Design and Implementation of Smart Monitoring Systems in Hospital Wagon using...ijtsrd
Nowadays, many researchers are contributing their research in the field of Internet of things IOT , since it is important and attractive technology. IOT means communication between human to device or device to device, anywhere in real time. This communication takes place with the help of different smart sensors which are connected via internet. In the IOT infrastructure different sensors can sense, analyse, transmit and store all the datas on cloud. This paper presents a wearable sensor network system for Internet of Things IoT connected safety and health applications. The wearable sensors on different subjects can communicate with each other and transmit the data to a gateway via a Local Area Network which forms a heterogeneous IoT platform with wifi based medical signal sensing network. It consists of two sections the basic information and condition of patient is collected in the wagon by the means IoT Internet of Things and make it available to hospital before the emergency vehicle reaches the hospital. On the base of such data, the system is able to detect anomalous situations and provide information about the status directly and exclusively to the hospital. The second path is control of traffic lights from the wagon and makes free for its path automatically. This project is to save the time of major late time aspects in more efficient manner and save the life. Mrs. S. Kirthica | Mrs. S. Priyadharsini "Design and Implementation of Smart Monitoring Systems in Hospital Wagon using IoT Technology: A Case Study" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-5 , August 2020, URL: https://www.ijtsrd.com/papers/ijtsrd31731.pdf Paper Url :https://www.ijtsrd.com/mathemetics/other/31731/design-and-implementation-of-smart-monitoring-systems-in-hospital-wagon-using-iot-technology-a-case-study/mrs-s-kirthica
Ponencia de Jordi Cervós Navarro en Julio de 2008 en la Universidad Internacional Menendez y Pelayo ( UIMP), dentro del Encuentro Huma nismo, Ciencia y Sociedad patrocinado por la Fundación A. Von Humboldt
Design and Implementation of Smart Monitoring Systems in Hospital Wagon using...ijtsrd
Nowadays, many researchers are contributing their research in the field of Internet of things IOT , since it is important and attractive technology. IOT means communication between human to device or device to device, anywhere in real time. This communication takes place with the help of different smart sensors which are connected via internet. In the IOT infrastructure different sensors can sense, analyse, transmit and store all the datas on cloud. This paper presents a wearable sensor network system for Internet of Things IoT connected safety and health applications. The wearable sensors on different subjects can communicate with each other and transmit the data to a gateway via a Local Area Network which forms a heterogeneous IoT platform with wifi based medical signal sensing network. It consists of two sections the basic information and condition of patient is collected in the wagon by the means IoT Internet of Things and make it available to hospital before the emergency vehicle reaches the hospital. On the base of such data, the system is able to detect anomalous situations and provide information about the status directly and exclusively to the hospital. The second path is control of traffic lights from the wagon and makes free for its path automatically. This project is to save the time of major late time aspects in more efficient manner and save the life. Mrs. S. Kirthica | Mrs. S. Priyadharsini "Design and Implementation of Smart Monitoring Systems in Hospital Wagon using IoT Technology: A Case Study" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-5 , August 2020, URL: https://www.ijtsrd.com/papers/ijtsrd31731.pdf Paper Url :https://www.ijtsrd.com/mathemetics/other/31731/design-and-implementation-of-smart-monitoring-systems-in-hospital-wagon-using-iot-technology-a-case-study/mrs-s-kirthica
Ponencia de Jordi Cervós Navarro en Julio de 2008 en la Universidad Internacional Menendez y Pelayo ( UIMP), dentro del Encuentro Huma nismo, Ciencia y Sociedad patrocinado por la Fundación A. Von Humboldt
Michèle Thonnet, adjoint au directeur, chef de la Mission pour l´informatisation du Système de Santé (MISS) au Ministère de la Santé et des Solidarités. France
EuroBioForum 2013 - Day 1 | Wolfgang EberleEuroBioForum
EuroBioForum 2013 2nd Annual Conference
27-28 May 2013 - Hilton Munich City, Munich, Germany
http://www.eurobioforum.eu/2013
=======================================
# NATIONAL PERSPECTIVES #
Belgium
Working across disciplines for our health benefit - From successful strategies for biotech and nanotech to Nanotech for Health in Flanders
Wolfgang Eberle
Funded Program Manager Life Science Technologies Imec
=======================================
http://www.eurobioforum.eu
A detailed summary of Data-driven systems medicine workshop which took place on June 11-12th at the Cardiff University Brain Research Imaging Centre. The event brought together experts from Academia and Industry who all recognised the potential that AI, ML and systems modelling can unlock for personalised medicine. The event was sponsored by DELL EMC and Partners. Partners included Supercomputing Wales, Advanced Research Computing @ Cardiff, Systems Immunity Research Institute, Cardiff Institute of Tissue Engineering and Research and British Society of Immunology South Wales Group.
