臺灣博碩士論文加值系統

嬰兒護理是需要特別注意衛生信息系統的一部分，因為父母最擔心的一個是，毫無疑問，他們的新生嬰兒丟失。
在Kariadi醫院三寶壟博士目前的狀況仍然使用手工記錄識別和跟踪的寶寶。在另一方面，長庚醫院（長庚醫院）仍然使用無源RFID 2D照顧嬰兒，2D RFID的目的是確定的寶寶和家長匹配。
在本文中，我們提出了新的技術，以提高嬰兒護理系統，長庚醫院採用RFID 3D。系統被描述的X，Y，Z位置，Z可以由3D定位系統來檢測，如果嬰兒奶瓶降到地板實例給予報警。 3D RFID定位系統的優點是可以檢測直接和高效的嬰兒監控系統，以減少盜竊，濫用持有的潛在風險，甚至寶寶感覺不舒服而哭鬧，並發出警報。
以提高嬰兒護理等技術是Leap Motion的運作，它可以轉化與應用開發病人護理的世界在廣泛的領域 - 從物理治療，特殊需要可訪問性，和醫院醫療上進行外科醫師培訓和醫藥界面。
我們希望提供的嬰兒護理系統在追踪嬰兒和提高定位精度高效率上，做出有高精密度的活動。

Baby care is part of health information systems that require extra attention, because one of the biggest fears of parents is, without a doubt, losing of their newborn babies.
The current condition in Dr. Kariadi Hospital Semarang still uses manual records for identifying and tracking the baby. On the other hand, Chang Gung Memorial Hospital (CGMH) still uses passive 2D RFID to take care of the babies, the purpose of 2D RFID are identifying the baby and matching with parents.
In this paper, we propose new technology using 3D RFID in order to improve baby care system in CGMH. The system is describing the position of X, Y, and Z. The Z can be detected by the 3D positioning system, for instance to give alarm if the baby bottle drops to floor. The advantages of 3D RFID position system can detect straightforward and efficient infant monitoring system to reduce the potential risks of the theft, misuse hold and give the alarm if the baby falls out of bed.
Other technology to improve baby care systems is Leap Motion, which is can transforming the world of patient care with application development across a broad range of fields – from physical therapy, special needs accessibility, and hospital way finders to surgical training and medical interfaces.
We hope that our suggestion systems are efficient in tracking babies and improving the positioning accuracy.

