Research on the Causes of Gray Divide Generated in Smart Elderly

Care in Liangshan Prefecture:

Based on AHP-FCE Operational Model

Songyan Han

Institute of Public Administration, Southwest Minzu University, Chengdu, Sichuan, China

Keywords: Smart Elderly Care, Gray Divide, Digital Governance, AHP-FCE Operational Model.

Abstract: This research takes Liangshan Prefecture as an example, the purpose is to explore the causes of the gray divide

generated in the smart elderly care service in Liangshan Prefecture. To accomplish this, this study combines

the depth-interview and grounded theory as research method in order to collect data, then put them to the

AHP-FCE operational model, run the model getting the main causes jointly lead to the generation of gray

divide are as follows: (1) limitation of conventional thought; (2) digital infrastructure is incomplete; (3) lack

of digital capability improvement system; (4) the using effect is unsatisfactory. Based on these, the paper puts

forward some specific suggestions to construct the governance framework of multiple cooperation in order to

narrow the gray divide as well as promote the construction of Chinese smart elderly care research a new height.

1 INTRODUCTION

Increasing the quantity and quality of the supply of

elderly care services for the quality improvement of

life of the aging population takes on a critical

significance to improving people's lives and works in

the ethnic areas in western China after poverty

alleviation. Moreover, it is critical to consolidating

the achievements of poverty alleviation and

effectively connecting the rural revitalization

strategy. On the one hand, digital information

technology has essentially changed people's living

habits and conceptions of thinking in a wide variety

of fields while reshaping the local government's

public service supply system.

In the context of building digital China, the

Chinese government at all levels is actively exploring

the novel supply pattern combining information

technology and elderly services. As a result, smart

old-age service has been boosted with the proper time

and conditions, which shows an irresistible

development situation. On the other hand, the

population aging in Chinese western ethnic minority

areas, such as Liangshan Prefecture tends to increase

and deepen, and other reality factors (e.g., the gradual

weakening of the function of the conventional elderly

https://orcid.org/0000-0002-8373-6368

services mode) are becoming progressively

prominent (Li and Zhang, 2021). Accordingly, an

effective mode is in urgent needed to improve the

supply quality of elderly services. In brief, smart

elderly care tends to be a fundamental solution to

solve the problems of lagging supply and low quality

of elderly care services in Liangshan Prefecture.

However, the adaptive construction level of the smart

elderly care in there should be further improved under

numerous factors. Compared the aged population in

other areas, there is a significant gap in the

acceptance willingness and awareness of this novelty

pension model, such that this group cannot equally

benefit from the development of Chinese smart

pension services. The gray divide in it is generate and

tends to expand.

2 LITERATURE REVIEW

The external policy environment has been continually

optimized, and the smart elderly care services

industry has been developing worldwide. Under the

above context, relevant research results on this issue

has progressively enriched. Furthermore, the

diversity of research topics is a major step forward,

256

Han, S.

Research on the Causes of Gray Divide Generated in Smart Elderly Care in Liangshan Prefecture: Based on AHP-FCE Operational Model.

DOI: 10.5220/0012073000003624

In Proceedings of the 2nd International Conference on Public Management and Big Data Analysis (PMBDA 2022), pages 256-266

ISBN: 978-989-758-658-3

 2023 by SCITEPRESS – Science and Technology Publications, Lda. Under CC license (CC BY-NC-ND 4.0)

with a major focus on the acceptance willingness and

the relevant factors. The novelty supply mode of

smart elderly care, the dilemma, and risk in its

development process are explored.

The acceptability and willingness of the aging

population, the main body of the smart elderly care

service, will significantly affect the development of

the smart elderly care service. The low acceptability

and willingness of the users is also one of the leading

causes of the generation of gray divide. Existing

research in this field also reveals a distinct ideology

of contingency, thus indicating that various elderly

people have different factors for their demand for

smart elderly care services and their willingness to

use these services (Zhang, Li and Wu, 2020). To be

specific, age, places to live, ability to accept novel

things, average ratio of monthly income to

expenditure and the support from families, as well as

NGOs (Zhuo et al., 2020), subjective norms,

perceived usefulness, and perceived ease of use

(Yang at al., 2020) will affect the aging population's

willingness to use smart elderly care services from

the perspective of users' subjective and objective

conditions. Moreover, the research results about the

factors for the willingness though the model

construction have been relatively rich. To be specific,

the quality of material and interaction environment,

elderly care information, platform system and service,

as well as the service satisfaction will significantly

affect users' willingness to adopt smart elderly care

services (Zhu et al., 2021).

Along with the supply system of Chinese smart

elderly service has been gradually formed and

improved, the new supply modes of smart elderly

care service is being explored both in daily practice

and in theory research, mainly includes the intelligent

community caring services, intelligent home-based

caring and virtual pension service.

