Американский Научный Журнал DEVELOPMENT OF A MOBILE APPLICATION FOR HUMAN HEALTH MONITORING (12-19)

The article is devoted to investigation of the role of mobile medical applications in monitoring the state of human health and improving the quality of medical services. Description of the developed mobile application for human health monitoring is given below. Скачать в формате PDF
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ТЕХНИЧЕСКИЕ НАУКИ

DEVELOPMENT OF A MOB ILE APPLICATION FOR HUMAN HEALTH MONITOR ING
1Boranbayev S.N., 2Baigunova M.

Annotation . The article is devoted to investigation of the role of mobile medical applications in monitoring
the state of human health and improving the quality of medical services. Description of the developed mobile
application for human health monitor ing is given below.

1.Introduction
The topic of mobile applications usage in the field
of public health is becoming increasingly relevant
today. In the rhythm of the modern life visiting a doctor
can be quite expensive for patients in terms of money
and wasted time. Hence, mobile applications
development in the healthcare sector is crucial and
beneficial for both patients and doctors.
Global mobile healthcare applications market is
growing rapidly, and it is expected that th is trend will
continue. Today approximately 158,000 medical
applications are available for download on Google Play
that provide quick and easy access to medical
information, as well as it’s transmission and tracking.
Thereby, allowing users to improve thei r health and
track any changes [1]. Thus, such medical applications
have great potential to help a wide range of users with
various health problems [2].
At the same time, medical applications in the
digital health industry help doctors save plenty of time
and resources. Applications help optimise doctors'
workflows, which consequently increases their
productivity. As for patients, thanks to medical
applications they can independently plan and, if
necessary, cancel or re -schedule doctor appointments
and rece ive timely advice, as well as undergo
preventive examinations [3].
According to research conducted by Viseven, an
international provider of educational mobile
applications and medical products:
• 80% of doctors use smartphones and medical
applications for wo rk;
• 93% of medical representatives are confident
that mobile healthcare applications will benefit the
health of patients;
• 40% of doctors believe that need of personal
visit will be partially reduced due to the popularisation
of mobile applications usage am ong the population;
• 79% of respondents are more likely to trust a
doctor, who will provide them with opportunity to
monitor their health status via mobile applications [4].

Figure 1. [4]

Here are the main benefits of using mobile apps
for healthcare:
1. Time saving. Mobile applications optimise
doctors' workflows, increase their productivity and
support interaction with patients. Patients can easily
plan and cancel their visits to doctors.
2. Availability. By means of mobile applications
users can monitor their health a t any time and at no
additional cost, interact with medical specialists, and
also receive the necessary information.
3. Data storage. Mobile applications provide
collection and reliable storage of medical data.
Therefore, it is possible to track changes in pa tients'
health condition, analyse statistics and also provide a
basis for further research.
4. Online communication. Mobile medical
applications allow real -time user communication,
consequently giving medical staff an opportunity to
provide patients with the right treatment at any time
from anywhere in the world.

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2.Development of a mobile application for
human health monitoring
Currently, in the Republic of Kazakhstan, if a
patient needs medical care, he needs to contact a
medical institution, most often, a clinic at the place of
registration. Even when feeling sick patients have to
wait a lot of time in line for a doctor's appointment. At
the doctor’s appointment, on other hand, patient can
spend only a few minutes to get a consultation or
referral for tests . Altogether, current situation has many
drawbacks, and, therefore, needs an alternative.
This need for an alternative served as a reason for
building a medical application. The experience of
implementing such initiatives within former USSR
countries is st ill rather insufficient [5].
With help of this application doctors will be able
to track the following indicators such as: appointment
schedule, patient record, patients list, test results. There
are three languages available for user to select: Kazakh,
Ru ssian and English. When opening the web page
http://medclinica.kz/ you are greeted with an
authorisation window (Figure 2).

Figure 2. The authorisation window.

