Search

Your search keyword '"Sohrabi, Nasrin"' showing total 143 results
Start Over Author "Sohrabi, Nasrin"
143 results on '"Sohrabi, Nasrin"'

1. RPDP: An Efficient Data Placement based on Residual Performance for P2P Storage Systems

Author

Pakana, Fitrio, Sohrabi, Nasrin, Xu, Chenhao, Tari, Zahir, and Dong, Hai

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

Storage systems using Peer-to-Peer (P2P) architecture are an alternative to the traditional client-server systems. They offer better scalability and fault tolerance while at the same time eliminate the single point of failure. The nature of P2P storage systems (which consist of heterogeneous nodes) introduce however data placement challenges that create implementation trade-offs (e.g., between performance and scalability). Existing Kademlia-based DHT data placement method stores data at closest node, where the distance is measured by bit-wise XOR operation between data and a given node. This approach is highly scalable because it does not require global knowledge for placing data nor for the data retrieval. It does not however consider the heterogeneous performance of the nodes, which can result in imbalanced resource usage affecting the overall latency of the system. Other works implement criteria-based selection that addresses heterogeneity of nodes, however often cause subsequent data retrieval to require global knowledge of where the data stored. This paper introduces Residual Performance-based Data Placement (RPDP), a novel data placement method based on dynamic temporal residual performance of data nodes. RPDP places data to most appropriate selected nodes based on their throughput and latency with the aim to achieve lower overall latency by balancing data distribution with respect to the individual performance of nodes. RPDP relies on Kademlia-based DHT with modified data structure to allow data subsequently retrieved without the need of global knowledge. The experimental results indicate that RPDP reduces the overall latency of the baseline Kademlia-based P2P storage system (by 4.87%) and it also reduces the variance of latency among the nodes, with minimal impact to the data retrieval complexity.

Published
2023

2. AICons: An AI-Enabled Consensus Algorithm Driven by Energy Preservation and Fairness

Author

Xiong, Qi, Sohrabi, Nasrin, Dong, Hai, Xu, Chenhao, and Tari, Zahir

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

Blockchain has been used in several domains. However, this technology still has major limitations that are largely related to one of its core components, namely the consensus protocol/algorithm. Several solutions have been proposed in literature and some of them are based on the use of Machine Learning (ML) methods. The ML-based consensus algorithms usually waste the work done by the (contributing/participating) nodes, as only winners' ML models are considered/used, resulting in low energy efficiency. To reduce energy waste and improve scalability, this paper proposes an AI-enabled consensus algorithm (named AICons) driven by energy preservation and fairness of rewarding nodes based on their contribution. In particular, the local ML models trained by all nodes are utilised to generate a global ML model for selecting winners, which reduces energy waste. Considering the fairness of the rewards, we innovatively designed a utility function for the Shapley value evaluation equation to evaluate the contribution of each node from three aspects, namely ML model accuracy, energy consumption, and network bandwidth. The three aspects are combined into a single Shapley value to reflect the contribution of each node in a blockchain system. Extensive experiments were carried out to evaluate fairness, scalability, and profitability of the proposed solution. In particular, AICons has an evenly distributed reward-contribution ratio across nodes, handling 38.4 more transactions per second, and allowing nodes to get more profit to support a bigger network than the state-of-the-art schemes.

Published
2023

3. $\pi$QLB: A Privacy-preserving with Integrity-assuring Query Language for Blockchain

Author

Sohrabi, Nasrin, Rattanavipanon, Norrathep, and Tari, Zahir

Subjects
Computer Science - Cryptography and Security
Abstract

The increase in the adoption of blockchain technology in different application domains e.g., healthcare systems, supplychain management, has raised the demand for a data query mechanism on blockchain. Since current blockchain systems lack the support for querying data with embedded security and privacy guarantees, there exists inherent security and privacy concerns on those systems. In particular, existing systems require users to submit queries to blockchain operators (e.g., a node validator) in plaintext. This directly jeopardizes users' privacy as the submitted queries may contain sensitive information, e.g., location or gender preferences, that the users may not be comfortable sharing. On the other hand, currently, the only way for users to ensure integrity of the query result is to maintain the entire blockchain database and perform the queries locally. Doing so incurs high storage and computational costs on the users, precluding this approach to be practically deployable on common light-weight devices (e.g., smartphones). To this end, this paper proposes $\pi$QLB, a query language for blockchain systems that ensures both confidentiality of query inputs and integrity of query results. Additionally, $\pi$QLB enables SQL-like queries over the blockchain data by introducing relational data semantics into the existing blockchain database. $\pi$QLB has applied the recent cryptography primitive, i.e., function secret sharing (FSS), to achieve confidentiality. To support integrity, we extend the traditional FSS setting in such a way that integrity of FSS results can be efficiently verified. Successful verification indicates absence of malicious behaviors on the servers, allowing the user to establish trust from the result. To the best of our knowledge, $\pi$QLB is the first query model designed for blockchain databases with support for confidentiality, integrity, and SQL-like queries.