First, compared with three conventional supply

modes of elderly care services, namely "government-

led public model", "market-led private model" and

"socially-led mutual assistance model", intelligent

community caring services have the different

characteristics of components, merit and demerit, and

adaptive dimensions (Liu et al., 2022), which has

significant superiority of reducing pension burdens of

social and family and lifting the efficiency of the

pension industry chain.

Second, intelligent home-based elderly caring is a

novel model to effectively solve the problem of

Chinese elderly care built with the core idea of

"openness, equality, innovation and free" (Xu et al.,

2021). Compared with the conventional home-based

elderly care mode, it shows significant advantages in

such fields as exchange of elderly care information,

expansion of elder care projects, and optimization of

elderly care supply. However, in the process of

development, this mode will be significantly limited

by the fragmented development of nursing, caring,

and medical treatment (Sui et al., 2016). Thus, the

future development trend of this new elderly care

mode should enhance the integrity of all components

in it and build the supply platform and model that

stress the characteristics of being integrated and

refined.

Lastly, virtual pension service relies on the

information platform to integrate pension resources

and realize the integration of modern technology and

conventional pension model, which is not only a new

model to break through the conventional dilemma of

Chinese elderly care services (Du and Sun, 2020), it

also represents the future development direction of

China’s smart elderly care services (Zhu, 2021).

The smart elderly care, newly produced by the

combination of the conventional pension modes and

the background of the information age, has a bright

prospect, whereas twists and turns remain in its

development path. Besides, a variety of difficulties

and risks exposed during its development arouse wide

public and academic attention.

First, from the institutional perspective, the

lagging-behind of the supply-based guidance, the

deep integration of resources, the reform of

institution offering services for the elderly will

significantly limit its development (Du and Zang,

2020). In addition, problems such as the immature

business model, mismatch between supply and

demand (Uddin, Khaksar and Torresen, 2018),

difficulties in information sharing, incomplete

construction of norms and standardization system

(Ghamesi, Rezaee and Rahmani, 2019), and lack of

professional talents are all exposed in the

development process of smart elderly care worldwide

(Wu, 2021).

Second, from the perspective of supply and

demand side, cognitive bias, market, industrial order

and access dilemma (Chen, 2021) are all the the

fetches that need to be broken in the development

process of smart elderly care services.

Lastly, digital technology is a two-edged sword

and it also had the spillover effect, in the development

process of smart elderly care worldwide, it may also

causes such ethical risks as safety uncontrollable

during the human-computer interacting, ambiguity of

responsibility under subject recognition dilemma and

moral abnormality due to the change of family

relationship (Wang, 2021). At the same time, some

social, market and technical risks will be induced by

Research on the Causes of Gray Divide Generated in Smart Elderly Care in Liangshan Prefecture: Based on AHP-FCE Operational Model

257

some causative factors such as the incompatibility

between the conventional legal system and the new

pension service model as well as the imperfect

regulatory system. (Zhu, 2020).

3 RESEARCH DESIGN

In this study, 20 communities or towns in 5 counties

of Liangshan Prefecture is taken as a research case.

The data are obtained using the research method

combining questionnaire survey and in-depth

interview. Subsequently, the obtained data are

analyzed in accordance with grounded theory in order

to obtain the indicators as well as construct the

indicator system of AHP-FCE model, after assessing

it, this research found the main causes of the

generation of gray divide in smart elderly services in

Liangshan Prefecture. And some policy suggestions

are proposed to further narrow it (Fig. 1).

Figure 1: Research Framework

3.1 Data Selection

In this study, questionnaire survey, in-depth

interview, and grounded theory are adopted to

investigate 20 communities or towns in 5 counties of

Liangshan Prefecture (Table 1). First, a semi-

structured in-depth interview has been conducted

with 61 aging population over 60 years old following

the theme of "The views of smart elderly care

services". Table 2 lists the basic information of the

interviewees. In this study, the interview content is

converted into text and numbered. Subsequently, the

grounded theory is applied to code the text data word

by word. Next, 250 questionnaires have been

distributed in the research areas, and 206 valid

questionnaires have been collected to theoretically

support the follow-up research of this study. The

reliability and validity of samples are tested using

SPSS 26.0, and the Cronbachs α coefficient value

reaches 0.72, thus indicating that the reliability of the

questionnaire is acceptable, and the KMO value of

the model index reaches 0.791, greater than 0.7. On

that basis, the above result confirms that the validity

conforms to the requirements.

PMBDA 2022 - International Conference on Public Management and Big Data Analysis

258

Table 1: Selection of Investigation Areas.

