This document discusses how cloud-based machine-to-machine (M2M) technology can improve patient care. It describes how M2M allows devices to communicate peer-to-peer through the cloud, exchanging data and receiving updates. This enables remote monitoring of patients and clinical devices. Examples discussed include using M2M to transmit data from insulin pumps and glucose sensors, monitor vital signs in ambulances, and update firmware on medical equipment remotely. Regulatory considerations for medical M2M systems and ensuring security of patient data are also covered.
This document provides an overview of Internet of Things (IoT) applications in healthcare. It discusses the dimensions and characteristics ("7 Vs") of IoT, healthcare networks and frameworks, technologies used in healthcare like cloud computing and big data, security considerations, example services and applications. Some benefits of IoT in healthcare include cost reduction, improved treatment, and faster disease diagnosis through continuous monitoring. Challenges include privacy, unauthorized access, and regulation. The scope of IoT in healthcare is growing as more hospitals invest in technology to help doctors and patients.
The document discusses how VMware is transforming healthcare by enabling the digital transformation of clinical workflows. Specifically:
- VMware provides a virtual clinical workspace that allows secure access to patient information and applications from any device through features such as single sign-on and follow-me desktop. This saves clinicians time and allows them to focus on patient care.
- Solutions such as AlwaysOn Point of Care and AirWatch provide secure access to systems and data across devices. This enables mobile clinical workflows and flexibility for staff.
- Security, compliance, and device management capabilities help healthcare organizations meet regulations while protecting patient information on devices both onsite and remote.
Healthcare Integration with WebSphere Message BrokerAnt Phillips
This document discusses IBM Integration Bus and its capabilities for healthcare integration. It can be used as a medical data system to transfer and convert data formats, though it is not a medical device itself. Its uses are restricted to not include clinical monitoring, treatment control, or decision support. The licensee will indemnify IBM against claims relating to prohibited uses. The product provides integration patterns for connecting clinical applications, medical device integration including infusion pumps and monitors, telehealth, clinical portals, care process management, digital imaging, and healthcare analytics.
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The papers for publication in The International Journal of Engineering& Science are selected through rigorous peer reviews to ensure originality, timeliness, relevance, and readability.
Speeding up Healthcare Application with HTTP/2CitiusTech
Healthcare data is being increasingly accessed over the public internet. With the rapid adoption of EHRs and patient portals, more and more healthcare technology providers are looking at providing the same features over the internet in a SaaS model to reduce feature to market time. As they embrace trends and begin supporting new use cases such as wearables, mobile health, AI and chat bots, more data gets transferred over the same public internet infrastructure
Secondly, there is a pressing need to optimize the time healthcare professionals spend on IT per patient instead of patient care. Hence, getting timely and accurate information is of utmost importance to ensure better patient care.
Patient engagement initiatives such as patient education, medication and visit reminder, positively impact patient outcomes and are a huge success if the applications built for the same provide seamless user experience. Internet based applications rely on HTTP. As web application became more prevalent, inefficiencies of HTTP need to be addressed. HTTP/2 (Hypertext Transfer Protocol Version 2) is the update to HTTP protocol that has been built with the aim of improving performance and reducing end user perceived latency, reducing network and server resource usage.This document introduces the features and benefits of HTTP/2 and how you can start using HTTP/2
eHealth - Medical Systems Interoperability & Mobile Healthulmedical
The Medical Device industry is rapidly adopting technologies that enable communication and connectivity of health products and systems to improve both speed and quality of care as well as patient safety. The users (i.e. hospitals and others) are demanding an approach that will support interoperability among multiple independently sourced medical devices. Industry will require standardization to support such interoperability. Government and regulators, on behalf of the patients and in compliance with their mission to protect public health, as well as users and manufacturers require that such interoperability is safe. This complementary webinar will introduce the eHealth sector and applications, outline the challenges and risks inherent in connecting heterogeneous equipment into medical device systems, and provide insights to how manufacturers can demonstrate compliance with the rapidly changing regulatory landscape for interoperable medical devices.
This webinar was presented by UL eHealth experts on October 30, 2013.
This document summarizes applications of blockchain technology in healthcare, including for big data analytics, data security, data management and governance, interoperability, and digital health. It provides examples of companies implementing blockchain solutions for predictive modeling using medical data, securing patient records, managing health records for a country, improving data sharing between providers, and preventing counterfeit drugs. While adoption of blockchain in healthcare is increasing, widespread impact requires overcoming challenges such as rebuilding infrastructure and training personnel.
This document provides an overview of Internet of Things (IoT) applications in healthcare. It discusses the dimensions and characteristics ("7 Vs") of IoT, healthcare networks and frameworks, technologies used in healthcare like cloud computing and big data, security considerations, example services and applications. Some benefits of IoT in healthcare include cost reduction, improved treatment, and faster disease diagnosis through continuous monitoring. Challenges include privacy, unauthorized access, and regulation. The scope of IoT in healthcare is growing as more hospitals invest in technology to help doctors and patients.
The document discusses how VMware is transforming healthcare by enabling the digital transformation of clinical workflows. Specifically:
- VMware provides a virtual clinical workspace that allows secure access to patient information and applications from any device through features such as single sign-on and follow-me desktop. This saves clinicians time and allows them to focus on patient care.
- Solutions such as AlwaysOn Point of Care and AirWatch provide secure access to systems and data across devices. This enables mobile clinical workflows and flexibility for staff.
- Security, compliance, and device management capabilities help healthcare organizations meet regulations while protecting patient information on devices both onsite and remote.
Healthcare Integration with WebSphere Message BrokerAnt Phillips
This document discusses IBM Integration Bus and its capabilities for healthcare integration. It can be used as a medical data system to transfer and convert data formats, though it is not a medical device itself. Its uses are restricted to not include clinical monitoring, treatment control, or decision support. The licensee will indemnify IBM against claims relating to prohibited uses. The product provides integration patterns for connecting clinical applications, medical device integration including infusion pumps and monitors, telehealth, clinical portals, care process management, digital imaging, and healthcare analytics.
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The papers for publication in The International Journal of Engineering& Science are selected through rigorous peer reviews to ensure originality, timeliness, relevance, and readability.
Speeding up Healthcare Application with HTTP/2CitiusTech
Healthcare data is being increasingly accessed over the public internet. With the rapid adoption of EHRs and patient portals, more and more healthcare technology providers are looking at providing the same features over the internet in a SaaS model to reduce feature to market time. As they embrace trends and begin supporting new use cases such as wearables, mobile health, AI and chat bots, more data gets transferred over the same public internet infrastructure
Secondly, there is a pressing need to optimize the time healthcare professionals spend on IT per patient instead of patient care. Hence, getting timely and accurate information is of utmost importance to ensure better patient care.
