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E-raamat: Perspectives in the Development of Mobile Medical Information Systems: Life Cycle, Management, Methodological Approach and Application

(Senior Lecturer, School of Computer Sciences, Universiti Sains Malaysia, Minden, Penang, Malaysia)
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 19-Nov-2019
  • Kirjastus: Academic Press Inc
  • Keel: eng
  • ISBN-13: 9780128176580
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Perspectives in the Development of Mobile Medical Information Systems: Life Cycle, Management, Methodological Approach and ApplicationSuurem pilt
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 19-Nov-2019
  • Kirjastus: Academic Press Inc
  • Keel: eng
  • ISBN-13: 9780128176580
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Perspectives in the Development of Mobile Medical Information Systems: Life Cycle, Management, Methodological Approach and Application discusses System Development Life Cycle (SDLC) thoroughly, focusing on Mobile Healthcare Information Systems (M-HIS). Covering all aspect of M-HIS development, the book moves from modeling, assessment, and design phases towards prototype phase. Topics such as mobile healthcare information system requirements, model identification, user behavior, system analysis and design are all discussed. Additionally, it covers the construction, coding and testing of a new system, and encompasses a discussion on future directions of the field.

Based on an existing mobile cardiac emergency system used as a real case throughout the chapters, and unifying and clarifying the various processes and concepts of SDLC for M-HIS, this book is a valuable source for medical informaticians, graduate students and several members of biomedical and medical fields interested in medical information systems.

  • Presents a system development life cycle that can be used for developing different kinds of systems others than health related and also can be used for educational purposes
  • Includes behavioral studies in the system development life cycle to assist in the design of systems with consideration of users’ behavior, which is even more important for medical systems
  • Uses a real mobile cardiac emergency system as an example for systems development
Biography xiii
Preface xv
Acknowledgment xix
Chapter 1 Introduction to Mobile Medical Information System (mMIS) development
1(25)
Introduction
2(1)
Mobile Medical Information Systems
2(2)
System Development Life Cycle and mMIS
4(2)
Communication technologies used for mMIS development
6(1)
Internet of Things and mMIS
7(2)
Security and privacy to protect mMIS
9(2)
BIG data and mMIS
11(2)
Policies and regulations for mMIS
13(1)
Ontological modeling of mMIS
14(1)
iHeart case study
15(4)
Summary
19(1)
References
19(7)
PART 1 Modeling phase
Chapter 2 Mobile Medical Information System (mMIS) requirement
26(12)
Introduction
27(1)
Definition of aims and scope
28(1)
Problem analysis
28(1)
Definition of objectives
28(1)
Requirement, definition, and elicitation
28(1)
User-based and system-based requirements
29(1)
Functional and nonfunctional requirements
29(1)
Requirement elicitation techniques
29(1)
Deliverable and outcome of requirement analysis
30(1)
Organizing and strategizing the requirement
30(1)
Applying the concept for iHEART
31(3)
iHeart requirement
31(1)
iHeart requirement elicitatioa
32(2)
Deliverable and outcome of requirement analysis for iHeart
34(1)
Organizing and strategizing the requirement
34(1)
Summary
34(1)
References
34(4)
Chapter 3 Model identification for mobile medical information systems (mMIS)
38(20)
Introduction
39(1)
Defects in existing research
39(1)
Defects identification
39(1)
Defect analysis techniques
40(1)
Use case analysis for mMIS
40(3)
Elements of a use case
40(1)
Creating a use case
41(2)
mMIS process modeling
43(4)
Data flow diagram for mMIS
43(2)
Activity diagram for mMIS process modeling
45(1)
Deliverable and outcome of mMIS process modeling
46(1)
Applying the concept for iHEART
47(3)
