International Journal of Interactive Mobile Technologies (iJIM) – eISSN: 1865-7923 – Vol. 14, No. 11, 2020


Paper—The Development of an Android-Based Dictionary for Blind 

The Development of an Android-Based Dictionary  

for Blind 

https://doi.org/10.3991/ijim.v14i11.13875 

Novi Eka Susilowati (), Imam Syafi’i, Aftina, Azzhan Shahrul, 

Dwi Prasetyo Nogroho, Sekar Bitari 
Universitas Negeri Malang, Malang, Indonesia 

novi.eka.fs@um.ac.id 

Abstract—This study aims to develop an Android-based Indonesian diction-

ary for the blind. This study was developed using the Borg & Gall development 

model with some adjustments to the needs of this study. The stages of product 

development are (1) preliminary studies, (2) planning, (3) product development, 

(4) product validation, (5) first phase revision, (6) trials, (7) second phase revi-

sion, and (8) dissemination. The product developed is an android-based diction-

ary application with voice input and output. This developed product has been 

validated and tested on a small scale. Validation is carried out for material expert 

validators, media experts, and practitioners; while small-scale trials were con-

ducted on 5 people with visual impairments. The results of product validation and 

trial show that the product developed is feasible to be implemented with an aver-

age percentage rating of 91.93%. The product developed provides benefits to the 

blind, which makes it easier to understand the meaning of words in the dictionary 

and increases the independence of the blind. 

Keywords—Dictionary, Indonesian language, blind people, android. 

1 Introduction 

The results of the research of several institutions indicate that the level of literacy 

(one of which includes the ability to read) Indonesia is very low. In fact, the results of 

the release of the PISA report in 2018 [1]  showed that Indonesia ranked 72 out of 77 

countries with a successive reading of 371, Mathematics of 379, and Science of 396. 

Of these three values, reading was a low value, even decreased from 2015. 

On the other hand, the ability to literate is very important possessed by an individual, 

both normal individuals and individuals with special needs (including visually im-

paired) to be able to survive in the current era of science. In the era of science, goods 

and services are no longer the main commodities, but science itself is the main com-

modity. Therefore, if an individual does not have adequate literacy ability, the 

knowledge provision is also low so that it does not close the possibility that a person 

cannot compete or survive in the scientific era. 

The low ability to titrate is caused by many factors. One of them because of the 

obstacles in reading. These obstacles can be in the form of difficult words in reading 

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mailto:example@example.org


Paper—The Development of an Android-Based Dictionary for Blind 

that cause someone to be lazy to read. As a result, the ability to titrate is characterized 

by reading-writing-critical thinking becomes low. 

The low literacy ability in Indonesia occurs in almost all groups, including persons 

with disabilities. This certainly needs serious attention considering the number of peo-

ple with disabilities in Indonesia is quite high. Based on the National Socio-Economic 

Survey (Survei Sosial Ekonomi Nasional or SUSENAS) on 2012 [2], the percentage of 

Indonesian population with disabilities was 2.45% with details: 39.97% of people with 

more than one type of disability, 29.63% of limitations in seeing, 10.26% limitations in 

walking or climbing stairs, 7.87% limitations in listening, 6.70% limitations in concen-

tration, 2.83% limitations in taking care of themselves, and 2.74% in communication 

limitations. From this explanation, persons with visual impairments (visually impaired) 

ranks second most, while at the highest rank is a disability that has more than one type 

of limitations. 

Persons with disabilities have a low level of independence so that there is a sense of 

dependence on others. That is also why people with disabilities are reluctant to increase 

their literacy because, for example, to understand the meaning of difficult words in a 

reading, they must depend on others. This feeling of dependence is certainly disturbing 

and can reduce the enthusiasm of learning of persons with disabilities. 

Based on the facts that have been stated above, a way is needed to increase the inde-

pendence of persons with disabilities, especially those with visual impairments because 

the blind is the highest number of persons with disabilities among other people with 

disabilities in Indonesia. One way that can be used to overcome the low literacy ability 

of the blind and to increase the independence of the blind is to use a dictionary to un-

derstand difficult words or terms. In this way, it is hoped that the blind can have the 

independence to look up the meaning of words if they have difficulty in understanding 

the contents of the reading. 

