Your search keyword '"Kandris, Dionisis"' showing total 24 results

1. LEACH-based hierarchical energy efficient routing in wireless sensor networks

Author

Kandris, Dionisis, Evangelakos, Emmanouil Andreas, Rountos, Dimitrios, Tselikis, George, and Anastasiadis, Eleftherios

Published

2023

2. Advanced Wireless Sensor Networks: Applications, Challenges and Research Trends.

Author

Kandris, Dionisis and Anastasiadis, Eleftherios

Subjects

WIRELESS sensor networks, K-nearest neighbor classification, WIRELESS LANs, DEEP learning, AD hoc computer networks, ARTIFICIAL neural networks, WIRELESS Internet

Abstract

This document serves as an introduction to a special issue on wireless sensor networks (WSNs), explaining their structure and applications in various sectors. It also discusses the challenges faced by WSNs, such as limited energy and data management. The special issue features ten research papers on advanced WSNs. [Extracted from the article]

Published

2024

3. A Kalman Filter Scheme for the Optimization of Low-Cost Gas Sensor Measurements.

Author

Christakis, Ioannis, Tsakiridis, Odysseas, Kandris, Dionisis, and Stavrakas, Ilias

Subjects

GAS detectors, AIR quality monitoring, MEASUREMENT errors, AIR pollutants, AIR quality, KALMAN filtering

Abstract

Air pollution, which is mainly caused by industrialization, intensive transportation, and the heating of buildings, is one of the most important problems in large cities because it seriously harms the health and the quality of life of their citizens. This is why air quality is monitored not only by governmental organizations and official research institutions through the use of sophisticated monitoring systems but also by citizens through the use of low-cost air quality measurement devices. However, the reliability of the measurements derived from low-cost sensors is questionable, so the measurement errors must be eliminated. This study experimentally investigated the impact of the use of a Kalman filter on the accuracy of the measurements of low-cost air quality sensors. Specifically, measurements of air pollutant gases were carried out in the field in real ambient air conditions. This study demonstrates not only the optimization of the measurements through the application of a Kalman filter but also the behavior of the filter coefficients and their impact on the predicted values. [ABSTRACT FROM AUTHOR]

Published

2024

4. Energy efficient automated control of irrigation in agriculture by using wireless sensor networks

Author

Nikolidakis, Stefanos A., Kandris, Dionisis, Vergados, Dimitrios D., and Douligeris, Christos

Published

2015

5. Air Pollution Monitoring via Wireless Sensor Networks: The Investigation and Correction of the Aging Behavior of Electrochemical Gaseous Pollutant Sensors.

Author

Christakis, Ioannis, Tsakiridis, Odysseas, Kandris, Dionisis, and Stavrakas, Ilias

Subjects

WIRELESS sensor networks, AIR quality monitoring, SENSOR networks, ELECTROCHEMICAL sensors, DETECTORS, AIR quality, AIR pollution monitoring

Abstract

The continuously growing human activity in large and densely populated cities pollutes air and consequently puts public health in danger. This is why air quality monitoring is necessary in all urban environments. However, the creation of dense air monitoring networks is extremely costly because it requires the usage of a great number of air monitoring stations that are quite expensive. Instead, the usage of wireless sensor networks (WSNs) that incorporate low-cost electrochemical gas sensors provides an excellent alternative. Actually, sensors of this kind that are recommended for low-cost air quality monitoring applications may provide relatively precise measurements. However, the reliability of such sensors during their operational life is questionable. The research work presented in this article not only experimentally examined the correlation that exists between the validity of the measurements obtained from low-cost gas sensors and their aging, but also proposes novel corrective formulae for gas sensors of two different types (i.e., NO2, O3), which are aimed at alleviating the impact of aging on the accuracy of measurements. The following steps were conducted in order to both study and lessen the aging of electrochemical sensors: (i) a sensor network was developed to measure air quality at a place near official instruments that perform corresponding measurements; (ii) the collected data were compared to the corresponding recordings of the official instruments; (iii) calibration and compensation were performed using the electrochemical sensor vendor instructions; (iv) the divergence between the datasets was studied for various periods of time and the impact of aging was studied; (v) the compensation process was re-evaluated and new compensation coefficients were produced for all periods; (vi) the new compensation coefficients were used to shape formulae that automatically calculate the new coefficients with respect to the sensors' aging; and (vii) the performance of the overall procedure was evaluated through the comparison of the final outcomes with real data. [ABSTRACT FROM AUTHOR]