Defects in existing research and enhancement of previous system
47(1)
Initial workflow for iHeart using enhancement of e-torch and Mobile Care System
48(2)
Use case analysis for iHeart
50(1)
iHEART process modeling
51(1)
Summary
52(2)
References
54(4)
PART 2 Assessment phase
Chapter 4 Behavioral intention to use of Mobile Medical Information System (mMIS)
58(18)
Introduction
59(1)
Seven-Step Behavioral Intention to Use of mMIS
59(6)
BItU background
61(1)
BItU planning
61(1)
BItU theoretical framework
62(1)
BItU design and preparation
62(1)
BItU implementation
63(1)
BItU analysis and findings
63(2)
BItU conclusion
65(1)
Applying the concept for iHEART
65(6)
BItU of iHeart background
65(1)
BItU of iHeart theoretical framework
66(2)
BItU of iHeart design and preparation
68(1)
BItU of iHeart implementation
69(1)
BItU of iHeart analysis and findings
70(1)
BItU of iHeart conclusion
70(1)
Summary
71(1)
References
71(5)
Chapter 5 Success factors of mobile medical information system (mMIS)
76(26)
Introduction
77(1)
Seven-step success model for mMIS
78(7)
Success background
79(2)
Success planning
81(1)
Success model
81(1)
Success design and preparation
82(1)
Success implementation
83(1)
Success analysis and findings
83(2)
BItU conclusion
85(1)
Applying the concept for iHeart
85(11)
iHeart success background
85(1)
Conceptual success model of iHeart
86(2)
iHeart success design and preparation
88(4)
Implementation of iHeart success
92(1)
iHeart success analysis and findings
93(1)
iHeart success conclusion
94(2)
Summary
96(1)
References
96(6)
Chapter 6 Emotional-persuasive and habit-change assessment of mobile medical information Systems (mMIS)
102(10)
Introduction
102(1)
Persuasive applications to design mMIS
103(1)
Emotional-Persuasive mMIS
104(1)
Habit-Change support mMIS
104(4)
Summary
108(1)
References
108(4)
Chapter 7 Interpretation of the assessment results to design Mobile Medical Information Systems (mMIS)
112(12)
Introduction
112(1)
Interpretation of the assessment results to design mMIS
113(1)
Success factors for integration to mMIS
114(1)
Applying the concept for iHeart
114(4)
Interpretation of the results of iHeart assessment
114(4)
Summary
118(1)
References
119(5)
PART 3 Design phase
Chapter 8 From requirement to design mobile medical information systems (mMIS)
124(12)
Introduction
124(1)
Transition from requirement to design mMIS
125(1)
mMIS architecture design
125(5)
Components of mMIS architecture design
126(2)
Creating mMIS architecture
128(2)
Hardware and software specification for mMIS
130(1)
Applying the concept for iHeart
130(3)
Architecture design for iHeart
130(2)
Hardware and software specification for iHeart
132(1)
Summary
133(1)
References
133(3)
Chapter 9 Feasibility study for Mobile Medical Information Systems (mMISs)
136(12)
Introduction
137(1)
Technical feasibility
137(2)
Familiarity
138(1)
Compatibility
138(1)
Project size and structure
139(1)
Financial feasibility
139(2)
Identification of cost and benefit
139(1)
Determination of cash flow
140(1)
Assessment of mMIS economic value
140(1)
Organizational feasibility
141(1)
Operational feasibility
141(1)
Schedule feasibility
141(1)
Strategic alignment
141(1)
User analysis
141(1)
Stakeholder analysis
142(1)
Environmental feasibility
142(1)
Legal feasibility
142(1)
Political or cultural feasibility
142(1)
Project selection
143(1)
Applying the concept for iHeart
143(2)
Summary
145(1)
References
145(3)
Chapter 10 Mobile medical information system (mMIS) analysis
148(14)
Introduction
148(1)
Confirming mMIS requirements
149(1)
Confirming the use case for mMIS
149(1)
Confirming process modeling for mMIS
150(1)
Integration of assessment interpretation to mMIS
151(1)
Applying the concept for iHeart
152(7)
Confirming iHeart requirements
152(1)
Confirming the use case for iHeart
153(1)
Confirming process modeling for iHeart
154(1)
Integration of assessment interpretation to iHeart
155(4)
Summary
159(1)
Reference
159(3)
Chapter 11 Mobile Medical Information System (mMIS) design
162(44)
Introduction
163(1)
Forms and report design for mMIS
163(1)
Confirming architecture design for mMIS
