Visible to the public Biblio

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Sree Ranjani, R, Nirmala Devi, M.  2018.  A Novel Logical Locking Technique Against Key-Guessing Attacks. 2018 8th International Symposium on Embedded Computing and System Design (ISED). :178—182.
Logical locking is the most popular countermeasure against the hardware attacks like intellectual property (IP) piracy, Trojan insertion and illegal integrated circuit (IC) overproduction. The functionality of the design is locked by the added logics into the design. Thus, the design is accessible only to the authorized users by applying the valid keys. However, extracting the secret key of the logically locked design have become an extensive effort and it is commonly known as key guessing attacks. Thus, the main objective of the proposed technique is to build a secured hardware against attacks like Brute force attack, Hill climbing attack and path sensitization attacks. Furthermore, the gates with low observability are chosen for encryption, this is to obtain an optimal output corruption of 50% Hamming distance with minimal design overhead and implementation complexity. The experimental results are validated on ISCAS'85 benchmark circuits, with a highly secured locking mechanism.
Zhang, Lei, Zhang, Jianqing, Chen, Yong, Liao, Shaowen.  2018.  Research on the Simulation Algorithm of Object-Oriented Language. 2018 3rd International Conference on Smart City and Systems Engineering (ICSCSE). :902—904.

Security model is an important subject in the field of low energy independence complexity theory. It takes security strategy as the core, changes the system from static protection to dynamic protection, and provides the basis for the rapid response of the system. A large number of empirical studies have been conducted to verify the cache consistency. The development of object oriented language is pure object oriented language, and the other is mixed object oriented language, that is, adding class, inheritance and other elements in process language and other languages. This paper studies a new object-oriented language application, namely GUT for a write-back cache, which is based on the study of simulation algorithm to solve all these challenges in the field of low energy independence complexity theory.

Qiu, Tongsheng, Wang, Xianyi, Tian, Yusen, Du, Qifei, Sun, Yueqiang.  2019.  A System Design of Real-Time Narrowband Rfi Detection And Mitigation for Gnss-R Receiver. IGARSS 2019 - 2019 IEEE International Geoscience and Remote Sensing Symposium. :5167–5170.

With the rapid development of radio detection and wireless communication, narrowband radio-frequency interference (NB-RFI) is a serious threat for GNSS-R (global navigation satellite systems - reflectometry) receivers. However, interferometric GNSS-R (iGNSS-R) is more prone to the NB-RFIs than conventional GNSS-R (cGNSS-R), due to wider bandwidth and unclean replica. Therefore, there is strong demand of detecting and mitigating NB-RFIs for GNSS-R receivers, especially iGNSS-R receivers. Hence, focusing on working with high sampling rate and simplifying the fixed-point implementation on FPGA, this paper proposes a system design exploiting cascading IIR band-stop filters (BSFs) to suppress NB-RFIs. Furthermore, IIR BSF compared with IIR notch filter (NF) and IIR band-pass filter (BPF) is the merely choice that is able to mitigate both white narrowband interference (WNBI) and continuous wave interference (CWI) well. Finally, validation and evaluation are conducted, and then it is indicated that the system design can detect NB-RFIs and suppress WNBI and CWI effectively, which improves the signal-to-noise ratio (SNR) of the Delay-Doppler map (DDM).

Fayyad, S., Noll, J..  2017.  A Framework for Measurability of Security. 2017 8th International Conference on Information and Communication Systems (ICICS). :302–309.

Having an effective security level for Embedded System (ES), helps a reliable and stable operation of this system. In order to identify, if the current security level for a given ES is effective or not, we need a proactive evaluation for this security level. The evaluation of the security level for ESs is not straightforward process, things like the heterogeneity among the components of ES complicate this process. One of the productive approaches, which overcame the complexity of evaluation for Security, Privacy and Dependability (SPD) is the Multi Metrics (MM). As most of SPD evaluation approaches, the MM approach bases on the experts knowledge for the basic evaluation. Regardless of its advantages, experts evaluation has some drawbacks, which foster the need for less experts-dependent evaluation. In this paper, we propose a framework for security measurability as a part of security, privacy and dependability evaluation. The security evaluation based on Multi Metric (MM) approach as being an effective approach for evaluations, thus, we call it MM framework. The art of evaluation investigated within MM framework, based also on systematic storing and retrieving of experts knowledge. Using MM framework, the administrator of the ES could evaluate and enhance the S-level of their system, without being an expert in security.

Potii, O., Gorbenko, Y., Isirova, K..  2017.  Post quantum hash based digital signatures comparative analysis. Features of their implementation and using in public key infrastructure. 2017 4th International Scientific-Practical Conference Problems of Infocommunications. Science and Technology (PIC S T). :105–109.

The paper contains the results of perspective digital signatures algorithms based on hash functions analysis. Several aspects of their implementation are presented. The comparative analysis was carried out by the method of hierarchies. Some problems of implementation in the existing infrastructure are described. XMSS algorithm implementation with Ukrainian hash function national standard is presented.

Gai, K., Qiu, M..  2017.  An Optimal Fully Homomorphic Encryption Scheme. 2017 ieee 3rd international conference on big data security on cloud (bigdatasecurity), ieee international conference on high performance and smart computing (hpsc), and ieee international conference on intelligent data and security (ids). :101–106.

The expeditious expansion of the networking technologies have remarkably driven the usage of the distributedcomputing as well as services, such as task offloading to the cloud. However, security and privacy concerns are restricting the implementations of cloud computing because of the threats from both outsiders and insiders. The primary alternative of protecting users' data is developing a Fully Homomorphic Encryption (FHE) scheme, which can cover both data protections and data processing in the cloud. Despite many previous attempts addressing this approach, none of the proposed work can simultaneously satisfy two requirements that include the non-noise accuracy and an efficiency execution. This paper focuses on the issue of FHE design and proposes a novel FHE scheme, which is called Optimal Fully Homomorphic Encryption (O-FHE). Our approach utilizes the properties of the Kronecker Product (KP) and designs a mechanism of achieving FHE, which consider both accuracy and efficiency. We have assessed our scheme in both theoretical proofing and experimental evaluations with the confirmed and exceptional results.

Whelihan, D., Vai, M., Evanich, N., Kwak, K. J., Li, J., Britton, M., Frantz, B., Hadcock, D., Lynch, M., Schafer, D. et al..  2017.  Designing agility and resilience into embedded systems. MILCOM 2017 - 2017 IEEE Military Communications Conference (MILCOM). :249–254.

Cyber-Physical Systems (CPS) such as Unmanned Aerial Systems (UAS) sense and actuate their environment in pursuit of a mission. The attack surface of these remotely located, sensing and communicating devices is both large, and exposed to adversarial actors, making mission assurance a challenging problem. While best-practice security policies should be followed, they are rarely enough to guarantee mission success as not all components in the system may be trusted and the properties of the environment (e.g., the RF environment) may be under the control of the attacker. CPS must thus be built with a high degree of resilience to mitigate threats that security cannot alleviate. In this paper, we describe the Agile and Resilient Embedded Systems (ARES) methodology and metric set. The ARES methodology pursues cyber security and resilience (CSR) as high level system properties to be developed in the context of the mission. An analytic process guides system developers in defining mission objectives, examining principal issues, applying CSR technologies, and understanding their interactions.