The educational goal of this course is to train students to apply technologies such as electrical and electronics and information engineering to the development of smart medical electronic care equipment, and to use wireless resources to apply their learning to home care services for the elderly. This course plan is based on cross-domain integration, with the topics of "biophysics", "biomedical sensing", and "wireless sensing" as training the students to design physiological signal sensing electronic devices for smart care systems. The course will be accompanied by hands-on experiments to allow students to design electroencephalogram sensing circuits, digital body temperature sensing circuits, electronic sphygmomanometers and ultrasonic blood flow meters. Sensing physiological signals use the Arduino embedded system to analyze and provide telemedicine applications. In terms of long-distance health care, students will be trained to use the WiFi cloud as a platform to build a wireless biomedical signal transmission network to implement the goals of smart health care.The educational goal of this course is to train students to apply technologies such as electric and electronics and information engineering to the development of smart medical electronic care equipment, and to use wireless resources to apply their learning to home care services for the elderly. This course plan is based on cross-domain integration, with the topics of "biophysics", "biomedical sensing", and "wireless sensing" as training the students to design physical signal sensing electronic devices for smart care systems. The course will be accompanied by hands-on experiments to allow students to design electronic phalogram sensing circuits, digital body temperature sensing circuits, electronic sphygmomanometers and ultrasonic blood flow meters. Sensing physical signals use the Arduino embedded system to analyze and provide telemedicine applications. In terms of long-distance health care, students will be trained to use the WiFi cloud as a platform to build a wireless biomedical signal transmission network to implement the goals of smart health care.
1.Wireless communication
曾爏棋、林政寬、林致宇等
出版社:碁峯(EN0026)
出版日期:2012/09/21
2.c#brainwave control
施再繁、施朝政等
勝宏精密
3.Schematic Arduino user guide
趙英傑
旗標出版社(F6799)
1.Wireless communication
Zeng Qi, Lin Zhengmao, Lin Zhiyu, etc.
Publisher: Oshino (EN0026)
Publication date: 2012/09/21
2.c#brainwave control
Conducting new developments, implementing government affairs, etc.
Shenghong Precision
3.Schematic Arduino user guide
Zhao Yingjie
Flags Publishing House (F6799)
| 評分項目 Grading Method | 配分比例 Grading percentage | 說明 Description |
|---|---|---|
| quiz 1quiz 1 quiz 1 |
10 | one week before midterm |
| midtermmidterm midterm |
30 | |
| term projectterm project term project |
50 | |
| homework homework homework |
10 |
