Visible to the public Biblio

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2023-09-01
Fang, Lele, Liu, Jiahao, Zhu, Yan, Chan, Chi-Hang, Martins, Rui Paulo.  2022.  LSB-Reused Protection Technique in Secure SAR ADC against Power Side-Channel Attack. 2022 Asian Hardware Oriented Security and Trust Symposium (AsianHOST). :1—6.
Successive approximation register analog-to-digital converter (SAR ADC) is widely adopted in the Internet of Things (IoT) systems due to its simple structure and high energy efficiency. Unfortunately, SAR ADC dissipates various and unique power features when it converts different input signals, leading to severe vulnerability to power side-channel attack (PSA). The adversary can accurately derive the input signal by only measuring the power information from the analog supply pin (AVDD), digital supply pin (DVDD), and/or reference pin (Ref) which feed to the trained machine learning models. This paper first presents the detailed mathematical analysis of power side-channel attack (PSA) to SAR ADC, concluding that the power information from AVDD is the most vulnerable to PSA compared with the other supply pin. Then, an LSB-reused protection technique is proposed, which utilizes the characteristic of LSB from the SAR ADC itself to protect against PSA. Lastly, this technique is verified in a 12-bit 5 MS/s secure SAR ADC implemented in 65nm technology. By using the current waveform from AVDD, the adopted convolutional neural network (CNN) algorithms can achieve \textgreater99% prediction accuracy from LSB to MSB in the SAR ADC without protection. With the proposed protection, the bit-wise accuracy drops to around 50%.
2023-08-04
AnishFathima, B., Mahaboob, M., Kumar, S.Gokul, Jabakumar, A.Kingsly.  2022.  Secure Wireless Sensor Network Energy Optimization Model with Game Theory and Deep Learning Algorithm. 2022 8th International Conference on Advanced Computing and Communication Systems (ICACCS). 1:1746–1751.
Rational and smart decision making by means of strategic interaction and mathematical modelling is the key aspect of Game theory. Security games based on game theory are used extensively in cyberspace for various levels of security. The contemporary security issues can be modelled and analyzed using game theory as a robust mathematical framework. The attackers, defenders and the adversarial as well as defensive interactions can be captured using game theory. The security games equilibrium evaluation can help understand the attackers' strategies and potential threats at a deeper level for efficient defense. Wireless sensor network (WSN) designs are greatly benefitted by game theory. A deep learning adversarial network algorithm is used in combination with game theory enabling energy efficiency, optimal data delivery and security in a WSN. The trade-off between energy resource utilization and security is balanced using this technique.
ISSN: 2575-7288
2023-05-30
Saranya, K., Valarmathi, Dr. A..  2022.  A Comparative Study on Machine Learning based Cross Layer Security in Internet of Things (IoT). 2022 International Conference on Automation, Computing and Renewable Systems (ICACRS). :267—273.
The Internet of Things is a developing technology that converts physical objects into virtual objects connected to the internet using wired and wireless network architecture. Use of cross-layer techniques in the internet of things is primarily driven by the high heterogeneity of hardware and software capabilities. Although traditional layered architecture has been effective for a while, cross-layer protocols have the potential to greatly improve a number of wireless network characteristics, including bandwidth and energy usage. Also, one of the main concerns with the internet of things is security, and machine learning (ML) techniques are thought to be the most cuttingedge and viable approach. This has led to a plethora of new research directions for tackling IoT's growing security issues. In the proposed study, a number of cross-layer approaches based on machine learning techniques that have been offered in the past to address issues and challenges brought on by the variety of IoT are in-depth examined. Additionally, the main issues are mentioned and analyzed, including those related to scalability, interoperability, security, privacy, mobility, and energy utilization.
2023-05-12
Saldutti, Marco, Yu, Yi, Kristensen, Philip Trøst, Kountouris, George, Mørk, Jesper.  2022.  Carrier dynamics in nonlinear photonic nanocavities with extreme dielectric confinement. 2022 IEEE Photonics Conference (IPC). :1–2.