Cities (Countries) Communities (Villages, Towns)

The Copies of Valid

Questionnaires

Collection

Number of

Interviewees

Xichang City

Zhangmuqing Village, Minsheng Village,

Xianghe Community,Jianxin Community,

Yin

bin Communit

61 17

Xide Country

Heboluo Village, Mianshan Town, Shangyejie

Communit

24 13

Puge Country

Bazhe Town, Huashan Community, Chengnan

Communit

33 14

Yanyuan Country

Luguhu Town, Tengqiao Town, Jinhe Town,

Weicheng Community, Yanrui Communit

40 7

Butuo Country

Baoguping Town, Telimu Town. Dongcheng

Community, Yisa Communit

48 5

3.2 Research Model Selection

AHP-FCE Fuzzy Analytic Hierarchy Process is a

combination of fuzzy comprehensive evaluation

method FCE and AHP. AHP (Analytic Hierarchy

Process) was first proposed by American operations

research scientist T.L. Saaty in 1975 (Hamido, 2012).

Fuzzy Comprehensive Evaluation (FCE) is a kind of

comprehensive evaluation method based on

mathematical model. It uses fuzzy mathematics to

deal with the indicators which are affected by

qualitative factors. Ahp-FCE Fuzzy Analytic

Hierarchy Process (AHP) is the integration of

advantages and complementary disadvantages of the

two. The questionnaire was designed based on Likert

scale, and the evaluation set V={V1, V2, V3, V4, V5}

was set, where V1: very low (satisfactory/Accord

with); V2: relatively low (satisfactory/Accord with);

V3: general (satisfactory/Accord with); V4:

Relatively high (satisfactory/Accord with); V5: Very

high (satisfactory/Accord with) (He, 2020). The

principle of weighted average is adopted to treat each

rank as a relative position and make it continuous. In

order to display the evaluation results more

intuitively, the percentage system was used to obtain

the membership function image by referring to

relevant literature, as shown in Figure 2.

Figure 2: The Corresponding Estimation Scale of

Quantitative Data.

fi was set as the number of people evaluated by

the questionnaire for each index, Wi was the index

weight, gij was the matrix data corresponding to the

index evaluation, Vt was the corresponding score of

each level, T was the total score of the actual

evaluation, t was the theoretical score, and Tt was the

scoring rate. Then:

irequestionna Totalfffff

54321

iiiii

=++++

(1)

）（

543215~15~1

iiiiiiji

ffffffg ++++=

(2)

15141312111

jijijijijit

g*95g*85g*75g*65g*55v ++++=

n5n4n3n2n1n

jijijijijit

g*95g*85g*75g*65g*55v ++++=

(3)

1454321

tttttt

v...vvvvv +++++=T

(4)

100*w...100*w100*wt

1421

iii

+++=

(5)

nn )14~1(

14)~1n(n

(6)

The construction of pair comparison matrix is the

mathematical basis of fuzzy Analytic Hierarchy

Process (AHP-FCE). Aiming at specific problems,

professionals who have the right to speak in a specific

field will give the index comparison results as the

basis of index weighting. The research sets i and j as

the comparison factors respectively, then aij

represents the comparison results of item i and item j,

and the evaluation factors are shown in Table 1.

Research on the Causes of Gray Divide Generated in Smart Elderly Care in Liangshan Prefecture: Based on AHP-FCE Operational Model

259

Table 2: The Matrix of Pairwise Comparison by Experts.

Scoring

Connotation (Two factors in

comparison)

1 Equally importan

The former is slightly more

important than the latte

The former is more important than

the latte

The former is much more important

than the latte

The former is absolutely important

than the latte

2/4/6/8

The median value of the adjacent

comparison judgment above

Diagonal

description

𝑎

Pairwise

comparison the

characteristics of

matrix

𝑎

，

𝑎

，

𝑎

Set Wi as the final weight corresponding to the i-

th index (i=1-14), Xi (i=1-14) as the average result of

expert comparison and proof by line, and Yij (i=1-15,

j=1-15) as the standardized result by column, then:

𝑦

(1~n)

=𝑎

(1~n)

（

𝑎



⁄

+𝑎



+𝑎



+𝑎

...

+𝑎



）

(7)

𝑥



(1~)

（

𝑦







+𝑦







+𝑦





+𝑦



...



+𝑦







）

 (8)

𝑤



=1∗𝑥

irst Grade Index

econd rade Index

(9)

𝑤





+𝑤





+. . . +𝑤



=1 (10)

3.3 Construction of Index System

Based on the grounded theory analysis of the

interviewees' interview data, this paper finally

condensed 17 indicators leading to the generation of

gray divide in the smart elderly care service in

Liangshan Prefecture, and further summarized them

into the access divide, power divide, psychology

divide and effect divide. The above indicators are

form an evaluation model index system for the causes

of the generation of gray divide in smart elderly care

services in Liangshan Prefecture, as shown in Table 3.

