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1. Artificial Intelligence for End Tidal Capnography Guided Resuscitation: A Conceptual Framework

   Michelle Nassal, Nithin Sugavanam (January 2024, Proceedings of the 57th Hawaii International Conference on System Sciences)

   Artificial Intelligence (AI) and machine learning have advanced healthcare by defining relationships in complex conditions. Out-of-hospital cardiac arrest (OHCA) is a medically complex condition with several etiologies. Survival for OHCA has remained static at 10% for decades in the United States. Treatment of OHCA requires the coordination of numerous interventions, including the delivery of multiple medications. Current resuscitation algorithms follow a single strict pathway, regardless of fluctuating cardiac physiology. OHCA resuscitation requires a real-time biomarker that can guide interventions to improve outcomes. End tidal capnography (ETCO2) is commonly implemented by emergency medical services professionals in resuscitation and can serve as an ideal biomarker for resuscitation. However, there are no effective conceptual frameworks utilizing the continuous ETCO2 data. In this manuscript, we detail a conceptual framework using AI and machine learning techniques to leverage ETCO2 in guided resuscitation. 

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2. Learning Fitness Functions for Machine Programming

   Mandal, Shantanu; Anderson, Todd; Turek, Javier; Gottschlich, Justin; Zhou, Shengtian; Muzahid, Abdullah (April 2021, Machine Learning and Systems)

   The problem of automatic software generation has been referred to as machine programming. In this work, we propose a framework based on genetic algorithms to help make progress in this domain. Although genetic algorithms (GAs) have been successfully used for many problems, one criticism is that hand-crafting GAs fitness function, the test that aims to effectively guide its evolution, can be notably challenging. Our framework presents a novel approach to learn the fitness function using neural networks to predict values of ideal fitness functions.We also augment the evolutionary process with a minimally intrusive search heuristic. This heuristic improves the framework’s ability to discover correct programs from ones that are approximately correct and does so with negligible computational overhead. We compare our approach with several state-of-the-art program synthesis methods and demonstrate that it finds more correct programs with fewer candidate program generations. 

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3. Algorithms for computing greatest common divisors of parametric multivariate polynomials

   Kapur, Deepak; Lu, Dong; Monagan, Micheal; Sun, Yao; Wang, Dingkang (January 2021, Journal of symbolic computation)

   Two new efficient algorithms for computing greatest common divisors (gcds) of parametric multivariate polynomials over k[U][X]are presented. The key idea of the first algorithm is that the gcd of two non-parametric multivariate polynomials can be obtained by dividing their product by the generator of the intersection of two principal ideals generated by the polynomials. The second algorithm is based on another simple insight that the gcd can be extracted using the generator of the ideal quotient of a polynomial with respect to the second polynomial. Since the ideal intersection and ideal quotient in these cases are also principal ideals, their generators can be obtained by computing minimal Gröbner bases of the ideal intersection and ideal quotient, respectively. To avoid introducing new variables which can adversely affect the efficiency, minimal Gröbner bases computations are performed on modules. Both of these constructions generalize to the parametric case as shown in the paper. Comprehensive Gröbner system constructions are used for the parametric ideal intersection and ideal quotient using the Kapur-Sun-Wang’s algorithm. It is proved that whether in a minimal comprehensive Gröbner system of a parametric ideal 20intersection or in that of a parametric ideal quotient, each branch of the specializations corresponds to a principal parametric ideal with a single generator. Using this generator, the parametric gcd of that branch is obtained by division. For the case of more than two parametric polynomials, we can use the above two algorithms to compute gcds recursively, and get an extended algorithm by generalizing the idea of the second algorithm. Algorithms do not suffer from having to apply expensive steps such as ensuring whether parametric polynomials are primitive w.r.t. the main variable as used in both the algorithms proposed by Nagasaka (ISSAC, 2017). The resulting algorithms are not only conceptually simple to understand but are more efficient in practice. The proposed algorithms and both of Nagasaka’s algorithms have been implemented in Singular, and their performance is compared on a number of examples. 

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4. CareNet: Building Regulation-Compliant Home-Based Healthcare Services with Software-Defined Infrastructure

   https://doi.org/10.1109/CHASE.2017.121  

   Li, Peilong; Xu, Chen; Luo, Yan; Cao, Yu; Mathew, Jomol; Ma, Yunsheng (July 2017, IEEE 2nd International Conference on Connected Health: Applications, Systems and Engineering Technologies (IEEE CHASE 2017))

   Healthcare network and computing infrastructure is rapidly changing from closed environments to open environments that incorporate new devices and new application scenarios. Home-based healthcare is such an example of leveraging pervasive sensors and analyzing sensor data (often in real-time) to guide therapy or intervene. In this paper, we address the challenges in regulatory compliance when designing and deploying healthcare applications on a heterogeneous cloud environment. We propose the CareNet framework, consisting of a set of APIs and secure data transmission mechanisms, to facilitate the specification of home-based healthcare services running on the software-defined infrastructure (SDI). This work is a collaboration among computer scientists, medical researchers, healthcare IT and healthcare providers, and its goal is to reduce the gap between the availability of SDI and meeting regulatory compliance in healthcare applications. Our prototype demonstrates the feasibility of the framework and serves as testbed for novel experimental studies of emerging healthcare applications. 

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5. CareNet: Building a Secure Software-defined Infrastructure for Home-based Healthcare

   https://doi.org/10.1145/3040992.3041007  

   Li, Peilong; Xu, Chen; Luo, Yan; Cao, Yu; Mathew, Jomol; Ma, Yunsheng (March 2017, SDN-NFVSec '17 Proceedings of the ACM International Workshop on Security in Software Defined Networks & Network Function Virtualization)

   Healthcare network and computing infrastructure is rapidly changing from closed environments to open environments that incorporate new devices and new application scenarios. Home-based healthcare is such an example of leveraging pervasive sensors and analyzing sensor data (often in real-time) to guide therapy or intervene. In this paper, we address the challenges in regulatory compliance when designing and deploying healthcare applications on a heterogeneous cloud environment. We propose CareNet framework, consisting of a set of abstraction and APIs, to allow the specification of compliance requirements. This work is a collaboration among computer scientists, medical researchers, healthcare IT and healthcare providers, and its goal is to reduce the gap between the availability of software defined infrastructure and meeting regulatory compliance in healthcare applications. 

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