We show that a new type of dielectric cavity featuring deep sub-wavelength light confinement allows a significant speedup of all-optical signal processing functionalities, without compromising the energy efficiency. The effect is due to enhanced diffusion dynamics in an unconventional geometry.
ISSN: 2575-274X
Glocker, Tobias, Mantere, Timo.  2022.  Implementation of an Intelligent Caravan Monitoring System Using the Controller Area Network. 2022 International Conference on Electrical, Computer and Energy Technologies (ICECET). :1–6.
Nowadays, safety systems are an important feature for modern vehicles. Many accidents would have been occurred without them. In comparison with older vehicles, modern vehicles have a much better crumple zone, more airbags, a better braking system, as well as a much better and safer driving behaviour. Although, the vehicles safety systems are working well in these days, there is still space for improvement and for adding new security features. This paper describes the implementation of an Intelligent Caravan Monitoring System (ICMS) using the Controller Area Network (CAN), for the communication between the vehicle’s electronic system and the trailer’s electronic system. Furthermore, a comparison between the communication technology of this paper and a previous published paper will be made. The new system is faster, more flexible and more energy efficient.
2023-02-17
Daoud, Luka, Rafla, Nader.  2022.  Energy-Efficient Black Hole Router Detection in Network-on-Chip. 2022 IEEE 35th International System-on-Chip Conference (SOCC). :1–6.
The Network-on-Chip (NoC) is the communication heart in Multiprocessors System-on-Chip (MPSoC). It offers an efficient and scalable interconnection platform, which makes it a focal point of potential security threats. Due to outsourcing design, the NoC can be infected with a malicious circuit, known as Hardware Trojan (HT), to leak sensitive information or degrade the system’s performance and function. An HT can form a security threat by consciously dropping packets from the NoC, structuring a Black Hole Router (BHR) attack. This paper presents an end-to-end secure interconnection network against the BHR attack. The proposed scheme is energy-efficient to detect the BHR in runtime with 1% and 2% average throughput and energy consumption overheads, respectively.
2023-01-05
Garcia, Carla E., Camana, Mario R., Koo, Insoo.  2022.  DNN aided PSO based-scheme for a Secure Energy Efficiency Maximization in a cooperative NOMA system with a non-linear EH. 2022 Thirteenth International Conference on Ubiquitous and Future Networks (ICUFN). :155–160.
Physical layer security is an emerging security area to tackle wireless security communications issues and complement conventional encryption-based techniques. Thus, we propose a novel scheme based on swarm intelligence optimization technique and a deep neural network (DNN) for maximizing the secrecy energy efficiency (SEE) in a cooperative relaying underlay cognitive radio- and non-orthogonal multiple access (NOMA) system with a non-linear energy harvesting user which is exposed to multiple eavesdroppers. Satisfactorily, simulation results show that the proposed particle swarm optimization (PSO)-DNN framework achieves close performance to that of the optimal solutions, with a meaningful reduction in computation complexity.
2022-12-06
Verma, Sachin Kumar, Verma, Abhishek, Pandey, Avinash Chandra.  2022.  Addressing DAO Insider Attacks in IPv6-Based Low-Power and Lossy Networks. 2022 IEEE Region 10 Symposium (TENSYMP). :1-6.

Low-Power and Lossy Networks (LLNs) run on resource-constrained devices and play a key role in many Industrial Internet of Things and Cyber-Physical Systems based applications. But, achieving an energy-efficient routing in LLNs is a major challenge nowadays. This challenge is addressed by Routing Protocol for Low-power Lossy Networks (RPL), which is specified in RFC 6550 as a “Proposed Standard” at present. In RPL, a client node uses Destination Advertisement Object (DAO) control messages to pass on the destination information towards the root node. An attacker may exploit the DAO sending mechanism of RPL to perform a DAO Insider attack in LLNs. In this paper, it is shown that an aggressive attacker can drastically degrade the network performance. To address DAO Insider attack, a lightweight defense solution is proposed. The proposed solution uses an early blacklisting strategy to significantly mitigate the attack and restore RPL performance. The proposed solution is implemented and tested on Cooja Simulator.

