The document provides a progress report for an iPhone-based healthcare diagnostic device project. It discusses the circuit design, application development, and next steps. Key points:
- A sensor to measure physiological parameters like temperature has been designed. An application to process and visualize data on the iPhone simulator was also completed.
- Outstanding issues include connecting the sensor to the iPhone and testing the hardware.
- The project timeline was extended by two weeks. Acceptance review is scheduled for January 17.
- Next steps are to test the sensor-iPhone connection in a future SDK release and add contact management features to the application.
1. Home Care diagnostic device on
iPhone
Project Report
Prepared by: iPhone_Team@IIITB
2. Introduction
• Objective
– Progress report for iPhone based health care solution.
– Discussion on application design
• Hardware – circuit design and component details
• Software – data processing and visualization application
• Outcome
– The feedback, suggestions and strategic decisions required to allow the
project to move forward to the next phase
4. Project Overview
• Project description
– Findings on techniques to measure physiological parameter such as
temperature.
– Market study on smart phone based health care solutions.
– Developing health care solution based for handheld device such as iPhone.
– Timeline – Aug 11, 2008 – Jan 15, 2009
• Status update
– Smartphone based health care solution will have positive market growth.
• Health care services to be 20 % of GDP in US by 2015
• Scarcity of nurses in US is estimated in coming years
• “…Patient telemonitoring facilitates the extension of healthcare services to remote and sparse-
populated areas avoiding the need of expensive.”
5. Project Overview
• Status update
– Findings on smartphone based health care solution
• Positive market growth for next decade
• Health care services to be 20 % of GDP in US by 2015
• Scarcity of nurses in US is estimated in coming years
• “…Patient telemonitoring facilitates the extension of healthcare services to remote and sparse-
populated areas avoiding the need of expensive.”
– Application design status
• Circuit design for temperature sensor complete
• UI screens and a working demo data processing application on iPhone simulator is complete.
• Barring few issues or findings
6. Project Overview
• Project team introduction
– A four member team
• Sub teams
» sensor design (Ashish, Indrani)
» software design (Ashish, M.R. Varun, Manish)
7. Tasks summary and work division
Member Task description
Ashish Kumar
(2007021)
(1) Designing the measurement device
<<done>>
(2) Introductory tutorial on iPhone
SDK to other project teams <<done>>
(3) UI design for application <<done>>
(4) Data transfer using SMS from one
phone to another <<open issue>>
(5) Testing and application
maintenance <<done>>
(6) Documentation – Introduction,
Smartphone market, related products
and research statements.
8. Tasks summary and work division
Member Task description
Indrani Maity
(2007045)
(1) Designing the measurement
device <<done>>
(2) Assembly code to program and
access the sensor hardwire
<<done>>
(3) Data transfer from sensor to PC
<<open issue>>
(4) Testing of sensor, and hardware
before the final release of the project
work <<open issue>>
(5) Documentation – Sensor design
details, techniques to measure
physiological parameters.
9. Tasks summary and work division
Member Task description
Varun M.R
(2007064)
(1) Mac and iPhone SDK installation
<<done>>
(2) iPhone SDK self learning <<done>>
(3) UI design for application <<done>>
(4) Data transfer using SMS from one
phone to another <<open issue>>
(5) Testing and application
maintenance <<done>>
(6) Documentation – Apple iPhone
design details
10. Tasks summary and work division
Member Task description
Manish Thaper
(2007068)
(1) iPhone SDK self learning <<done>>
(2) Introductory tutorial on iPhone
SDK to other project teams <<done>>
(3) UI design for application <<done>>
(4) Data transfer using SMS from one
phone to another <<open issue>>
(5) Testing and application
maintenance <<done>>
(6) Documentation – Introduction,
Apple iPhone design details
11. Project Budget, Schedule, & Scope
Scope Mgmt.
Schedule
Budget
Cost
Project
Status
• Actual vs. Baseline Variance - Not evaluated yet
• Cost overrun explanations – Not evaluated yet
Connectivity between
iPhone and sensor may be
done via a PC/Mac.
• Project delivery date postponed by
two weeks.
•Approved by Prof. Roland Haas.
12. Acceptance Review
• Customer
– Acceptance status – Not evaluated
– Customer concerns - Not evaluated
– Customer changes - Not evaluated
• Steering Committee
– Acceptance status – To be updated after review on January 17, 2009
– Strategy concerns (e.g., scope, budget, and schedule) – To be
updated after January 17, 2009.
• Project Team
– Acceptance status – Light green (Prototype ready for review)
– Resource issues – In following slides
13. Next Steps
• Open issues
– Connectivity between iPhone device and sensor – SDK does not
provides API’s to transfer data using USB or Bluetooth.
– Hardware resources were not available. PCB design could not be built
and tested.
• Next phase
– Using iPhone on the phone database SQLite.
– AddressBook framework for CRUD, doctor and patient contacts.
– Data transfer between sensor and iPhone to be tested in subsequent
SDK release.
14. References
[1] Design with Microprocessors for Mechanical Engineers. A.K. Stiffler. McGraw-Hill, 1992.
[2] The low cost PC based design data acquisition, control, and GPIB hardware and software solutions.
[http://www.measurementcomputing.com/]
[3] Mechatronics. Dan S.Necsulescu. Prentice Hall, 2002. [http://www.jee.ro/docs/Necsulescu.htm]
[4] Apple iPhone developer site: [http://developer.apple.com/iphone]
[5] M. J. Morón, J. R. Luque, A. A. Botella, E. J. Cuberos, E. Casilari and A. Diaz-Estrella. 2007. “A Smart Phone-based Personal Area
Network for Remote Monitoring of Biosignals.” IFMBE Proceedings. 4th International Workshop on Wearable and Implantable
Body Sensor Networks (BSN 2007). Vol. 13. 2007. Authors are from Dpto. Tecnología Electrónica, University of Málaga, Spain.
Springer link [http://www.springerlink.com/content/r53381610347q304/]
[6] Leijdekkers, P.; Gay, V.; Lawrence, E. “Smart Homecare System for Health Tele-monitoring.” 2-6 Jan 2007. First International
Conference on the Digital Society, 2007. Page(s): 3-3.
[7] Krebs David. “Wireless Home Care Solutions: Addressing the Quality of Service and Performance Gap”. Venture Development
Corporation. www.vdc-corp.com