2002
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| Sachpazidis, Ilias; Stassinakis, A; Memos, D; Fragou, Sofia; Vamvatsikos, A; Stavropoulou, A; Fonseca, M; Mgalhães, R; Valente, B; D'Aquila, A; Ferreira, J; Aguiar, C @Home - Ein neues EU-Projekt zum Tele Home Care Journal Article In: pp. 124-127, 2002. @article{C34-P-12326,
title = {@Home - Ein neues EU-Projekt zum Tele Home Care},
author = {Ilias Sachpazidis and A Stassinakis and D Memos and Sofia Fragou and A Vamvatsikos and A Stavropoulou and M Fonseca and R Mgalhães and B Valente and A D'Aquila and J Ferreira and C Aguiar},
url = {https://ini.igd.fraunhofer.de/bibcd/INI_Science/papers/2002/02p115.pdf},
year = {2002},
date = {2002-01-01},
booktitle = {Telemonitoring und Tele Home Care},
pages = {124-127},
abstract = {@Home ist eine robuste Plattform für das gleichzeitige Remotemonitoring von Patienten in ihren Häusern durch Ärzte in Krankenhäusern. Gesundheit überwachende Sensore, haben die Fähigkeit lebenswichtige Parameter wie Blutdruck, Pulsschlag, Temperatur, Sauerstoff Sättigung (SpO2), sowie ECG 12 (...)
schnell und einfach zu messen. Zusätzlich ist ein Vorteil der Plattform, daß alle Sensoren wearable sind und der Patient kann herum zuhause oder draußen tragen. Außerdem sind Sensore dazu fähig, gespeicherte Daten über Bluetooth, ein short-range drahtlos Kommunikation, zu irgendeinem Bluetooth
aktivierten Schreibtisch Computer oder einem Taschen- PC zu übertragen.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
@Home ist eine robuste Plattform für das gleichzeitige Remotemonitoring von Patienten in ihren Häusern durch Ärzte in Krankenhäusern. Gesundheit überwachende Sensore, haben die Fähigkeit lebenswichtige Parameter wie Blutdruck, Pulsschlag, Temperatur, Sauerstoff Sättigung (SpO2), sowie ECG 12 (...)
schnell und einfach zu messen. Zusätzlich ist ein Vorteil der Plattform, daß alle Sensoren wearable sind und der Patient kann herum zuhause oder draußen tragen. Außerdem sind Sensore dazu fähig, gespeicherte Daten über Bluetooth, ein short-range drahtlos Kommunikation, zu irgendeinem Bluetooth
aktivierten Schreibtisch Computer oder einem Taschen- PC zu übertragen. |
| Sachpazidis, Ilias @HOME: A modular telemedicine system Proceedings Article In: Mobile Computing in Medicine. Proceedings 2002, pp. 87-95, 2002. @inproceedings{C34-P-12106,
title = {@HOME: A modular telemedicine system},
author = {Ilias Sachpazidis},
url = {https://ini.igd.fraunhofer.de/bibcd/INI_Science/papers/2002/02p090.pdf},
year = {2002},
date = {2002-01-01},
booktitle = {Mobile Computing in Medicine. Proceedings 2002},
pages = {87-95},
abstract = {In that paper we will describe a system for remotely monitoring of patients at home from the doctors at the hospital. In general, the @Home system can measure, collect, analyze and record health care data at a patient's home and the subsequently send these data to the hospital using the global system for mobile communications (GSM) or PSTN telephone line. The paper is organized as follows: In section 1, a brief introduction of the @home project is exposed. In section2, the overall architecture of the system is shown. Finally, the paper concludes in section 3, stating the clinical trials
and the benefits of the project.},
keywords = {},
pubstate = {published},
tppubtype = {inproceedings}
}
In that paper we will describe a system for remotely monitoring of patients at home from the doctors at the hospital. In general, the @Home system can measure, collect, analyze and record health care data at a patient's home and the subsequently send these data to the hospital using the global system for mobile communications (GSM) or PSTN telephone line. The paper is organized as follows: In section 1, a brief introduction of the @home project is exposed. In section2, the overall architecture of the system is shown. Finally, the paper concludes in section 3, stating the clinical trials
and the benefits of the project. |
| Sachpazidis, Ilias @Home: A system for real time monitoring of patients' vital parameters Proceedings Article In: Advanced Medical Image Processing. Proceedings 2002, 2002. @inproceedings{C34-P-11679,
title = {@Home: A system for real time monitoring of patients' vital parameters},
author = {Ilias Sachpazidis},
url = {https://ini.igd.fraunhofer.de/bibcd/INI_Science/papers/2002/02p030.pdf},
year = {2002},
date = {2002-01-01},
booktitle = {Advanced Medical Image Processing. Proceedings 2002},
abstract = {In this paper we are going to describe a robust platform for real-time remote monitoring of patients at their home by doctors at the hospital. The platform is based on both state-of-the-art medical sensors - Bluetooth & DECT enabled sensors - and telecommunication system - GSM/UMTS. The system
provides a user-friendly co-operative distributed environment, which enables the following functionalities:
Health monitoring sensors which have the capability to measure quick and easy vital parameters such as blood pressure, pulse rate, temperature, oxygen saturation (SpO2), as well as ECG 12 leads. Additionally, an advantage of the platform is that all the sensors are wearable and the patient is able
to walk around in the house or go for a walk. Moreover, the sensors are able to convey the recorded data over Bluetooth, a short range wireless communication, to any Bluetooth enabled device such as Desktop computer or a Pocket PC.