2022-10-03
Mutalemwa, Lilian C., Shin, Seokjoo.  2021.  Energy Balancing and Source Node Privacy Protection in Event Monitoring Wireless Networks. 2021 International Conference on Information Networking (ICOIN). :792–797.
It is important to ensure source location privacy (SLP) protection in safety-critical monitoring applications. Also, to achieve effective long-term monitoring, it is essential to design SLP protocols with high energy efficiency and energy balancing. Therefore, this study proposes a new phantom with angle (PwA) protocol. The PwA protocol employs dynamic routing paths which are designed to achieve SLP protection with energy efficiency and energy balancing. Analysis results reveal that the PwA protocol exhibits superior performance features to outperform existing protocols by achieving high levels of SLP protection for time petime periods. The results confirm that the PwA protocol is practical in long-term monitoring systems.riods. The results confirm that the PwA protocol is practical in long-term monitoring systems.
Mutalemwa, Lilian C., Shin, Seokjoo.  2021.  The Impact of Energy-Inefficient Communications on Location Privacy Protection in Monitoring Wireless Networks. 2021 Twelfth International Conference on Ubiquitous and Future Networks (ICUFN). :289–294.
Wireless sensor networks (WSNs) have gained increasing popularity in ubiquitous support of sensing system services. Often, WSNs are energy-constrained and they are deployed in harsh and unattended environments. Consequently, WSNs are vulnerable to energy and environmental factors. To ensure secure and reliable operations in safety-critical monitoring WSNs, it is important to guarantee energy-efficient communications, location privacy protection, and reliability. Fake packet-based source location privacy (SLP) protocols are known to be energy-inefficient. Therefore, in this study, we investigate the impact of energy-inefficient communications on the privacy performance of the fake packet-based SLP protocols. Experiment results show that the protocols achieve short-term and less reliable SLP protection.
2022-09-30
Robert Doebbert, Thomas, Krush, Dmytro, Cammin, Christoph, Jockram, Jonas, Heynicke, Ralf, Scholl, Gerd.  2021.  IO-Link Wireless Device Cryptographic Performance and Energy Efficiency. 2021 22nd IEEE International Conference on Industrial Technology (ICIT). 1:1106–1112.
In the context of the Industry 4.0 initiative, Cyber-Physical Production Systems (CPPS) or Cyber Manufacturing Systems (CMS) can be characterized as advanced networked mechatronic production systems gaining their added value by interaction with different systems using advanced communication technologies. Appropriate wired and wireless communication technologies and standards need to add timing in combination with security concepts to realize the potential improvements in the production process. One of these standards is IO-Link Wireless, which is used for sensor/actuator network operation. In this paper cryptographic performance and energy efficiency of an IO-Link Wireless Device are analyzed. The power consumption and the influence of the cryptographic operations on the trans-mission timing of the IO-Link Wireless protocol are exemplary measured employing a Phytec module based on a CC2650 system-on-chip (SoC) radio transceiver [2]. Confidentiality is considered in combination with the cryptographic performance as well as the energy efficiency. Different cryptographic algorithms are evaluated using the on chip hardware accelerator compared to a cryptographic software implementation.
2022-08-26
Sahoo, Siva Satyendra, Kumar, Akash, Decky, Martin, Wong, Samuel C.B., Merrett, Geoff V., Zhao, Yinyuan, Wang, Jiachen, Wang, Xiaohang, Singh, Amit Kumar.  2021.  Emergent Design Challenges for Embedded Systems and Paths Forward: Mixed-criticality, Energy, Reliability and Security Perspectives: Special Session Paper. 2021 International Conference on Hardware/Software Codesign and System Synthesis (CODES+ISSS). :1–10.
