.5208\right)$	$\left(0.0195,0.9157\right)$
Actual Power Completion Rate C20 $\left(0.2809,0.6025\right)$	$\left(0.0256,0.9301\right)$
Supply and Demand Transaction Response B9 $\left(0.4086,0.3826\right)$	Contract Rate of Power Sale Contract C21 $\left(0.5047,0.5054\right)$	$\left(0.0399,0.8999\right)$
Interruptible Load Contract Performance Rate C22 $\left(0.3645,0.3441\right)$	$\left(0.0288,0.8673\right)$

Then, for electricity retailing company A to carry out information assembly by substituting (24), we get.[Image Omitted. See PDF]

Similarly, the information aggregation for electricity retailing companies B, C, D and E can be obtained.[Image Omitted. See PDF][Image Omitted. See PDF][Image Omitted. See PDF][Image Omitted. See PDF]

From substituting the above‐aggregated results into (25), the results are shown in Table .

Credit risk score results of different electricity retailing companies

Electricity retailing company	$A$	$B$	$C$	$D$	$E$
Credit risk score result	0.3819	0.3348	0.3772	0.3356	0.3397
Sort	1	5	2	4	3

In comparing the credit risk scores of the five electricity retailing companies, electricity retailing company A scored highest. Next, we see the direct impact of the external basic environment, operating credit risk, financial credit risk, and transaction credit risk on the credit risk of the sustainable development of electricity retailing companies, as shown in Table .

The direct impact of the primary indicator on the electricity retailing company

	$A$	$B$	$C$	$D$	$E$
$A_1$	0.5047	0.6204	0.6971	0.5952	0.6412
$A_2$	0.5193	0.5001	0.7885	0.5228	0.5325
$A_3$	0.5924	0.5166	0.8233	0.5026	0.4110
$A_4$	0.4924	0.4534	0.7332	0.4301	0.3402
Sort	$A_3\succ A_2\succ A_1\succ A_4$	$A_1\succ A_3\succ A_2\succ A_4$	$A_3\succ A_2\succ A_4\succ A_1$	$A_1\succ A_2\succ A_3\succ A_4$	$A_1\succ A_2\succ A_3\succ A_4$

It is obvious from Table that electricity retailing companies A and C are more focused on the financial credit risk indicators, which fully conforms to the new round of power system reform ideas and the overall description of sustainable development from the perspective of “open at both ends, to hold the middle.” When assessing the credit risk of a power company, this means more focus on financial credit risk indicators. Electricity retailing companies B, D, and E are more focused on external basic environmental indicators. Although they are regulated, they lack professionalism.

Specifically, the electricity sale market is released in an orderly manner, and multiple power‐selling entities are built, with more independent choices and on the basis of a fully liberalized market structure of buyers and sellers. $C_{11},C_{14},C_{16},C_{17}$ and other indicators directly affect electricity retailing company A and C's sustainable credit risk evaluation results, while electricity retailing companies B, D, and E focus more on the relevant policies issued by the state, such as indicators, while ignoring the sustainability of credit risk capabilities. This has greatly weakened the ability of these electricity retailing companies to withstand risks and improve credit levels, as shown in Figure .

Enlarge this image.

Trends of different indicators of different electricity retailing companies

Comparative analysis of different methods

In order to further verify the flexibility and practicability of the IFAHP, based on the same information set, the author used the basic IFAHP, the dynamic variable hesitation degree IFAHP (D‐IFAHP), and the FAHP to evaluate the credit risk of the five electricity retailing companies. The results of the comprehensive evaluation are shown in Table :

Table shows the credit risk evaluation results of the five electricity retailing companies under the three evaluation methods. The basic changes in the threefold lines are very similar, indicating that the relative rankings of the credit risk levels of different electricity retailing companies are different. However, after the dynamic adjustment of the method of intuition fuzzy evaluation, the resolution of D‐IFAHP and IFAHP is higher, and the evaluation result of FAHP obviously does not show the weak link of the credit risk of the electricity retailing companies’ sustainable development. In addition, since the weight value is directly given by experience without considering the uncertainty of the peer expert's own judgment, it is easy for the actual change of some index values to be inconsistent with the expert experience, resulting in critical information being flooded. Therefore, it is difficult to be objective and accurate. Specifically,

1. The lines of A and C are raised close to the surroundings, indicating that the credit rating of these electricity retailing companies is relative to the front, and the credit risk is low, suggesting high‐quality sale companies.
2. The fold lines of B, D, and E are all inward and close to the center of the circle, indicating that the credit ratings of these electricity retailing companies are relatively low, and the credit risk is relatively high. Whether this reflects the power generation side or the user side, users should focus on such electricity retailing companies to avoid causing greater losses. At the same time, the regional power trading center should adopt a coping strategy for this type of electricity retailing company and urge the “power generation side‐sales side‐user side” to dynamically improve their performance in terms of trading behaviors and trading capabilities, thereby improving their credit risk level.