A real time remote monitoring of patient. The recordings from each medical sensor are immediately transmitted to the clinic over GSM/UMTS. This allows the clinic to monitor the patient in real time and take action if something goes wrong.
Conserving safety issues. A Virtual Private Network (VPN) is set up during data transfer between the patient's personal computer and the central server at the clinic.
The User Interface (GUI). From a clinical point of view, the GUI enables complete control of the system by the operator. From the patient's side, his records are available for access via Internet, by making use of a password provided by the clinic.},
keywords = {},
pubstate = {published},
tppubtype = {inproceedings}
}
In this paper we are going to describe a robust platform for real-time remote monitoring of patients at their home by doctors at the hospital. The platform is based on both state-of-the-art medical sensors - Bluetooth & DECT enabled sensors - and telecommunication system - GSM/UMTS. The system
provides a user-friendly co-operative distributed environment, which enables the following functionalities:
Health monitoring sensors which have the capability to measure quick and easy vital parameters such as blood pressure, pulse rate, temperature, oxygen saturation (SpO2), as well as ECG 12 leads. Additionally, an advantage of the platform is that all the sensors are wearable and the patient is able
to walk around in the house or go for a walk. Moreover, the sensors are able to convey the recorded data over Bluetooth, a short range wireless communication, to any Bluetooth enabled device such as Desktop computer or a Pocket PC.
A real time remote monitoring of patient. The recordings from each medical sensor are immediately transmitted to the clinic over GSM/UMTS. This allows the clinic to monitor the patient in real time and take action if something goes wrong.
Conserving safety issues. A Virtual Private Network (VPN) is set up during data transfer between the patient's personal computer and the central server at the clinic.
The User Interface (GUI). From a clinical point of view, the GUI enables complete control of the system by the operator. From the patient's side, his records are available for access via Internet, by making use of a password provided by the clinic. |
2001
|
| Sachpazidis, Ilias @Home Telemedicine Proceedings Article In: Telemed 2001. Telematik im Gesundheitswesen, pp. 127-134, 2001. @inproceedings{C34-P-10983,
title = {@Home Telemedicine},
author = {Ilias Sachpazidis},
url = {https://ini.igd.fraunhofer.de/bibcd/INI_Science/papers/2001/01p099.pdf},
year = {2001},
date = {2001-01-01},
booktitle = {Telemed 2001. Telematik im Gesundheitswesen},
pages = {127-134},
abstract = {In this paper we are going to describe a robust platform for real-time remote monitoring of patients at their home by doctors at the hospital. The platform is based on state-of-the-art medical sensors
Health monitoring sensors which have the capability to measure quick and easy vital parameters such as blood pressure, pulse rate, temperature, oxygen saturation (SpO2), as well as ECG 12 leads. Additionally, an advantage of the platform is that all the sensors are wearable and the patient is able
to walk around in the house or go for a walk. Moreover, the sensors are able to convey the recorded data over Bluetooth short range wireless communication, to any Bluetooth enabled device such as Desktop computer or a Pocket PC.
A real time remote monitoring of patient. The recordings from each medical sensor are immediately transmitted to the clinic over GSM/UMTS. This allows for the clinic to monitor the patient in real time and take action if something goes wrong
Conserving safety issues. A Virtual Private Network (VPN) is set up during data transfer between the patient's home-computer and the central server at the clinic.
The User Interface (UI). From a clinical point of view, the UI enables complete control of the system by the operator. From the patient's side, his records are available for access via Internet, by making use of a password provided by the clinic.
The system is addressing to two major patient groups:
Patient recovering after hospital treatment. For instance, patients who have been subjected to surgery. The patient can be moved at home during the final stage of the recovery, where he/she stays in house for monitoring purposes.
Chronically ill patients. This category includes all chronically ill patients, who as part of their daily routine, have to conform to their prescribed therapy, which typically only involves the intake of medical pills (Medical Dispenser Apparatus).},
keywords = {},
pubstate = {published},
tppubtype = {inproceedings}
}
In this paper we are going to describe a robust platform for real-time remote monitoring of patients at their home by doctors at the hospital. The platform is based on state-of-the-art medical sensors
Health monitoring sensors which have the capability to measure quick and easy vital parameters such as blood pressure, pulse rate, temperature, oxygen saturation (SpO2), as well as ECG 12 leads. Additionally, an advantage of the platform is that all the sensors are wearable and the patient is able
to walk around in the house or go for a walk. Moreover, the sensors are able to convey the recorded data over Bluetooth short range wireless communication, to any Bluetooth enabled device such as Desktop computer or a Pocket PC.
A real time remote monitoring of patient. The recordings from each medical sensor are immediately transmitted to the clinic over GSM/UMTS. This allows for the clinic to monitor the patient in real time and take action if something goes wrong
Conserving safety issues. A Virtual Private Network (VPN) is set up during data transfer between the patient's home-computer and the central server at the clinic.
The User Interface (UI). From a clinical point of view, the UI enables complete control of the system by the operator. From the patient's side, his records are available for access via Internet, by making use of a password provided by the clinic.
The system is addressing to two major patient groups:
Patient recovering after hospital treatment. For instance, patients who have been subjected to surgery. The patient can be moved at home during the final stage of the recovery, where he/she stays in house for monitoring purposes.
Chronically ill patients. This category includes all chronically ill patients, who as part of their daily routine, have to conform to their prescribed therapy, which typically only involves the intake of medical pills (Medical Dispenser Apparatus). |