According to the Great Dictionary of the Indonesian Language (Kamus Besar Ba-

hasa Indonesia or KBBI), the dictionary is ‘a reference that contains words and expres-

sions usually arranged alphabetically along with information about eating, usage, or 

translation’. The dictionary is a book containing words from a language, usually ar-

ranged alphabetically, accompanied by an explanation of its meaning, speech, spelling 

and so on (American Every Dictionary in [3]). The dictionary is a reference book that 

contains a list of words or combination of words with information about various aspects 

of meaning and its use in language, which are usually arranged alphabetically [4]. From 

these quotations it can be concluded that the dictionary is a reference that contains a list 

of vocabulary and meanings arranged alphabetically. 

On the other hand, the development of communication and information technology 

(ICT) is developing very rapidly. The development of ICT is marked by the rapid de-

velopment of the use of mobile phones that have android facilities. This facility is cur-

rently used by most Indonesians from various walks of life. No exception for people 

with disabilities, especially those who are blind. KrJogja [5], one of the electronic news-

papers from the Special Region of Yogyakarta, on November 17, 2016 reported that 

Tio, one of the students of the Faculty of Law, Gadjah Mada University, who is one of 

the visually impaired, told about the college life of blind people who could not be far 

from smartphones with the activation of talkback as a helper facility for reading texts 

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Paper—The Development of an Android-Based Dictionary for Blind 

in a smartphone. For Tio, the talkback facility that is provided in android is very useful 

for her lectures. 

The facts that have been stated are the basis for developing an Android-based Indo-

nesian dictionary for the visually impaired. Because it is intended for the visually im-

paired, the developed dictionary is equipped with the help of a screen reader or talkback 

which is one of the features found on Android-based smartphones. 

There are similar previous studies. In the 2015, Purnomo [6] research entitled De-

veloping a Visual Studio High School Biology Dictionary Application Based on Plant 

Classification Subjects in Jepara High School, a high school Biology dictionary was 

produced by meeting the standards of eligibility criteria for learning media based on 

media and material aspects. The developed dictionary can also improve student learning 

outcomes. Another research was conducted by Kurniawan (2006) [7] in the form of a 

thesis entitled Mobile Braille Touch (MBT): Development of Media Learning Braille 

Application Based on Android for Blind Person in 2016. The research produced a learn-

ing media product that writes Android-based braille letters that have been tested their 

eligibility and can be published. 

This study has similarities and differences with previous studies. When compared 

with Purnomo's research, this study has something in common that is equally develop-

ing products in the form of a dictionary. However, the dictionary developed by 

Purnomo is a Biology dictionary, while the dictionary developed in this study is an 

Indonesian dictionary. In addition, the dictionary developed by Purnomo was devel-

oped based on visual studio, while the dictionary developed in this study was developed 

based on Android. When compared with Kurniawan's research, this study has some-

thing in common that is equally developing products for Android-based blind people. 

However, Kurniawan's research was in the form of developing learning media, while 

this research was in the form of developing an Indonesian dictionary. 

2 Method 

2.1 Product development design 

In this study, the chosen development model is the Borg & Gall development re-

search model. Borg & Gall [8] provides ten stages for development research. The re-

search starts from preliminary studies, planning, initial product development, limited 

trials, first stage revisions, wider trials, second stage revisions, field implementation, 

final product revisions, and dissemination. However, not all stages of the development 

of Borg Gall were implemented in this study. This study only uses stages (1) prelimi-

nary studies, (2) planning, (3) product development, (4) limited trials (product valida-

tion), (5) revision of the first stage, (6) wider trials, (7) second phase revision, and (8) 

dissemination with details described in Figure 1. 

The first stage is a preliminary study. The preliminary study was carried out by gath-

ering information related to dictionary development and visual impairment. This infor-

mation gathering is done by studying literature from various sources. 

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Paper—The Development of an Android-Based Dictionary for Blind 

 

Fig. 1. Research Stage 

The second stage taken is product development planning. This stage consists of four 

sub-phases, namely (a) analysis of the needs of the visually impaired dictionary, (b) 

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Paper—The Development of an Android-Based Dictionary for Blind 

analysis of the ability to use android by visually impaired, (c) analysis of information 

about divination, and (d) analysis of the talkback feature. Analysis of the needs of the 

visually impaired dictionary is used to find information about the need for a dictionary 

for the visually impaired. Analysis of the ability of blind people to use android is done 

to find out the capabilities and characteristics of using android by blind people so that 

an android application can be developed that is in accordance with the capabilities and 

characteristics of blind people in using android. Analysis of information about the dic-

tionary was carried out to find out the steps in the preparation of the dictionary and 

other important things related to the preparation of the dictionary. The talkback feature 

analysis is performed to determine the accuracy of the use of the talkback feature in the 

application to be developed. 

