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Synopsis of THERPRO

1. Overall Structure of the Database

  THERPRO has a hierarchical structure consisting of several levels: home page, element, compound, property, author, report, and bibliography level. All data sets in each level are interconnected using a network structure and thus every data can be easily retrieved, including the bibliographical information, by an appropriate query action. The internal structure is shown in Fig. 1.

  In fact, the THERPRO home page is the top level with the periodic table, which provides easy access to the desired data and supplementary features for a convenient data retrieval.

  Element level is the actual first level in the search of the target properties of target materials. When users choose the symbol of the major element of the compound in the periodic table, they will be led to the element level in which they see the list of compounds including the element along with the general properties of the element. When users make a selection of the target compound in the list, THERPRO will guide them to the compound level and there they will nd the list of thermo-physical properties of the compound whose data have been collected and stored in the database.

  The property level belongs to the database platform in which all the collected data are sorted, classified, and stored. All of the properties data and information in this platform are linked to the corresponding compounds in the compound level.

  The next three levels, author, report, and bibliography level, constitute the substrate of the database and thus they are constructed in the common layer. When users reach the property level or the substrate, they have to select the author from the authors list as well as the appropriate author's report from the document list. Users can choose multiple authors and multiple reports. Once they select the report and request to plot, they will have the selected property data in graphic form.
The bibliography level is the lowest level in the database structure and accessible only to authorized users. They will see the information including the numeric property data by selecting the report ID number in the screen menu. Since this information has been saved in a text le users can copy and paste it in their own documents.


Fig.1. Overall structure of THERPRO database.


2. Structure of Standard Data Set


  A standard data set has been developed for THERPRO in order to keep the consistency of the collected information and to ease the comparison and the interpretation of the data. The data set consists of five classes: material characterization, data characterization, measurement technique, bibliography, and numerical data(Fig. 2). With this standard category scheme all of the data sets are sorted according to the material's name and/or the chemical formula and then hierarchically ordered in the corresponding level of the database, except the bibliography level. Upon request with appropriate query actions, therefore, any graphic or numeric property data can be reversely extracted from the stored data set in the database. Authorized users can trace back to the information on how the data were generated and with what measurement technique.



Fig.2. An example of the standard data set.


3. Data Retrieval Scheme

  THERPRO provides three data retrieving schemes: basic search, index search, and power search. The basic search is the first-step searching method but the other two methods provide a more convenient and powerful data retrieval. Figure 3 shows the sequential flows of the searching ways in the structural diagram.
  Once users visit the THERPRO site, they are able to begin the basic search since the periodic table in the home page is actually the entry gate for this search.
  Users can also try the index search by selecting the `index' menu in the right upper part of the home page. All the materials collected in THERPRO have been indexed according to their chemical formula and compound name. Choosing the compound of interest directly takes the user to the compound level.
  If users are familiar with THERPRO or know the author who measured the target property of the compound of interest, they can try the power search by typing them in the columns in the upper middle section of the home page. This leads users directly to the property level.



Fig.3. Data retrieval schemes of THERPRO database.


4. User Registration and Authorization

  THERPRO has been developed as a common utility for engineers, researchers, and managers working in the nuclear laboratories and industries and is accessible to registered user in all IAEA Member States. Nevertheless, the access to the source data les must be limited for database protection and security. In practice, THERPRO offers three users categories: group 1, group 2, and administrative group. The user group assignment is normally made by the Agency's review committee. All user groups are entitled to make suggestions and comments on the database and propose the modification or correction of data.
  Group 1 users can visit any part of the THERPRO database except the detailed bibliography information area. Anyone can be a registered user when they accept the security notice, privacy policy, copyrights, and terms and conditions e ectively required by Agency. As stated in the terms and conditions, however, the IAEA has the right to cancel a user registration for the future use if the user provides any fake information during the registration process.
  Group 2 users have the right to get any available source le or information including the bibliography information.
  Administrators are the users who have rights to modify or correct the data. Only a small number of people such as personnel at the IAEA headquarters and the staff in the THERPRO management center authorized by the Agency fall in this user group.
  The security and safety of the database cannot be too much emphasized, especially when it is a nuclear related database such as THERPRO. For this reason, the entire THERPRO system is currently running
in the mainframe server of CNMD (Center for Nuclear Materials Database) at Hanyang University under the security protection.


5. Management of THERPRO


  Experience tells us that even a database born amid cheers must die out without proper management. The THERSYST database is a good and typical example. Therefore, the CNMD at Hanyang University in Seoul, Korea was designated in May, 2004 as the center for THERPRO management. This was a logical choice, as the laboratory carried out the THERPRO reconstruction task successfully and showed willingness to take the responsibility.
  Nowadays the center takes care of the routine maintenance of the THERPRO database and coordinates users and work group support, while collecting new thermo-
physical properties data of materials publicly published in recent technical journals.
  The review and assessment of collected data are coordinated by the center through the online communication tools available in the THERPRO homepage. New data formatted in the standardized form are circulated between the advisory group members and, once final revisions or modifications are prepared, they will be submitted to the Agency for final review and approval. Upon the approval, the new data will be loaded to the THERPRO by the center.