164(1)
Program design for mMIS
165(2)
Physical data flow diagram for mMIS
165(1)
Program specification for mMIS
166(1)
Designing data storage for mMIS
167(2)
Selecting data storage format
167(1)
Creating physical data model
168(1)
Optimizing data storage and normalization
169(1)
Human--computer interaction design for mMIS
169(4)
User interface principles for mMIS
169(1)
User interface processes for mMIS
170(2)
User interface design for mMIS
172(1)
Applying the concept for iHeart
173(29)
Designing form and report for iHeart
173(2)
Confirming architecture design for iHeart
175(1)
Program design for iHeart
176(8)
Designing data storage for iHeart
184(1)
Human--computer interaction design for iHeart
185(17)
Summary
202(1)
References
202(4)
PART 4 Prototype phase
Chapter 12 Mobile Medical Information System (mMIS) construction
206(16)
Introduction
206(1)
mMIS construction planning
207(1)
mMIS core components
207(1)
mMIS construction
207(1)
Applying the concept for iHeart
208(10)
iHeart construction
208(10)
Summary
218(1)
References
219(3)
Chapter 13 Mobile Medical Information System (mMIS) coding/testing
222(16)
Introduction
223(1)
Implementation details of mMIS
223(3)
Application side
223(1)
Database repository
224(1)
Class diagram and system packages
224(1)
Communication layer
224(1)
System description and function
224(1)
System actors
224(2)
Testing process of mMIS
226(1)
Installation of mMIS
226(1)
mMIS development documentation
227(1)
Applying the concept for iHeart
227(9)
iHeart coding/testing: implementation details
227(9)
iHeart coding/testing: test cases
236(1)
Summary
236(2)
Chapter 14 Mobile Medical Information Systems (mMISs) evaluation
238(13)
Introduction
238(1)
mMIS evaluation
239(2)
Defining mMIS evaluation objectives
240(1)
Defining mMIS evaluation method
240(1)
Conducting mMIS evaluation
240(1)
Documenting mMIS evaluation
241(1)
Applying the concept for iHeart
241(8)
Demographic and general questions (multiple choices)
242(1)
Evaluation questions (Likert-scale)
242(7)
Suggestions from interviewees (open-ended)
249(1)
Summary
249(1)
References
249(2)
Chapter 15 Conclusions and future direction of Mobile Medical Information System (mMIS) development
251(8)
Introduction
252(1)
Contributions and implications
252(2)
Concluding remarks
254(1)
Limitations and future directions
255(3)
Habit-change assessment of mMIS
255(1)
Security assessment of mMIS
256(1)
Database design to handle big data
257(1)
Ergonomic evaluation of mMIS
257(1)
Summary
258(1)
References
258(1)
Chapter 16 System development for different information systems
259(10)
Introduction
259(1)
Different types of information systems
260(2)
Case study 1 (mobile commerce information system)
262(2)
Case study 2 (banking information system)
264(2)
Case study 3 (mobile tourism information system)
266(1)
Summary
267(1)
References
267(2)
Index 269
Pantea Keikhosrokiani is a Senior Lecturer at the School of Computer Sciences, Universiti Sains Malaysia (USM; Penang, Malaysia). She was a teaching fellow at the National Advanced IPv6 Centre of Excellence (Nav6), USM. She has received her PhD in Service System Engineering, Information System, and her masters degree in information technology from the School of Computer Sciences, USM. She has been graduated in Bachelor of Science in Electrical Engineering Electronics. Her articles have been published in distinguished edited books and journals including Elsevier (Telematics & Informatics), Springer (Cognition, Technology, & Work), Taylors and Francis and IGI global, and have been indexed by ISI, Scopus and PubMed. Her recent book is published by Elsevier entitled Perspectives in The Development of Mobile Medical Information Systems: Life Cycle, Management, Methodological Approach and Application. Her areas of interest for research and teaching are Information Systems Development, Behavior-change support systems, Database Systems, Health and Medical Informatics, Business Informatics, Location-Based Mobile Applications, Big Data, and Technopreneurship.
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