Michèle Thonnet, adjoint au directeur, chef de la Mission pour l´informatisation du Système de Santé (MISS) au Ministère de la Santé et des Solidarités. France
EuroBioForum 2013 - Day 1 | Wolfgang EberleEuroBioForum
EuroBioForum 2013 2nd Annual Conference
27-28 May 2013 - Hilton Munich City, Munich, Germany
http://www.eurobioforum.eu/2013
=======================================
# NATIONAL PERSPECTIVES #
Belgium
Working across disciplines for our health benefit - From successful strategies for biotech and nanotech to Nanotech for Health in Flanders
Wolfgang Eberle
Funded Program Manager Life Science Technologies Imec
=======================================
http://www.eurobioforum.eu
A detailed summary of Data-driven systems medicine workshop which took place on June 11-12th at the Cardiff University Brain Research Imaging Centre. The event brought together experts from Academia and Industry who all recognised the potential that AI, ML and systems modelling can unlock for personalised medicine. The event was sponsored by DELL EMC and Partners. Partners included Supercomputing Wales, Advanced Research Computing @ Cardiff, Systems Immunity Research Institute, Cardiff Institute of Tissue Engineering and Research and British Society of Immunology South Wales Group.
Medical imaging is part of a changing medical environment, a changing
patient environment and consequently a new medical world. In the
recent decennium one of the most important changes in radiology is the
conversion from analogue to digital. In no time medical images have
become interchangeable through the digital highway and could be postprocessed
in a different location. Teleradiology has become a reality
since then. We have seen the maturation of commercial international
teleradiology companies offering a wide portfolio of services. Another
aspect is the availability of image data for all medical specialties beyond
radiology and beyond the regular medical disciplines. An increasing
number of surgical or oncological specialties and even pharmaceutical
companies increasingly use image data to prepare a strategy for
operative procedures, to choose the right therapy, to decide which
prosthesis to the best to use, for follow-up or for post-processing
purposes. They are supported by many new techniques and software.
An increasing number of medical computer applications such as complex
navigation and visualisation tools based upon digital images is already
in clinical use or under development. Another trend is the increasing
interest in E-health and telemedicine in Europe, also among European
policy makers. Now we see mobile health that brings care directly into
the patient environment. The purpose of this presentation is to give a
comprehensive overview of and insight into these new developments and
to create awareness among radiologists of the increasing importance of
integration of medical imaging in a multidisciplinary environment.
Lecture on the role of information systems within healthcare. Adressing the various types of information systems and their respective benefits. Also, PACS maturity as a concept is introduced.
AI, IoMT and Blockchain in Healthcare.pdfrectified
The healthcare industry is adopting new technologies such as AI, IoMT, and blockchain to enhance patient outcomes, reduce costs, and improve operational efficiencies. These technologies can revolutionize healthcare by facilitating personalized patient-focused care, improving clinical outcomes, and reducing expenses. However, the implementation of these technologies requires collaboration between healthcare providers, technology companies, and regulatory bodies to ensure patient privacy and data security. This study explores the role of AI, IoMT, and blockchain in public healthcare and their current applications, obstacles, and future research areas. It emphasizes the advantages that these technologies bring to the IoT and the difficulties involved in their implementation.