After authorisation doctors have an access to 5
working tabs. The first tab "Home" displays
information in the form of counters. Employees of a
medical institution can observe general information on
this page, such as: “Total number of tests”, “Number of
patients”, “Registered citizens”, “Number of calls”. On
the same page there is number of current appeals
(Figure 3).

Figure 3. The main page.

On the next page “Table” doctors can see
information, in tabula r form, regarding the
appointment: date, time, name of the patient, contact
details, commentary and patient status. If you click on
the “Card” action, electronic card of the corresponding
patient will open. For convenience of medical staff it is
possible t o select number of displayed table rows: 5, 10,
15 (Figure 4).

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Figure 4. Reception table

The next page allows the healthcare provider to
create an electronic card for a new patient or open an
existing one. This function is useful because polyclinics
do not have to store a huge amount of paper medical
records, or in case the patient already has the card,
avoid the situation when he/she forgets the card at home
or loses it (Figure 5).

Figure 5. Patients

When you open the patient’s card, you see 2 tabs:
“Profile” and “Medical history”. The “Profi le” tab
displays the patient’s personal data: name, address, IIN,
gender, telephone, date of birth and ID number.
Information on the prescribed drugs is given below
(Figure 6).

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Figure 6. Profile

The same "Profile" page provide doctor with
ability to prescribe medications to the patient: select the
necessary medication from attached list and indicate
the required dose (Figure 7).

Figure 7. Prescription of medicines.

In the “Medical history” tab, you can see
information on analyses with the date and time
indications (Figure 8).

Figure 8. Information about the analyses.

In the same tab doctor is able to assign an analysis
from the list to the patient. This list, if necessary, can
be updated by administrator. When prescribing tests the
name of the doctor, who assigned the analysis, is
recorded (Figure 9).

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Figure 9. Assignment of analyzes.

Next page: Patient Records. Previously, doctor
managed to open patients’ cards’ from other pages.
This was done for convenience of user and to avoid
necessity to open a separate tab every time after
creating a new card or after viewing the list of patients
registered for appointments. But separate tab should
exist, so doctor is able to find a card of any patient, even
if there is record in the list of current appointments
(Figure 10).

Figure 10. Patient records.

The next tab “Test Results” allows doctor to see
information on test results. Patients, whose results are
entered into the database, are highlighted with a green
color. Patients, who received analysis referral, but do
not have test results ready, are white (Figure 11).

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Figure 11. Test results.

If you go further the following window opens with
test results shown. I f test results are not average
(normal) , then in the column “Deviation” the results
are highlighted in red (Figure 12).

Figure 12. Deviation from the norm above the permissible limits

If deviation from average range is absent or slight,
then results are highlighted in green (Figure 13).

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Figure 13. Deviation from the norm within the permissible limits

Also, if necessary, doctor is able to print test
results or send them to another doctor as a link to this
page (Figure 14).

Figure 14. Test results for printing.

3.Conclusion
The benefits of using mobile and web technologies
in the medical realm are apparent. On one hand,
technologies can make healthcare more
understandable, convenient and accessible for patients.
Moreover, use of mobile medical applications
positively affect users’ health -related behavior. On the
other hand, technol ogies ensure convenient service for
doctors, which ultimately leads to significant medical
services quality improvement.
The developed mobile application potentially will
help to reduce the level of discomfort and stress from
long doctor appointment queues, avoid possibility of
viral diseases infection from sick people sitting in lines,
and save patients’ time. As for doctors, application will
automate and facilitate their daily routine, consequently
bringing positive impact on their work.