Table 3: The Evaluation Model Index System of the Generation of Gray Divide in Smart Elderly Care Services in Liangshan

Prefecture.

Target Hierarch

Inherent Hierarchy Performances Hierarchy

The Evaluation

Model of the

Gray Divide

Generated in

Smart Elderly

Care Services in

LiangShan

Prefecture

Access The Intelligent

Devices of Smart Elderly

Care

(Access Divide)

The device operation

The network stabilization

The convenience degree of operate the devices

Income level

Basic Digital Ability and

Literacy

(Power Divide)

Personal cognitive and physical function

The willingness of participate in digital ability training

The self-efficacy of improving digital capacity

The condition of digital ability training in family

Education Level

The Psychology of Obtaining

the Smart Elderly Care

Services

(Psychology Divide)

The willingness to accept smart elderly care services

C10

The demand for children to care them on-hand

C11

The Recognition condition of smart pension mode

C12

The concerns about network security problems

C13

The Effects of Using Smart

Elderly Care Services

(Effect Divide)

The fit-aging level of smart elderly care services

C14

The price of accessing smart elderly care services

C15

The construction level of industry regulatory mechanisms

C16

The construction level of quality assessment mechanism

C17

PMBDA 2022 - International Conference on Public Management and Big Data Analysis

260

4 MODEL EVALUATION

According to the standards of the same level and the

same type, the index system was divided into four

comparison intervals: [B1, B2, B3, B4], [C1, C2, C3,

C4], [C5, C6, C7, C8, C9], [C10, C11, C12, C13] and

[C14, C15, C16, C17]. Then, through the

questionnaire design, the importance of the relevant

evaluation indicators were analyzed by experts, and 5

interval index systems were constructed by

combining the expert opinions and the final scoring

results to provide evidence for comparison and

judgment, and then the consistency test was carried

out. The following is an example of the index interval

[C5, C6, C7, C8, C9] for calculation. First, construct

[C5, C6, C7, C8, C9] expert pairs comparison matrix

and assign weight:

[C5, C6, C7, C8, C9] Contrast Proof by Experts=













13569

1/31258

1/51/2147

1/61/51/413

1/91/81/71/31

Then, consistency in the matrix, calculates the

maximum characteristic radix

is 5.285, the

eigenvector corresponding to is (0.160, 0.332, 0.828,

1.221, 2.458). C

is set as a consistency index, and we

can get C

-n)/(n-1)=0.071. R

was set as a

random consistency index, C

=0.071/1.120. In

the matrix test, the smaller the C

value, the better the

consistency of the judgment matrix. When C

value

is less than 0.1, the consistency test of the judgment

matrix passes. If the value of C

is greater than 0.1, it

indicates that there is no consistency. Based on the

fifth-order judgment matrix, the value of C

is 0.071,

as shown in Table 4, and the value of R

is 1.120, as

shown in Table 5. Therefore, the value of C

0.064<0.1, indicating that the judgment matrix meets

the consistency test standard and the weight obtained

is consistent.

Table 4: The AHP Analysis Result of [C5, C6, C7, C8, C9].

Item Eigenvector

Weighted

Valu e

Eigenvalue of

Maximum

The

Valu e

of CI

C5 0.160 3.208%

5.285 0.071

C6 0.332 6.633%

C7 0.828 16.562%

C8 1.221 24.429%

C9 2.458 49.169%

Table 5: The Comparison Table of Random Consistency Index of RI.

Nth-order 4 5 6 7 8 9 10 11 12 13 14

RI 0.89 1.12 1.26 1.36 1.41 1.46 1.49 1.52 1.54 1.56 1.58

Nth-order 18 19 20 21 22 23 24 25 26 27 28

RI 1.6133 1.6207 1.6292 1.6358 1.6403 1.6462 1.6497 1.6556 1.6587 1.6631 1.6670

According to the above process, the remaining

[B1, B2, B3, B4], [C1, C2, C3, C4], [C10, C11, C12,

C13] and [C14, C15, C16, C17] were checked and the

CR values were 0.070, 0.061, 0.063 and 0.069, which

were all less than 0.1. Therefore, the indexes of the

quasi - test layer and the scheme layer meet the

consistency test standard. Then, the above formulas

(7), (8) and (9) are used to calculate the weight of

indicators, and the theoretical scores are calculated

according to the formula (5), and the analogy results

are shown in Table 6. Verify the formula (10),

Wi1+Wi2+Wi3+... + Wi17 = 0.0075 + 0.0033 +

0.0163 + 0.038 +... +0.1217+0.1796+0.3615=1, the

test passed.

