2. NSF Funded Project “Enhancing the Electrical and Computer Engineering Curriculum by Integrating Applications of Wireless Technology” NSF TUES Type 1 Project, DUE-1044596 PI: Tao Zhang, SoECS Co-PI: Michael Colef, SoECS Co-Investigator: Wolfgang Gilliar, NYIT COM External Evaluator: Sarah McPherson, SoED

3. Our Vision Through the use of state -of -the -art technologies and real life healthcare related projects integrated throughout the curriculum, the grant will heighten students’, especially female students’, interest in pursuing the ECE program and increase enrollment and retention in this major. Aligns with NYIT’s threefold mission to (1) provide career-oriented professional education, (2) offer opportunity to all qualified students, and (3) support applications-oriented research that benefits the larger world.

4. Objectives Create a connected scope and sequence of learning outcomes to improve the ECE curriculum for all undergraduate students with additional foci on women’s roles in ECE. This will be accomplished by integrating application-oriented wireless network projects related to healthcare applications into the curriculum in courses throughout the program.

5. Goals Build application-oriented wireless networked systems curriculum that demonstrates applications of engineering in telemedicine. Attract and motivate undergraduate engineering students, especially females, to pursue wireless communications and networking academic programs of study. Incorporate faculty research into curriculum development and instruction. Develop undergraduate research through authentic application-oriented projects for innovations in healthcare.

6. Curriculum Enhancements CSCI 370 Intro. to Computer Networks EENG 489 Design Project EENG 497 Wireless Comm. & Network EENG 491 Senior Design Project EENG 370 Microprocessors EENG 310 Electronic Circuit Applications CSCI 120 Programming I CSCI 180 Programming II CSCI 260 Data Structures CSCI 170 Computer Architecture EENG 130 Intro. To Computer Hardware EENG 401 Communication Theory EENG 341 Signals and Systems ETCS 105 Career Discovery

7. Example of Design Project Cell Phone Bluetooth Module Micro- controller Analog Circuit Sensor

8. Cell Phone Bluetooth Module Micro- controller Analog Circuit SensorSystem J2ME KCWireFree KC21 MSP430F149AmplifierElectrodesComponents Curricula and Courses EENG 370 Microprocessor CSCI 170 Computer Architecture CSCI 120 Programming I CSCI 180 Programming II CSCI 260 Data Structures EENG 310 Electronic Circuit Applications EENG 130 Intro. to Computer Hardware EENG 401 Communication Theory EENG 480 Comm. Network Design EENG 497 Wireless Comm. & Network EENG 341 Signals and Systems Courses Linked by the Design Project

9. Jiayuan Wang, Ying Zhou, and Renyuan ChengJiayuan Wang, Ying Zhou, and Renyuan Cheng Sleep Apnea is defined as the cessation of breathing during sleep. According to the World Health Organization, approximately 100 million people worldwide have Obstructive Sleep Apnea (OSA). Sleep Apnea Monitoring and Alarm System

10. Jiayuan Wang, Ying Zhou, and Renyuan ChengJiayuan Wang, Ying Zhou, and Renyuan Cheng Facts about Sleep Apnea Approximately 4% of men over 35 years old have severe sleep apnea. Approximately 2% of women over 35 years old have severe sleep apnea. Sleep Apnea Monitoring and Alarm System

11. Jiayuan Wang, Ying Zhou, and Renyuan ChengJiayuan Wang, Ying Zhou, and Renyuan Cheng Current solution For monitoring purpose, most of the modern monitoring pieces of equipment are not portable enough for patients. Sleep Apnea Monitoring and Alarm System

12. Jiayuan Wang, Ying Zhou, and Renyuan ChengJiayuan Wang, Ying Zhou, and Renyuan Cheng Sleep Apnea Monitoring and Alarm System

13. Jiayuan Wang, Ying Zhou, and Renyuan ChengJiayuan Wang, Ying Zhou, and Renyuan Cheng Sleep Apnea Monitoring and Alarm System

14. Software ‧ Sensor's Part (C for Arduino) a.data acquisition b.data preparation c.data transmission ‧ Mobile Device's Part (JAVA for Android) a.data receiving and processing b.Alert and message sending

