A LIFE SUPPORT NETWORK FOR ELDERLY PEOPLE LIVING
IN A RURAL AREAS
Bayme Abaydulla, Jun Sasaki, Michiru Tanaka, Keizo Yamada and Yutaka Funyu
Faculty of Software and Information Science, Iwate Prefectural University, 152-52 Sugo, Takizawa, Iwate, Japan
Keywords: Independent Senior, Remote Healthcare, Life Support.
Abstract: This paper proposes a new concept, a Life Support Network (LSN), for elderly people living in rural areas.
The network is an intranet that incorporates a safety confirmation system, a remote healthcare system and an
emergency information system. We developed an experimental LSN system and carried out a field
experiment in a typical rural town “Shiwa” in Iwate Prefecture of Japan. We demonstrated the experimental
LSN, called “Yui Net,” performs well in the field.
1 INTRODUCTION
Recently, the number of elderly people living in the
rural areas of the world, especially in developed
countries, has been increasing. In Japan, the number
of families which include people over 65 years old is
17,273,000 (37.7% of all homes), the percentage of
senior citizens who are in a couple is 28.7%, and
that of elderly people who live alone is 19.7%.
These rates are still increasing, and at an
unexpectedly high speed (The Cabinet Office,
2005).
Support systems are necessary to address
problems associated with advanced depopulation
and aging in rural regions. These systems might, for
example facilitate senior citizens’ being able to live
alone. In addition, various research approaches are
necessary in order to help prevent the solitary death
of elderly people. Some researchers have asserted
that information technology (IT) can be effective in
improving the welfare situation of the elderly.
In section two of this paper, we present the
concept of a Life Support Network. Then in Section
3 we introduce an experimental system we
developed, called “Yui Net,” and the results of the
field experiments performed on the system are
discussed in Section 4. We present our conclusions
and suggestions for future work in Section 5.
2 THE LIFE SUPPORT
NETWORK
We propose a type of intranet for a closed rural area
to support elderly life. We call this intranet a “Life
Support Network” (LSN). The LSN creates a
constant connection among volunteers, home-
visiting nurses, the regional hospital, drugstores and
other life and health related organizations. The LSN
is a high-security and high-speed network, which is
like a Local Area Network (LAN) carried over
optical-fiber cables. With current technology, it is
possible to construct such a network within an
appropriate budget (Komine et al., 2001 in Japan).
With the LSN, a senior citizen living alone can
send a daily safety confirmation message to his/her
remote contact person by way of an easy-to-use
terminal. The remote contact person could be, for
example, a helper or a care provider in a social
welfare council, a doctor or nurse in a healthcare
center or hospital, a friend, a neighbor or a family
member.
An elderly person can use the healthcare terminal
in his/her home every day. Each person measures
his/her vital data and confirms it through a public
facility such as a healthcare center connected to the
LSN (Sasaki et al., 2006). In this case, nurse home-
visits, home medical services, residential care,
emergency calls, and other necessary services
remain available. In case of an emergency, necessary
personnel such as a doctor or helper can quickly
196
Abaydulla B., Sasaki J., Tanaka M., Yamada K. and Funyu Y. (2008).
A LIFE SUPPORT NETWORK FOR ELDERLY PEOPLE LIVING IN A RURAL AREAS.
In Proceedings of the First International Conference on Health Informatics, pages 196-199
Copyright
c
SciTePress
engage in correspondence with the elderly client
(Shinagawa et al., 2006).
This plan was designed to achieve all stages or
services in the LSN through an information system.
The system ensures a safer living environment for
residents and senior citizens living alone in rural
areas, not only in Japan but throughout Asia (The
Cabinet Office, 2004).
3 EXPERIMENTAL SYSTEM
3.1 Structure of “Yui Net”
As the concept of the LSN is quite broad, we
decided to focus on some specific important
functions: safety confirmation for elderly people
living alone, and the remote healthcare service. We
call the set of the systems “Yui Net,” where “Yui”
means “helpful relationship” in Japanese.
The development project team consists of the
NEC Group for hardware development, Iwate
Prefectural University for software development,
and the Shiwa town in the Iwate Prefecture of Japan
as the feasibility test field. We developed each
system as an open source Web application, which is
available over a Virtual Private Network (VPN) in
the Shiwa town.
The Local Authorities Satellite Communications
Organization (LASCOM) of the Japanese Support
Organization supported our project by funding the
development. We would like to thank LASCOM for
their contribution.
3.2 Safety Confirmation System
The most commonly used technology to ensure the
safety of elderly people is sensor-type systems. One
Japanese company produces an interesting sensor-
type system. In this system, when the elderly client
uses the electronically-equipped kettle that has
telecommunication functions, the system sends a
text message to a remote family member’s cellular
phone (Zojirushi Corporation, 2005).
Many people dislike using such sensor-type
systems because of privacy concerns. Furthermore,
there are occasional occurrences of false alarm
messages being sent. Alternative safety systems with
human behaviour sensibility and high reliability are
required to augment sensor type systems (Shinagawa
et al., 2006).
We have reported on the development and
operation of a “Mimamori” (meaning “watching
over someone”) network system for the elderly in
the Village of Kawai in the Iwate Prefecture of
Japan. In developing the Mimamori system, an L-
mode terminal produced by NTT (Nippon
Telephone and Telegram Ltd.) was chosen. An L-
mode terminal is a telephone with a touch panel
display and internet connection function. When the
elderly client touches the display, the terminal sends
a message to the social welfare council and remote
family members (Yoneda et al., 2006).
Unfortunately, NTT has decided to stop producing
the L-mode terminal in 2010.