Telemedicine, the remote delivery of healthcare services using telecommunications technology, has gained significant prominence in recent years, including its application in clinical research. Telemedicine in clinical research refers to the use of virtual visits, remote monitoring, and telecommunication tools to facilitate participant enrollment, data collection, study assessments, and monitoring in research studies. Here are some key aspects and benefits of telemedicine in clinical research:
Participant Recruitment and Access:
Telemedicine enables researchers to expand their participant pool beyond geographical limitations. By leveraging telecommunication tools, researchers can reach individuals who may face challenges with physical access to study sites, such as those living in remote areas or individuals with mobility issues. This broader reach enhances participant recruitment and diversity, contributing to the generalizability and representativeness of research findings.
Remote Study Visits and Data Collection:
Telemedicine allows for remote study visits, eliminating the need for participants to travel to study sites. Through video consultations and remote assessments, researchers can conduct interviews, collect data, perform examinations, and administer questionnaires remotely. This approach reduces participant burden, increases convenience, and enhances compliance by minimizing the time and effort required for in-person visits.
Real-Time Monitoring and Data Capture:
Telemedicine facilitates the collection of real-time data by remotely monitoring participants' health status and adherence to study protocols. Wearable devices, mobile health applications, and sensors can be used to capture vital signs, medication adherence, activity levels, and other relevant data. Researchers can access and analyze this data in real-time, enabling early detection of adverse events, improving safety monitoring, and enhancing the accuracy and completeness of data collection.
Patient Engagement and Retention:
Telemedicine enhances patient engagement by providing more frequent interactions with study staff and personalized support. Regular virtual check-ins, educational sessions, and feedback can strengthen the participant-researcher relationship, leading to increased participant satisfaction and retention. Telemedicine also offers flexibility in scheduling visits, reducing missed appointments, and improving overall study adherence.
Cost and Time Efficiency:
Telemedicine can reduce the overall cost and time associated with conducting clinical research. It eliminates or reduces travel expenses for participants and reduces the need for physical study site infrastructure.
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FROM IDEAS TO STATE OF THE ART PROJECTS. THE GERMAN TELEMEDICAL NETWORK NEST
1. FROM IDEAS TO STATE OF THE ART
PROJECTS. THE GERMAN
TELEMEDICAL NETWORK NEST
June 17th 2009
Santander
Mr. Ywes Israel, M.A.
III Meeting on eHealth and Telemedicine
2. Agenda
Introduction NEST
Joint Projects
StrokeNet
Tele Care System (TCS)
The new Challenge - Examples
III Meeting on eHealth and Telemedicine
3. Networks in Germany
In Germany many company-networks with different focuses
(as for example on security issues or medical applications)
exist.
Also the German Government supports enterprises in
forming networks. While some networks develop innovative
products/ services or international co-operations others fall
apart very quickly.
Purpose of this presentation is to show promising factors,
based on the example of NEST.
III Meeting on eHealth and Telemedicine
4. Network for integrated
Systems in Telemedicine
Why in Berlin-Brandenburg?
widely acknowledged research and science community
High concentration of hospitals, clinics, and medical
research and care facilities
the region is recognized as a centre of innovation in
health care
International health projects and patients
NEST pools the available resources in the field of telemedicine
and taps the full potential.