Patient engagement initiatives such as patient education, medication and visit reminder, positively impact patient outcomes and are a huge success if the applications built for the same provide seamless user experience. Internet based applications rely on HTTP. As web application became more prevalent, inefficiencies of HTTP need to be addressed. HTTP/2 (Hypertext Transfer Protocol Version 2) is the update to HTTP protocol that has been built with the aim of improving performance and reducing end user perceived latency, reducing network and server resource usage.This document introduces the features and benefits of HTTP/2 and how you can start using HTTP/2
eHealth - Medical Systems Interoperability & Mobile Healthulmedical
The Medical Device industry is rapidly adopting technologies that enable communication and connectivity of health products and systems to improve both speed and quality of care as well as patient safety. The users (i.e. hospitals and others) are demanding an approach that will support interoperability among multiple independently sourced medical devices. Industry will require standardization to support such interoperability. Government and regulators, on behalf of the patients and in compliance with their mission to protect public health, as well as users and manufacturers require that such interoperability is safe. This complementary webinar will introduce the eHealth sector and applications, outline the challenges and risks inherent in connecting heterogeneous equipment into medical device systems, and provide insights to how manufacturers can demonstrate compliance with the rapidly changing regulatory landscape for interoperable medical devices.
This webinar was presented by UL eHealth experts on October 30, 2013.
This document summarizes applications of blockchain technology in healthcare, including for big data analytics, data security, data management and governance, interoperability, and digital health. It provides examples of companies implementing blockchain solutions for predictive modeling using medical data, securing patient records, managing health records for a country, improving data sharing between providers, and preventing counterfeit drugs. While adoption of blockchain in healthcare is increasing, widespread impact requires overcoming challenges such as rebuilding infrastructure and training personnel.
mMR is a mobile medical records application developed by Kloud Data that allows healthcare professionals to access patient records from mobile devices. The application provides access to a patient's full medical history, test results, prescriptions, notes and can be used to discharge patients. It has a user-friendly interface compatible with Android and iOS devices. The application ensures security by not storing patient data locally and requiring authentication. Implementing mMR provides doctors access to patient information anytime, improves hospital operations and supports high-quality patient care both inside and outside of hospitals.
This document discusses healthcare analytics. It begins by defining healthcare analytics as focusing on technologies and processes that measure, manage, and analyze healthcare data to enable more effective and efficient operational and clinical decisions. It then outlines the objectives of healthcare analytics as making decisions data-driven, transparent, verifiable, and robust. The document describes the main types of analytics as descriptive, predictive, diagnostic, and prescriptive. It also lists some common sources of healthcare data and how healthcare companies use analytics to reduce costs, improve patient outcomes, and conduct randomized clinical trials. Emerging technologies discussed include big data, AI/ML, blockchain, and AR/VR. Finally, some existing healthcare analytics tools on the market are briefly described.
با گسترش فناوری اطلاعات و سرویس های مختلفی امروزه در زندگی انسان ها ارائه می شود حوزه سلامت و درمان هم بی بهره از این گسترش فناوری نبوده و در صورتی که سیاستمداران و برنامه ریزان کشور بتوانند از ظرفیت های ترکیب دانش پزشکی و فناوری اطلاعات بهره ببرند شاید با وجود افزایش جمعیت کهنسال و نیاز به رسیدگی های خاصی که در این قشر احساس می شود بتوان در کاهش هزینه های درمان گامی برداشت
IRJET- An Information Forwarder for Healthcare Service and analysis using Big...IRJET Journal
This document proposes a system for collecting and analyzing healthcare big data using cloud computing. It discusses how healthcare data is growing rapidly in volume and variety due to data from various sources like sensors, and how traditional storage and processing may not be suitable. The proposed system has three layers - a data acquisition layer to collect data from sensors, a transmission layer to send the data to the cloud, and a computational layer in the cloud to analyze and classify the data using clustering and fuzzy rule-based classifiers. This would allow real-time remote healthcare by efficiently storing and processing the large amounts of heterogeneous healthcare data in the cloud. Evaluation metrics like response time, accuracy, cost and false positives are used to compare the proposed system to existing techniques.
This document provides an introduction to medical device security. It defines medical devices and provides examples. Intended use determines if a device is regulated. Software can be a medical device. Regulations and standards like IEC 62443 govern security. Old devices increase interconnectivity and associated risks. Security goals are confidentiality, integrity and availability to prevent patient harm. Common vulnerabilities include unpatched systems and weak credentials. Risk assessments must consider safety impacts. Manufacturers must integrate security into development and handle incidents and vulnerabilities.
The increased use of mobile technologies and smart devices in the area of health has caused great impact on the world. Health experts are increasingly taking advantage of the benefits these technologies bring, thus generating a significant improvement in health care in clinical settings and out of them. Likewise, countless ordinary users are being served from the advantages of the MHealth (Mobile Health) applications and E-Health (health care supported by ICT) to improve, help and assist their health.
Applications that have had a major refuge for these users, so intuitive environment. The Internet of things is increasingly
allowing to integrate devices capable of connecting to the Internet and provide information on the state of health of patients and provide information in real time to doctors who assist.
Unisys Integrated Medical Device Management - Executive BriefUnisys Corporation
The document discusses the Unisys Integrated Medical Device Management (IMDM) solution. IMDM allows healthcare organizations to (1) monitor and manage all medical devices from a single system, (2) simplify device recalls and maintenance, and (3) maintain compliance through embedded security and traceable workflows. IMDM incorporates device data and analytics to provide visibility into device performance and issues.
The document describes a proposed wearable device health care solution. Patients would subscribe to wear IoT devices on their chest and wrist that monitor health metrics. The devices would provide monthly health reports and dashboards accessible on mobile and PC. Hospitals tied to the solution would receive emergency alerts from the devices. The proposed turn-key solution would include technology, infrastructure, and capabilities to expand to other stakeholders like patients, doctors, hospitals, insurers, and pharmaceutical companies.
IRJET- Applications of Wireless Sensor Networks in Healthcare: An Overview of...IRJET Journal
This document discusses applications of wireless sensor networks in healthcare and related challenges. It describes how wireless sensor networks are being used for vital sign monitoring in hospitals, at-home and mobile health monitoring, and assistance with motor and sensory decline. Examples discussed include monitoring systems called CODEBLUE, HEALTHGEAR, and AMON. It also discusses an epilepsy monitoring smart clothing system called WEMU and a wearable health care system called WEALTHY. The document outlines challenges at the physical, MAC, network, transport and application layers and security threats involving confidentiality, integrity and availability. Physical layer challenges include bandwidth limitations while security threats include eavesdropping, traffic analysis and denial of service attacks.