Published

2023

6. A Comprehensive Review of IoT Networking Technologies for Smart Home Automation Applications.

Author

Orfanos, Vasilios A., Kaminaris, Stavros D., Papageorgas, Panagiotis, Piromalis, Dimitrios, and Kandris, Dionisis

Subjects

SMART homes, HOME automation, TELECOMMUNICATION, WIRELESS sensor networks, COMPUTER networks, MACHINE-to-machine communications, HOME wireless technology

Abstract

The expediential increase in Internet communication technologies leads to its expansion to interests beyond computer networks. MEMS (Micro Electro Mechanical Systems) can now be smaller with higher performance, leading to tiny sensors and actuators with enhanced capabilities. WSN (Wireless Sensor Networks) and IoT (Internet of Things) have become a way for devices to communicate, share their data, and control them remotely. Machine-to-Machine (M2M) scenarios can be easily implemented as the cost of the components needed in that network is now affordable. Some of these solutions seem to be more affordable but lack important features, while other ones provide them but at a higher cost. Furthermore, there are ones that can cover great distances and surpass the limits of a Smart Home, while others are more specialized for operation in small areas. As there is a variety of choices available, a more consolidated view of their characteristics is needed to figure out the pros and cons of each of these technologies. As there are a great number of technologies examined in this paper, they are presented regarding their connectivity: Wired, Wireless, and Dual mode (Wired and Wireless). Their oddities are examined with metrics based on user interaction, technical characteristics, data integrity, and cost factor. In the last part of this article, a comparison of these technologies is presented as an effort to assist home automation users, administrators, or installers in making the right choice among them. [ABSTRACT FROM AUTHOR]

Published

2023

7. Energy Sustainability in Wireless Sensor Networks: An Analytical Survey.

Author

Evangelakos, Emmanouil Andreas, Kandris, Dionisis, Rountos, Dimitris, Tselikis, George, and Anastasiadis, Eleftherios

Subjects

WIRELESS sensor networks, ENERGY harvesting, ELECTRONIC equipment, SCIENTIFIC method, SUSTAINABILITY, ENERGY transfer

Abstract

Wireless Sensor Networks (WSNs) are considered to be among the most important scientific domains. Yet, the exploitation of WSNs suffers from the severe energy restrictions of their electronic components. For this reason there are numerous scientific methods that have been proposed aiming to achieve the extension of the lifetime of WSNs, either by energy saving or energy harvesting or through energy transfer. This study aims to analytically examine all of the existing hardware-based and algorithm-based mechanisms of this kind. The operating principles of 48 approaches are studied, their relative advantages and weaknesses are highlighted, open research issues are discussed, and resultant concluding remarks are drawn. [ABSTRACT FROM AUTHOR]

Published

2022

8. Multiobjective Optimization Algorithms for Wireless Sensor Networks.

Author

Kandris, Dionisis, Alexandridis, Alex, Dagiuklas, Tasos, Panaousis, Emmanouil, and Vergados, Dimitrios D.

Subjects

WIRELESS sensor networks, MATHEMATICAL optimization, SCIENTIFIC literature, WIRELESS sensor network security

Published

2020

9. COALA: A Protocol for the Avoidance and Alleviation of Congestion in Wireless Sensor Networks.

Author

Kandris, Dionisis, Tselikis, George, Anastasiadis, Eleftherios, Panaousis, Emmanouil, and Dagiuklas, Tasos

Subjects

*COMPUTER network protocols, *WIRELESS sensor networks, *STATICS, *ENERGY dissipation, *COST functions

Abstract

The occurrence of congestion has an extremely deleterious impact on the performance of Wireless Sensor Networks (WSNs). This article presents a novel protocol, named COALA (COngestion ALleviation and Avoidance), which aims to act both proactively, in order to avoid the creation of congestion in WSNs, and reactively, so as to mitigate the diffusion of upcoming congestion through alternative path routing. Its operation is based on the utilization of an accumulative cost function, which considers both static and dynamic metrics in order to send data through the paths that are less probable to be congested. COALA is validated through simulation tests, which exhibit its ability to achieve remarkable reduction of loss ratios, transmission delays and energy dissipation. Moreover, the appropriate adjustment of the weighting of the accumulative cost function enables the algorithm to adapt to the performance criteria of individual case scenarios. [ABSTRACT FROM AUTHOR]

Published

2017

10. Congestion Avoidance in Wireless Sensor Networks: A Survey.

Author

Ploumis, Stelios E., Sgora, Aggeliki, Kandris, Dionisis, and Vergados, Dimitrios D.