III Meeting on eHealth and Telemedicine
5. Health City Berlin
67 Hospitals
17.700 Physicians Fields of Specialization
3.700 Dentists
180.000 people working in German Heart Center Berlin
the health industry First Laser Hospital
50.000 employees in science First completely digitalized
and research
Hospital
22 pharmaceutical
businesses First Clinic for minimal
150 Medical-engineering invasive surgery
enterprises Institute for Proton-therapy
160 Biotechnology firms First Neuro-imaging Center
70 Independent Research http://www.gesundheitsstadt
institutions -berlin.de/
4 Universities
7 technical colleges
III Meeting on eHealth and Telemedicine
6. Telemedicine in Berlin
Berlin offers a huge range of hospitals, research institutions
as well as companies in the health care sector
One of them: NEST- Network for integrated Systems in
Telemedicine
NEST involves more than 20 participants from all
healthcare-domains, i.e. hospital operators and service
providers, universities and research institutions, small and
medium sized companies with special focus on IT solutions
for the healthcare sector
Driven by hospital and medical needs
III Meeting on eHealth and Telemedicine
7. Network for integrated
Systems in Telemedicine
founded in 2005, supported by Federal Government
NEST involves more than 28 participants from all
healthcare-domains,
i.e. hospital operators and service providers, universities and
research
institutions, small and medium sized companies with focus
on IT solutions for healthcare and on medical technology
from Germany
Common objective: improving healthcare through
telemedicine, by developing new treatment paths, products
and services
III Meeting on eHealth and Telemedicine
8. NEST bundles
competencies in
Virtual microscopy, Telemonitoring, object tracking, blood
pressure measuring tools, patient records, anonymisation
and pseudonymisation, middleware, modular clinical paths,
support for clinical trials, efficient documentation
procedures,
research on knowledge based systems, semantic web,
functional telemedical standards
Healthcare service for international patients
NEST aims to support the network partners in developing
and marketing products, systems and methods in the area
of “eHealth / telemedicine”.
III Meeting on eHealth and Telemedicine
9. NEST Partner
III Meeting on eHealth and Telemedicine
10. NEST Partner
III Meeting on eHealth and Telemedicine
11. Management by
TimeKontor AG
TimeKontor is working as a business enabler.
established between politics, economy and science
activities focused on areas, where ICT play a key role,
expertise in IT security, eHealth, and Serious Games
within the network management TimeKontor supports in
Identification of business opportunities
Initiating and accompanying innovative projects and
cooperation and its financing
Knowledge transfer (organization of international
workshops and conferences)
III Meeting on eHealth and Telemedicine
12. NEST at international
Events
Arab Health 2006
Zdravoochranenije 2006
Arab Health 2007
II International Moscow Conference on
Information and Telemedical
Technologies in Healthcare 2007
Zdravoochranenije 2007
Arab Health 2008
Hospimedica India 2008
RomMEDICA 2008
2-nd International Conference on
Telemedicine: Myths and Reality
Partnering Day in Tel Aviv and
Jerusalem 2008
III Meeting on eHealth and Telemedicine
13. International Cooperation
Cooperation with international partners
Cooperation with APAN –
Japanese telemedicine association
(September 2007)
Scientific Exchange between the Medical
State University in Moscow and the ALS
Ambulance in Berlin on Amyotrophic Lateral
Sclerosis (April 2008)
Cooperation with Ukrainian Telemedical
Association
Cooperation with Aserbaidschan &
Kazakhstan
III Meeting on eHealth and Telemedicine
14. Agenda
Introduction NEST
Joint Projects
StrokeNet
Tele Care System (TCS)
The new Challenge - Examples
III Meeting on eHealth and Telemedicine
15. NEST- network
Driven by hospitals and their medical needs
Focus of NEST:
enabling partners to tackle new joint projects
developing and marketing innovative products and
convenience solutions
Topics within the network:
Interfaces (TM7)
Symptom related projects (ALS-Manager)
Disease related projects (StrokeNet)
TimeKontor- network management
eHealth and security
III Meeting on eHealth and Telemedicine
16. Joint Projects
TM7- Development of a standard for telemedicine
which combines the ease of existing standards (Dicom,
HL7) with the excellence, precision and functionality of
proprietary solutions from its partners
TM7 will be used for transmission of (picture, sound) data,