IoT based on secure personal healthcare using RFID technology and steganography IJECEIAES
Internet of things (IoT) makes it attainable for connecting different various smart objects together with the internet. The evolutionary medical model towards medicine can be boosted by IoT with involving sensors such as environmental sensors inside the internal environment of a small room with a specific purpose of monitoring of person's health with a kind of assistance which can be remotely controlled. RF identification (RFID) technology is smart enough to provide personal healthcare providing part of the IoT physical layer through low-cost sensors. Recently researchers have shown more IoT applications in the health service department using RFID technology which also increases real-time data collection. IoT platform which is used in the following research is Blynk and RFID technology for the user's better health analyses and security purposes by developing a two-level secured platform to store the acquired data in the database using RFID and Steganography. Steganography technique is used to make the user data more secure than ever. There were certain privacy concerns which are resolved using this technique. Smart healthcare medical box is designed using SolidWorks health measuring sensors that have been used in the prototype to analyze real-time data.
Digital medicine: A Way to High Tech HealthShruti Richa
Digital medicines use mobile/web applications to help patients take medications on schedule. They aim to improve adherence by making pharmaceutical therapy more convenient. As digital technology becomes more accessible, it must be leveraged to modernize medicine delivery and fill gaps in patient care. The FDA regulates digital health products like mobile apps and devices to encourage innovation while ensuring safety and effectiveness. Novel technologies continue to emerge, requiring updated regulatory policies.
Effective Systems Management for HealthcareSolarWinds
This document discusses the need for effective systems management in healthcare organizations. It outlines several key challenges: (1) ensuring high-dollar medical devices operate reliably based on dependent IT systems, (2) complying with complex HIPAA requirements, and (3) managing large storage needs and data warehousing while enabling mobile access. The document argues that healthcare institutions require an application-aware monitoring approach that provides end-to-end visibility to quickly detect, diagnose, and resolve issues across their IT infrastructure and ensure compliance, performance of medical applications, and patient care.
HXR 2016: The Health IoT: Remote Care and Mobile Solutions -Andrew Hooge, Val...HxRefactored
Through new telehealth technologies and increased data analysis physicians are gaining insights into patients like never before, allowing them to facilitate early interventions, improve adherence, and reduce readmission rates -- not to mention at a price more affordable than ever. The companies you’ll hear from in this session are using a healthy and innovative mix of data, educational tools, sensors, and more to improve patient outcomes.
Evaluating Enterprise Clinical Data-Management Systems at RSNA 2016Carestream
What are the essential capabilities to look for in an enterprise imaging system? It's complicated, but Carestream can help. Download and complete this checklist to rate each system you're considering. Then bring it to the Carestream booth in the South Hall at RSNA2016. We'll have a conversation over a fresh cup of coffee.
EU cybersecurity requirements under current and future medical devices regula...Erik Vollebregt
Presentation delivered at Q1 MEDICAL DEVICE CYBERSECURITY RISK MITIGATION conference in Washington on 25 July 2016 concerning EU cybersecurity requirements under current and future medical devices regulation
IoT will serve as an important enabling technology for the development of smart hospitals. It will connect existing medical devices and technologies, allow for remote monitoring and control of patients, and create an ecosystem where medical staff can efficiently manage healthcare. By serving as a middleware, IoT can transfer data between different medical devices and endpoints, allowing real-time healthcare management and increased uptime of critical systems. When fully realized, smart hospitals that are connected through IoT will provide personalized healthcare by analyzing data from sensors and wearables, remotely monitoring patient health, and making medical records and tasks more efficient for staff and patients.
IRJET- Mobile Assisted Remote Healthcare ServiceIRJET Journal
This document describes a mobile application that provides remote healthcare services using data mining techniques. The application allows users to input symptoms and will then predict potential diseases, provide first aid recommendations, locate nearby hospitals, and book appointments with doctors. It is intended to help patients, health workers, and those in remote areas access healthcare services. The application protects patient privacy and includes access controls for data. It uses a knowledge-based model stored as a graph database to make diagnoses and recommendations by identifying relationships between diseases, symptoms, and information.
Clear Protocol is a voice-activated clinical validation system that uses electronic wearables to allow healthcare providers to validate medical procedures in real-time without interrupting patient care. It addresses limitations of existing systems that require use of devices like computers, tablets, or phones. Clear Protocol accepts any clinical procedure and can be used across all healthcare settings. It uses voice recognition to guide users through validation steps and automatically logs completed protocols to enhance documentation. The system is designed to be hands-free and keep providers focused on patients.
This document describes TiaImage, a web- and mobile-based system for viewing and reporting DICOM medical images. It allows users to view images with various levels of detail, use annotation tools, adjust contrast, upload related files, calculate Hounsfield units, and play image series. TiaImage supports common DICOM formats and can be installed at imaging centers and hospitals. It includes a scheduling and reporting system to streamline workflows.
Optimizing patient care with Citrix XenApp & XenDestopCitrix
Centrally manage EHR apps in the datacenter, enabling easier app updates, simpler compliance and instant access by clinicians using any device.
Learn more: http://www.citrix.com/health
The document discusses whether healthcare organizations should abandon cloud computing. It notes that while cloud computing provides benefits like cost savings, increased IT complexity and stringent regulations have led to both successes and failures in healthcare cloud adoption. The document considers factors for healthcare organizations to evaluate on initial cloud deployment and ongoing use, such as security, accessibility, governance and meeting key performance indicators. It argues that with the right monitoring platform to gain visibility and control over hybrid cloud environments, healthcare organizations can better anticipate issues and optimize cloud operations while meeting compliance requirements.
Smart big data's new role in optimizing clinical 4sapenov
The document discusses how big data and analytics can optimize clinical trial efficiency. It notes that unstructured data makes up 80% of useful information and is growing faster than structured data. Traditional clinical trial protocols rely on limited data sources like medical histories and questionnaires, whereas expanded protocols could incorporate a wider range of data sources like other medical records. Graphical displays of contextual analyses and intuitive interfaces can provide insights at a glance. Actionable analytics derived from big data could drive clinical trial efficiency by defining measures, answering questions, and leading directly to meaningful actions.
mMR is a mobile medical records application developed by Kloud Data that allows healthcare professionals to access patient records from mobile devices. The application provides access to a patient's full medical history, test results, prescriptions, notes and can be used to discharge patients. It has a user-friendly interface compatible with Android and iOS devices. The application ensures security by not storing patient data locally and requiring authentication. Implementing mMR provides doctors access to patient information anytime, improves hospital operations and supports high-quality patient care both inside and outside of hospitals.
This document discusses healthcare analytics. It begins by defining healthcare analytics as focusing on technologies and processes that measure, manage, and analyze healthcare data to enable more effective and efficient operational and clinical decisions. It then outlines the objectives of healthcare analytics as making decisions data-driven, transparent, verifiable, and robust. The document describes the main types of analytics as descriptive, predictive, diagnostic, and prescriptive. It also lists some common sources of healthcare data and how healthcare companies use analytics to reduce costs, improve patient outcomes, and conduct randomized clinical trials. Emerging technologies discussed include big data, AI/ML, blockchain, and AR/VR. Finally, some existing healthcare analytics tools on the market are briefly described.