The third stage is product development. At this stage, product development is carried 

out using the prototyping method. According to Pressman [9], the design of the system 

to be developed can use the prototyping method. At this stage, initial drafting is also 

carried out. The prototyping model is a software approach whose purpose is to develop 

the model into a final system. This stage consists of three sub-phases, namely (a) mak-

ing use case diagrams, (b) making architectural designs, and (c) collecting materials 

consisting of selecting entries, improving the meaning of words, and uploading entries 

to the application database. After this stage is completed, the initial product is obtained. 

The fourth step is validation. Validation is carried out to obtain ratings, criticisms, 

and suggestions from competent parties in their respective fields of product develop-

ment. Validation is done by expert validation and practitioner validation. Expert vali-

dators are divided into two, namely the material validator (lexicographer) and the media 

validator (information technology expert), while the practitioner validation is carried 

out by someone experienced in the field of blindness. At the validation stage, a research 

instrument in the form of a questionnaire containing (a) an assessment of the product 

in terms of material, media, and users is used as a quantitative data, and (b) criticism 

and suggestions that support product improvement and is a qualitative assessment. Af-

ter passing the validation stage, the product is then revised according to the ratings, 

criticisms, and suggestions from the validators. 

The fifth step is to revise the initial product. Revisions are made based on ratings, 

criticisms, and suggestions given by the validator. 

The sixth step is to try out the initial product. Trials were conducted on five people 

who are blind. A trial was conducted to determine the level of product readiness for use 

by the visually impaired. Trials were also conducted to obtain input and suggestions 

from the visually impaired for the product being developed. 

The seventh stage is to revise the products that have been tested based on ratings, 

suggestions, and criticisms from the test subjects. This revision was made to improve 

the products that have been developed. 

The eighth step is to conduct product dissemination. Dissemination is done by pub-

lishing the results of product development through scientific publications and publica-

tions in the mass media. 

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Paper—The Development of an Android-Based Dictionary for Blind 

2.2 Product trial 

The product trial was conducted in Malang City, namely in UPT Binanetra under the 

auspices of the Social Service of Malang City. This social service specifically houses 

the blind. The product trial was conducted on 5 blind people who used to use an An-

droid-based gadget with the help of the Google Talkback application. 

When testing the product, a mobile phone that has an Android-based Indonesian dic-

tionary application for the blind is provided. Furthermore, the test subjects actually use 

the dictionary (looking for the meaning of words in the developed dictionary). After 

that, the test subjects were given a questionnaire containing their ratings, suggestions 

and criticisms of the product being developed. When conducting a trial, the researcher 

also observes the degree of independence of the test subject in using the product being 

developed. Nevertheless, researchers still provide assistance to facilitate the test sub-

jects in operating the developed product. 

2.3 Data analysis 

This research data in the form of quantitative data and qualitative data. Quantitative 

data were obtained from validator and trial subject evaluations, while qualitative data 

were obtained from comments, suggestions, and criticisms from validator and trial sub-

jects. Data obtained from experts, practitioners, and development trial subjects are an-

alyzed as a basis for product revisions. 

The data in this study were analyzed qualitatively and quantitatively. Qualitative 

analysis is done to analyze data derived from comments, suggestions, and criticisms 

from experts, practitioners, and subject matter. The conclusion from the analysis of 

qualitative data is used as a reference for whether the product needs to be revised or 

whether the product is feasible to be implemented. 

Meanwhile, quantitative analysis was carried out to analyze the data obtained from 

expert, practitioner and subject assessment. Quantitative data analysis techniques in re-

search and development are in the form of numerical data processing obtained from 

filling out expert questionnaires, practitioner questionnaires, and questionnaire subject 

trials. The data has previously been validated by experts and analyzed using the follow-

ing calculation formula. 

Quantitative data processing is done by using the following references. 

