Jugoslav Achkoski scite author profile

Jugoslav Achkoski

5Publications

4Citation Statements Received

27Citation Statements Given

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Affiliations

Goce Delcev University, Carol I National Defence University

Publications

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Implementation of a System for Physiological Status Monitoring by using Tactical Military Networks

Stevanoski¹,

Kocev²,

Achkoski³

et al. 2016

Def. Sc. Jl.

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E-health sensors are continuing to become more advanced and more reliable in monitoring the human physiological status. There is a continuous scope for improvement in their implementation in different emergency situations. Military organisations can take an advantage of this technology for applying physiological status monitoring on personnel engaged in military operations. This implementation is driven by continuous enhancements of existing communication equipment that produces more data capable radio networks in military environment. Based on these technologies we are proposing system communication architecture for applying real-time physiological status monitoring for personnel engaged in military operations. To examine the proposed architecture, a laboratory testing was performed. The laboratory work included a definition of military communication equipment, testing the received data with custom developed algorithm based on Markov decision process for automating the medical emergency protocol (MDP-AMEP) and implementation of adequate data protocols for data transmitting. Obtained results showed that physiological status of the military personnel can be successfully monitored by using tactical military network.

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Service Design and Distributed System Reliability in Intelligence Information System Based on Service-Oriented Architecture

Achkoski¹,

Trajkovik

2014

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Abstract-This paper presents the model of IntelligenceInformation System (IIS) based on a Service-Oriented Architecture. In this paper we propose the new service's model, based on the Intelligence cycle and other systems which are necessary for gathering Intelligence information and data.The paper is mostly focused on the system architecture and services design as a mainstream for definition of the services. Furthermore, additional attention is dedicated on the Distributed System Reliability (DSR). I.INTRODUCTION NTELLIGENCE Information System Model gives contribution in Homeland Security and Civil MilitaryEmerging Risks assessment through the possibility of providing information in an appropriate way, by implementing pushing and pulling mechanisms into information systems, selection of data and creation of information from raw data that can be used in creating intelligence products and dissemination reports for the authorities. IIn the Intelligence Information System, which is based on SOA, are applications written in different programming language. The service design should provide interoperability between applications. It indicates that the services written in different programming languages are capable to communicate. In this connotation, processing elements (web servers, application's servers, sensors for collecting data and so on) can create distributed environment for sharing information. SOA based multi-tier approach provides legacy systems to be hooked up in a new infrastructure where the new systems and legacy systems can communicate without complexity in communication protocol (SOAP messages).In the phase of creating distributed systems, it is crucial to have metric for distributed system reliability. It provides appropriate distribution of the system's components, because introduced algorithm for distributed system reliability shows where the gaps in the systems are. Also, the designers of a system can achieve higher level of system reliability using the distributed system reliability metric. In the distributed system, each node can present service and each service can present system, subsystem or processing element. Consequently, each service in the architecture has certain value of reliability. These values of reliability are very important for system designers.The paper is organized as follows. Section 2 presents related work about the research presented in the paper. Section 3 is dedicated to architecture of the system. In the Section 3 are presented different levels of the system architecture and how they are connected. Section 4 presents service design where it is mostly focused on service interface. Section 5 demonstrates the algorithm for computing distributed system reliability and we implement GEAR as an algorithm for the system reliability. Finally, in the Section 6, concluding remarks of the paper are presented. II.RELATED WORKIn [3], the quality attributes of loose coupling and autonomy for services in the context of service-oriented architecture are given. In order for services to be in...

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Remote triage support algorithm based on fuzzy logic

et al. 2016

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Novel approach for automating medical emergency protocol in military environment

Kocev

Achkoski

Bogatinov

et al. 2018

THC

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Performance Analysis of End-to-End Sensor-to-Cloud Personal Living Platform

Goleva

Stainov

Kletnikov

et al. 2017

Procedia Computer Science

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