با گسترش فناوری اطلاعات و سرویس های مختلفی امروزه در زندگی انسان ها ارائه می شود حوزه سلامت و درمان هم بی بهره از این گسترش فناوری نبوده و در صورتی که سیاستمداران و برنامه ریزان کشور بتوانند از ظرفیت های ترکیب دانش پزشکی و فناوری اطلاعات بهره ببرند شاید با وجود افزایش جمعیت کهنسال و نیاز به رسیدگی های خاصی که در این قشر احساس می شود بتوان در کاهش هزینه های درمان گامی برداشت
IRJET- An Information Forwarder for Healthcare Service and analysis using Big...IRJET Journal
This document proposes a system for collecting and analyzing healthcare big data using cloud computing. It discusses how healthcare data is growing rapidly in volume and variety due to data from various sources like sensors, and how traditional storage and processing may not be suitable. The proposed system has three layers - a data acquisition layer to collect data from sensors, a transmission layer to send the data to the cloud, and a computational layer in the cloud to analyze and classify the data using clustering and fuzzy rule-based classifiers. This would allow real-time remote healthcare by efficiently storing and processing the large amounts of heterogeneous healthcare data in the cloud. Evaluation metrics like response time, accuracy, cost and false positives are used to compare the proposed system to existing techniques.
This document provides an introduction to medical device security. It defines medical devices and provides examples. Intended use determines if a device is regulated. Software can be a medical device. Regulations and standards like IEC 62443 govern security. Old devices increase interconnectivity and associated risks. Security goals are confidentiality, integrity and availability to prevent patient harm. Common vulnerabilities include unpatched systems and weak credentials. Risk assessments must consider safety impacts. Manufacturers must integrate security into development and handle incidents and vulnerabilities.
The increased use of mobile technologies and smart devices in the area of health has caused great impact on the world. Health experts are increasingly taking advantage of the benefits these technologies bring, thus generating a significant improvement in health care in clinical settings and out of them. Likewise, countless ordinary users are being served from the advantages of the MHealth (Mobile Health) applications and E-Health (health care supported by ICT) to improve, help and assist their health.
Applications that have had a major refuge for these users, so intuitive environment. The Internet of things is increasingly
allowing to integrate devices capable of connecting to the Internet and provide information on the state of health of patients and provide information in real time to doctors who assist.
Unisys Integrated Medical Device Management - Executive BriefUnisys Corporation
The document discusses the Unisys Integrated Medical Device Management (IMDM) solution. IMDM allows healthcare organizations to (1) monitor and manage all medical devices from a single system, (2) simplify device recalls and maintenance, and (3) maintain compliance through embedded security and traceable workflows. IMDM incorporates device data and analytics to provide visibility into device performance and issues.
The document describes a proposed wearable device health care solution. Patients would subscribe to wear IoT devices on their chest and wrist that monitor health metrics. The devices would provide monthly health reports and dashboards accessible on mobile and PC. Hospitals tied to the solution would receive emergency alerts from the devices. The proposed turn-key solution would include technology, infrastructure, and capabilities to expand to other stakeholders like patients, doctors, hospitals, insurers, and pharmaceutical companies.
IRJET- Applications of Wireless Sensor Networks in Healthcare: An Overview of...IRJET Journal
This document discusses applications of wireless sensor networks in healthcare and related challenges. It describes how wireless sensor networks are being used for vital sign monitoring in hospitals, at-home and mobile health monitoring, and assistance with motor and sensory decline. Examples discussed include monitoring systems called CODEBLUE, HEALTHGEAR, and AMON. It also discusses an epilepsy monitoring smart clothing system called WEMU and a wearable health care system called WEALTHY. The document outlines challenges at the physical, MAC, network, transport and application layers and security threats involving confidentiality, integrity and availability. Physical layer challenges include bandwidth limitations while security threats include eavesdropping, traffic analysis and denial of service attacks.
IoT based on secure personal healthcare using RFID technology and steganography IJECEIAES
Internet of things (IoT) makes it attainable for connecting different various smart objects together with the internet. The evolutionary medical model towards medicine can be boosted by IoT with involving sensors such as environmental sensors inside the internal environment of a small room with a specific purpose of monitoring of person's health with a kind of assistance which can be remotely controlled. RF identification (RFID) technology is smart enough to provide personal healthcare providing part of the IoT physical layer through low-cost sensors. Recently researchers have shown more IoT applications in the health service department using RFID technology which also increases real-time data collection. IoT platform which is used in the following research is Blynk and RFID technology for the user's better health analyses and security purposes by developing a two-level secured platform to store the acquired data in the database using RFID and Steganography. Steganography technique is used to make the user data more secure than ever. There were certain privacy concerns which are resolved using this technique. Smart healthcare medical box is designed using SolidWorks health measuring sensors that have been used in the prototype to analyze real-time data.
Digital medicine: A Way to High Tech HealthShruti Richa
Digital medicines use mobile/web applications to help patients take medications on schedule. They aim to improve adherence by making pharmaceutical therapy more convenient. As digital technology becomes more accessible, it must be leveraged to modernize medicine delivery and fill gaps in patient care. The FDA regulates digital health products like mobile apps and devices to encourage innovation while ensuring safety and effectiveness. Novel technologies continue to emerge, requiring updated regulatory policies.
Effective Systems Management for HealthcareSolarWinds
This document discusses the need for effective systems management in healthcare organizations. It outlines several key challenges: (1) ensuring high-dollar medical devices operate reliably based on dependent IT systems, (2) complying with complex HIPAA requirements, and (3) managing large storage needs and data warehousing while enabling mobile access. The document argues that healthcare institutions require an application-aware monitoring approach that provides end-to-end visibility to quickly detect, diagnose, and resolve issues across their IT infrastructure and ensure compliance, performance of medical applications, and patient care.
HXR 2016: The Health IoT: Remote Care and Mobile Solutions -Andrew Hooge, Val...HxRefactored
Through new telehealth technologies and increased data analysis physicians are gaining insights into patients like never before, allowing them to facilitate early interventions, improve adherence, and reduce readmission rates -- not to mention at a price more affordable than ever. The companies you’ll hear from in this session are using a healthy and innovative mix of data, educational tools, sensors, and more to improve patient outcomes.
Evaluating Enterprise Clinical Data-Management Systems at RSNA 2016Carestream
What are the essential capabilities to look for in an enterprise imaging system? It's complicated, but Carestream can help. Download and complete this checklist to rate each system you're considering. Then bring it to the Carestream booth in the South Hall at RSNA2016. We'll have a conversation over a fresh cup of coffee.
