Optimizing existing business processes through centralization and uniformity of solutions is the preferred strategy for cyber risk reduction. However, the analysis of cybersecurity needs that reflect the objectives, design, and architecture of the respective missions or products is necessary to ensure the best alignment of cybersecurity innovations with various facets of the overarching organizational objectives. By employing the design science methodology, this study developed an artifact that incorporated the closed-loop Innovation Adhesion Evaluation Process (IAEP) to be utilized by subject matter experts (SME) in assessing the feasibility, timeliness, suitability, and sustainability of cybersecurity-related innovations during the operational phase of a project life cycle. The study found that a group of SMEs can use the IAEP model to evaluate the proposed innovation's potential impact on missions or products.
Description
The paper presents a process model for ensuring the diffusion and adhesion of cybersecurity innovations in software development organizations.
%0 Generic
%1 Gregory2022
%A Vsevolozhsky, Gregory
%A Qu, Yanzhen
%D 2022
%J 2022 International Conference on Computational Science and Computational Intelligence (CSCI)
%K Cybersecurity_Innovations Software_Development Shipbuilding posted_with_chatgpt
%P 1872-1878
%R 10.1109/CSCI58124.2022.00337
%T A Process Model for Ensuring Diffusion and Adhesion of Cybersecurity Innovations in Software Development Organizations
%U https://www.semanticscholar.org/paper/f1e8c2769d6401c4cf82d98be19ed9fc06ece29a
%X Optimizing existing business processes through centralization and uniformity of solutions is the preferred strategy for cyber risk reduction. However, the analysis of cybersecurity needs that reflect the objectives, design, and architecture of the respective missions or products is necessary to ensure the best alignment of cybersecurity innovations with various facets of the overarching organizational objectives. By employing the design science methodology, this study developed an artifact that incorporated the closed-loop Innovation Adhesion Evaluation Process (IAEP) to be utilized by subject matter experts (SME) in assessing the feasibility, timeliness, suitability, and sustainability of cybersecurity-related innovations during the operational phase of a project life cycle. The study found that a group of SMEs can use the IAEP model to evaluate the proposed innovation's potential impact on missions or products.
@Conference{Gregory2022,
abstract = {Optimizing existing business processes through centralization and uniformity of solutions is the preferred strategy for cyber risk reduction. However, the analysis of cybersecurity needs that reflect the objectives, design, and architecture of the respective missions or products is necessary to ensure the best alignment of cybersecurity innovations with various facets of the overarching organizational objectives. By employing the design science methodology, this study developed an artifact that incorporated the closed-loop Innovation Adhesion Evaluation Process (IAEP) to be utilized by subject matter experts (SME) in assessing the feasibility, timeliness, suitability, and sustainability of cybersecurity-related innovations during the operational phase of a project life cycle. The study found that a group of SMEs can use the IAEP model to evaluate the proposed innovation's potential impact on missions or products.},
added-at = {2023-09-22T08:59:26.000+0200},
author = {Vsevolozhsky, Gregory and Qu, Yanzhen},
biburl = {https://www.bibsonomy.org/bibtex/281fc0ca7313b9c1742b9cf7fb6918727/vilvil},
day = 1,
description = {The paper presents a process model for ensuring the diffusion and adhesion of cybersecurity innovations in software development organizations.},
doi = {10.1109/CSCI58124.2022.00337},
interhash = {44c1254c38bf65fe0cfa0f04e19931b6},
intrahash = {81fc0ca7313b9c1742b9cf7fb6918727},
journal = {2022 International Conference on Computational Science and Computational Intelligence (CSCI)},
keywords = {Cybersecurity_Innovations Software_Development Shipbuilding posted_with_chatgpt},
month = {12},
pages = {1872-1878},
timestamp = {2023-09-22T08:59:26.000+0200},
title = {A Process Model for Ensuring Diffusion and Adhesion of Cybersecurity Innovations in Software Development Organizations},
url = {https://www.semanticscholar.org/paper/f1e8c2769d6401c4cf82d98be19ed9fc06ece29a},
year = 2022
}