The PHR is still largely undefined and PHR models are still in their infancy. In 2003 as part of Markle Foundation's Phase I of Connecting for Health, the Personal Health Working Group defined the ideal PHR as: "an Internet-based set of tools that allow people to access and coordinate their lifelong health information and make appropriate parts of it available to those who need it. PHRs offer an integrated and comprehensive view of health information, including information people generate themselves such as symptoms and medication use, information from doctors such as diagnoses and test results, and information from their pharmacies and insurance companies. Individuals access their PHRs via the Internet, using state-of-the-art security and privacy controls, at any time and form any location. Family members, doctors or school nurses can see portions of a PHR when necessary and emergency room staff can retrieve vital information from it in a crisis. People can use their PHR as a communications hub: to send email to doctors, transfer information to specialists, receive test results and access online self-help tools. PHR connects each of us to the incredible potential of modern health care and gives us control over our own information5),6)." According to American Health Information Management Association (AHIMA), "the PHR is a tool that person can use to collect, track and share past and current information about their health or the health of someone in their care. Sometimes this information can save person the money and inconvenience of repeating routine medical tests. Even when routine procedures do need to be repeated, their PHR can give medical care providers more insight into their personal health story. Important points to know about a PHR are that: Person should have access to their complete health information; Information in their PHR should be accurate, reliable, and complete; Person should have control over how their health information is accessed, used, and disclosed; A PHR may be separate form and does not normally replace the legal medical record of any provider7)." The PHR as defined by the Key Health Information Technology Terms Project is: "[a]n electronic, record of health related information on an individual that conforms to nationally recognized interoperability standards and that can be drawn from multiple sources while being managed, shared, and controlled by the individual8)." HIMSS defines an ePHR in its ePHR Definition and Position Statement by stating, "An electronic Personal Health Record (ePHR) is a universally accessible, layperson comprehensible, lifelong tool for managing relevant health information, promoting health maintenance and assisting with chronic disease management via an interactive, common data set of electronic health information and e-health tools. The ePHR is controlled, managed, and shared by the individual or his or her legal proxy(s) and must be secure to protect the privacy and confidentiality or the health information it contains. It is not a legal record unless as defined and is subject to various legal limitations9)."

In the event, PHR is the core of consumer-oriented medical service to save medical costs and enhance welfare by managing chronic diseases and preventing diseases while individuals manage their own information related to health for a lifetime and take care health by themselves and support decision making for medical treatment based on the health data accumulated during their lifetime.

The previous researchers distinguished a "tethered" PHR (bound to a certain organization) from a "standalone" PHR and the ideal "interconnected" PHR.

The web server is divided into DB server and application server. It allows data exchange between individual and n hospitals through web service interface module for each hospital. The medical treatment information is not saved in the web server, but the vital sign and calorie information will be saved in the DB server20). The hospital information exchange network of this system is as Figure 1.

The scope of data which can be inquired by users from more than one hospital is hospital visit history, prescription history, diagnosis result, image examination result, medical treatment result, hospitalization/discharge description, and reservation information. These are reflected by the output of PHR data sets from the previous researchers21),22).

The Figure 2 shows the Data Flow Diagram of the medical treatment information inquiry system.

Users can inquire medical treatment information through the PHR program installed in their PC or USB (Universal Serial Bus) flash drive, and save the data into the PC or USB flash drive. Also, it supports managing chronic diseases and diet through vital signs including blood pressure, blood sugar, pulse, body temperature, SPO2, ECG and body fat, and input, inquiry and management of ingestion and consumption of calories.

Microsoft Visual Studio 2003 was used as server to develop the system in .NET environment, and Microsoft Windows XP Home or Professional operating system with Code gear Delphi 2007 Enterprise (Update 1) was used as client. The SOAP (Simple Object Access Protocol), file compression, and encoding technique based on Microsoft Office Access 2003 database were used. The client program was developed device-independently and not influenced by USB flash drive type.

The Client uses WSDL (Web Service Definition Language) to call web service. Then XML (eXtensible Markup Language) data is returned, and the transmitted XML is encoded to express data queried by the user and stored in USB flash drive. The mechanism is shown in Figure 3.

The specific operating process of PHR system is shown in Figure 4.

The communication process repeats the following steps ①-⑦. ① Information being queried is inputted (e.g. when querying patient record, input start and end dates for the query) and a function is called. ② The called function uses WSDL (Web Service Definition Language) to call the relevant web service function. ③ When it is called, the web service function is carried out using SOAP (Simple Object Access Protocol). ④ As the function is executed, the needed data is queried in the database and results are returned. ⑤ The returned results are stored in XML format and, using SOAP, are transmitted to the client that called. ⑥ A parser is used on the transmitted XML to translate them into a dataset format. ⑦ the translated dataset is expressed on a grid. ⑧ When other information is queried, steps ①-⑦ are repeated.

Individuals can connect to a web server and query and download information such as patient record, examination results, and medication prescriptions, and even when they are not connected to a network, they can query their mobile device and input bio-information. To enable users to effectively their PHR when they end up visiting a hospital during an overseas business trip or in an emergency situation, a mobile storage device-based PHR plug & play viewer was developed (see Fig. 5 and Fig. 6). User convenience was considered in allowing accumulated data to be queried using a visual statistical graph according to various search conditions.

Since the portable PHR program divides the data domain into disclosed domain and non-disclosed domain, if the user is under emergency situation, then any one can obtain the portable PHR program and find out the information saved in the disclosed domain (main hospital, contact information of the hospital, the information of the attending physician, blood type, allergy, emergency contact information and information of guardian). Therefore, this allows immediate and precise evacuation and treatment, and this is one of characteristics of this system.

In order to standardize the exchanged data, HL7 Version 3.0 is applied when inputting and inquiring vital sign, and inquiring the diagnosis inspection to enhance the interoperability of information exchange between heterogeneous systems.

In order to guarantee the confidentiality, integrity and availability of information, the improvement of information control has been selected as the biggest goal. Accordingly, it was developed to save and manage information in individual PC or USB flash drive according to individual intention instead of accumulating information on web server. Encrypted module is applied to the transmission zone of data, and the encryption of saved data is also implemented. The certificate authorization method is adopted additionally to the password authorization, and all passwords are encrypted in oneway to maximize the technical information security.