Ovidiu Stan scite author profile

In this paper, we present an analysis of important aspects that arise during the development of neural network applications. Our aim is to determine if the choice of library can impact the system’s overall performance, either during training or design, and to extract a set of criteria that could be used to highlight the advantages and disadvantages of each library under consideration. To do so, we first extracted the previously mentioned aspects by comparing two of the most popular neural network libraries—PyTorch and TensorFlow—and then we performed an analysis on the obtained results, with the intent of determining if our initial hypothesis was correct. In the end, the results of the analysis are gathered, and an overall picture of what tasks are better suited for what library is presented.

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Local EHR Management Based on openEHR and EN13606

Paun

Sauciuc

Iosif³

et al. 2009

J Med Syst

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This article describes handling medical data in a healthcare system based on electronic healthcare records. At a medical unit level, data storage requires both accurate collecting and high security. The proposed information model complies with EN 13606, which is a European health data communication standard approved by the European Committee for Standardization (CEN) and partly approved by the International Organization for Standardization (ISO).

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Proposed model for a Romanian register of chronic diseases in children

Gabor-Harosa

Stan

Daina

et al. 2016

Computer Methods and Programs in Biomedicine

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Analyzing the RFID Failure Impact on Availability of IoT Services

Corches

Donca

Stan

et al. 2020

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Method for Continuous Integration and Deployment Using a Pipeline Generator for Agile Software Projects

Donca

Stan

Misaros

et al. 2022

Sensors

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Lately, the software development industry is going through a slow but real transformation. Software is increasingly a part of everything, and, software developers, are trying to cope with this exploding demand through more automation. The pipelining technique of continuous integration (CI) and continuous delivery (CD) has developed considerably due to the overwhelming demand for the deployment and deliverability of new features and applications. As a result, DevOps approaches and Agile principles have been developed, in which developers collaborate closely with infrastructure engineers to guarantee that their applications are deployed quickly and reliably. Thanks to pipeline approach thinking, the efficiency of projects has greatly improved. Agile practices represent the introduction to the system of new features in each sprint delivery. Those practices may contain well-developed features or can contain bugs or failures which impact the delivery. The pipeline approach, depicted in this paper, overcomes the problems of delivery, improving the delivery timeline, the test load steps, and the benchmarking tasks. It decreases system interruption by integrating multiple test steps and adds stability and deliverability to the entire process. It provides standardization which means having an established, time-tested process to use, and can also decrease ambiguity and guesswork, guarantee quality and boost productivity. This tool is developed with an interpreted language, namely Bash, which offers an easier method to integrate it into any platform. Based on the experimental results, we demonstrate the value that this solution currently creates. This solution provides an effective and efficient way to generate, manage, customize, and automate Agile-based CI and CD projects through automated pipelines. The suggested system acts as a starting point for standard CI/CD processes, caches Docker layers for subsequent usage, and implements highly available deliverables in a Kubernetes cluster using Helm. Changing the principles of this solution and expanding it into multiple platforms (windows) will be addressed in a future discussion.

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A local linearized least squares algorithm for training feedforward neural networks

Stan

Kamen

2000

IEEE Trans. Neural Netw.

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In training the weights of a feedforward neural network, it is well known that the global extended Kalman filter (GEKF) algorithm has much better performance than the popular gradient descent with error backpropagation in terms of convergence and quality of solution. However, the GEKF is very computationally intensive, which has led to the development of efficient algorithms such as the multiple extended Kalman algorithm (MEKA) and the decoupled extended Kalman filter algorithm (DEKF), that are based on dimensional reduction and/or partitioning of the global problem. In this paper we present a new training algorithm, called local linearized least squares (LLLS), that is based on viewing the local system identification subproblems at the neuron level as recursive linearized least squares problems. The objective function of the least squares problems for each neuron is the sum of the squares of the linearized backpropagated error signals. The new algorithm is shown to give better convergence results for three benchmark problems in comparison to MEKA, and in comparison to DEKF for highly coupled applications. The performance of the LLLS algorithm approaches that of the GEKF algorithm in the experiments.

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Ovidiu Stan

Dietary patterns, physical activity, body mass index, weight-related behaviours and their interrelationship among Romanian university students-trends from 2003 to 2016

New Era for Technology in Healthcare Powered by GDPR and Blockchain

Analysis of the Application Efficiency of TensorFlow and PyTorch in Convolutional Neural Network

Local EHR Management Based on openEHR and EN13606

Proposed model for a Romanian register of chronic diseases in children

Analyzing the RFID Failure Impact on Availability of IoT Services

Method for Continuous Integration and Deployment Using a Pipeline Generator for Agile Software Projects

A local linearized least squares algorithm for training feedforward neural networks

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