Abstract

Congestion can degrade the performance of a Wireless Sensor Network (WSN) since it causes energy waste, throughput reduction and increased information loss. To prevent this situation several congestion avoidance mechanisms and schemes may be applied. The aim of this paper is to survey existing congestion avoidance mechanisms to classify them and to discuss their advantages and drawbacks. [ABSTRACT FROM PUBLISHER]

Published

2012

11. Fuzzy Regulator Design for Wind Turbine Yaw Control.

Author

Theodoropoulos, Stefanos, Kandris, Dionisis, Samarakou, Maria, and Koulouras, Grigorios

Subjects

WIND turbine design & construction, WIND speed, FUZZY control systems, COMPUTER simulation, STATISTICAL correlation

Abstract

This paper proposes the development of an advanced fuzzy logic controller which aims to perform intelligent automatic control of the yaw movement of wind turbines.The specific fuzzy controller takes into account both the wind velocity and the acceptable yaw error correlation in order to achieve maximum performance efficacy. In this way, the proposed yaw control system is remarkably adaptive to the existing conditions. In this way, the wind turbine is enabled to retain its power output close to its nominal value and at the same time preserve its yaw system from pointless movement. Thorough simulation tests evaluate the proposed system effectiveness. [ABSTRACT FROM AUTHOR]

Published

2014

12. Computer-Aided Modelling and Analysis of PV Systems: A Comparative Study.

Author

Koukouvaos, Charalambos, Kandris, Dionisis, and Samarakou, Maria

Subjects

PHOTOVOLTAIC power systems, COMPUTER-aided design, SOLAR energy, RENEWABLE energy sources, COMPUTER programming

Abstract

Modern scientific advances have enabled remarkable efficacy for photovoltaic systems with regard to the exploitation of solar energy, boosting theminto having a rapidly growing position among the systems developed for the production of renewable energy. However, in many cases the design, analysis, and control of photovoltaic systems are tasks which are quite complex and thus difficult to be carried out. In order to cope with this kind of problems, appropriate software tools have been developed either as standalone products or parts of general purpose software platforms used to model and simulate the generation, transmission, and distribution of solar energy. The utilization of this kind of software tools may be extremely helpful to the successful performance evaluation of energy systems with maximum accuracy and minimum cost in time and effort. The work presented in this paper aims on a first level at the performance analysis of various configurations of photovoltaic systems through computer-aidedmodelling. On a second level, it provides a comparative evaluation of the credibility of two of the most advanced graphical programming environments, namely, Simulink and LabVIEW, with regard to their application in photovoltaic systems. [ABSTRACT FROM AUTHOR]

Published

2014

13. Energy Efficient Routing in Wireless Sensor Networks Through Balanced Clustering.

Author

Nikolidakis, Stefanos A., Kandris, Dionisis, Vergados, Dimitrios D., and Douligeris, Christos

Subjects

*ROUTING (Computer network management), *WIRELESS sensor networks, *DOCUMENT clustering, *NETWORK routing protocols, *COMPUTER simulation, *ENERGY consumption

Abstract

The wide utilization of Wireless Sensor Networks (WSNs) is obstructed by the severely limited energy constraints of the individual sensor nodes. This is the reason why a large part of the research in WSNs focuses on the development of energy efficient routing protocols. In this paper, a new protocol called Equalized Cluster Head Election Routing Protocol (ECHERP), which pursues energy conservation through balanced clustering, is proposed. ECHERP models the network as a linear system and, using the Gaussian elimination algorithm, calculates the combinations of nodes that can be chosen as cluster heads in order to extend the network lifetime. The performance evaluation of ECHERP is carried out through simulation tests, which evince the effectiveness of this protocol in terms of network energy efficiency when compared against other well-known protocols. [ABSTRACT FROM AUTHOR]

