PROTECTED SPACES IN SMART CITIES AND
THE IDENTIFICATION OF NEW RADIO SIGNALS
IN THEIR ENVIRONMENT USING A COMPLEX
MEASUREMENT METHOD
Gábor Bréda1 and Received: 6th November 2018. ABSTRACT This research focuses on the creation of a security boundary through the establishment of information security, more specifically by creating an environment that allows for information security for people-to-people communication. The relevance of the research is justified by the vulnerability of infocommunication tools and systems, as well as by the spread of increasingly cheaper information gathering technologies. There was a need to create an environment where personal, communication between man and man could be realized so that its information content remains protected. Analysing the problem, there are a number of security solutions for information-technology devices, but the creation of a near-human analogue environment for information security is a frontier for the subject. In this approach, the direction of the research was determined by the task of developing an environment that excludes the online operation of infocommunication technologies that create an information security gap and how to identify the spatial position of radio-based communication devices in protected spaces that may be a source of information security. In connection with the continuous quality assurance of the protection, it is necessary to identify the radio signals in the environment of the protected room, which - in the majority of cases - is a built environment with buildings. We offer a new conceptual solution. We studied the operation of the information security breaches during the preliminary research phase by designing a protected space and, by virtue of their principal exclusion, we propose a schematic layout of a protected room, excluding many information security issues. The main purpose of the research is to present an environment that can create a safer person-to-person communication and to provide a novel possible conceptual solution for determining the location of the source of a radio signal.
KEY WORDS CLASSIFICATION
Péter János Varga2
1Óbuda University, Doctoral School on Safety and Security Sciences
Budapest, Hungary
2Óbuda University, Telecommunications Technology Institute
Budapest, Hungary
INDECS 17(1-A), 67-77, 2019
DOI 10.7906/indecs.17.1.9
Full text available here.
Accepted: 31st December 2018.
Regular article
protected room, information protection, protected meeting room, radio direction finding, inertial navigation
JEL: L63, L94, L96, L98