Research on the Causes of Gray Divide Generated in Smart Elderly Care in Liangshan Prefecture: Based on AHP-FCE Operational Model

261

Table 6: The Index Weight and Theoretical Score of the Model.

Target

Hierarchy

Inherent

Hierarchy

Weights

Performances

Hierarchy

Weights

Combination

Weight Wi

Theoretical

Score

B1 0.0654

C1 0.1154 0.0075 0.75

C2 0.0502 0.0032 0.33

C3 0.2488 0.0163 1.63

C4 0.5856 0.0383 3.83

B2 0.1994

C5 0.2300 0.0321 4.59

C6 0.0408 0.0081 0.81

C7 0.0735 0.0147 1.47

C8 0.5379 0.1073 10.73

C9 0.1178 0.0235 2.35

B3 0.7352

C10 0.0321 0.0236 2.36

C11 0.0663 0.0213 4.87

C12 0.1656 0.1217 12.17

C13 0.2443 0.1796 17.96

B4 0.5623

C14 0.4917 0.3615 36.15

C15 0.2321 0.0121 7.32

C16 0.1782 0.0021 3.98

C17 0.3212 0.0271 9.03

After analogy, the score value and scoring rate in

the evaluation model of the gray gap generated in the

process of obtaining smart elderly care services in

Liangshan Prefecture are as shown in Table 7:

Table 7: The Assessment Result of Evaluation Model of the Gray Divide Generated in Smart Elderly Care Services in

Liangshan Prefecture.

Target

Hierarchy

Performances

Hierarchy

Combination

Weight Wi

Theoretical

Score t

Practical

Score T

Scoring

Average of

Performances

Hierarch

Scoring

Average of

Inherent

Hierarch

Scoring

Average of

Target

Hierarch

C1 0.0075 0.75 0.64 85.33%

B1=79.66%

82.24%

C2 0.0032 0.33 0.24 72.73%

C3 0.0163 1.63 1.28 78.53%

C4 0.0383 3.83 3.05 79.63%

C5 0.0459 4.59 3.84 83.66%

B2=75.99%

C6 0.0081 0.81 0.56 69.14%

C7 0.0147 1.47 1.02 69.39%

C8 0.1073 10.73 8.06 75.12%

C9 0.0235 2.35 1.68 71.49%

C10 0.0236 2.36 1.71 72.46%

B3=84.17%

C11 0.0487 4.87 3.65 74.95%

C12 0.1217 12.17 9.39 77.16%

C13 0.1796 17.96 14.55 81.01%

C14 0.3615 36.15 32.57 90.10%

B4=85.79%

C15 0.0121 7.32 6.01 82.10%

C16 0.0021 3.98 3.53 88.69%

C17 0.0271 9.03 7.86 87.04%

PMBDA 2022 - International Conference on Public Management and Big Data Analysis

262

5 CONCLUSIONS

5.1 Limitation of Conventional

Thought: Difficult to Cross

Psychology Divide

The psychological divide of gray divide in smart

elderly care services refers to the gap in demand,

willingness and attitude of different aging groups

when facing the emerging technologies, modes and

products regarding smart pension services. There are

two main reasons why the aging population in the

Liangshan Prefecture is difficult to close the

psychological divide.

First, the conventional concept and cognitive bias

of elderly care limit their acceptance of the smart

elderly care service mode. Taking Liangshan

Prefecture as an example, out of the special emotion

for parents and ancestors, the Yi community in

Liangshan Prefecture has formed a unique idea and

consumption concept of elderly care, and the concept

of "great burial and poor care" is deeply rooted in

their mind. On that basis, a grand funeral after parents

died is the critical form of filial piety, whereas the

daily elderly care improving the quality of life of an

aging population has been neglected. As indicated by

the results of the questionnaire and interview, 85.3%

of the respondents said, "they are willing to spend a

high amount of money for their parents' funerals,

whereas they are not willing to spend more money on

daily elderly care services". The above result reveals

that the conservative pension and consumption

concept in LiangShan.

Prefecture will not only form the unhealthy

practice of extravagance and waste, but also reduce

the quality of life in the elderly.

At the same time, the cognitive bias of the aging

population and their children against the smart

pension service is also widespread. As mentioned

above, the pension model in the above areas is

relatively simple, conventional home-based pension

model accounts for a large proportion, and the

proportion of some emerging modes (e.g.,

community pension and institutional pension)

approaches zero. In Liangshan Prefecture, for

example, 99.31% of the aging population said "they

would not accept the institutional pension" and 99.72%

of respondents said "it is unfilial to send parents to a

nursing home or other institution". As indicated by

the above results, the cognitive bias against emerging

pension modes (e.g., institutional pension and

community pension) will further hinder their

psychological acceptance of smart elderly care

services.