Modern embedded systems need to cater for several needs depending upon the application domain in which they are deployed. For example, mixed-critically needs to be considered for real-time and safety-critical systems and energy for battery-operated systems. At the same time, many of these systems demand for their reliability and security as well. With electronic systems being used for increasingly varying type of applications, novel challenges have emerged. For example, with the use of embedded systems in increasingly complex applications that execute tasks with varying priorities, mixed-criticality systems present unique challenges to designing reliable systems. The large design space involved in implementing cross-layer reliability in heterogeneous systems, particularly for mixed-critical systems, poses new research problems. Further, malicious security attacks on these systems pose additional extraordinary challenges in the system design. In this paper, we cover both the industry and academia perspectives of the challenges posed by these emergent aspects of system design towards designing highperformance, energy-efficient, reliable and/or secure embedded systems. We also provide our views on paths forward.
2022-07-01
Nallarasan, V., Kottilingam, K..  2021.  Spectrum Management Analysis for Cognitive Radio IoT. 2021 International Conference on Computer Communication and Informatics (ICCCI). :1—5.
Recently, several Internet of Things Tools have been created, contributing to growing network loads. To refrain from IoT should use the idea of cognitive radio networks because of the lack of bandwidth. This article presents much of the research discusses the distribution of channels and preparation of packets when combining cognitive radio networks with IoT technology and we are further discussing the spectrum-based Features and heterogeneity in cognitive IoT Security. Surveying the research performed in this field reveals that the work performed is still developing. A variety of inventions and experiments are part of its initial phases.
Chen, Lei.  2021.  Layered Security Multicast Algorithm based on Security Energy Efficiency Maximization in SCMA Networks. 2021 7th International Conference on Computer and Communications (ICCC). :2033–2037.
This paper studies the hierarchical secure multicast algorithm in sparse code multiple access (SCMA) networks, its network security capacity is no longer limited by the users with the worst channel quality in multicast group. Firstly, we propose a network security energy efficiency (SEE) maximization problem. Secondly, in order to reduce the computational complexity, we propose a suboptimal algorithm (SA), which separates the codebook assignment with artificial noise from the power allocation with artificial noise. To further decrease the complexity of Lagrange method, a power allocation algorithm with increased fixed power is introduced. Finally, simulation results show that the network performance of the proposed algorithm in SCMA network is significantly better than that in orthogonal frequency division multiple access (OFDMA) network.
2022-05-24
Zamry, Nurfazrina Mohd, Zainal, Anazida, Rassam, Murad A..  2021.  LEACH-CR: Energy Saving Hierarchical Network Protocol Based on Low-Energy Adaptive Clustering Hierarchy for Wireless Sensor Networks. 2021 3rd International Cyber Resilience Conference (CRC). :1–6.
Wireless Sensor Network consists of hundreds to thousands of tiny sensor nodes deployed in the large field of the target phenomenon. Sensor nodes have advantages for its size, multifunctional, and inexpensive features; unfortunately, the resources are limited in terms of memory, computational, and in energy, especially. Network transmission between nodes and base station (BS) needs to be carefully designed to prolong the network life cycle. As the data transmission is energy consuming compared to data processing, designing sensor nodes into hierarchical network architecture is preferable because it can limit the network transmission. LEACH is one of the hierarchical network protocols known for simple and energy saving protocols. There are lots of modification made since LEACH was introduced for more energy efficient purposed. In this paper, hybridization of LEACH-C and LEACH-R and the modification have been presented for a more energy saving LEACH called LEACH-CR. Experimental result was compared with previous LEACH variant and showed to has advantages over the existing LEACH protocols in terms of energy consumption, dead/alive nodes, and the packet sent to Base Station. The result reflects that the consideration made for residual energy to select the cluster head and proximity transmission lead to a better energy consumption in the network.
2022-05-10
Pham, Thanh V., Pham, Anh T..  2021.  Energy-Efficient Friendly Jamming for Physical Layer Security in Visible Light Communication. 2021 IEEE International Conference on Communications Workshops (ICC Workshops). :1–6.