Published

2013

14. Energy efficient and perceived QoS aware video routing over Wireless Multimedia Sensor Networks.

Author

Kandris, Dionisis, Tsagkaropoulos, Michail, Politis, Ilias, Tzes, Anthony, and Kotsopoulos, Stavros

Subjects

WIRELESS sensor networks, ROUTING (Computer network management), MULTIMEDIA communications, QUALITY of service, ENERGY consumption, COMPUTER simulation, ALGORITHMS

Abstract

Abstract: Wireless Sensor Networks (WSNs) have an ever increasing variety of multimedia based applications. Ιn these types of applications, network nodes should ideally maximize QoS and minimize energy expenditures in video communication. This article presents PEMuR, a novel dual scheme for efficient video communication, which aims at both energy saving and high QoS attainment. To achieve its objectives, PEMuR proposes the combined use of an energy aware hierarchical routing protocol with an intelligent video packet scheduling algorithm. The adopted routing protocol enables the selection of the most energy efficient routing paths, manages the network load according to the energy residues of the nodes and prevents useless data transmissions through the proposed use of an energy threshold. In this way, an outstanding level of energy efficiency is achieved. Additionally, the proposed packet scheduling algorithm enables the reduction of the video transmission rate with the minimum possible increase of distortion. In order to do so, it makes use of an analytical distortion prediction model that can accurately predict the resulted video distortion due to any error pattern. Thus, the algorithm may cope with limited available channel bandwidth by selectively dropping less significant packets prior to their transmission. Simulation results demonstrate the effectiveness of the proposed scheme. [Copyright &y& Elsevier]

Published

2011

15. Adaptive Compression of Slowly Varying Images Transmitted over Wireless Sensor Networks.

Author

Nikolakopoulos, George, Kandris, Dionisis, and Tzes, Anthony

Abstract

In this article a scheme for image transmission over Wireless Sensor Networks (WSN) with an adaptive compression factor is introduced. The proposed control architecture affects the quality of the transmitted images according to: (a) the traffic load within the network and (b) the level of details contained in an image frame. Given an approximate transmission period, the adaptive compression mechanism applies Quad Tree Decomposition (QTD) with a varying decomposition compression factor based on a gradient adaptive approach. For the initialization of the proposed control scheme, the desired a priori maximum bound for the transmission time delay is being set, while a tradeoff among the quality of the decomposed image frame and the time needed for completing the transmission of the frame should be taken under consideration. Based on the proposed control mechanism, the quality of the slowly varying transmitted image frames is adaptively deviated based on the measured time delay in the transmission. The efficacy of the adaptive compression control scheme is validated through extended experimental results. [ABSTRACT FROM AUTHOR]

Published

2010

16. Power Conservation through Energy Efficient Routing in Wireless Sensor Networks.

Author

Kandris, Dionisis, Tsioumas, Panagiotis, Tzes, Anthony, Nikolakopoulos, George, and Vergados, Dimitrios D.

Subjects

*WIRELESS sensor networks, *ENERGY dissipation, *COMMUNICATION, *NETWORK routers, *ENERGY conservation, *COMPUTER network protocols, *COMPUTER network resources, *ROUTING (Computer network management), *REMOTE sensing

Abstract

The power awareness issue is the primary concern within the domain of Wireless Sensor Networks (WSNs). Most power dissipation occurs during communication, thus routing protocols in WSNs mainly aim at power conservation. Moreover, a routing protocol should be scalable, so that its effectiveness does not degrade as the network size increases. In response to these issues, this work describes the development of an efficient routing protocol, named SHPER (Scaling Hierarchical Power Efficient Routing). [ABSTRACT FROM AUTHOR]

Published

2009

17. Void Avoidance Opportunistic Routing Protocol for Underwater Wireless Sensor Networks.

Author

Mhemed, Rogaia, Comeau, Frank, Phillips, William, Aslam, Nauman, and Kandris, Dionisis

Subjects

WIRELESS sensor networks, DATA packeting, NETWORK routing protocols, SENSOR networks, SUBMERGED structures, DATA transmission systems

