![]() Extended Services: Remote Insert, Update and Delete 10.1. Dynamically ranking using PQF queries with the 'rank-1'Īlgorithm 9.3.2. Relevance Ranking and Sorting of Result Sets 9.1. Safe Updating - Using Shadow Registers 8.1. Indexing with no Record IDs (Simple Indexing) 5. Server Side CQL to PQF Query Translation 6. Zebra Regular Expressions in Truncation Attribute (type = 5) 4. Mapping of PQF APT structure and completeness to Mapping from PQF atomic APT queries to Zebra internal Zebra special IDXPATH Attribute Set for GRS-1 indexing 3.4.1. Zebra Extension Approximative Limit (type 12) 3.4. Zebra Extension Result Set Narrow (type 8) 3.3.2. Zebra specific Scan Extensions to all Attribute Sets 3.3.1. Global Approximative Limit Attribute (type 12) 3.3. Local Approximative Limit Attribute (type 11) 3.2.5. Zebra Extension Term Reference Attribute (type 10) 3.2.4. Zebra Extension Rank Weight Attribute (type 9) 3.2.3. Zebra Extension Embedded Sort Attribute (type 7) 3.2.2. Zebra specific Search Extensions to all Attribute Sets 3.2.1. Zebra specific retrieval of all records 3.2. Zebra general Bib1 Non-Use Attributes (type 2-6) 2.4.1. Zebra's special access point of type 'XPath'įor GRS-1 filters 2.2. Zebra's special access point of type 'string' 2.1.6. Retrieval of Zebra internal record data 5. GRS-1 Record Model and Filter Modules 2.5.4. ALVIS XML Record Model and Filter Module 2.5.3. DOM XML Record Model and Filter Module 2.5.2. Core Zebra Libraries Containing Common Functionality 2.2. Searching the OAI database by Z39.50 protocol 4. Investigating the content of the indexes 6. Presenting search results in different formats 4. ![]() Searching the OAI database by web service 3. GNU/Debian and Ubuntu on other architectures 3. GNU/Debian Linux onĪmd64/i386 Platform 2.2. Kete Open Source Digital Library and Archiving software 3.3. References and Zebra based Applications 3.1. The PreSSUB Technology ("Prehospital TeleStroke Study at the Universitair Ziekenhuis Brussel") has been developed by the “Center for Neurosciences” of the Vrije Universiteit Brussel and UZ Brussel, also in collaboration with the VUB-department of Electronics and Informatics (ETRO) to improve outcome for stroke patients by redesigning acute stroke care using a wireless telemedicine platform.Table of Contents 1. Research concludes that efficient patient triage and effective pre-hospital procedures lead to a more positive outcome for patients. To maximise the chances of good outcome for patients it is recognized by the stroke community that speed & competence are crucial in order to give the right treatment to the patient within the right timeframe. Strokes represent a life-threatening condition which has a huge socio-economic impact. radiologist, neurologist, nurse, …) through the Zebra Web Platform in order to be ready for the arrival of the patient. vital parameters, symptoms, …) can already be gathered & shared with the hospital staff (e.g. By bringing the medical expert virtually in the ambulance, we believe it is possible to win those minutes that will make the difference in outcome for patients while the ambulance staff cares for them. Zebra Academy streamlines urgent patient care by integrating pre-hospital and in-hospital procedures. Speed & Competence through next generation telemedicine
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