EU cybersecurity requirements under current and future medical devices regula...Erik Vollebregt
Presentation delivered at Q1 MEDICAL DEVICE CYBERSECURITY RISK MITIGATION conference in Washington on 25 July 2016 concerning EU cybersecurity requirements under current and future medical devices regulation
IoT will serve as an important enabling technology for the development of smart hospitals. It will connect existing medical devices and technologies, allow for remote monitoring and control of patients, and create an ecosystem where medical staff can efficiently manage healthcare. By serving as a middleware, IoT can transfer data between different medical devices and endpoints, allowing real-time healthcare management and increased uptime of critical systems. When fully realized, smart hospitals that are connected through IoT will provide personalized healthcare by analyzing data from sensors and wearables, remotely monitoring patient health, and making medical records and tasks more efficient for staff and patients.
IRJET- Mobile Assisted Remote Healthcare ServiceIRJET Journal
This document describes a mobile application that provides remote healthcare services using data mining techniques. The application allows users to input symptoms and will then predict potential diseases, provide first aid recommendations, locate nearby hospitals, and book appointments with doctors. It is intended to help patients, health workers, and those in remote areas access healthcare services. The application protects patient privacy and includes access controls for data. It uses a knowledge-based model stored as a graph database to make diagnoses and recommendations by identifying relationships between diseases, symptoms, and information.
Clear Protocol is a voice-activated clinical validation system that uses electronic wearables to allow healthcare providers to validate medical procedures in real-time without interrupting patient care. It addresses limitations of existing systems that require use of devices like computers, tablets, or phones. Clear Protocol accepts any clinical procedure and can be used across all healthcare settings. It uses voice recognition to guide users through validation steps and automatically logs completed protocols to enhance documentation. The system is designed to be hands-free and keep providers focused on patients.
This document describes TiaImage, a web- and mobile-based system for viewing and reporting DICOM medical images. It allows users to view images with various levels of detail, use annotation tools, adjust contrast, upload related files, calculate Hounsfield units, and play image series. TiaImage supports common DICOM formats and can be installed at imaging centers and hospitals. It includes a scheduling and reporting system to streamline workflows.
Optimizing patient care with Citrix XenApp & XenDestopCitrix
Centrally manage EHR apps in the datacenter, enabling easier app updates, simpler compliance and instant access by clinicians using any device.
Learn more: http://www.citrix.com/health
The document discusses whether healthcare organizations should abandon cloud computing. It notes that while cloud computing provides benefits like cost savings, increased IT complexity and stringent regulations have led to both successes and failures in healthcare cloud adoption. The document considers factors for healthcare organizations to evaluate on initial cloud deployment and ongoing use, such as security, accessibility, governance and meeting key performance indicators. It argues that with the right monitoring platform to gain visibility and control over hybrid cloud environments, healthcare organizations can better anticipate issues and optimize cloud operations while meeting compliance requirements.
Smart big data's new role in optimizing clinical 4sapenov
The document discusses how big data and analytics can optimize clinical trial efficiency. It notes that unstructured data makes up 80% of useful information and is growing faster than structured data. Traditional clinical trial protocols rely on limited data sources like medical histories and questionnaires, whereas expanded protocols could incorporate a wider range of data sources like other medical records. Graphical displays of contextual analyses and intuitive interfaces can provide insights at a glance. Actionable analytics derived from big data could drive clinical trial efficiency by defining measures, answering questions, and leading directly to meaningful actions.
Practical cloud adoption for the health & life sciences industrysapenov
The document discusses healthcare cloud computing and practical cloud adoption strategies for the healthcare industry. It notes that healthcare data is growing rapidly in size and types, requiring solutions for long-term retention, access from any device, and strong data protection. Cloud computing can help address these challenges if security, compliance, and user experience are prioritized. The document outlines business drivers and concerns for healthcare cloud and provides examples of balanced cloud solutions and case studies demonstrating how organizations have leveraged the cloud while ensuring data security and compliance.
This document discusses a case study of implementing secure desktop mobility to improve patient care and increase clinical productivity. It describes challenges faced with inconsistent experiences, poor remote access, and distributed management. The solution involved deploying VMware Horizon View with View Linked Clones to provide centralized desktops from the data center. This allowed access from any device while maintaining security. Findings included endpoint agnostic access, increased clinical productivity, mobility, and user satisfaction through a consistent desktop experience.
The document discusses how cloud computing can improve healthcare through healthcare information exchange and analytics. It describes how the cloud can facilitate interoperability and exchange of health information between providers by implementing standards and acting as a clearinghouse. The cloud also provides benefits for large-scale medical imaging and genomic data storage and processing due to its scalability. Analytics in the cloud can help with tasks like risk management and quality improvement by housing anonymized clinical data. Finally, the cloud supports increased mobility and remote access to health information through management of mobile devices and applications.
This document summarizes a keynote talk given by Gurvinder Singh Ahluwalia (Guri), CTO of Cloud Computing at IBM, about IBM's cloud portfolio. The talk discusses how technology disruptions like cloud computing, mobile devices, and big data are impacting businesses. It outlines IBM's response to help clients think about, build, and tap into cloud solutions through its end-to-end cloud portfolio including public, private and hybrid cloud offerings. Specific examples discussed include workload analysis and migration to cloud, high performance computing, and IBM's acquisition of SoftLayer to gain infrastructure as a service capabilities.
Microsoft's Blockchain as a Service (BaaS) provides a platform for customers and partners to quickly develop, test, and deploy blockchain applications using leading frameworks. It offers ready-made environments to experiment with technologies like Ethereum and Ripple at low cost. BaaS allows blockchain solutions to be exposed globally using Microsoft's worldwide infrastructure and helps partners innovate with blockchain through a mix of technologies.
Brussels Hyperledger Meetup - IBM Blockchain ExplainedDavid Smits
The document discusses how blockchain technology can be used to improve efficiency and transparency in a car lease network. It describes how a shared, immutable ledger could replace separate ledgers maintained by each participant. This would reduce complexity, improve data consistency, and ensure all transactions related to a specific car are recorded on a single ledger. Regulation compliance would also be checked for each transaction.
Blockchain Experiments in Trade Finance and IoTAltoros
This document discusses IBM's experiments with blockchain technology for trade finance and IoT applications. It describes blockchain as a shared ledger that allows all participants in a business network to see an immutable record of transactions. It notes that blockchain can help make processes more efficient by allowing different parties to update a single shared record of transactions rather than maintaining separate records. The document outlines IBM's approach to blockchain, including open source software, a managed blockchain service on IBM Cloud, and blockchain consulting services to help businesses implement blockchain solutions.
