DESIGN OF A VIRTUAL LEARNING ENVIRONMENT FOR

ROMANIAN PATIENTS WITH DYSLEXIA

Gladiola Andruseac, Hariton Costin and Cristian Rotariu

Faculty of Medical Bioengineering

“Gr. T. Popa” University of Medicine and Pharmacy, Iasi, Romania

Keywords: Virtual learning environment, Learning programs, Special needs, Cognitive disabilities, Dyslexia.

Abstract: The main objective of this paper is bringing into your attention the problem of patients with dyslexia,

aphasia or brain injury and how an e-Learning software can help in recovery of this patients. Dyslexia alters

the life of millions of children and adults worldwide and has serious educational, psychological and social

consequences. Approximately between 5% and 10% of the school-aged children show a type of deficiency

in communicating or learning process, with repercussions in absence rate and school abandonment. Our

works aims at carrying out research, design and implementation of a virtual learning environment (VLE),

for rehabilitating patients with cognitive disabilities, in order to re-integrate them into the educational and

socio-professional environment. In this paper we present a multimedia and interactive learning environment

for the benefit of patients with dyslexia.

1 INTRODUCTION

The European Dyslexia Association estimates that

about 10% of the population suffers from this

disease. This disability makes difficult the

acquisition of the printed words, either on paper or

in electronic format. Despite the fact that such a high

percentage of the world population suffers from

dyslexia and this has become a more and more

acknowledged issue nowadays, it continues to cause

serious problems in the process of education and

integration into the work environment.

The European Union is making efforts for

improving the quality of life for persons with special

needs, for promotion of rights and ensuring an active

participation of these persons in the society.

Our goal is to create a computer-based

environment where the dyslexic individual in

Romania may develop and reach their full potential.

The permanent increasing of costs, the uneven and

non-equitable offer of healthcare services has lead to

growing interest for rendering the medical practice

more efficient through techniques of treatment

optimization. Unfortunately, the dyslexic recovery

requires a long period of time in which the patient

must carry on the therapy by all the available means.

By continuing therapy at home, using an e-learning

platform, it is possible to reduce costs of

hospitalizing, movement, or the honorary of the

therapist and at the same time high-quality services

are ensured.

2 e-LEARNING AND DYSLEXIA

IN ROMANIA

Although this paper would appear to be about the

specifics of how to develop an eLearning

environment

of support to the dyslexic individual, it

is important to set this within a framework of

understanding of the problems, and how to support

the individual in Romania, national and institutional

legislation and policies.

Dyslexia represents an inability in performing

reading, writing, spelling and language development

and may be caused by a combination of deficiencies

at the level of auditory and visual processing,

working memory, storage and retrieval in the lexica

(word banks). Also, dyslexia is a difficulty in the

acquisition of literacy skills that is neurological in

origin. It is often assumed that people with dyslexia,

can think “out of the box” in pictorial and abstract

terms. The manifestation of dyslexia in any

individual will depend upon not only individual

301

Andruseac G., Costin H. and Rotariu C. (2009).

DESIGN OF A VIRTUAL LEARNING ENVIRONMENT FOR ROMANIAN PATIENTS WITH DYSLEXIA.

In Proceedings of the First International Conference on Computer Supported Education, pages 301-304

DOI: 10.5220/0001977403010304

 SciTePress

cognitive differences, but also the language used (for

instance, the vowels in Romanian are similar but not

identical with those of other languages).

Figure 1: Involvement of dyslexia.

In Romania, like in most legislation across

Europe, dyslexia is not covered specifically, but

comes under the umbrella term of disabilities.

Romania currently has no policies with respect to

dyslexia, and is struggling to come to terms with

disability policies and inclusive education,

particularly with respect to our entry into the EU in

2007. Preoccupations in this field do exist at the

level of logopedic and physical and rehabilitation

medicine in the health system. Even though the use

of technologies for learning has been implemented

in Romania for several years, at this moment there is

no integrated system in Romania to allow therapy

carrying on in the family environment.

In this context, our research is a response to

some society challenges and its implementation will

allow the dyslectic persons to continue their therapy

within their family. The product constitutes an

eLearning platform dedicated to the implementation

of logopedic therapy methods, for subjects in

treatment units or at home.