Second, the pessimistic fear of technology will

further drop the willingness of the elderly people to

accept smart elderly care service. With the rapid

advance of information technology in China, the

ethical and legal risks (e.g., network fraud and

personal information leakage) have emerged in

endlessly. The probability of aging population in

there become "victims" of network risks increases

remarkably due to the generally poorly educated and

very limited digital literacy and ability of them.

According to The Survey Report on Internet Access

and Risks of the Chinese Elderly released in 2018.

Over half of Chinese elderly Internet users have been

exposed to online pyramid schemes, financial fraud,

and online shopping fraud. The aging population is

difficult to distinguish and process the exponential

growth of network information due to their low

education level, limited digital literacy and related

abilities, which significantly reduces their trust of

Internet and information technology, resulting in the

emergence of "technophobia", it makes them

extremely resistant to the intelligent pension mode

built based on Internet and information device. In the

survey, 30.4% of respondents said, "the reason they

are reluctant to access the smart pension mode is that

they are afraid of suffering Internet fraud."

In brief, the conventional conception of elderly

care and consumption in Liangshan Prefecture, the

cognitive bias against the emerging smart elderly care

and the pessimistic fear of technology together lead

to the difficulty of the aging population to cross the

psychological divide.

5.2 Digital Infrastructure Is

Incomplete: Difficult to Cross

Access Divide

The access divide of silver divide in smart elderly

care services refers to the gap generated in the process

of enjoying the development achievement of smart

elderly care services between those who have access

to Internet as well as intelligent devices and those

who do not, which is the material basis of the gray

divide. The reasons why it is difficult for the aging

population to bridge the access divide are mainly as

follows.

First, after poverty alleviation, although the

construction of digital infrastructure in Liangshan

Prefecture has made remarkable progress, it is still in

a relatively weak position compared with other areas

in China. Taking Liangshan Prefecture as an example,

it is clearly pointed out in the 14th Five-Year Plan of

Digital Economy Development issued by the

Economic and Information Bureau of Liangshan Yi

Research on the Causes of Gray Divide Generated in Smart Elderly Care in Liangshan Prefecture: Based on AHP-FCE Operational Model

263

Autonomous Prefecture that "the informatization

level of the prefecture is at a relatively low level in

the province, the supporting capacity of

communication network infrastructure is insufficient,

and the intensive construction of information

infrastructure need to be further improved".

Second, as the main body of the production and

supply of smart elderly care services, the

development quality and level of related industries

are of great importance for the integral development

of smart elderly care service. In general, the

development foundation of the intelligent elderly care

industry in China’s western ethnic areas is relatively

weak, still exists some practical problems, such as

lack of driving force for industrial agglomerative

development and leading enterprises, the weak

support ability of technological innovation for

industrial development.

Third, the landform and topography of ethnic

areas in western China are mainly mountainous. The

above natural conditions also determine that the

construction cost of digital infrastructure in there is

relatively high. The special topography and poor

transportation conditions together result in bad access

conditions of smart elderly care services in China’s

western ethnic areas such as Liangshan Prefecture. In

the process of the survey, 36.41% of respondents said

that "the instability of the network and mobile phone

signal is one of the reasons why they are not willing

to access in smart elderly care."

Lastly, on the one hand, the above enterprises

retain their nature of profit-seeking. In the pricing of

related products and services of smart elderly care,

they will pursue the greatest interests as the

fundamental goal. On the other hand, as a part of

public services, the publicness of elderly care

services should also be paid attention to. In the games

between the above two natures, the former tends to

seize the advantage. Thus, the high pricing of the

smart elderly care services and products will hinder

the aging population in ethnic areas in western China

from crossing the access divide significantly, and it is

a common phenomenon of hard to bear the cost of

digital devices (e.g., smart phones and network

telecommunications) in China’s western ethnic areas.

Taking Liangshan Prefecture as an example, the

results of the questionnaire showed that 30.1% and

29.3% of respondents said they "do not have smart

phones" and have “no Internet connection at home”,

respectively.

In brief, factors (e.g., the incomplete digital

infrastructure and the weak development foundation

of smart elderly care industries) have led to the

realistic dilemma that the aging population in ethnic

areas in western China is difficult to bridge the access

divide.

5.3 Lack of Digital Capability

Improvement System: Difficult to

Cross Power Divide

The power divide of gray divide in the smart elderly

care service refers to the gap in the ability and

accomplishment of the aging population when

accessing the smart pension service. For the aging

population in China’s western ethnic areas, even if

they have successfully crossed the psychological and

access divide, they remain in a relatively weak

position in terms of their ability to use the services

due to the lack of the cultivation and improvement

system of the digital capability of smart elderly care

services.