P =
∑𝑥

∑𝑥𝑖
𝑥 100% 

Information: 

P = Percentage 

∑x = Total number of respondents' answers in all items 

∑xi = Total ideal score in per item 

100% = Constant 

Furthermore, the percentage of the calculation results is used as a reference for de-

termining product criteria. Determination of product criteria is carried out using the 

scale as listed in Table 1. 

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Paper—The Development of an Android-Based Dictionary for Blind 

Table 1.  Determination of Product Revision 

Percentage Interval Follow-Up 

90%—100% Implementation (I) 

70%—89% Implementation with a minor revision (IR) 

50%—69% Revisions according to expert and practitioner notes (R) 

<50% Revision by modification(U) 

3 Result 

The results of the study are described based on the research objectives which include 

(1) the development of an android-based Indonesian dictionary for the blind, and (2) 

the validation of an android-based Indonesian dictionary for the blind. 

3.1 Development of an android-based Indonesian dictionary for the blind 

Development process: Making the application design through the stages of making 

use case diagrams, making architectural designs, and collecting materials. Use case di-

agrams are made as a guide for the development that will be carried out. Use case in 

the form of a series of behavioral modeling of information systems created. This stage 

describes an interaction between one or more actors with the information system cre-

ated. Use case diagrams are designed for user needs and admin requirements. User 

needs are designed to make it easier for users to do word searches in a dictionary, view 

tutorial application usage features, view features about, and view application developer 

contacts. The admin needs — which in this case is the product developer — are de-

signed to respond to user-assisted features, display contact developers who can be con-

tacted by users, and make updates to the database. Database updating is done to increase 

the number of entries from various fields. 

After the use case diagram phase is made, it continues with the architectural design 

stage. At this stage the GUI (Graphical User Interface) is designed on the architectural 

design drawings so that the flow of the application can be seen clearly. At this stage 

also made a website that is used to store databases online. The online database is used 

to lighten the capacity of the application so that it is easily installed on low-capacity 

android phones. In addition, the use of online websites also makes it easier for admins 

to add entries from various fields. After making an architectural design, material is col-

lected based on the results of the analysis of user needs and abilities, use case diagrams, 

and making architectural designs. 

The process of collecting materials at the design stage of making this application 

begins with collecting material that will be used as a database. At this stage the first 

step taken is to document the book that is used as a source of entry. In the initial product 

development, the book used as a source of entry in the dictionary developed was the 

entry considered difficult from subject books for high school students. These subjects 

include (1) chemistry, (2) biology, (3) mathematics, (4) geography, (5) sociology, (6) 

anthropology, (7) economics, (8) technology, (9) history, and (10) languages. Aside 

from textbooks, entries are also taken from entries which are considered difficult in the 

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Paper—The Development of an Android-Based Dictionary for Blind 

newspaper, such as in the newspaper (1) Republika, (2) Jawa Pos, (3) Media Indonesia, 

and (4) Kompas which is published over a period of two weeks. From these sources, 

2,000 basic entries and 12,000 derivatives have been collected. 

After the entries are recorded, the entries are given meaning in accordance with the 

meaning of the KBBI. KBBI which is used as a reference for meaning is the Big Indo-

nesian Dictionary outside the network 1.5.1 and the Big Indonesian Dictionary 5th Edi-

tion based on Android. The final stage of material collection is uploading entries to a 

website created using the PHP programming language, Ajax, and bootstrap as a display. 

Because entry is done in an online database, adding data can be done in realtime. 

Table 2.  Minimum Android Specifications for the Indonesian Dictionary for the Blind 

OS Jelly Bean 4.3 

RAM 512 MB 

Disk 10 MB 

 

Features in the dictionary: In this developed dictionary, there are five features. 

These features are (1) home page features, (2) features of about, (3) features of tutorial, 

(4) main features, and (5) features of contact. 

The home page feature contains dictionary names and dictionary icons. On this start 

page, there is a talkback feature that mentions the name of the developed dictionary 

application. Feature of About contains an explanation of the dictionary developed. Fea-

ture of Tutorial contains an explanation of how to use a dictionary. The main feature 

contains a page for inputting words to search for their meaning. In this feature, there is 

a say and listen button. The speak button is located in the lower left corner, while the 

listen button is in the lower right corner. Both buttons are designed to be large to make 

it easier for users to click. Feature of Contact contains the name and address of the 

dictionary developer's correspondence. 