This work studies an energy-efficient jamming scheme for enhancing physical layer security in visible light communication (VLC). We consider a VLC system where multiple LED luminaries are deployed together with a legitimate user (i.e., Bob) and passive eavesdroppers (i.e., Eves). In such a scenario, the closest LED luminary to Bob serves as the transmitter while the rest of the luminaries act as jammers transmitting artificial noise (AN) to possibly degrade the quality of Eves' channels. A joint design of precoder and AN is then investigated to maximize the energy efficiency (EE) of the communication channel to Bob while ensuring a certain amount of AN power to confuse Eves. To solve the design problem, we make use of a combination of the Dinkelbach and convex-concave procedure (CCCP), which guarantees to converge to a local optimum.
2022-04-19
Shafique, Muhammad, Marchisio, Alberto, Wicaksana Putra, Rachmad Vidya, Hanif, Muhammad Abdullah.  2021.  Towards Energy-Efficient and Secure Edge AI: A Cross-Layer Framework ICCAD Special Session Paper. 2021 IEEE/ACM International Conference On Computer Aided Design (ICCAD). :1–9.
The security and privacy concerns along with the amount of data that is required to be processed on regular basis has pushed processing to the edge of the computing systems. Deploying advanced Neural Networks (NN), such as deep neural networks (DNNs) and spiking neural networks (SNNs), that offer state-of-the-art results on resource-constrained edge devices is challenging due to the stringent memory and power/energy constraints. Moreover, these systems are required to maintain correct functionality under diverse security and reliability threats. This paper first discusses existing approaches to address energy efficiency, reliability, and security issues at different system layers, i.e., hardware (HW) and software (SW). Afterward, we discuss how to further improve the performance (latency) and the energy efficiency of Edge AI systems through HW/SW-level optimizations, such as pruning, quantization, and approximation. To address reliability threats (like permanent and transient faults), we highlight cost-effective mitigation techniques, like fault-aware training and mapping. Moreover, we briefly discuss effective detection and protection techniques to address security threats (like model and data corruption). Towards the end, we discuss how these techniques can be combined in an integrated cross-layer framework for realizing robust and energy-efficient Edge AI systems.
Gharib, Anastassia, Ibnkahla, Mohamed.  2021.  Security Aware Cluster Head Selection with Coverage and Energy Optimization in WSNs for IoT. ICC 2021 - IEEE International Conference on Communications. :1–6.
Nodes in wireless Internet of Things (IoT) sensor networks are heterogeneous in nature. This heterogeneity can come from energy and security resources available at the node level. Besides, these resources are usually limited. Efficient cluster head (CH) selection in rounds is the key to preserving energy resources of sensor nodes. However, energy and security resources are contradictory to one another. Therefore, it is challenging to ensure CH selection with appropriate security resources without decreasing energy efficiency. Coverage and energy optimization subject to a required security level can form a solution to the aforementioned trade-off. This paper proposes a security level aware CH selection algorithm in wireless sensor networks for IoT. The proposed method considers energy and security level updates for nodes and coverage provided by associated CHs. The proposed method performs CH selection in rounds and in a centralized parallel processing way, making it applicable to the IoT scenario. The proposed algorithm is compared to existing traditional and emerging CH selection algorithms that apply security mechanisms in terms of energy and security efficiencies.
Wagle, S.K., Bazilraj, A.A, Ray, K.P..  2021.  Energy Efficient Security Solution for Attacks on Wireless Sensor Networks. 2021 2nd International Conference on Advances in Computing, Communication, Embedded and Secure Systems (ACCESS). :313–318.
Wireless Sensor Networks (WSN) are gaining popularity as being the backbone of Cyber physical systems, IOT and various data acquisition from sensors deployed in remote, inaccessible terrains have remote deployment. However due to remote deployment, WSN is an adhoc network of large number of sensors either heli-dropped in inaccessible terrain like volcanoes, Forests, border areas are highly energy deficient and available in large numbers. This makes it the right soup to become vulnerable to various kinds of Security attacks. The lack of energy and resources makes it deprived of developing a robust security code for mitigation of various kinds of attacks. Many attempts have been made to suggest a robust security Protocol. But these consume so much energy, bandwidth, processing power, memory and other resources that the sole purpose of data gathering from inaccessible terrain from energy deprived sensors gets defeated. This paper makes an attempt to study the types of attacks on different layers of WSN and the examine the recent trends in development of various security protocols to mitigate the attacks. Further, we have proposed a simple, lightweight but powerful security protocol known as Simple Sensor Security Protocol (SSSP), which captures the uniqueness of WSN and its isolation from internet to develop an energy efficient security solution.