E-learning has been defined by the EU as “the

use of new multimedia technologies and the internet

to improve the quality of learning by facilitating

access to resources and services as well as remote

exchanges and collaboration.” There is much

evidence to support the benefits of using of

multimedia interfaces for patients with

communication and learning disabilities. The

multimedia resources extend their attractiveness and

suggestiveness. An eLearning software also

introduces dynamic elements which allow a

personalized feedback. E-Learning also enables a

greater degree of mobility to the people, who are

now able to reach learning materials from almost

anywhere and at anytime depending only on the

computer and/or network availability.

For patients with learning and communication

disabilities, it is important for the system to be

adapted to their specific needs. Enabling

technologies can greatly enhance a patient's ability

to access e-learning, but it is vital to match the right

technologies with both the user and the tasks to be

undertaken.

3 MATERIALS AND METHODS

Our VLE is a multimedia and interactive

environment, where dyslectic patients may progress

by means of computer-based virtual environment

which respond with a specific reaction to a given

action of the subject. This eLearning system provide

patients access to a suite of software programs to

teach them basic/essential skills needed for everyday

life. We present a method of improvement (not

substitution) of logotherapy for some neurologic

affection through a virtual learning environment.

3.1 The Components of the e-Learning

System

The system is built around a central system which

ensures: (A) Connection to patient; (B) Two

directional communication patient–system and

administrates; (C) Application programs for

recovery; (D) Databases; (E) User interfaces.

Figure 2: A basic structure of the eLearning system.

3.1.1 VLE Design

The virtual learning environment is running on

Windows Server 2003 with IIS 6.0 and SQL Server

2003. Through http protocol it ensures patient

connection to central system (A). The two-

directional communication patient-system (B) is

done by means of classical audio-video devices

(monitor, speakers, microphone, webcam, etc).

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The VLE also provides personalized, role-based

work environments for all users involved in recovery

process: patients and therapist. It contains a number

of work environments for users groups and can be

customized easily to provide users with the precise

content that they need to do their jobs. And, because

access to the application can be ensured via Web

browsers, users can retrieve information at any time,

from any location.

Figure 3: Samples of work environments for users groups.

The VLE has a skinning architecture which

provides a clear separation between design and

content, enabling patients to change the look and

color of interfaces without requiring any specialist

knowledge of development in HTML, ASP.NET,

CSS, Ajax, etc.

3.1.2 The Recovery Module (RM)

The application programs for recovery (C) constitute

the core of the system and are based on recovery

module (RM). RM represents an electronic version

of conventional logopedic methods used in

rehabilitation medicine. The methods implemented

in RM will be based upon the existent objectives

from face-to-face therapy. Exercises have been

designed, developed and implemented for: (1)

comprehension of sound formation and face mimic

for vowels, consonants, syllables, logatoms and

consonantic combinations (video sequences showing

the therapist’s mouth); (2) reading, writing, speaking

at level of letter, word, expression, phrase,

paragraph, image (description); (3) reading, writing,

speaking in a given context (journals etc.); (4)

memorization of geometrical shapes and colours; (5)

action comprehension; (6) comprehension of digits

(numerical, monetary values, date and time); (7)

significance comprehension and memorization of

traffic signs; (8) comprehension of categories; (9)

comprehension of questions; (10) language

development through synonyms, antonyms,

homonyms; (11) comprehension, memorization and

execution of instructions; (12) comprehension of

spatial instructions (left-right, up-down); (13)

assisted reading exercises; (14) games for cognitive

stimulation (colouring, puzzle, memory).

All exercises from RM will have several degrees

of difficulty and personalized feedback (depending

on patient response to the proposed theme). The

application interactivity is given by the multitude of

possible reply types: the patient may speak, write,

describe, pick up from a list (text or images) or can

move the objects on the screen using the mouse.

A Web application server hosts the RM

applications using ASP.NET and Web Services

components of the .NET Framework version 2.0.

Applications for recovery support browser-based

access using Microsoft Internet Information Services

version 6.0 (at least). Also, each application for

recovery is available as an .exe file which can be

downloaded from the private section of the

eLearning system and it run on local computer.

3.1.3 User’s Management

The eLearning platform use SQL Server 2003 for

user’s management and for their access rights. It

supports

the following features: identification of all

key users and their content management roles; the

ability to assign roles and responsibilities to different

content categories or types.