The following is a dictionary display developed. 

 

Fig. 2. Home Page Views 

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Fig. 3. The Views of About Features 

 

Fig. 4. The Views of Tutorial Features 

 

Fig. 5. The Views of Contact Features 

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Paper—The Development of an Android-Based Dictionary for Blind 

  

Fig. 6. The Views of The Main Page of The Dictionary 

How a dictionary works: In operating this product, to look up the meaning of 

words, users say words that will be searched for meaning near cell phones that have 

this application installed. After that, this application will detect the sound and match it 

with the language data in the database. If the word entered is in the database, the device 

will provide a response in the form of giving meaning to the word that has been in-

putted. Giving meaning of words is done through the talkback feature. 

When giving a response in the form of giving meaning to a word, the device will 

repeat the inputted word by repeating the inputed word, give the class the inputed word, 

add in the entered word science field, add the word adalah (is/are) before giving the 

meaning of the word, then give the meaning of the word. These things are done to 

clarify the meaning of words and make it easier for users to understand the meaning of 

the words entered. 

In this developed dictionary, the addition of contoh (example) words is also done 

before using examples of words in sentences. In addition, the punctuation was also 

changed such as changing the comma into a semicolon or a dot so that there is a longer 

gap in the reading of meaning. This was done to give users time to think and concentrate 

on listening to the meaning that is read by the talkback feature. 

The meaning of the dictionary uses many abbreviations, for example n which stands 

for noun. Therefore, in this developed dictionary, all the abbreviations contained in the 

KBBI are returned to their original form (the form of the abbreviation, not the abbrevi-

ation). This is done so that all words can be read correctly by the talkback feature so 

that it can facilitate the user in understanding the talkback feature. 

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Paper—The Development of an Android-Based Dictionary for Blind 

3.2 The validation and trial of android-based Indonesian dictionary for the 

blind 

The developed product validation dictionary was carried out by three validators con-

sisting of two expert validators and one practitioner validator. Expert validators consist 

of (1) material expert validators, namely lexicographers, and (2) media expert valida-

tors, namely informatics engineers; while the practitioner validator is someone who is 

an expert in the field of visual impairment. The validation instrument developed was in 

the form of a questionnaire. The questionnaire compiled contains a number of questions 

that can be used to measure product viability and contains columns of comments, sug-

gestions and criticisms for product improvement. After the questionnaire is ready, the 

steps taken are conducting expert validation and practitioner validation. 

Material validation was carried out to Indonesian lexicographers. During the mate-

rial validation process, the validator is given a cellphone that has an android-based In-

donesian dictionary application installed for the visually impaired. In addition, the val-

idator was also given a questionnaire containing a list of questions with a total of 15 

questions consisting of aspects of the suitability of the material to the needs of the user, 

the suitability of the contents with Indonesian grammar, the suitability of the language 

used on the product with the user's linguistic ability, and the suitability of the features 

to the user's needs. From the questionnaire obtained quantitative data in the form of a 

value given material validator of 80% which means the product is feasible to be imple-

mented with a little revision. 

Media validation is carried out to informatics engineers. At the time of media vali-

dation, there is a mobile phone that has an Indonesian dictionary application installed 

for the visually impaired for the validator. In addition, the validator was also given a 

questionnaire containing a list of questions on aspects of the media consisting of 24 

questions in which contained an assessment of software engineering, program appear-

ance, and accuracy for the user. The results of the evaluation of the media validator 

were 95.8% which means the product was feasible to be implemented. 

The validation of the practitioner is carried out to special education experts who also 

provide education for the visually impaired. During the validation process, there is a 

mobile phone that has an Indonesian dictionary application installed for the visually 

impaired for the validator. In addition, the validator was also given a questionnaire that 

contained a list of questions with a total of 13 questions consisting of aspects of the 

suitability of the features of the user's ability, suitability of the material to the user's 

needs, suitability of the language used with the user's ability, and ease of access. From 

the questionnaire obtained quantitative data in the form of a value given by a practi-

tioner validator of 100% which means the product is feasible to be implemented. 

