Smart package solutions may support a patient in the intake of medication---for instance, through the package's form factor or by linking of the package with digital data and services built upon these data. This chapter discusses the application potential of a so-called digital product memory in this domain. The starting point is a visionary scenario in which the interplay of intelligent environments and medicine packages equipped with digital product memories allows for unobtrusive support of a patient in dealing with situations that might affect his or her therapy compliance. In this chapter, components of a technical infrastructure of particular relevance to the envisioned kind of support are described. This discussion is complemented with a review of prototype implementations of interaction mechanisms taken from the scenario.
%0 Book Section
%1 BrandhermSchmitzEtAl13p349
%A Brandherm, Boris
%A Schmitz, Michael
%A Neßelrath, Robert
%A Lehmann, Frank
%B SemProM: Foundations of Semantic Product Memories for the Internet of Things
%D 2013
%K ai embedded health information myown product rfid sensor
%P 349-361
%R 10.1007/978-3-642-37377-0_21
%T A SemProM Use Case: Health Care and Compliance
%X Smart package solutions may support a patient in the intake of medication---for instance, through the package's form factor or by linking of the package with digital data and services built upon these data. This chapter discusses the application potential of a so-called digital product memory in this domain. The starting point is a visionary scenario in which the interplay of intelligent environments and medicine packages equipped with digital product memories allows for unobtrusive support of a patient in dealing with situations that might affect his or her therapy compliance. In this chapter, components of a technical infrastructure of particular relevance to the envisioned kind of support are described. This discussion is complemented with a review of prototype implementations of interaction mechanisms taken from the scenario.
%@ 978-3-642-37376-3
@incollection{BrandhermSchmitzEtAl13p349,
abstract = {Smart package solutions may support a patient in the intake of medication---for instance, through the package's form factor or by linking of the package with digital data and services built upon these data. This chapter discusses the application potential of a so-called digital product memory in this domain. The starting point is a visionary scenario in which the interplay of intelligent environments and medicine packages equipped with digital product memories allows for unobtrusive support of a patient in dealing with situations that might affect his or her therapy compliance. In this chapter, components of a technical infrastructure of particular relevance to the envisioned kind of support are described. This discussion is complemented with a review of prototype implementations of interaction mechanisms taken from the scenario.},
added-at = {2013-06-17T10:20:19.000+0200},
author = {Brandherm, Boris and Schmitz, Michael and Ne{\ss}elrath, Robert and Lehmann, Frank},
biburl = {https://www.bibsonomy.org/bibtex/275a843281bc9e703549a34204295de3f/rnesselrath},
booktitle = {SemProM: Foundations of Semantic Product Memories for the Internet of Things},
crossref = {Wahlster2013},
doi = {10.1007/978-3-642-37377-0_21},
groups = {public},
interhash = {0d81fa0f2ea47d9bc938a26261a1f3e1},
intrahash = {75a843281bc9e703549a34204295de3f},
isbn = {978-3-642-37376-3},
keywords = {ai embedded health information myown product rfid sensor},
pages = {349-361},
timestamp = {2013-06-17T10:20:19.000+0200},
title = {A {SemProM} Use Case: Health Care and Compliance},
username = {flint63},
year = 2013
}