We therefore proposed a new method to confirm
elderly people's safety by using TV terminals instead
of L-mode terminals. We chose TV terminals
because most elderly people in Japan watch TV
routinely. According to a report by the NHK (Japan
Public Broadcasting Corporation), elderly people,
particularly those 70 years or older, watch TV for
five hours or more a day on average.
Figure1 shows the structure of the safety
confirmation system. The television with STB (Set
Top Box) and the Intranet environment are set up in
the home of an elderly person. The Web server with
the custom developed support system is located at
Iwate Prefectural University.
Figure 1: Safety confirmation system.
We can see the display is divided into two
sections. The left-hand section represents the current
TV program and the right-hand section represents
the first page of the Web-based safety confirmation
system. This page shows a brief message, below
which there are four response buttons to select from:
(1): My condition is good
(2): My condition is a little bad
(3): I will be absent tomorrow
(4): Please call me
Support
System
Authentication
System
Intranet
TV & Web Service
TV
Broadcast
Service
Menu
STB
User
Remote Control
ID
Card
Health Service
Center
A LIFE SUPPORT NETWORK FOR ELDERLY PEOPLE LIVING IN A RURAL AREAS
197
The user can easily select a button using the
STB’s remote control device. After the user selects
his/her current condition, a Web page displays a
confirmation message as shown in Figure 2(b). After
the user presses the close button, the TV screen
reverts to display the usual program broadcast. The
information selected by the user is transmitted to the
healthcare center and/or the remote family member
over the intranet for display on a PC as well as a text
message for display on a cellular phone.
If the user does not use the system to report their
condition in the morning, the related life supporter
(home helper, care provider, family member,
neighbour, etc.) uses a telephone to confirm the
user’s condition.
Figure 2: Samples of the TV display.
3.3 Remote Healthcare System
Figure 3 shows the structure of the remote
healthcare system.
The user can measure his/her vital data such as
blood pressure, heart rate, electrocardiogram, body
fat ratio and internal organ fats every day using
ahealth checker’; a stand alone device. The items to
be measured are determined according to user’s
specific health condition and interest.
The measured data stored in the health checker is
automatically transmitted to the PC via infra-red.
The PC, in turn transmits this data to the server
located at Iwate Prefectural University through the
intranet.
If a user has measures his/her vital data at a
facility, the system transmits the data to the user’s
file in the database. All the data for a user can be
input and accessed from anywhere.
Figure 3: Remote healthcare system.
4 EXPERIMENT
4.1 Experimental Method
We carried out the experiment from December 18,
2006 to February 9, 2007 to confirm the
effectiveness of the system.
We selected and requested the participation of
three persons (a male aged 80 and two females aged
82 and 76) who live alone to use the safety
confirmation system. The users sent their condition
information through the system every day using the
STB‘s remote control.
We selected and requested the participation of
three different persons (three males aged 73, 59 and
82) to use the remote healthcare system. We set up
the remote healthcare system in the office of three
public facilities located in Shiwa town. There, any
person with an ID card can use the remote healthcare
system.
Table 1 shows the categories and numbers of
system users in the experiment.
Intranet
Authentication
S
y
stem
Use
ID Card
ID Card
ID Card
Health Service Cente
r
Authentication S
y
stem
PC for sending
the data
Health
C
h
ec
k
er
Public Facilit
y
Remote Healthcare S
y
stem
Close
Thank you for your information.
Have a nice da
y
.
(b): After selecting the condition.
(a): Selecting the condition.
Usual TV Program Web Top Page
Shiwa Town
Report your condition
Good morning, Mr Taro.
How is your condition this
mornin
g
?
My condition is a little bad
I will absen
t
tomorrow
Please call me
My condition is good
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198
Table 1: System users in the experiment.
Name of
system
Category of users Number of
users
Home user living
alone
3
Family user living
apart from the home
user
2
Safety
confirmation
system
System manager 6
Home user 3 Remote
healthcare
system
User in each office of
three public facilities
36
Following the experimental period we obtained
the users’ opinions on the systems by way of
discussion and a survey questionnaire.
4.2 Experimental Results and
Discussion
4.2.1 Safety Confirmation System
Regarding the operability when using the safety
confirmation system, two home users answered
“comprehensible” and one female home user
answered “incomprehensible” because of her low IT
literacy. Two users said the TV screen display is
easy to understand and they hope to continue using it.
The system managers responded that they were able
to operate the system satisfactorally. Family users
living apart from the home users reported they felt a
“feeling of safety” regarding the home users.
We confirmed that users could use the system
with little difficulty and the life supporters and their
families felt assured by checking the information
sent from the user every day by cellular text message
and web page.
The assimilation of the system into the
responsible organizations and optimal management
in cases of a lack of safety information are issues
which remain to be resolved.
4.2.2 Remote Healthcare System
Sixty percent of all users said the remote healthcare
system was “comprehensible” and easy to use,
including the health checker for measuring health
data and the PC for sending the data on.
We confirmed that the users could operate the
system comparatively easily and they could take
interest in their own health condition by using the
remote healthcare system.
In future we plan to propose systems to
effectively use the vital data captured for users in the
town.
5 CONCLUSIONS
This paper proposes a new concept: a Life Support
Network (LSN) for elderly people living in rural
areas. We developed two experimental systems as
part of the LSN and carried out a field experiment.
The experimental system, which has a safety
confirmation system and a remote healthcare system,
obtained a satisfactory evaluation from users and
shows good feasibility with satisfactory results in the
field.
The experiment is the first step in constructing
the LSN concept. It is important to prepare several
life-support services, which the users and their
relatives can select according to their particular
health condition and social environments.
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