Making Blockchain Real for Business - Kathryn Harrison (IBM, Middle East and ...ideaport
Making Blockchain Real for Business - Kathryn Harrison (IBM, Middle East and Africa Payment and Blockchain Leader)
İçinde bulunduğumuz teknoloji çağının getirdikleri ile birlikte finans dünyasını yeni teknolojiler bekliyor. Bitcoin ve Blockchain teknolojisi bunların başında yer alıyor. Finans dünyasındaki tüm kuralları değiştirebilecek potansiyeli içinde barındıran bu iki teknolojiye olan ilgi her geçen gün artmakta. İstanbul Finans Derneği işbirliği ve Business Ankara medya sponsorluğunda düzenlenen etkinlikte, 'bitcoin' ve 'blockchain' teknolojileri gerek yazılım gerekse finansal boyutuyla ele alındı.
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31 Mart 2016
meet@ideaport | Finans Dünyasında Yeni Trend: Bitcoin ve Blockchain
Blockchain technology was introduced in 2008 through Satoshi Nakamoto's white paper that introduced blockchain as a distributed database that maintains a continuously growing list of transaction records hardened against tampering. The document discusses key definitions around permissioned versus permissionless blockchains and consensus algorithms. It also provides examples of potential business use cases for blockchain as well as success stories from companies applying the technology.
This document provides an overview of blockchain technology and different blockchain platforms. It discusses Hyperledger, Ethereum, Ripple, and Bitcoin, comparing their key attributes like governance, currency, mining rewards, and capabilities for smart contracts. Use cases for blockchain in areas like aircraft maintenance and supply chain contracts are presented. The document also outlines IBM's blockchain solutions and services for helping customers explore blockchain applications.
Bitcoin and Blockchain Technology Explained: Not just Cryptocurrencies, Econo...Melanie Swan
The blockchain concept may be one of the most transformative ideas to impact the world since the Internet. It represents a new organizing paradigm for all activity and integrates humans and technology. Cryptocurrencies like bitcoin are merely one application of the blockchain concept. The blockchain is a public transaction ledger built in a network structure based on cryptographic principles so there does not need to be a centralized intermediary. Any kind of asset (art, car, home, financial contract) may be encoded into the blockchain and transacted, validated, or preserved in a much more efficient manner than at present including ideas, health data, financial assets, automobiles, and government documents. Blockchain technology applies well beyond cryptocurrencies, economics, and markets to all venues of human information processing, collaboration, and interaction including art, health, and literacy.
IBM Blockchain PoV: Hyperledger genesis blockLuca Comparini
Luca Comparini PoV on Blockchain, showing the history of ledgers, transactional business machines and distributed shared ledger. IBM is committed to Hyperledger Project, a collaborative effort created to advance blockchain technology by identifying and addressing important features for a cross-industry open standard for distributed ledgers that can transform the way business transactions are conducted globally.
Blockchain is a technology for a new generation of transactional applications that establishes trust, accountability and transparency while streamlining business processes. A blockchain has two main concepts. A business network, where members exchange items of value through a ledger, which each member possesses and whose content is always in sync with the others.
Innovation in Byzantine consensus protocols is helping decentralized networks scale up and become highly performant, possibly faster than centralized networks. Investment growth in Bitcoin and FinTech startups, and enterprise blockchain applications in development in multiple sectors
This document discusses blockchain as a service (BaaS) and Hyperledger. It summarizes that Hyperledger is an operating system for transactions that provides transparency, longevity, interoperability and support under an Apache 2.0 license. It also discusses how chaincode can be used to interact with a blockchain network's shared ledger and deployed using Docker/Vagrant. The document notes that IBM provides BaaS on Bluemix and discusses several real-world use cases that are being built using blockchain technology, including for financial services, property, government services, identification and security, trade, and the Internet of Things.
Architecture of the Hyperledger Blockchain Fabric - Christian Cachin - IBM Re...Romeo Kienzler
This document summarizes the architecture of the Hyperledger blockchain fabric framework. It describes how Hyperledger fabric implements a permissioned blockchain using Byzantine Fault Tolerant (BFT) consensus. Key aspects covered include the use of smart contracts, separation of transaction endorsement from ordering, and how privacy and confidentiality are achieved through techniques like pseudonymous transactions and encrypted state. The document also discusses ongoing work to further improve scalability and flexibility of the Hyperledger fabric design.
This document discusses how emerging technologies like cloud computing, 4G technology, and sensors can benefit the healthcare industry. It provides details on how each technology works and its potential applications in healthcare. Cloud computing could provide healthcare organizations access to electronic health records, imaging systems, and other applications at a lower cost. 4G networks enable high-quality mobile access to healthcare services and data sharing. Sensors allow continuous remote patient monitoring and customized treatment based on real-time biometric data readings. The document evaluates how these technologies could improve patient care and reduce costs when implemented at the Canberra Hospital in Australia.
Intelligence in the Internet of Medical Things (IoMT) EraDashTechnologiesInc
What is IoMT, and how is it related to IoT? The Internet of Things (IoT) is a network of interconnected smart devices. The network enables users to control devices remotely through software applications, while at the same time, data is collected through strategic touchpoints. Once processed with computing power, the data collected can be used for various purposes, including healthcare.
This blog explains what IoMT is and how it plays a vital role in its implementation and future healthcare development.
What is IoMT?
IoMT is a connected infrastructure of medical devices, software applications, and health systems and services.
And while a growing pool and general adoption of IoT technologies are benefiting many industries, it’s a wave of sensor-based tools including wearables and stand-alone devices for remote patient monitoring and the marriage of internet-connected medical devices with patient information that ultimately set the IoMT ecosystem apart.
Mobile devices are enforcing its use in all aspects of life, health care is one major area where mobile device could enhance operations, or improve quality and efficincy. Here is a presentation I gave at HIMSS which may be useful to you if you are considering using mobile device in your health care discpline.
The healthcare industry has traditionally been slow to adopt new technologies due to concerns about privacy and security of patient data. However, cloud computing is now being widely adopted in healthcare due to its benefits of lower costs, rapid deployment, and access to data from any location. Common uses of the cloud in healthcare include electronic medical records, patient portals, telemedicine, clinical research, and big data analytics. Patient portals in particular allow patients to access their health information anytime from any device and interact with providers through secure messaging.
Building Digital Strategy Roadmap For Digital Transformation Complete DeckSlideTeam
Digital strategy roadmap is a blueprint for aligning business goals with your digital strategy. It shows how the company plans to embrace digital technologies to grow business and create better customer experience in the long term. Creating a digital strategy roadmap is not simply listing out key digital initiatives and giving them a tentative timeline. It follows an extensive research process which starts with Digital Review. It starts with uncovering consumer insights and market insights. One then develops Digital Strategy keeping in mind the digital goals and key initiatives in the short and long term. The third step in this process is Digital Planning which involves setting realistic time frame for implementing digital initiatives. The final steps involve setting KPIs for measuring the success of digital strategy. Taking the healthcare sector as a case study, our researchers have outlined the digital landscape of the industry and showed key digital strategies a healthcare provider wishes to implement for digital transformation. https://bit.ly/3bL7TlW
The International Journal of Pharmacetical Sciences Letters (IJPSL) is an international online journal in English published everyday. The aim of this is to publish peer reviewed research and review articles without delay in the developing field of engineering and science Research.