On the one hand, there are still some defects in the

top-level design of the digital ability cultivation and

promotion system in ethnic areas in western China,

which mainly reflected in the lack of clear policy

support at the national level, and the low importance

attached to its role and position in the process of

ensuring the aging population in China’s western

ethnic areas are able to enjoy the equality of the

development achievement of the smart pension

service. Moreover, the premise of establishing a

perfect system to cultivate and enhance the digital

ability of smart pension is to promote the aging group

to form the right comprehension of it. However, the

relevant propagandization activities have been

significantly hindered in ethnic areas in western

China, especially in the grass roots. In addition, the

propaganda strength of smart elderly care is

insufficient, and the forms of propaganda are

relatively simple. With Liangshan Prefecture as an

example, the survey found that 79.23% of the

respondents said "they know nothing about the smart

elderly care services".

On the other hand, the vacancy of the grass-root

governance subjects (e.g., communities and villages)

in digital ability promotion activities in China’s

western ethnic areas will also lead to the further

expansion of the power divide. With Liangshan

Prefecture as an example, 79.23% of respondents said

that "villages or communities have never held any

training activities related to digital ability".

In brief, factors (e.g., defective top-level design,

insufficient publicity, and the absence of governance

subjects) have caused the inability of the aging

population in ethnic areas in western China to bridge

the power divide.

PMBDA 2022 - International Conference on Public Management and Big Data Analysis

264

5.4 The Using Effect Is Unsatisfactory:

Difficult to Cross Effect Divide

The effect divide of gray divide in smart elderly care

services represents the gap in the effect, experience

feeling and benefit of the aging population applying

the smart pension services. As the aging society in

China has been deepening, their needs and

preferences of the smart pension tend to be

diversified. Although a wide variety of communities,

institutions and other subjects of the smart pension

have taken corresponding measures to satisfy the

diversified needs of the elderly care, the precision

design of the aged and minority groups of the smart

pension service in China’s western ethnic areas still

have considerable improvement rooms.

On the one hand, smart elderly care devices

designed for the aging population are subject to

numerous problems. Several problems remain (e.g.,

the service is difficulty to satisfy the diversified needs

of the aging population, the high price, and their

design defects for applying to the aging population)

since the contradiction between the nature of profit-

seeking and publicity of smart pension enterprises has

not been eliminated.

Moreover, the precise design of service and

product fitting the minority groups has a large room

for improvement for the aging population in ethnic

areas. An interviewee from Xichang city said, "my

Chinese proficiency is not very good, whereas there

is no way to choose my own national language in the

smart device of elder care, which has significantly

hindered my progress (2021-7-13-XCS-MSX-03)".

As revealed by the above finding, for the users of

smart elderly care services in ethnic areas in western

China, products and related services with the low

level of being suitable for aging and nationality will

directly lead to the effect divide.

On the other hand, the lack of uniform standards

of regulatory and supervision in the smart elderly care

service industry leads to the quality of smart elderly

care services supply. An interviewee from Xide

County indicated that "Pop-up ads have occurred

several times in the software of smart elderly care

services, while some functions also require the extra

payment. (2021-7-18-XDX-SYJSQ-01)". As

revealed by the above finding, the differences in the

quality of its products and services are increasingly

prominent since the smart elderly care service has

become increasingly common in Chinese grassroots

and ethnic areas. Moreover, the supervision system of

industry and product quality supervision remains not

perfect. As a result, compared with other developed

and urban areas, the aging population in China’s

western ethnic areas has a significant gap in use effect

of smart pension services. As a result, the generation

of effect divide and the equality of enjoying the

development achievement of Chinese smart pension

services will be damaged.

In brief, factors (e.g., the design defect of service

and product which fitting the minority and aging

groups, lack of uniform standards of regulatory and

supervision of smart elderly care services and related

products) will hinder the aging population in ethnic

areas in western China from bridging the effect divide.

6 SUGGESTIONS

According to the above research results, the gray

divide generated in ethnic areas in Liangshan

Prefecture arises from the failure factors of the aging

population to cross the psychological, access, power

and effect divide. They are intertwined and

complicated, thus leading to the fact that the single

governing subject may can not achieve the

governance goal of bridging the gray divide of smart

elderly care services in there independently.

Accordingly, constructing and improving the

governance system framework of multiple

cooperation in that place is the critical path to bridge

the gray divide in smart elderly care services.