15. User Interface Main menu: a. Contact List b. Monitor Graph Sleep Apnea Monitoring and Alarm System

16. Jiayuan Wang, Ying Zhou, and Renyuan ChengJiayuan Wang, Ying Zhou, and Renyuan Cheng Stop breathing more than 10secs Sleep Apnea Monitoring and Alarm System

17. Anthony Brown, James Marsanico, Rahul Jain, Kubra KuzuAnthony Brown, James Marsanico, Rahul Jain, Kubra Kuzu Wireless ECG Monitoring

18. Hospital stay/care? 24 hours a day care Widespread heart conditions Multiple Patients Why ECG Monitoring?

19. Signal Generator, Amplifier and Shifter, Arduino Board Connection

20. Signal Processing Amplitude Peak to peak Heart-beat Types of problems Frequency Normal Sinus Tachycardia Arrhythmia

21. Anthony Brown, James Marsanico, Rahul Jain, Kubra KuzuAnthony Brown, James Marsanico, Rahul Jain, Kubra Kuzu Wireless ECG Monitoring

22. Image Flow Chart Wireless ECG Monitoring

23. Bluetooth  Android Wireless ECG Monitoring

24. Real-time UV Monitoring System Yu Chenyang, Liu Changsheng, Mao Zhong

25. Advantages of basking in the sun Energy, heat Promotion of blood circulation and metabolism Trigger the body to produce vitamin D Damage of over exposure to the sun Sunburn Skin cancer Why we design it

26. add all UV rays of different wavelength multiplied by corresponding weighed value in Erythema Spectrum Curve UV Intensity UV Index Sunburn UV intensity multiply 0.04 total exposure is UV index times time Exposure time function

27. Skin typeDescriptionTypical FeaturesOne Hour Exposure IAlways burns, never tans White skin, blue/hazel eyes, blond/red hair 1-3 II Always burns, tans minimally Fair skin, blue eyes2-4 III Burns minimally, tans slowly Darker Caucasian skin3-5 IVBurns minimally, tans well Light brown skin, Mediterranean 4-6 V Rarely burns, tans profusely/darkly Brown skin, Middle Eastern, Latin American 6-10 VI Never burns, always tans, deeply pigmented Dark brown or black skin10-16 Skin type

28. UVM-30 Typical response curve Standard output value UV module

29. Real-time UV Monitoring System Applications Nursing Homes Baby room Beach

30. Alcohol Detection System Dai Ji, Kong Haotian, Xue Rui ADS MSP-430MQ-3 ANDROID OTHER-MATERISLS ARDUINO MEGA BLUETOOTH MODULE

31. Alcohol Detection System Dai Ji, Kong Haotian, Xue Rui

32. Blood ／ breath alcohol concentration(BAC) is the amount of alcohol in the bloodstram or on one’s breath. BAC is expressed as the weight of ethanol, measured in grams, in 100 milliters of blood, or 210 liters of breath. BAC can be measured by breath, blood, or urine tests. Alcohol may affect driving skills at BACs of 0.05 We could use the BAC calculator to figure out the BAC There’re some factors that affect the BAC, such as weight, age, how fast you drink and so on. Blood ／ breath alcohol concentration (BAC)

33. Wireless Surface Accoustic Wave Sensor driver Fangzhou ChenJoe Tomanelli, Rong Jin, Xiaoxiao Wang Fangzhou Chen, Joe Tomanelli, Rong Jin, Xiaoxiao Wang SAW Sensor Electrical Signal Mechanical Wave

34. Wireless Surface Acoustic Wave Sensor driver Fangzhou ChenJoe Tomanelli, Rong Jin, Xiaoxiao Wang Fangzhou Chen, Joe Tomanelli, Rong Jin, Xiaoxiao Wang SAW Sensor Driver Circuit SAW Sensor

35. Wireless Surface Acoustic Wave Sensor driver Fangzhou ChenJoe Tomanelli, Rong Jin, Xiaoxiao Wang Fangzhou Chen, Joe Tomanelli, Rong Jin, Xiaoxiao Wang

36. Wireless Surface Acoustic Wave Sensor driver Fangzhou ChenJoe Tomanelli, Rong Jin, Xiaoxiao Wang Fangzhou Chen, Joe Tomanelli, Rong Jin, Xiaoxiao Wang