TY - JOUR
T1 - Extending temporal databases to deal with telic/atelic medical data
AU - Terenziani, Paolo
AU - Snodgrass, Richard T.
AU - Bottrighi, Alessio
AU - Torchio, Mauro
AU - Molino, Gianpaolo
PY - 2007/2
Y1 - 2007/2
N2 - Objective: In this paper, we aim at defining a general-purpose data model and query language coping with both "telic" and "atelic" medical data. Background: In the area of Medical Informatics, there is an increasing realization that temporal information plays a crucial role, so that suitable database models and query languages are needed to store and support it. However, despite the wide range of approaches in the area, in this paper we show that a relevant class of medical data cannot be properly dealt with. Methodology: We first show that data models based on the "point-based" semantics, which is (implicitly or explicitly) assumed by the totality of temporal database approaches, have several limitations when dealing with "telic" data. We then propose a new model (based on the "interval-based" semantics) to cope with such data, and extend the query language accordingly. Results: We propose a new three-sorted model and a query language to properly deal with both "telic" and "atelic" medical data (as well as non-temporal data). Our query language is flexible, since it allows one to switch from "atelic" to "telic" data, and vice versa. Conclusion: In this paper, we demostrate the feasibilty of a database approach copying with both telic and atelic data as needed in several (medical) applications.
AB - Objective: In this paper, we aim at defining a general-purpose data model and query language coping with both "telic" and "atelic" medical data. Background: In the area of Medical Informatics, there is an increasing realization that temporal information plays a crucial role, so that suitable database models and query languages are needed to store and support it. However, despite the wide range of approaches in the area, in this paper we show that a relevant class of medical data cannot be properly dealt with. Methodology: We first show that data models based on the "point-based" semantics, which is (implicitly or explicitly) assumed by the totality of temporal database approaches, have several limitations when dealing with "telic" data. We then propose a new model (based on the "interval-based" semantics) to cope with such data, and extend the query language accordingly. Results: We propose a new three-sorted model and a query language to properly deal with both "telic" and "atelic" medical data (as well as non-temporal data). Our query language is flexible, since it allows one to switch from "atelic" to "telic" data, and vice versa. Conclusion: In this paper, we demostrate the feasibilty of a database approach copying with both telic and atelic data as needed in several (medical) applications.
KW - Data semantics
KW - Relational data model
KW - TSQL2-like query language
KW - Telic/atelic clinical data
KW - Temporal databases
UR - http://www.scopus.com/inward/record.url?scp=33846435761&partnerID=8YFLogxK
U2 - 10.1016/j.artmed.2006.08.003
DO - 10.1016/j.artmed.2006.08.003
M3 - Article
SN - 0933-3657
VL - 39
SP - 113
EP - 126
JO - Artificial Intelligence in Medicine
JF - Artificial Intelligence in Medicine
IS - 2
ER -