Based on the three results of validation that have been done, three percentages are 

generated, comments and suggestions from the validators. The average percentage of 

eligibility assessment of the three validators is used as a benchmark for product revi-

sion. The percentage of eligibility is 91.93% which means that the product is feasible 

to be implemented. Then some comments and suggestions given by the validator are 

also used as a reference to revise and improve the Android-based Indonesian dictionary 

for the blind in the future. 

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Paper—The Development of an Android-Based Dictionary for Blind 

In addition to validation, a trial was also conducted on the products developed. The 

trial was conducted on five people with visual impairments, namely people with low 

vision and totally blind. The product trial results are presented in the following Table 

3. 

Table 3.  The Result of Product Trial 

Trial Subject Percentage Information 

1 83,3% Implementation with a minor revision 

2 80% Implementation with a minor revision 

3 80,3% Implementation with a minor revision 

4 73,3% Implementation with a minor revision 

5 66,67% Revisions according to expert and practitioner notes (R) 

Mean                                    76,7%             (Implementation with a minor revision) 

4 Discussion 

The development of a dictionary for the visually impaired is something important to 

do since the blind person also sometimes experiences obstacles in understanding the 

meaning of words which ultimately hinders their understanding of information and 

communication. The inability of blind people to understand the meaning of words also 

affects their learning process in school. As a result of not understanding the meaning of 

the word, blind people also experience difficulties in understanding learning material. 

In fact, blind people must become unemployed, poor housing, inadequate health care, 

barriers to lifelong learning, culture, sports and recreation [10]. 

Because there is no dictionary that can be used by blind people, so far, the blind will 

ask others if they do not understand the meaning of a word. As a result, the independ-

ence of blind people is reduced. In fact, communication and independence are important 

for blind people as non-disabled people need hearing and vision to communicate [11]. 

Therefore, blind people also need support in terms of communication, one of which is 

done by developing a dictionary [12]. In fact, understanding the information that blind 

people want to know can also influence the decisions they make [13]. 

One of the ways to improve the independence of blind people is by developing an 

Android-based dictionary application. Application development is assumed to increase 

the independence of blind people because by using an Android-based application, any-

one can convey the meaning of words openly and directly [14]. In line with this finding, 

Chomchalerm, et al. [15] states that the development of dictionaries can improve the 

quality of life of blind people. 

People with visual impairments can operate this device independently and they can 

also understand the meaning of words that they did not previously understand. Thus, 

blind people are also trained to find the meaning of words independently. This is in line 

with the findings of Borcaa [16] which states that blind children need to be trained to 

learn while doing so that their independence can increase. The child should be helped 

to learn by doing and other sensations as well as learning the sounds. As stated by 

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Paper—The Development of an Android-Based Dictionary for Blind 

Douglas et al. [17], the main purpose of children with visual impairment learning inde-

pendence is to train them to develop in life so they can communicate with each other. 

The development of dictionaries for the visually impaired is also a form of encour-

aging the blind to explore the information they get. According to McAllister & Gray 

[18], by encouraging children with visual impairments to explore their world, parents 

and caregivers have done important things to build self-esteem, self-worth and socia-

bility. 

This developed dictionary is an application developed based on Android. The selec-

tion of Android is based on the fact that currently Android is a platform that is widely 

used, both by those without special needs and those with special needs. Moreover, 

Wirawan & Paryatna [19] also mentioned that the development of an Android-based 

dictionary needs to be done because students are lazy to open books or print dictionar-

ies. 

The choice of this platform is also based on consideration of economic efficiency 

because Android is an open source platform that requires relatively affordable costs in 

its development. Moreover, the devices developed for the visually impaired have so far 

been expensive [20]. In fact, Wirawan & Paryatna [19] also mentioned that the use of 

information and communication technology is very likely to be used not only in the 

classroom, but also wherever and whenever. Even Yumusak, et al. [21] states that the 

use of information and communication technology in learning can improve the quality 

and effectiveness of learning. 

5 Conclusion 

Based on the results of research and discussion can be obtained the following con-

clusions. First, the development of an Android-based Indonesian dictionary for the vis-

ually impaired is suitable for use in everyday life. This is known from the results of the 

validator assessment and trial subjects. Secondly, the development of an Android-based 

Indonesian dictionary for the visually impaired can improve the independence of visu-

ally impaired people in searching for the meaning of words. The effect of this is an 

improvement in the quality of life for the blind. Third, the selection of the Android 

platform as the basis for developing dictionaries gives the effect that this dictionary can 

be used anytime, anywhere, and by anyone. In addition, the use of information and 

communication technology also increases the effectiveness of searching for the mean-

ing of words by blind people. 

