Open Access. Powered by Scholars. Published by Universities.®
- Discipline
-
- Physical Sciences and Mathematics (3)
- Artificial Intelligence and Robotics (2)
- Computer Sciences (2)
- Health Information Technology (2)
- Information Security (2)
-
- Public Affairs, Public Policy and Public Administration (2)
- Public Health (2)
- Social and Behavioral Sciences (2)
- Anatomy (1)
- Community Health and Preventive Medicine (1)
- Data Science (1)
- Digestive System (1)
- Engineering (1)
- Environmental Public Health (1)
- Health Policy (1)
- Influenza Virus Vaccines (1)
- Operations Research, Systems Engineering and Industrial Engineering (1)
- Public Policy (1)
- Keyword
-
- Artificial intelligence (2)
- Authentication (2)
- Data analysis (2)
- Internet of things (2)
- AI (1)
-
- Analytical models (1)
- Bicycle paths (1)
- Bicycling (1)
- Big data (1)
- Blockchain (1)
- Blockchains (1)
- COVID-19 pandemic (1)
- Cloud computing (1)
- Committees (1)
- Complexity theory (1)
- Computational modeling (1)
- Computer security (1)
- Cyber security (1)
- Decision making (1)
- Decision trees (1)
- Diabetes (1)
- Digital neighborhoods (1)
- Diseases (1)
- Factor analysis (1)
- Health care (1)
- Healthcare 50 (1)
- High blood pressure (1)
- Hospitals (1)
- Internet of Medical Things (1)
- Internet of Things (1)
Articles 1 - 5 of 5
Full-Text Articles in Medicine and Health Sciences
Estimating The Health Effects Of Adding Bicycle And Pedestrian Paths At The Census Tract Level: Multiple Model Comparison, Ross J. Gore, Christopher Lynch, Craig Jordan, Andrew Collins, R. Michael Robinson, Gabrielle Fuller, Pearson Ames, Prateek Keerthi, Yash Kandukuri
Estimating The Health Effects Of Adding Bicycle And Pedestrian Paths At The Census Tract Level: Multiple Model Comparison, Ross J. Gore, Christopher Lynch, Craig Jordan, Andrew Collins, R. Michael Robinson, Gabrielle Fuller, Pearson Ames, Prateek Keerthi, Yash Kandukuri
VMASC Publications
Background: Adding additional bicycle and pedestrian paths to an area can lead to improved health outcomes for residents over time. However, quantitatively determining which areas benefit more from bicycle and pedestrian paths, how many miles of bicycle and pedestrian paths are needed, and the health outcomes that may be most improved remain open questions.
Objective: Our work provides and evaluates a methodology that offers actionable insight for city-level planners, public health officials, and decision makers tasked with the question “To what extent will adding specified bicycle and pedestrian path mileage to a census tract improve residents’ health outcomes over time?” …
Challenges And Solutions For Designing A Covid-19 Vaccination Hub: A Simulation Approach, Antonio Cimino, Maria Grazia Gnoni, Francesco Longo, Rafael Diaz, Adriano Solis, Antonio Nervoso, Karen Althea Manfredi, Marika Diaco
Challenges And Solutions For Designing A Covid-19 Vaccination Hub: A Simulation Approach, Antonio Cimino, Maria Grazia Gnoni, Francesco Longo, Rafael Diaz, Adriano Solis, Antonio Nervoso, Karen Althea Manfredi, Marika Diaco
VMASC Publications
It is the intent of the work to support experts in the organization process of Covid-19 vaccination hubs. An approach based on Modelling & Simulation (M&S) is proposed and in particular, a simulation model of a real vaccination hub, located in South of Italy, has been developed. The simulation model recreates, with satisfactory accuracy, the evolution over the time of the real system and it has been used to analyze the system behavior under several operative scenarios. The generation of the alternative operative scenarios comes from the variation of multiple design parameters that affect multiple performance measures. The quantitative evaluation …
Ascp-Iomt: Ai-Enabled Lightweight Secure Communication Protocol For Internet Of Medical Things, Mohammad Wazid, Jaskaran Singh, Ashok Kumar Das, Sachin Shetty, Muhammad Khurram Khan, Joel J.P.C. Rodrigues
Ascp-Iomt: Ai-Enabled Lightweight Secure Communication Protocol For Internet Of Medical Things, Mohammad Wazid, Jaskaran Singh, Ashok Kumar Das, Sachin Shetty, Muhammad Khurram Khan, Joel J.P.C. Rodrigues
VMASC Publications
The Internet of Medical Things (IoMT) is a unification of smart healthcare devices, tools, and software, which connect various patients and other users to the healthcare information system through the networking technology. It further reduces unnecessary hospital visits and the burden on healthcare systems by connecting the patients to their healthcare experts (i.e., doctors) and allows secure transmission of healthcare data over an insecure channel (e.g., the Internet). Since Artificial Intelligence (AI) has a great impact on the performance and usability of an information system, it is important to include its modules in a healthcare information system, which will be …
Healthcare 5.0 Security Framework: Applications, Issues And Future Research Directions, Mohammad Wazid, Ashok Kumar Das, Noor Mohd, Youngho Park
Healthcare 5.0 Security Framework: Applications, Issues And Future Research Directions, Mohammad Wazid, Ashok Kumar Das, Noor Mohd, Youngho Park
VMASC Publications
Healthcare 5.0 is a system that can be deployed to provide various healthcare services. It does these services by utilising a new generation of information technologies, such as Internet of Things (IoT), Artificial Intelligence (AI), Big data analytics, blockchain and cloud computing. Due to the introduction of healthcare 5.0, the paradigm has been now changed. It is disease-centered to patient-centered care where it provides healthcare services and supports to the people. However, there are several security issues and challenges in healthcare 5.0 which may cause the leakage or alteration of sensitive healthcare data. This demands that we need a robust …
Perspective On Macroscale Complexity In The National Transplant System, Morgan Stuart, Andrew Placona, Gabe Vece, Kelsi Lindblad, Saikou Diallo, Bob Carrico
Perspective On Macroscale Complexity In The National Transplant System, Morgan Stuart, Andrew Placona, Gabe Vece, Kelsi Lindblad, Saikou Diallo, Bob Carrico
VMASC Publications
We present a perspective of the national transplant program based on organizational theory and complexity theory, framing the system’s allocation of donor organs as an interorganizational directed multiplex of agents with diverse belief formation in a cooperative-competitive environment. Simulation and analysis of this macroscale complexity may help explain known behavioural variations across member organizations. However, the transplant community still relies on system-scale simulations since effective macroscale methodologies are not well established. Therefore, we offer this perspective of the national transplant program as a means to stimulate new methods that capture macroscale impacts of policy development for deceased donor organ allocation.