2022-03-15
Hu, Yanbu, Shao, Cuiping, Li, Huiyun.  2021.  Energy-Efficient Deep Neural Networks Implementation on a Scalable Heterogeneous FPGA Cluster. 2021 IEEE 15th International Conference on Anti-counterfeiting, Security, and Identification (ASID). :10—15.
In recent years, with the rapid development of DNN, the algorithm complexity in a series of fields such as computer vision and natural language processing is increasing rapidly. FPGA-based DNN accelerators have demonstrated superior flexibility and performance, with higher energy efficiency compared to high-performance devices such as GPU. However, the computing resources of a single FPGA are limited and it is difficult to flexibly meet the requirements of high throughput and high energy efficiency of different computing scales. Therefore, this paper proposes a DNN implementation method based on the scalable heterogeneous FPGA cluster to adapt to different tasks and achieve high throughput and energy efficiency. Firstly, the method divides a single enormous task into multiple modules and running each module on different FPGA as the pipeline structure between multiple boards. Secondly, a task deployment method based on dichotomy is proposed to maximize the balance of task execution time of different pipeline stages to improve throughput and energy efficiency. Thirdly, optimize DNN computing module according to the relationship between computing power and bandwidth, and improve energy efficiency by reducing waste of ineffective resources and improving resource utilization. The experiment results on Alexnet and VGG-16 demonstrate that we use Zynq 7035 cluster can at most achieves ×25.23 energy efficiency of optimized AMD AIO processor. Compared with previous works of single FPGA and FPGA cluster, the energy efficiency is improved by 59.5% and 18.8%, respectively.
2022-02-24
Panda, Subhasis, Rout, Pravat Kumar, Sahu, Binod Kumar.  2021.  Residential Sector Demand Side Management: A Review. 2021 1st Odisha International Conference on Electrical Power Engineering, Communication and Computing Technology(ODICON). :1–6.
Demand-side management (DSM) plays a significant function in the smart distribution system to make informed decisions from both the consumer and supplier side with regards to energy consumption to redesign the load profile and to decrease the peak load demand. This study extensively reviews the demand-side management (DSM) strategies along with both demand response and energy efficiency policies. The major objective of this paper is to enumerate the relevant features responsible to strengthen the DSM effectively, particularly for residential energy demand and the limits to energy indicators. Secondly, the large untapped and hidden potential and the associated barriers to energy efficiency enhancement are focused and surveyed for formulating a better number of potential policy responses. This further explores the portfolio approach with bundled strategies to reflect on the power market through enhancing the strength of individual residential measures through complementary policies to reduce the weaknesses. This concludes at last with the findings of possible holistic measures related to various approaches and attributes findings that reinforce the DSM strategies to enhance energy management and cost-effectiveness. Apart from that the architecture, formulation of optimization problems, and various approaches are presented to help the readers to develop research in this direction to maximize the total system peak demand, overall load factor, and utility revenue with the minimized customer electric bill.
2022-01-25
Rexha, Hergys, Lafond, Sébastien.  2021.  Data Collection and Utilization Framework for Edge AI Applications. 2021 IEEE/ACM 1st Workshop on AI Engineering - Software Engineering for AI (WAIN). :105—108.