Published
2022

18. Molecular docking and spectroscopic study of bovine serum albumin interaction with new anticancer Pt complex with isopentyl dithiocarbamate ligand.

Author

shiraz, Zahra Arabpour, Sohrabi, Nasrin, Moghadam, Mahboube Eslami, and Oftadeh, Mohsen

Subjects
*DITHIOCARBAMATES, *SERUM albumin, *MOLECULAR docking, *GIBBS' free energy, *BOS, *BINDING constant, *BINDING sites
Abstract

Although cisplatin is useful in the treatment of cancer, it has a series of side effects that limit its use. Dithiocarbamates reduce the toxicity of platinum due to their structure and the presence of S, and N donating groups. In this article, the interaction of [Pt(bpy)(isopentyl.dtc)]NO3, where bpy is bipyridine and isopentyl. dtc is isopentyl-dithiocarbamate, with BSA, bovine serum albumin has been studied. The molecular binding method, including UV-Vis and fluorescence titration, was carried out in conditions including pH = 7.4 and temperatures of 27 and 37 °C. The negative values of enthalpy (ΔH°b) and entropy (ΔS°b) show that the driving forces of this interaction are hydrogen and van der Waals, and the negative value of the Gibbs free energy, ΔG°b indicates that the interaction proceeds spontaneously. The fluorescence results showed that the quenching mechanism is the static type and the Stern Volmer constant, KSV, was also obtained. The fluorescence titration method data displayed that the quenching mechanism is static. Binding constant (Kb), binding point (n), Hill coefficients, nH, Hill constant, KH, number of binding sites, g, BSA melting temperature, Tm, were also obtained. Finally, the molecular docking method result shows the binding constant, Ki and binding free energy for the platinum complex are -6.53 and 16.39 kcal mol-1, respectively, and also the proper position of binding on BSA can be considered the site I in the subdomain IIA. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

20. Request Dispatching Over Distributed SDN Control Plane: A Multiagent Approach

Author

Huang, Victoria, Chen, Gang, Zuo, Xingquan, Zomaya, Albert Y., Sohrabi, Nasrin, Tari, Zahir, and Fu, Qiang

Abstract

Software-defined networking (SDN) allows flexible and centralized control in cloud data centers. An elastic set of distributed SDN controllers is often required to provide sufficient yet cost-effective processing capacity. However, this introduces a new challenge: Request Dispatching among the controllers by SDN switches. It is essential to design a dispatching policy for each switch to guide the request distribution. Existing policies are designed under certain assumptions, including a single centralized agent, global network knowledge, and a fixed number of controllers, which often cannot be satisfied in practice. This article proposes MADRina, Multiagent Deep Reinforcement Learning for request dispatching, to design policies with high dispatching adaptability and performance. First, we design a multiagent system to address the limitation of using a centralized agent with global network knowledge. Second, we propose a Deep Neural Network-based adaptive policy to enable request dispatching over an elastic set of controllers. Third, we develop a new algorithm to train the adaptive policies in a multiagent context. We prototype MADRina and build a simulation tool to evaluate its performance using real-world network data and topology. The results show that MADRina can significantly reduce response time by up to 30% compared to existing approaches.

Published
2024
Full Text
View/download PDF

29. HiCoOB: Hierarchical Concurrent Optimistic Blockchain Consensus Protocol for Peer-to-Peer Energy Trading Systems

Author

Abdella, Juhar, Tari, Zahir, Mahmud, Redowan, Sohrabi, Nasrin, Anwar, Adnan, and Mahmood, Abdun

Abstract

Hierarchical consensus protocols are one of the most promising approaches considered to improve the performance and scalability of blockchain-based peer-to-peer energy trading (P2P ET) systems. They allow a network to be divided into multiple clusters where each cluster can independently run its own local consensus on local transactions (i.e., transactions that belong to a single cluster) and also cooperate with other clusters for global transactions (i.e., transactions that affect more than one cluster). However, current solutions do not allow the parallel processing of local and global transactions, leading to low throughput and high latency. Moreover, they impose an additional burden on the leader node by assigning to it the responsibility for both local and global consensus. This paper proposes a hierarchical concurrent optimistic blockchain consensus protocol, called HiCoOB, which includes an optimistic local consensus and a deterministic global consensus that enables the concurrent execution of local and global transactions. Additionally, the local and the global consensus are coordinated by two distinct leaders, thereby reducing the overhead on the local leader node. HiCoOB also provides a synchronization method between local and global consensus to avoid the double spending of energy or money that arises from interdependent client transactions. Experimental results indicate that the proposed protocol achieves 87% higher throughput than the existing systems. Furthermore, it reduces the waiting time of the local transactions by a factor of 5x. Finally, HiCoOB has 10 times less overhead on the local leader node in terms of message exchange when compared to state-of-the-art systems.