Abstract

Much attention has been focused lately on the Opportunistic Routing technique (OR) that can overcome the restrictions of the harsh underwater environment and the unique structures of the Underwater Sensor Networks (UWSNs). OR enhances the performance of the UWSNs in both packet delivery ratio and energy saving. In our work; we propose a new routing protocol; called Energy Efficient Depth-based Opportunistic Routing with Void Avoidance for UWSNs (EEDOR-VA), to address the void area problem. EEDOR-VA is a reactive OR protocol that uses a hop count discovery procedure to update the hop count of the intermediate nodes between the source and the destination to form forwarding sets. EEDOR-VA forwarding sets can be selected with less or greater depth than the packet holder (i.e., source or intermediate node). It efficiently prevents all void/trapped nodes from being part of the forwarding sets and data transmission procedure; thereby saving network resources and delivering data packets at the lowest possible cost. The results of our extensive simulation study indicate that the EEDOR-VA protocol outperforms other protocols in terms of packet delivery ratio and energy consumption. [ABSTRACT FROM AUTHOR]

Published

2021

18. Coverage and k-Coverage Optimization in Wireless Sensor Networks Using Computational Intelligence Methods: A Comparative Study.

Author

Tarnaris, Konstantinos, Preka, Ioanna, Kandris, Dionisis, and Alexandridis, Alex

Subjects

WIRELESS sensor networks, SWARM intelligence, PARTICLE swarm optimization, SENSOR networks, COMPUTATIONAL intelligence, COMPARATIVE method, GENETIC algorithms, MATHEMATICAL optimization

Abstract

The domain of wireless sensor networks is considered to be among the most significant scientific regions thanks to the numerous benefits that their usage provides. The optimization of the performance of wireless sensor networks in terms of area coverage is a critical issue for the successful operation of every wireless sensor network. This article pursues the maximization of area coverage and area k-coverage by using computational intelligence algorithms, i.e., a genetic algorithm and a particle swarm optimization algorithm. Their performance was evaluated via comparative simulation tests, made not only against each other but also against two other well-known algorithms. This appraisal was made using statistical testing. The test results, that proved the efficacy of the algorithms proposed, were analyzed and concluding remarks were drawn. [ABSTRACT FROM AUTHOR]

Published

2020

19. Energy Efficient Routing in Wireless Sensor Networks: A Comprehensive Survey.

Author

Nakas, Christos, Kandris, Dionisis, and Visvardis, Georgios

Subjects

*WIRELESS sensor networks, *MULTICASTING (Computer networks), *ENERGY conservation, *ENERGY function, *QUALITY of service, *RADIO (Medium)

Abstract

Wireless Sensor Networks (WSNs) are among the most emerging technologies, thanks to their great capabilities and their ever growing range of applications. However, the lifetime of WSNs is extremely restricted due to the delimited energy capacity of their sensor nodes. This is why energy conservation is considered as the most important research concern for WSNs. Radio communication is the utmost energy consuming function in a WSN. Thus, energy efficient routing is necessitated to save energy and thus prolong the lifetime of WSNs. For this reason, numerous protocols for energy efficient routing in WSNs have been proposed. This article offers an analytical and up to date survey on the protocols of this kind. The classic and modern protocols presented are categorized, depending on i) how the network is structured, ii) how data are exchanged, iii) whether location information is or not used, and iv) whether Quality of Service (QoS) or multiple paths are or not supported. In each distinct category, protocols are both described and compared in terms of specific performance metrics, while their advantages and disadvantages are discussed. Finally, the study findings are discussed, concluding remarks are drawn, and open research issues are indicated. [ABSTRACT FROM AUTHOR]

Published

2020

20. Robot Motion Control via an EEG-Based Brain–Computer Interface by Using Neural Networks and Alpha Brainwaves.

Author

Korovesis, Nikolaos, Kandris, Dionisis, Koulouras, Grigorios, and Alexandridis, Alex

Subjects

ROBOT motion, ROBOT control systems, ELECTROENCEPHALOGRAPHY, BRAIN-computer interfaces, MOBILE robots, SIGNAL filtering, COGNITIVE neuroscience, NEUROMUSCULAR diseases