As data being produced by IoT applications continues to explode, there is a growing need to bring computing power closer to the source of the data to meet the response-time, power dissipation and cost goals of performance-critical applications in various domains like Industrial Internet of Things (IIoT), Automated Driving, Medical Imaging or Surveillance among others. This paper proposes a data collection and utilization framework that allows runtime platform and application data to be sent to an edge and cloud system via data collection agents running close to the platform. Agents are connected to a cloud system able to train AI models to improve overall energy efficiency of an AI application executed on a edge platform. In the implementation part we show the benefits of FPGA-based platform for the task of object detection. Furthermore we show that it is feasible to collect relevant data from an FPGA platform, transmit the data to a cloud system for processing and receiving feedback actions to execute an edge AI application energy efficiently. As future work we foresee the possibility to train, deploy and continuously improve a base model able to efficiently adapt the execution of edge applications.
2021-12-20
Cheng, Xia, Shi, Junyang, Sha, Mo, Guo, Linke.  2021.  Launching Smart Selective Jamming Attacks in WirelessHART Networks. IEEE INFOCOM 2021 - IEEE Conference on Computer Communications. :1–10.
As a leading industrial wireless standard, WirelessHART has been widely implemented to build wireless sensor-actuator networks (WSANs) in industrial facilities, such as oil refineries, chemical plants, and factories. For instance, 54,835 WSANs that implement the WirelessHART standard have been deployed globally by Emerson process management, a WirelessHART network supplier, to support process automation. While the existing research to improve industrial WSANs focuses mainly on enhancing network performance, the security aspects have not been given enough attention. We have identified a new threat to WirelessHART networks, namely smart selective jamming attacks, where the attacker first cracks the channel usage, routes, and parameter configuration of the victim network and then jams the transmissions of interest on their specific communication channels in their specific time slots, which makes the attacks energy efficient and hardly detectable. In this paper, we present this severe, stealthy threat by demonstrating the step-by-step attack process on a 50-node network that runs a publicly accessible WirelessHART implementation. Experimental results show that the smart selective jamming attacks significantly reduce the network reliability without triggering network updates.
2021-07-08
Gomathi, R. M., Keerthana, Kare, Priyanka, Kamatham, Anandhi, T..  2020.  Energy Efficient Data Gathering Scheme in Underwater Sensor Networks. 2020 5th International Conference on Communication and Electronics Systems (ICCES). :480—485.
In this paper, an energy routing algorithm, called SAODV (secure Ad hoc On Demand Distance Vector) is designed for ad hoc mobile networks. SAODV is capable of both unicast and multicast routing. It is an on demand algorithm, meaning that it builds routes between nodes only as desired by source nodes. It maintains these routes as long as they are needed by the sources. Additionally, SAODV forms trees which connect multicast group members. The trees are composed of the group members and the nodes needed to connect the members. Extensive simulations are conducted to study the power consumption, the end-to-end delay, and the network throughput of our protocols compared with existing protocols. Efficiently handling losses in wireless environments, therefore, has significant importance. Even under benign conditions, various factors, like fading, interference, multi-path effects, and collisions, lead to heavy loss rates on wireless links.
Ozmen, Alper, Yildiz, Huseyin Ugur, Tavli, Bulent.  2020.  Impact of Minimizing the Eavesdropping Risks on Lifetime of Underwater Acoustic Sensor Networks. 2020 28th Telecommunications Forum (℡FOR). :1—4.
Underwater Acoustic Sensor Networks (UASNs) are often deployed in hostile environments, and they face many security threats. Moreover, due to the harsh characteristics of the underwater environment, UASNs are vulnerable to malicious attacks. One of the most dangerous security threats is the eavesdropping attack, where an adversary silently collects the information exchanged between the sensor nodes. Although careful assignment of transmission power levels and optimization of data flow paths help alleviate the extent of eavesdropping attacks, the network lifetime can be negatively affected since routing could be established using sub-optimal paths in terms of energy efficiency. In this work, two optimization models are proposed where the first model minimizes the potential eavesdropping risks in the network while the second model maximizes the network lifetime under a certain level of an eavesdropping risk. The results show that network lifetimes obtained when the eavesdropping risks are minimized significantly shorter than the network lifetimes obtained without considering any eavesdropping risks. Furthermore, as the countermeasures against the eavesdropping risks are relaxed, UASN lifetime is shown to be prolonged, significantly.