Published
2023
Full Text
View/download PDF

32. Dynamic and Thermodynamic Investigation on the Interaction of Bovine Serum Albumin with an Anticancer Pt Complex Containing Dithiocarbamate Using Molecular Docking and Spectroscopic Methods.

Author

Arabpour Shiraz, Zahra, Sohrabi, Nasrin, Eslami Moghadam, Mahboube, and Oftadeh, Mohsen

Subjects
*DITHIOCARBAMATES, *SERUM albumin, *GIBBS' free energy, *BOS, *BINDING sites, *FLUORESCENCE quenching
Abstract

Cisplatin is used for human cancers treatment, such as bladder and ovarian, endometrial and cervical, head and neck, and testicular cancer, but its clinical use has been limited by some serious side effects. Therefore S,S donor ligands such as dithiocarbamates can be used to prepare anticancer Pt-drugs and reduce some side effects. The purpose of this study is the interaction ability of designed Pt complex, [Pt(bpy)(tertamyl.dtc)]NO3, where bpy is bipyridine and tertamyl-dtc is (2-methyl butan-dithiocarbamate), with bovine serum albumin (BSA) using fluorescence emission titration, UV-Vis spectroscopy, and molecular docking methods. The obtained negative values of enthalpy, ΔH0b, and entropy, ΔS0b, showed that a major binding mode between Pt complex and BSA is the van der Waals and hydrogen bond. The negative value of Gibbs free energy achieved via the UV-Vis technique also exhibited a spontaneous interaction. In addition, the results related to emission titration displayed that the fluorescence quenching of protein by Pt complex is a static quenching mechanism. Moreover, the binding parameters, including apparent biomolecular quenching constant (kq), the number of binding sites (n), and binding constant (Kb) were obtained by the Stern–Volmer equation. These values of Kb, kq, and n were also obtained as 3 × 108 M−1, 3 × 1014 M−1 S−1, and 1.4, respectively. By the use of spectroscopic kinetics model, this interaction was studied and the result showed a second-order type. Finally, the binding of Pt complexes to BSA was verified by the molecular docking method. The binding free energy and Ki for the Pt compounds were obtained as −6.6 kcal mol−1 and 14.48, respectively. The results of molecular docking demonstrate the position of binding of Pt complex on BSA is the site I in the subdomain IIA. Anticancer Pt(II) complex, [Pt(bpy)(tertamyl.dtc)]NO3, has been interacted with bovine serum albumin (BSA). Binding and thermodynamic parameters have also been estimated. Molecular docking showed that this complex binds to the site II subdomain IIIA of BSA. Abbreviations: UV–Vis, ultraviolet-visible; BSA, Bovine Serum Albumin; bpy, bipyridine; dtc, Dithiocarbamate; PDB, Protein Data Bank; LGA, Lamarckian genetic algorithm; HT29, Human colon cancer cell line; Panc1, Human pancreatic cell line; IC50, fifty percentage of inhibitory concentration; SD, standard deviation; Tyr, Tyrosine; Phe, Phenylalanine; Trp, Tryptophan; Asp, Aspartic; Pro, Proline; Thr, Threonine; Val, Valine; Leu, Leucine; Tm, melting temperature; vdW, van der Waals; H-bond, hydrogen bond [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

49. Binding thermodynamic, spectroscopic and molecular docking study of Allura Red AC to Bovine Serum Albumin

Author

Rasouli, Nahid, Sohrabi, Nasrin, and Arabpour, Zahra

Subjects
azo dye, carrier protein, fluorescence quenching, thermodynamic parameters, interaction
Abstract

The goal of this study is to investigate the interaction between sulfonated azo dye, disodium 6-hydroxy-5-((2-methoxy-5-methyl-4-sulfophenyl)azo)-2-naphthalenesulfonate, known as Allura Red AC and bovine serum albumin (BSA) using UV-vis absorption spectroscopy‚ fluorescence quenching method and molecular docking studies. The physicochemical properties of Allura Red AC were also studied in 5 mM aqueous phosphate buffer of pH 7.0 at 25° C. The results show no aggregate formation of Allura Red AC by increasing of Allura Red AC concentration and ionic strength. The binding constant of Allura Red AC with BSA was calculated to be 3.1×104 M-1 at 298 K. The results of thermodynamic parameters for binding modes at different temperatures showed that the hydrophobic interaction play a major role for the binding of Allura Red AC to BSA. The results of fluorescence studies showed that Allura Red AC quenched the fluorescence emission of BSA by static mechanism and the binding constant (Kb) and the binding point (n) were obtained to be 1.2758 and 0.413 at 298 K, respectively. This work could help us to go further in understanding the binding mechanism of azo dyes that are used as food colorant with the carrier protein in blood plasma., Moroccan Journal of Chemistry, Vol 5, No 2 (2017)

Published
2017
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results