Recommendation letter from the thesis advisor
Oral defense committee certification
Acknowledgment iii
Abstract Chinese iv
Abstract English v
Table of contents vi
List of Figures x
List of Tables xii
Chapter 1 Introduction 1
1.1 2D and 3D RFID is Important to Health Care of Babies 4
1.2 Leap Motion Description 6
1.3 World Ranking From CGMH and Dr. Kariadi Hospital 7
1.4 Research Objective 7
1.5 Research Expected Contribution 7
1.6 Overview 8
Chapter 2 Literature Reviews 9
2.1 Understanding RFID 9
2.2 The Benefit of RFID 10
2.3 Classification of RFID 10
2.4 RFID Tag 11
2.4.1 Passive RFID Tag 11
2.4.2 Active RFID Tag 12
2.4.3 Semi-Passive RFID 13
2.4.4 Active Tag VS Passive Tag 14
2.5 Frequency Bands 15
2.5.1 Low Frequency 16
2.5.2 High Frequency 17
2.5.3 Ultra High Frequency 18
2.5.4 Microwave 18
2.6 RFID Reader 19
2.7 Backend System 20
2.8 Introduction of RFID Application System 21
2.9 3D RFID Positioning 22
2.9.1 Illustration of 3D Positioning 22
2.10 Leap Motion Explanation 23
2.10.1 Leap Motion System 23
2.10.2 Leap Motion for Virtual Reality 24
2.11 Advantages of Using Leap Motion 24
2.11.1 Enhanced Tracking Capabilities 24
2.11.2 Robust to Complex Environments 25
2.11.3 Expanded Range 25
2.11.4 Vastly Improved Grab and Pinch 25
2.11.5 Faster Hand Recognition 25
Chapter 3 Methodology ….26
3.1 Data Collection Procedures 26
3.2 Data Analysis Procedures 27
3.3 Documentation Review 28
3.4 Various Place to Visit 29
3.4.1 Baby Room in CGMH 29
3.4.2 Goldcom Technology 29
3.4.3 Yoke RFID 30
3.4.4 RITI Technology Inc. 31
3.4.5 GIPS Technology 32
3.5 Components of 3D RFID 32
3.5.1 Tag 32
3.5.2 Node Reader 33
3.5.3 G-Sensor 33
Chapter 4 Baby Care Current Condition 34
4.1 Previous Applications in Baby Care 34
4.2 RFID for Baby Care in Current Condition 34
4.3 Manual Record in Dr. Kariadi Hospital 36
4.3.1 The Current Condition in Dr. Kariadi Hospital 36
4.3.2 Technical Issues in Dr. Kariadi Hospital 36
4.4 2D RFID Baby Care in CGMH 37
4.4.1 The Current Condition in CGMH 37
4.4.2 How to Use 2D to Take Care of Baby 37
4.4.3 Technical Issues in CGMH 38
Chapter 5 Smart RFID in Baby Care 39
5.1 Smart Baby Care 39
5.2 Explanation of 3D RFID in baby care 40
5.3 Comparison of 2D and 3D 42
5.4 The Benefits of 3D RFID Baby Care 42
5.4.1 See if the Child is Lying Down or Falling 42
5.4.2 Accurate Tracking 43
5.4.3 More Secure 43
5.4.4 Multi-level of Care Beds 43
5.4.5 Smart Baby Clothes 44
5.4.6 Baby Crying Detection 45
5.4.7 Microchip Implant 45
5.4.8 Medical Cabinet 45
5.4.9 Indoor GPS 46
5.4.10 Smart Door Technology 46
5.5 The features of 3D RFID Baby Care 47
5.5.1 Infant Information Input 47
5.5.2 Infant Temperature Based Tracking 47
5.5.3 Indication of Tag Status 48
5.5.4 Abnormality Judgment 48
5.5.5 Alarming Function 48
5.5.6 RFID Device Management 48
5.5.7 All the Data Stored in the Database 49
5.6 Leap Motion Application 49
5.6.1 Explore, Dissect And Assemble A Human Skull 49
5.6.2 Explore Complex Anatomy in 3D 50
5.6.3 Touch Less 51
Chapter 6 RFID Challenges 53
6.1 RFID Challenges in Hospital Environment 53
6.2 ROI Challenges 54
6.3 Technology Challenges 54
6.4 Technology Risks 54
6.5 Leap Motion Limitations 55
Chapter 7 Conclusion and Future Work 56
7.1 Conclusion 56
7.2 Proposal and Suggestions 56
7.2.1 Proposal 56
7.2.2 Suggestions 56
7.3 Future work 56
REFERENCES 57
Index 62
Appendix 64
Annexure A 64
Annexure B 64
Annexure C 66
Vitae 75


List of Figures
Figure 1 Passive RFID.............................................................................. 12
Figure 2 Active RFID ............................................................................... 13
Figure 3 Semi-Passive RFID .................................................................... 13
Figure 4 Low Frequency Tag ................................................................... 16
Figure 5 High Frequency Tag................................................................... 17
Figure 6 Ultra High Frequency Tag ......................................................... 18
Figure 7 Microwave Tag .......................................................................... 19
Figure 8 Various RFID Reader................................................................. 20
Figure 9 A Simplified RFID Systems....................................................... 21
Figure 10 Reference Frame with Four Triangles and One Circle ............ 22
Figure 11 Leap Motion Tracking.............................................................. 23
Figure 12 Leap Motion in Virtual Reality................................................ 24
Figure 13 Methodology Flowchart........................................................... 28
Figure 14 Taxi Demo................................................................................ 30
Figure 15 Yoke RFID ............................................................................... 31
Figure 16 RITI Technology Inc. RFID..................................................... 31
Figure 17 GIPS RFID ............................................................................... 32
Figure 18 Active Tags .............................................................................. 33
Figure 19 Node Reader............................................................................. 33
Figure 20 RFID in Baby Care................................................................... 35
Figure 21 Matching System...................................................................... 38
Figure 22 Tag Array Deployments........................................................... 41
Figure 23 Reference Tags‘ RSSI and Predefined Coordinates ................ 41
Figure 24 Indoor GPS............................................................................... 46
Figure 25 Smart Door Technologies ........................................................ 47
Figure 26 Smart Cabinets......................................................................... 47
Figure 27 Cyber Science – Motion........................................................... 50
Figure 28 Navigate Complex Anatomy in 3D Space ............................... 51
Figure 29 Touch Less Baby...................................................................... 52
Figure 30 Doctors Cooperation ................................................................ 52
Figure 31 RFID Potential Challenges and Recommendations................. 53


List of Tables
Table 1 Top 10 Best Healthcare Systems................................................... 2
Table 2 Testimonial of Taiwan................................................................... 3
Table 3 History of RFID............................................................................. 9
Table 4 Differences Between Active and Passive RFID Tag .................. 15

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