Design Considerations to Maximize Medical Device Cloud ConnectivityGreenlight Guru
Medical device manufacturers are faced with a myriad of design decisions during product development. Several key decisions affecting market readiness must be addressed between bench-top prototypes and initiation of clinical trials. Among the most important are cloud connectivity considerations surrounding firmware, hardware, and use cases. The earlier cloud connectivity factors are identified, considered, and integrated into the design process, the more successful the resulting commercial roll-out in terms of cost, certification, and market acceptance.
• Key design factors medical device manufacturers should consider
• Advantages of considering connectivity early in the design process
• Practical use-case examples highlight more cost-effective clinical trials, wider market acceptance, and reduction in operational costs
This session took place live at the Greenlight Guru True Quality Virtual Summit, a three-day event for medical device professionals to learn to get their devices to market faster, stay ahead of regulatory changes, and use quality as their multiplier to grow their device business.
Killed by code - mobile medical devicesFlaskdata.io
There is a perfect storm of consumer electronics, mobile communications and customer need - the need to help people manage chronic disease like Parkinson, diabetes and MSA and sustain life with pacemakers and ICDs
M2M Perspective of New World Health Paradigm at Bio-IT World Asia 2013Narendra K Saini
The document discusses M2M (machine-to-machine) technology and its applications in healthcare. It describes how M2M enables remote patient monitoring through devices that capture medical data and transmit it over networks to healthcare providers. This allows for prevention, diagnosis, treatment and monitoring of patients. The document also examines M2M's role in areas like medical homes, health kiosks, medical equipment management, and overcoming challenges of big data and cloud computing in healthcare.
The document discusses security strategies for sharing medical images in the cloud, including using robust physical infrastructure, encrypting data during transfers, separating protected health information from images using split-merge technology, implementing role-based user permissions, connecting systems through gateways, and customizing security workflows through last-mile features. The goal is to balance security, usability, and clinical needs to facilitate collaboration while protecting patient data.
FEDERAL LEARNING BASED SOLUTIONS FOR PRIVACY AND ANONYMITY IN INTERNET OF MED...IRJET Journal
This document discusses the use of federated learning (FL) for privacy-preserving analysis of medical data from internet of things (IoT) devices. FL allows decentralized training of machine learning models on devices without moving sensitive patient data to a central location. The rise of IoT in healthcare is generating huge volumes of data but current AI approaches require aggregating data, raising privacy and security concerns. FL emerges as a solution by enabling decentralized and collaborative training while keeping data on devices. The document reviews literature on applying FL to clinical IoT applications and discusses how FL can address data isolation issues and perform AI tasks without compromising privacy.
This document discusses the Internet of Medical Things (IoMT) and securing medical devices in an increasingly connected world. It provides background on the growing number of connected medical devices and emerging issues around cybersecurity and privacy. The document outlines some key challenges around regulating and securing medical devices as well as establishing trust and developing best practices for an end-to-end security architecture for the IoMT. It argues that device designers, manufacturers and service providers need to ensure the security and privacy of customer data to meet legal requirements and maintain trust.
Integrated killer applications for connected insurance Andrea Silvello
DigitalTech International was founded to leverage on the experience of the Italian innovative telematics cluster and design a new generation of disruptive digital solutions. Founded by Andrea Silvello, 15 years of experience in strategy consulting, including Bain & Co. and BCG and Luciano Pezzotta, Lead Consultant of Blue Ocean Strategy in the Asia-Pacific. Incubated by Business Support SpA, a high-growth European “boutique” strategy consulting and financial advisory firm and ECSI Consulting a global innovation consultancy.
We are the first connected insurance service provider for the insurance carriers at a global level on all the personal lines (car, home, health and life). Our solution is a plug & play SaaS which enables Insurers to manage the insurance IoT value chain from data gathering to service delivery with a smartphone-based cross-business line customer-centric solution. Such solution relies on an ecosystem of partners that are connected to the different lines of the “Connected Insurance”.
Our solution transforms old insurance institutions in insurtech players
The creation of an efficient insurance IoT use-case requires a great suite of services and our platform is able to orchestrate different modules and all the ecosystem of partners required by each insurer.
This document describes a cloud-facilitated mobile health monitoring system called CPLM that aims to address privacy and security issues. CPLM involves four parties: a cloud server, a healthcare service provider, clients, and a semi-trusted authority. It uses techniques like outsourcing decryption and proxy re-encryption to shift computational complexity from resource-constrained clients and providers to the cloud, without compromising privacy. It also implements a "Virtual Machine Policing" approach to handle side channel attacks. The goal of CPLM is to provide privacy protections and enable widespread adoption of mobile health monitoring services.
An Overview of the Message Broker Healthcare Connectivity PackAnt Phillips
The document discusses IBM's Healthcare Connectivity Pack which provides out-of-the-box integration solutions for healthcare organizations. The Pack uses standards like HL7, DICOM, and CDA to integrate clinical applications, medical devices, imaging systems, and more. It supports use cases such as analytics, mobile integration, and connecting various healthcare IT systems. The Pack builds on IBM Integration Bus and provides expert integration patterns, monitoring tools, and message definitions to simplify common healthcare integration scenarios.
This document discusses strategies for ensuring the security of enterprise image viewers and mobile health solutions. It notes that data security is a major concern in healthcare, with security breaches potentially resulting in large fines. The document then recommends educating staff on mobile security, using device security features, implementing network security policies, using authentication, secure connections, and ensuring solutions have built-in encryption and integrate with IT policies. It outlines Calgary Scientific's approach to securing its ResolutionMD image viewer, which does not leave patient data on devices, requires login credentials, uses SSL encryption, and optionally a VPN.
Cloud Platform for Remote Patient Monitoring. Case: Stroke Remote Care.pselonen
Presentation at AI morning in April 13th at Tampere University of Technology Kampusklubi.
"AI Morning in April 13th experiments with a new distinctive concept and remixes together machine learning and analytics in the two verticals of healthcare and industry! There is a huge common ground in diagnostics of people and machines, and the same algorithms can be used in both. The presenters from healthcare and industry keynote a conversational networking forum in theme: 'Health: analytics'."
See http://www.aiaamu.fi/
IRJET- Secrecy Preserving and Intrusion Avoidance in Medical Data Sharing...IRJET Journal
This document summarizes a research paper that proposes a cloud-based healthcare system for securely sharing medical data. It does the following:
1. It encrypts patient medical data using the NTRU encryption algorithm when transmitting it to nearby clouds for privacy.