6 Acknowledgement 

We would like to send our gratitude to the research assistant for their great efforts in 

this project. We also thank the families, students, school staff, and colleagues for their 

participation and support throughout this study. 

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Paper—The Development of an Android-Based Dictionary for Blind 

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[1] PISA. (2019). "Programme for International Student Assesment (PISA) Result from PISA 

2018," Online: https://www.oecd.org/pisa/publications/PISA2018_CN_IDN.pdf, PISA. 
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[2] Ministry of Health of Republic of Indonesia. (2014). "Buletin Jendela Data dan Informasi 

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Republik Indonesia. 

[3] Chaer, Abdul. (2007). Leksikologi dan Leksikografi Indonesia, Bandung: Rineka Cipta. 

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[5] Purwandono, Agung. (2016). "Cara Tio, Mahasiswa Tunanetra Buktikan Kemandiriannya," 

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netra-buktikan-kemandiriannya/, 7 November. 

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dengan Pokok Bahasan Klasifikasi Tumbuhan di SMA Jepara, Semarang: Unpublished the-

sis. Universitas Negeri Semarang. https://doi.org/10.30821/biolokus.v2i1.444 
[7] Kurnawan, Mohammad Rizky. (2016). "Mobile Braille Touch (MBT): Development of Me-

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10.17478/jegys.2015214277 

8 Authors 

Novi Eka Susilowati, S.Pd., M.Pd. was born in Pasuruan, East Java, Indonesia on 

August 3, 1987. She is a lecturer of the Indonesian linguistics at Indonesian Depart-

ment, Faculty of Letters, Universitas Negeri Malang, Indonesia. She graduated with a 

Bachelor's Degree (S.Pd.) in Indonesian Language and Literature Education, Universi-

tas Negeri Malang, on 2008 and graduated from Postgraduate program of Indonesian 

Language Education, Universitas Negeri Malang, on 2011. 

Imam Syafi’i, S.S. was born in Trenggalek, East Java, Indonesia on June 12, 1996. 

He is a student at Postgraduate Program, Indonesian Department, Faculty of Letters, 

Universitas Negeri Malang, Indonesia. He graduated with a Bachelor's Degree in Indo-

nesian Language and Literature, Universitas Negeri Malang, on 2019. 

Aftina, S.S. was born in Lamongan, East Java, Indonesia on April 5, 1996. She is a 

student at Postgraduate Program, Indonesian Department, Faculty of Letters, Universi-

tas Negeri Malang, Indonesia. She graduated with a Bachelor's Degree in Indonesian 

Language and Literature, Universitas Negeri Malang, on 2019. 

Azzhan Syahrul, S.Pd. was born in Tuban, East Java, Indonesia on Maret 16, 1996. 

He is a student at Postgraduate Program, Vocational Education, Faculty of Letters, Uni-

versitas Negeri Malang, Indonesia. He graduated with a Bachelor's Degree in Informat-

ics Engineering Education, Universitas Negeri Malang, on 2019. 

Dwi Prasetyo Nogroho, S.Sn. was born in Tulungagung, East Java, Indonesia on 

March 2, 1997. He is a student at Art and Design Department, Faculty of Letters, Uni-

versitas Negeri Malang, Indonesia. 

Sekar Bitari, S.S. was born in Tulungagung, East Java, Indonesia on April 12, 1996. 

She was a student at Indonesian Department, Faculty of Letters, Universitas Negeri 

Malang, Indonesia. 

Article submitted 2020-02-21. Resubmitted 2020-04-03. Final acceptance 2020-04-05. Final version pub-
lished as submitted by the authors. 

90 http://www.i-jim.org

https://doi.org/10.1080/03004430600594096
https://online-journals.org/index.php/i-jim/article/view/7105
https://online-journals.org/index.php/i-jim/article/view/7105
https://doi.org/10.3991/ijim.v12i1.7105
https://www.researchgate.net/publication/2588
https://doi.org/10.14419/ijet.v2i4.1101
https://doi.org/10.17478/jegys.2015214277
https://doi.org/10.17478/jegys.2015214277