communication of devices as well as for tele- controlling of
medical equipment
III Meeting on eHealth and Telemedicine
17. Joint Projects (1)
ALS Manager
Development and establishment of an internet platform
for patients with ALS (Amyotrophic Lateral Scleroses)
and their caregivers
for more efficient clinical studies and a qualitative
improvement of patient provision
III Meeting on eHealth and Telemedicine
18. Agenda
Introduction NEST
Joint Projects
StrokeNet
Tele Care System (TCS)
The new Challenge - Examples
III Meeting on eHealth and Telemedicine
19. Joint Projects (2)
StrokeNet
Development of a telemedicine system for Ambulances
transmitting monitoring and vitality functions, picture and
sound between mobile intensive care units and a
specialised stroke unit
use expertise of stroke specialists for the immediate
treatment
Patients and their caregivers benefit from reduced
assistance requirements and shorter rehabilitation
periods
III Meeting on eHealth and Telemedicine
20. StrokeNet - in brief
telemedical system in ambulances, stroke
units and cooperating hospitals for stroke-
treatment
2-year R&D-project: nov. 05 bis oct. 07
area of application: Berlin
Aim: Use of mobile communication
infrastructure to improve the preparation of
stroke-treatment
III Meeting on eHealth and Telemedicine
21. Stroke - the problems
patient at an inappropriate hospital
●
no bed available
●
no Stroke Unit
●
no thrombolytic therapy
●
no interventioanl therapy
●
no neurosurgical department
frequent hospital transfers
time-delays pre-/ intrahospital
●
many departments have to be informed and involved
III Meeting on eHealth and Telemedicine
22. Stroke - the NINDS*
recommendations
(1) Neurological consultation 10 min
(2) ECG, temperature, blood glucose, blood pressure
20 min
• CCT 25 min
• CT-interpretation 45 min
• time taken to arrive at Stroke Unit 60 min
(-> 80% success rate)
Time is Brain
Reducing Time-to-needle
* TheNa na
tio l Instituteo Ne lo ic l Dis rd rsa Stro
n uro g a o e nd ke
III Meeting on eHealth and Telemedicine
23. Stroke - the bottleneck
'Imaging'
80
70
60
50
[min]
40
2003
30
2004
20
target
10
0
neurolog t
is cT
C StrokeUnit
III Meeting on eHealth and Telemedicine
24. StrokeNet - project
•emergency call
•Patient comes to the next appropriate hospital
•Medical stuff/ patient has early support by a (stroke –
experienced) neurologist
•StrokeUnit neurologist ...
●
is informed about the patient in advance
(time, syndrome)
●
can schedule further treatment (info to: ward, radiologie)
●
support treatment within ambulance
III Meeting on eHealth and Telemedicine
25. StrokeNet - project
technical approach
mobile arm
ambulance
Telemedical Center
stationary arm
StrokeUnits
co-operating hospitals
(with of without SU)
III Meeting on eHealth and Telemedicine
26. Agenda
Introduction NEST
Joint Projects
StrokeNet
Tele Care System (TCS)
The new Challenge - Examples
III Meeting on eHealth and Telemedicine
27. Joint Developments
Tele Care System:
Medical care aboard an aircraft via
satellite or Pico cell, transmitting vital
parameters of the passenger to an
expert on ground
combined with videoconferencing
between the flight attendant and the
expert,
thereby enabling the flight attendant to
perform diagnostic and therapeutic
measures
III Meeting on eHealth and Telemedicine
28. In Case of Emergency
No doctor at patient side
Helper without emergency experience
Medical solutions only by “telephone”, no vital data
No much time to make a right diagnosis
High potential of secondary damages
Wrong decision can cause deaths (and cost)
Interruption of the journey
III Meeting on eHealth and Telemedicine
29. TCS of GHC
12-lead ECKG, SPO2,
Blood pressure integrated
Temperature, blood glucose extern
Defibrillator (1-lead-ECG) integrated
Videoconferencing, Chatting
Audio-visual, textual and graphical
instructions
Medical Help
III Meeting on eHealth and Telemedicine
30. TCS Modules
(1) Main module
(2) Housing
1
(accessories)
2
(3) Diagnostic module
(4) Therapy module
3
4
III Meeting on eHealth and Telemedicine
31. Aviation Market
Number of passenger is
growing
200,000 life-threatening
emergencies/year
About 12 deaths at one
airline/year
Main cause:
cardiovascular problems
Cost of diversion:
several 100,000 $
III Meeting on eHealth and Telemedicine
32. TCS Aviation
Prototype available
Tested on long-haul flights
Co-operation with Charité,
Deutsche Lufthansa
Next pilot utilization
sponsored by the ESA
III Meeting on eHealth and Telemedicine
33. Maritime Market
Profile: Emergency and
Monitoring
Injury (e.g. fracture)
Infection/ inflammation
Cauterization (e.g. chemical
burn)
Internal medicine (e.g.