2. It develops a trust model to help users select trustworthy partners to share stored medical data with in the cloud based on their similarity and compatibility.
3. It divides and encrypts users' medical data stored in the remote cloud into different categories to provide appropriate security protections.
4. It implements a deliberative intrusion detection system based on the cloud mesh structure to safeguard the large medical database in the remote cloud from malicious attacks.
Healthcare Maneuverability: Equipping the mobile clinician of futureVARUN KESAVAN
Healthcare IT has emerged as a driving force in bringing about better patient care, and mobility is a key component. Mobility in the healthcare world is unique: clinicians roam from one shared workstation to another, use their tablets on rounds, check data on personal smartphones, and work on home computers. They may need to access clinical systems and vital patient data on any system at any time. The benefits of mobility, however, bring substantial requirements for IT, especially as healthcare entities are becoming more open to adopting cloud computing.
Similar to Up conf-2013-m2 m-and-patient-care-final (20)
Unlocking WhatsApp Marketing with HubSpot: Integrating Messaging into Your Ma...Niswey
50 million companies worldwide leverage WhatsApp as a key marketing channel. You may have considered adding it to your marketing mix, or probably already driving impressive conversions with WhatsApp.
But wait. What happens when you fully integrate your WhatsApp campaigns with HubSpot?
That's exactly what we explored in this session.
We take a look at everything that you need to know in order to deploy effective WhatsApp marketing strategies, and integrate it with your buyer journey in HubSpot. From technical requirements to innovative campaign strategies, to advanced campaign reporting - we discuss all that and more, to leverage WhatsApp for maximum impact. Check out more details about the event here https://events.hubspot.com/events/details/hubspot-new-delhi-presents-unlocking-whatsapp-marketing-with-hubspot-integrating-messaging-into-your-marketing-strategy/
The Role of White Label Bookkeeping Services in Supporting the Growth and Sca...YourLegal Accounting
Effective financial management is important for expansion and scalability in the ever-changing US business environment. White Label Bookkeeping services is an innovative solution that is becoming more and more popular among businesses. These services provide a special method for managing financial duties effectively, freeing up companies to concentrate on their main operations and growth plans. We’ll look at how White Label Bookkeeping can help US firms expand and develop in this blog.
Adani Group's Active Interest In Increasing Its Presence in the Cement Manufa...Adani case
Time and again, the business group has taken up new business ventures, each of which has allowed it to expand its horizons further and reach new heights. Even amidst the Adani CBI Investigation, the firm has always focused on improving its cement business.
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Presentation by Herman Kienhuis (Curiosity VC) on Investing in AI for ABS Alu...Herman Kienhuis
Presentation by Herman Kienhuis (Curiosity VC) on developments in AI, the venture capital investment landscape and Curiosity VC's approach to investing, at the alumni event of Amsterdam Business School (University of Amsterdam) on June 13, 2024 in Amsterdam.
Best Competitive Marble Pricing in Dubai - ☎ 9928909666Stone Art Hub
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Discover the Beauty and Functionality of The Expert Remodeling Serviceobriengroupinc04
Unlock your kitchen's true potential with expert remodeling services from O'Brien Group Inc. Transform your space into a functional, modern, and luxurious haven with their experienced professionals. From layout reconfiguration to high-end upgrades, they deliver stunning results tailored to your style and needs. Visit obriengroupinc.com to elevate your kitchen's beauty and functionality today.
AI Transformation Playbook: Thinking AI-First for Your BusinessArijit Dutta
I dive into how businesses can stay competitive by integrating AI into their core processes. From identifying the right approach to building collaborative teams and recognizing common pitfalls, this guide has got you covered. AI transformation is a journey, and this playbook is here to help you navigate it successfully.
Machine-to-Machine (M2M) concept and gateway devicesPatient Care Examples:Wireless blood glucose monitoring systemImplantable inducer firmware support systemRemote cardiac implant monitorRemote EMT emergency cardiac monitoringRemote neuro implant monitoringChallengesBig Data opportunities- - Who is GlobalLogic?Product Development ServicesHeadquartered in Silicon ValleyExperience Design studios in San Francisco, New York and LondonEngineering centers in the US, Ukraine, India, Argentina, China250 active clients7,000 people10 years medical device development experience; ISO 13485 certifiedEstablished practice in Ukraine; expanding to IndiaTechnical Expertise: Embedded, Mobile, Cloud, Analytics, Security
What is Machine-to-Machine Communication?Can refer to peer-to-peer communication between devices, but also used to describe remote communication through a networkImplies some intelligence in the system—either in the devices or in the connection between them—not just data capture and displayIn today’s context we will discuss intelligent device-to-device communication via the Cloud
Cloud Provides Devices with:High-end, elastically scalable computational and analytic capabilitiesHigh-bandwidth access to distributed resourcesUnlimited storageTypically data processing and data storage takes place in the Cloud rather than on the devicesGenerally devices act as sensors and support user interactionDevices connect to a process or server in the Cloud through a “gateway” interface which may be separate or built into the device itself
Three basic gateway topologies:Device contains its own gatewayDevice connects to a separate gatewayDevice connects to a gateway in the cloud
Smart Devices as GatewaysMedical M2M GatewaysThe Gateway:Authenticates the device and userProvides a secure connection between the medical device and the telemedicine applicationMay cache data from the device, and information or updates from the telemedicine application, for disconnected useMay provide scalability by integrating results from multiple devicesCommon Gateways:A smartphone or dedicated gateway deviceA web services interface in a cloud processAn embedded communications and protocol translation systemCommon in hospital devices, for exampleImpact of the Cloud and M2M:Cloud has Raised Expectations for data availability: Medical Device data can be gathered from anywhere devices are locatedData is available to Medical Personnel and, increasingly, to Patients any time, any placeMachine-to-Machine enables data exchange:Data may be transparently gathered from any device anywhereFirmware and configuration data can be gathered and kept current
Obvious: Reduce cost for device maker and customerImprove availability of most recent software to the end userRemote capture of configuration data allows in-field replacement of pre-configured equipmentIf device is used by children, for example, they may drop it in a pool or break itBy capturing configuration information remotely, a service center can pre-configure a replacement device before sending it to the patientAllows delivery of a pre-configured device direct to the patient without requiring a clinic visit—important in remote or rural areasDirect connect of device to Cloud avoids the need for device registrationFor economic reasons, most devices connect to Cloud via a gateway and therefore require bluetooth or other configurationIf the gateway is on the device, it does not need to be registered before use as it can be shipped with a pre-configured data planDevice data and readings are uploaded to the Cloud anonymously, identified only by device serial numberLater an application can be used to correlate the anonymous readings to an individual patient in a secure way