References
1. Myeunghee Han, MS, RN1 and Eunjoo Lee,
PhD, RN. Effectiveness of Mobile Health Application

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Use to Improve Health Behavior Changes: A
Systematic Review of Randomized Controlled Trials.
Healthc Inform Res. 2018 Jul; 24(3): 207 –226.
Published onl ine 2018 Jul 31.
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6085
201/
2. Zhao J, Freeman B, Li M. Can mobile phone
apps influence people's health behavior change? An
evidence review. J Med Internet
Res. 2016;18(11):e287. [PMC free
article ] [PubMed ] [Google Scholar ]
3. Free C, Phillips G, Watson L, Galli L, Felix L,
Edwards P, et al. The effectiveness of mobile -health
technologies to improve health care service delivery
processes: a systematic review and meta -
analysis. PLoS Med. 2013;10(1):e1001363. [PMC free
article ] [PubMed ] [Google Scholar ]
4. Official site of the «Viseven» company.
https ://viseven .ru/news -ru/mobilnye -prilozhenia -dlya -
vovlechenya -vrachey -i-patsyentov
5. Boranbayev S.N., Baigunova M.K.
Development of a mobile application on the patient’s
health status.
https://www.elibrary.ru/item.asp?id=37649478

ГИДРОИЗОЛЯЦИЯ ОБОРУД ОВАНИЯ ЛЕГКОЙ ПРОМЫШ ЛЕННОСТИ

Тойбаев Кенжехан Дуйсебаевич
доктор технических наук, академический профессор,
Казахская головная архитектурно -строительная академия
г.Алматы
Закеров Мадияр Серикбаевич
магистрант, факультет общего строительства,
Казахская головная архитектурно -строительная академия
г.Алматы

WATERPROOFING OF LIG HT INDUSTRY EQUIPMEN T

Toybaev Kenzhehan
doctor of technical Sciences, academic Professor,
Kazakh Leading Academy of Architecture and Civil Engineering, Almaty
Zakerov Madiyar
graduate students, faculty of General construction,
Kazakh L eading Academy of Architecture and Civil Engineering, Almaty

Аннотация . В статье рассмотрены методы гидроизоляции оборудования и их использования в легкой
промышленности.
Abstract . The article discusses methods of waterproofing equipment and their use in light industry.
Ключевые слова: гидроизоляция, оборудования, климат, эксплуатация, материалы, полимербитум.
Keywords: waterproofing, equipment, climate, operation, materials, polymer bitumen.

Гидроизоляция оборудования нужна для
защиты сооружений от разрушительного
воздействия влаги. Грамотная обработка и защита
оборудования позволит продлить срок
эксплуатации, сделает их более надежными и
долговечными.
Выбор гидроизоляционных материалов и
методы из использования (нанесения) окра сочная,
обмазочная, оклеечная, литая, пропиточные
методы и конструирование гидроизоляции для
различных сооружений в каждом конкретном
случае требует анализа климатических факторов
строительства и специфики работы каждого
сооружения. Однако наряду со специф ическими
требованиями, предъявляемыми к
гидроизоляционным материалам, должны
учитываться и общие.
Основные требования для гидроизоляции
оборудования.
В различных нормативных документах
приводятся требования к гидроизоляционным
материалам. Однако эти требов ания включают
широкий перечень показателей свойств
гидроизоляционных материалов для всех
климатических зон Казахстана. В связи с этим
показатели свойств могут колебаться в широких
пределах. В данной работе приводятся только
основные требования, которым дол жны отвечать
гидроизоляционные материалы в зависимости от
условий их эксплуатации. Кроме того, эти
требования сформулированы для материалов,
применяемых в условиях РК.
Из определения гидроизоляционных
материалов, как обеспечивающих защиту
строительных конс трукций от вредного
воздействия воды и красителей, а также солей,
следуют основные требования: повышенная
водонепроницаемость и водоустойчивость при
длительном воздействии воды. Кроме того,
гидроизоляционные материалы должны быть
теплостойкими, иметь хорош ее сцепление с
основанием, обладать деформативной
способностью при расчетной температуре.
Поэтому вначале были сформулированы основные
технологические и эксплуатационные требования к
материалу гидроизоляционных конструкций в