cardiovascular disease)
III Meeting on eHealth and Telemedicine
34. TCS Maritime Pilot
Utilization
Pre-phase for testing
Prototype available
Tested on Oil and Container
Tanker
Testing Trial with Hapag-Lloyd
Shipping Company
III Meeting on eHealth and Telemedicine
35. Agenda
Introduction NEST
Joint Projects
StrokeNet
Tele Care System (TCS)
The new Challenge - Examples
III Meeting on eHealth and Telemedicine
36. The new Challenge
demographic change
more and more people getting older and older
more time for (aged-based) leisure activities
longer need for (special) medical care
target
ambient assisted living
keeping autonomy
support at home and on the way
social services
III Meeting on eHealth and Telemedicine
37. The approach
how can telemedicine support those needs?
move the data, not the patient / physician
Home Care
monitoring of patients
offering a feeling of security Home Care
combing telemedicine and local based services
examples for projects in realization
Home Monitoring
Home Care Devices
III Meeting on eHealth and Telemedicine
38. Example 1: pain -
treatment
implantation of a spinal-catheter
connection of a mobile device
via Bluetooth
instant monitoring of analgesic
dosage
additional information about
state of health and mood of the
patient
using lbs: in case of emergency,
an ambulance can be send to
the patient wherever he is
III Meeting on eHealth and Telemedicine
39. Example 2: decubitus-
prevention
Bedsore (decubitus)
affecting ~ 800.000 patients/ p.a.
only in Germany, causing costs ~
2 Bill. Euro/ p.a.
developing a sensor-mat, which
measures and monitors the self-
mobility of bedridden patients
target: gaining information on
"perfusion-stimulating" movement
to prevent decubitus
additional "intelligence" for
wound-management by
integrating a camera
III Meeting on eHealth and Telemedicine
40. Example 3:
peritoneal dialysis
90.000 patients in with PD,
haemodialysis (HD) or kidney-
transplantation
focus: aPD at night
main targets:
HD>PD to be changed
telemedical interface:
• getting additional vital
parameter like weight, blood
pressure
• additional A/V-connection
social aspects of PD
III Meeting on eHealth and Telemedicine
41. The bigger picture
all 3 projects have a strong relation to other diseases
diabetes
hypertension
stroke
cardiac insufficiency
heart attack
III Meeting on eHealth and Telemedicine
42. Success factors
Find innovative partners, interested in close cooperation
and knowledge transfer
Find a management institution, that is neutral and
experienced in management of networks
Identify problems in healthcare, that could be solved trough
telemedicine
Involve the users in the process: i.e. physicians and
patients
Look out for partners in other countries and try to initiate
joint projects with them (participate in conferences, fairs,
partnering events)
III Meeting on eHealth and Telemedicine
43. Thank You very much for
Your attention!
Ywes Israel, M.A.
COO
TimeKontor AG T: +49 30 390087-0
NEST Network for integrated Systems in Telemedicine F: +49 30 390087-25
Schönhauser Allee 10 – 11 E: ywes.israel@timekontor.de
10119 Berlin, www.timekontor.de
Germany www.nest-telemedizin.de
III Meeting on eHealth and Telemedicine