Abstract

Modern achievements accomplished in both cognitive neuroscience and human–machine interaction technologies have enhanced the ability to control devices with the human brain by using Brain–Computer Interface systems. Particularly, the development of brain-controlled mobile robots is very important because systems of this kind can assist people, suffering from devastating neuromuscular disorders, move and thus improve their quality of life. The research work presented in this paper, concerns the development of a system which performs motion control in a mobile robot in accordance to the eyes' blinking of a human operator via a synchronous and endogenous Electroencephalography-based Brain–Computer Interface, which uses alpha brain waveforms. The received signals are filtered in order to extract suitable features. These features are fed as inputs to a neural network, which is properly trained in order to properly guide the robotic vehicle. Experimental tests executed on 12 healthy subjects of various gender and age, proved that the system developed is able to perform movements of the robotic vehicle, under control, in forward, left, backward, and right direction according to the alpha brainwaves of its operator, with an overall accuracy equal to 92.1%. [ABSTRACT FROM AUTHOR]

Published

2019

21. A Review of Machine Learning and IoT in Smart Transportation.

Author

Zantalis, Fotios, Koulouras, Grigorios, Karabetsos, Sotiris, and Kandris, Dionisis

Subjects

AUTOMOBILE lighting, INTELLIGENT transportation systems, MACHINE learning, INTERNET of things, ACCIDENT prevention

Abstract

With the rise of the Internet of Things (IoT), applications have become smarter and connected devices give rise to their exploitation in all aspects of a modern city. As the volume of the collected data increases, Machine Learning (ML) techniques are applied to further enhance the intelligence and the capabilities of an application. The field of smart transportation has attracted many researchers and it has been approached with both ML and IoT techniques. In this review, smart transportation is considered to be an umbrella term that covers route optimization, parking, street lights, accident prevention/detection, road anomalies, and infrastructure applications. The purpose of this paper is to make a self-contained review of ML techniques and IoT applications in Intelligent Transportation Systems (ITS) and obtain a clear view of the trends in the aforementioned fields and spot possible coverage needs. From the reviewed articles it becomes profound that there is a possible lack of ML coverage for the Smart Lighting Systems and Smart Parking applications. Additionally, route optimization, parking, and accident/detection tend to be the most popular ITS applications among researchers. [ABSTRACT FROM AUTHOR]

Published

2019

22. Figure of image quality and information capacity in digital mammography.

Author

Michail, Christos M, Kalyvas, Nektarios E, Valais, Ioannis G, Fudos, Ioannis P, Fountos, George P, Dimitropoulos, Nikos, Koulouras, Grigorios, Kandris, Dionisis, Samarakou, Maria, and Kandarakis, Ioannis S

Published

2014

23. Fuzzy regulator design for wind turbine yaw control.

Author

Theodoropoulos S, Kandris D, Samarakou M, and Koulouras G

Subjects

Computer Simulation, Equipment Design, Equipment Failure Analysis, Algorithms, Computer-Aided Design, Electric Power Supplies, Feedback, Fuzzy Logic, Models, Theoretical, Wind

Abstract

This paper proposes the development of an advanced fuzzy logic controller which aims to perform intelligent automatic control of the yaw movement of wind turbines. The specific fuzzy controller takes into account both the wind velocity and the acceptable yaw error correlation in order to achieve maximum performance efficacy. In this way, the proposed yaw control system is remarkably adaptive to the existing conditions. In this way, the wind turbine is enabled to retain its power output close to its nominal value and at the same time preserve its yaw system from pointless movement. Thorough simulation tests evaluate the proposed system effectiveness.

Published

2014

24. Computer-aided modelling and analysis of PV systems: a comparative study.

Author

Koukouvaos C, Kandris D, and Samarakou M

Subjects

Computer Simulation, Models, Theoretical

Abstract

Modern scientific advances have enabled remarkable efficacy for photovoltaic systems with regard to the exploitation of solar energy, boosting them into having a rapidly growing position among the systems developed for the production of renewable energy. However, in many cases the design, analysis, and control of photovoltaic systems are tasks which are quite complex and thus difficult to be carried out. In order to cope with this kind of problems, appropriate software tools have been developed either as standalone products or parts of general purpose software platforms used to model and simulate the generation, transmission, and distribution of solar energy. The utilization of this kind of software tools may be extremely helpful to the successful performance evaluation of energy systems with maximum accuracy and minimum cost in time and effort. The work presented in this paper aims on a first level at the performance analysis of various configurations of photovoltaic systems through computer-aided modelling. On a second level, it provides a comparative evaluation of the credibility of two of the most advanced graphical programming environments, namely, Simulink and LabVIEW, with regard to their application in photovoltaic systems.

Published

2014