Critical Infrastructure Vulnerability: Preliminary Introduction to the Review (SLP 1)
The significance of the level of security achievable in the design and implementation of critical infrastructure in newly developing regions in the country is paramount. As a function of facilitating the service delivered by such infrastructural systems, security relates to the interdependency of one system to another and the vulnerabilities emerging due to the failure of a unit in the entire network. The project will, therefore, aim at the establishment of functional security protocols within the design, management, maintenance, and usage of critical infrastructure systems in the existing environmental threats and vulnerabilities. Its ideological question is towards the necessity of safeguarding of the operations of a region in the face of attack, failure, or maintenance of these systems, which is a frequent upheaval wherever such vulnerabilities emerge. In the overall sense, the approach will engage the existing and new systems to assess them for the possibility of vulnerabilities and attempt to establish protocols within the current setting for bettering their security. [Need an essay writing service? Find help here.]
The research process intends to integrate an assessment of continuing projects to determine contemporary approaches in the understanding of these threats and vulnerabilities. Such approaches form the basis of assessment of other similar projects in existence within the current environment. Following the discussion of the potential and danger facing national functions within the vulnerabilities discovered, it would be possible to link known concepts and research literature towards the completion of the entire conceptual framework. The need for theoretical concepts within such outlooks not only relates to their applicability towards a practical setting for the entire national network of infrastructure, but it also relates to the potential of the analytical process to present actual solutions in the field.
Connectivity of infrastructural systems is of significant contribution to the possibility of failure of a single unity or the entire network of systems. Therefore, the discussion must incorporate the significance of interdependent, network-based systems forming national systems. Inasmuch as these systems require such interconnectivity to work efficiently, their effectiveness in the face of threats reduces where the functionality is prescribed by the state of another section of the grid (Ouyang, 2014). An effective theoretical framework can, therefore, emerge in the face of the facilitation of either developing or existing systems. As an analytical process, the project focuses on developing a better-poised system, less reliant on a communication network of interdependent arrangements within the capacity of the entire national system to adapt to changes in the environment. [“Write my essay for me?” Get help here.]
Through the assessment of opportunities within these systems, the entire process will focus on the interest of security, stability, and functionality of critical infrastructure. By borrowing concepts from other service systems relating to those relevant to the study, concepts towards secure protocols are achievable. Such fields may include cyberspace systems and service delivery systems that possess dynamic characteristics in similar service provision capacities as CIS’s do, but have a lesser interdependence, thus allowing them to function more securely even when units within these systems break down or fail (Alcaraz & Zeadally, 2015). For functionally secure systems, it is, therefore, necessary for newer measures in the field to participate in the transformation of operational culture in this sense.
In the overall sense of the conceptual setting of the concept to be discussed, it is essential to note the theoretical standing is in the proposition of newer functional systems to support and enhance the potential of the current ones when under threat or imminent failure.
Alcaraz, C., & Zeadally, S. (2015). Critical infrastructure protection: Requirements and challenges for the 21st century. International Journal of Critical Infrastructure Protection, 8, 53-66.
Ouyang, M. (2014). Review on modeling and simulation of interdependent critical infrastructure systems. Reliability Engineering & System Safety, 121, 43-60.