This document describes AXARM, a tele-rehabilitation tool that allows specialized professionals to conduct remote rehabilitation sessions with patients in their homes using broadband internet. It has the following key features:
- It addresses issues with geographical dispersion of patients, lack of adapted transportation, and patients' handicaps in the province of Girona.
- It uses a hybrid peer-to-peer architecture with secure Jabber communications to allow audio/video sessions between patients' homes and rehabilitation centers.
- The application is modular, multi-platform, and customizable to suit different patients' needs and hardware configurations. It aims to offer accessible and continuous remote treatment.
AI presentation and introduction - Retrieval Augmented Generation RAG 101
AXARM
1.
2. Broadband Communications and Distributed Systems AXARMAn Extensible Remote Assistance and Monitoring Tool for Tele-rehabilitationJose L Marzo<joseluis.marzo@udg.edu>Barcelona, 4 June, 2010
3. Outline Motivation Project description Design features Internal structure / Modularity Main features Future work Demo (Video clips)
4. Motivation At the province of Girona three main aspects to develop the project can be highlighted: Geographical dispersion Difficult to reach adapted transport Patients’ handicaps
8. Project description Video conference oriented and enhanced system which allows specialized professionals of a rehabilitation center (such as psychologists, neurologists and rehabilitators) to carry out distant rehabilitation sessions. Patients can remain at home using broadband communications and Internet services.
9. Design objectives Area of influence: Girona province Geographical dispersion, budget limitations, patient exhaustion and discomfort Well developed Broadband access & 3G mobiles TRiEMapplication Use of standard available low-cost hardware Usual broadband connection: 1000/300 kbps On-line and off-line rehabilitation activities
20. Implementation (multimedia) RTP Protocol and Codecs H.263/RTP CIF video (352x288, 200 kbps) GSM/ULAW audio Java Media Framework (JMF) Capture, playback, streaming, and transcoding Isolates the application of OS interfaces Media4j Framework built on top of JMF Simplifies working with JMF