As depicted in Fig. 3, this framework contains two

basic elements: the first is the multiple subjects

participate in the construction of the smart elderly

care in Liangshan Prefecture, such as the

governments, communities and social organizations,

enterprises, and families. The second part is the

combination of the external development

environment and foster conceptual change of the

aging population, and implement the above two

elements into key strategic arrangements (e.g., the

top-level system design, crossing the psychological

divide, access divide, power divide and effect divide)

to achieve the goal of bridge and eliminate the gray

divide of smart elderly care service in Liangshan

Prefecture and further safeguard their equally rights

of enjoying the development achievement of China’s

smart elderly care services.

REFERENCES

Chen Yonghua & Shao Wenjun (2021). Intelligent pension:

Connotation, dilemma and suggestion. J. Jiang-huai

Tribune, 2, 139-145.

Du Chunlin & Zang Luheng (2020). From “Fragment

Operation” to “Holistic Governance”: Research on the

Research on the Causes of Gray Divide Generated in Smart Elderly Care in Liangshan Prefecture: Based on AHP-FCE Operational Model

265

Path Innovation of Smart Pension Service Supply

Driven by Big Data. J. Study and Practice, 7, 92-101.

Du Xiaozhen & Sun Jingna (2020). The Advantage, Risk

and Path of the Development of Virtual Nursing Home.

J. The Journal of Shanghai Administration Institute,

214: 74-85.

Farideh Ghasemi & AliRezaee & Amir MasoudRahmani

(2019). Structural and behavioral reference model for

IoT-based elderly health-care systems in smart home. J.

International Journal of Communication Systems, 32,

12-35.

Hamido, Fujita & Roberto Revetria & Teresa Murino &

Riccardo De Carlini & Giuseppe Naviglio, 2012. An

Economic Order Policy Assessment Model Based on a

Customized AHP, IOS Press. New York.

He Xiaofei & Zhang Xiuqing & Zhang Xiaomin (2020).

Evaluation of rural tourism resources in Inner Mongolia

based on AHP-FCE. J. Journal of Arid Land Resources

and Environment, 3410, 187-193.

Liu Yi & Li Xiaona (2022). The Comparison and

Optimization Path of Chinese Community Wisdom

Endowment Mode in Digital Times. J. E-Government,

5,112-124.

Li Zhao & Zhang Guifeng (2021). The localization

construction of Time Bank embedded in Western rural

Mutual support for the elderly -- and discussion with

"Time Bank" round table Forum. J. The Journal of

Yunnan Administration College, 231, 66-67.

Sui Dangchen & Peng Qingchao (2016). Internet+Home-

based care for Senior Citizens: Research in Service

Model of Intellectual Home- based Care for Senior

Citizens. J. Journal of Xinjiang Normal University

(Edition of Philosophy and Social Sciences), 375, 128-

135.

Uddin Md & Zia & Khaksar Weria & Torresen Jim (2018).

Ambient Sensors for Elderly Care and Independent

Living: A Survey. Sensors, 187, 2027-2040.

Wu Xue (2021). Development Trend, Realistic Dilemma,

and Optimization Path of the Smart Elderly Care

Industry. J. East China Economic Management, 357, 1-

Xu Lan & Li Liang (2021). Internet + smart care for the

elderly: a community home care service model based

on the O2O concept. J. Chinese Journal of Gerontology,

4112, 2675-2681.

Yang Shun-Ren & Yuan Shih-Chun & Lin Yi-Chun &

Yang I-Fen (2020). DTMFTalk: a DTMF-Based

Realization of IoT Remote Control for Smart-Home

Elderly Care Mobile Networks and Applications. J.

Mobile Networks and Applications, 297, 196-207.

Zhang Quan & Li Meiyu & Wu Yijin (2020). Smart home

for elderly care: development and challenges in China.

J. BMC Geriatrics. 201, 101-177.

Zhou Jining & Zhang Bo & Tan Runhua & Tseng Ming-

Lang & Lin Remen Chun-Wei (2020). Using

Neighborhood Rough Set Theory to Address the Smart

Elderly Care in Multi-Level Attributes. J. Symmetry,

122: 297-317.

Zhu Hailong & Tang Chenming (2020). The Social Risk

and Legal System Arrangement of Intelligent Pension.

J. Journal of Jishou University (Social Sciences), 415,

27-36.

Zhu Junhong & Shi KaiyuanYang & Chengyue & Niu

Yanping & Zeng Yingchun (2021). Ethical issues of

smart home-based elderly care: A scoping review. J.

Journal of Nursing Management, 231, 151-172.

Zhu Yongqing (2021). Research and Implementation of

“Internet Plus” Virtual Pension Platform. J. Software,

429, 172-177.

PMBDA 2022 - International Conference on Public Management and Big Data Analysis

266