Programs for database (D) allow design and

development of eLearning platform for:

(a) Patients databases (PDB) – for evidence of

dyslexic patients (personal data, type of affection,

therapy methods, progress, degree of integration in

school or socio-professional environment);

(b) Content Database (CDB) – for digital storing

content useful in recovery (text, images, graphics,

audio and speech signals, video sequences) .

The database communicates with the application

using the ADO.NET component of the .NET

Framework v2.0.

3.1.4 User Interfaces

User interfaces (E) represent the means of

communication of the patient/therapist with the

informatics system. They can act as: (a) Patient

interface (PI) – by which the patient has access to

the recovery modules. The interface constitutes a

friendly means of communication, easy to

understand and it is adaptable depending on the

affection type, level of education and age of the

patient; (b) Therapist interface (TI) – represents the

support for therapy personalization. This interface

will permit the therapist to use his knowledge and

DESIGN OF A VIRTUAL LEARNING ENVIRONMENT FOR ROMANIAN PATIENTS WITH DYSLEXIA

303

experience by implementing his own recovery

methods. Through this interface, the therapist will

store the data regarding the patient evidence (in

PDB) as well as multimedia data – images, video

and audio sequences (in CDB).

3.2 Using e-Learning as a Tool for Patients

Recovery

Synthetically, the benefits of recovery modules are:

(1) from the viewpoint of persons with cognitive

affections: RM will constitute the support for the

correction of reading, writing coordination and logic

mistakes; they receive information using symbols

and multimedia technology; they can test their

knowledge and can have a quick an personalized

feedback (2) from the therapist point of view, RM

will offer support for the application of own

knowledge and experience in the development of a

personalized therapy, offering at the same time an

objective evaluation of the patient’s progresses;

Briefly, the benefits of eLearning system are: (1)

therapy sessions designed for every type of

deficiency and personalized for each patient with

regard to age, level of education; increasing

motivation through therapy based on real-time

feedback; (2) support offered for recovery at home –

we may speak about individual recovery, difficult to

realize in classical recovery (face-to-face). Patients

carry on therapy in their own rhythm, being totally

independent of any clinic, a therapist or a schedule;

(3) by collecting data (initial, intermediate and final)

an objective monitoring of progress is ensured;

From a clinical study by Dr. Katz & Wertz,

computers can be powerful clinical tools and below

are the results of the study which provide that speech

therapy software helps patients regain speech &

language.

Figure 4: Efficacy results.

4 RESULTS AND DISCUSSIONS

Until now we have developed an e-learning platform

made up of the following components: (1) an

eLearning platform for patient’s management and

their rights; (2) a recovery module (RM) which is

interactive and multimedia software for

rehabilitation process of dyslexic person.

This is only a stage and our research will focus

on improvement of health of patients with cognitive

affections through implementation of conventional

methods used in logopedy in an integrated system

which also allows remote monitoring and therapy

(similar to telemedicine systems).

5 CONCLUSIONS

There are many ways to acquire in order to develop

and integrate on an even more competitive

employment market. These ways refers to:

development of spoken language, comprehension of

symbolic representation, grapho-motor abilities,

sequential abilities, development of phonologic,

orthographic and semantic stockage.

The current use of traditional educational

methods leaves apart many persons, especially those

suffering from dyslexia.

While the traditional learning methods have

failed in dyslectic persons, it is believed that the

development of an informatics system for dyslectic

persons would largely contribute to their

rehabilitation progress and to relieve their

difficulties in adapting to the demands of present

society and to the strong competition for jobs on the

employment market.

REFERENCES

Smythe I., (2008). Provision and Use of Information

Technology with Dyslexic Students in University in

Europe, Retrieved from

http://www.welshdyslexia.info/minerva/book.pdf.

Katz, Richard C., & Wertz, Robert T. (1997). The Efficacy

of Computer-Provided Reading Treatment for Chronic

Aphasic Adults. Journal of Speech, Language, and

Hearing Research, (Volume 40, pp 493-507, June

1997).

Draffan E.A. (2003). Dyslexia, Technology and e-

Learning, Retrieved from

http://www.techdis.ac.uk/index.php?p=3_8_20

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