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161 results on '"Khatami, Maryam"'

1. Improved bounds on the size of permutation codes under Kendall $\tau$-metric

Author

Parvaresh, Farzad, Sobhani, Reza, Abdollahi, Alireza, Bagherian, Javad, Jafari, Fatemeh, and Khatami, Maryam

Subjects
Computer Science - Information Theory
Abstract

In order to overcome the challenges caused by flash memories and also to protect against errors related to reading information stored in DNA molecules in the shotgun sequencing method, the rank modulation is proposed. In the rank modulation framework, codewords are permutations. In this paper, we study the largest size $P(n, d)$ of permutation codes of length $n$, i.e., subsets of the set $S_n$ of all permutations on $\{1,\ldots, n\}$ with the minimum distance at least $d\in\{1,\ldots ,\binom{n}{2}\}$ under the Kendall $\tau$-metric. By presenting an algorithm and some theorems, we managed to improve the known lower and upper bounds for $P(n,d)$. In particular, we show that $P(n,d)=4$ for all $n\geq 6$ and $\frac{3}{5}\binom{n}{2}< d \leq \frac{2}{3} \binom{n}{2}$. Additionally, we prove that for any prime number $n$ and integer $r\leq \frac{n}{6}$, $ P(n,3)\leq (n-1)!-\dfrac{n-6r}{\sqrt{n^2-8rn+20r^2}}\sqrt{\dfrac{(n-1)!}{n(n-r)!}}. $ This result greatly improves the upper bound of $P(n,3)$ for all primes $n\geq 37$., Comment: 15 pages

Published
2024

2. New Upper Bounds on the Size of Permutation Codes under Kendall $\tau$-Metric

Author

Abdollahi, Alireza, Bagherian, Javad, Jafari, Fatemeh, Khatami, Maryam, Parvaresh, Farzad, and Sobhani, Reza

Subjects
Mathematics - Combinatorics, Mathematics - Group Theory, 20C30, 94B25
Abstract

We first give two methods based on the representation theory of symmetric groups to study the largest size $P(n,d)$ of permutation codes of length $n$ i.e. subsets of the set $S_n$ all permutations on $\{1,\dots,n\}$ with the minimum distance (at least) $d$ under the Kendall $\tau$-metric. The first method is an integer programming problem obtained from the transitive actions of $S_n$. The second method can be applied to refute the existence of perfect codes in $S_n$.\\ Here we reduce the known upper bound $(n-1)!-1$ for $P(n,3)$ to $(n-1)!-\lceil\frac{n}{3}\rceil+2\leq (n-1)!-2$, whenever $n\geq 11$ is any prime number. If $n=6$, $7$, $11$, $13$, $14$, $15$, $17$, the known upper bound for $P(n,3)$ is decreased by $3,3,9,11,1,1,4$, respectively., Comment: arXiv admin note: substantial text overlap with arXiv:2206.10193

Published
2023

7. Regular character-graphs whose eigenvalues are greater than or equal to -2

Author

Ebrahimi, Mahdi, Khatami, Maryam, and Mirzaei, Zohreh

Subjects
Mathematics - Group Theory, Mathematics - Combinatorics, 20C15, 05C50, 05C25
Abstract

Let $G$ be a finite group and $\mathrm{Irr}(G)$ be the set of all complex irreducible characters of $G$. The character-graph $\Delta(G)$ associated to $G$, is a graph whose vertex set is the set of primes which divide the degrees of some characters in $\mathrm{Irr}(G)$ and two distinct primes $p$ and $q$ are adjacent in $\Delta(G)$ if the product $pq$ divides $\chi(1)$, for some $\chi\in\mathrm{Irr}(G)$. Tong-viet posed the conjecture that if $\Delta(G)$ is $k$-regular for some integer $k\geqslant 2$, then $\Delta(G)$ is either a complete graph or a cocktail party graph. In this paper, we show that his conjecture is true for all regular character-graphs whose eigenvalues are in the interval $[-2, \infty )$.

Published
2021

8. On the multiplicities of the character codegrees

Author

Akhlaghi, Zeinab, Ebrahimi, Mehdi, and Khatami, Maryam

Subjects
Mathematics - Group Theory
Abstract

Let G be a finite group and ? be an irreducible character of G, the number cod(?) = jG : Let $ G $ be a finite group and $ \chi $ be an irreducible character of $ G $, the number $ \cod(\chi) = |G: \kernel(\chi)|/\chi(1) $ is called the codegree of $ \chi $. Also, $ \cod(G) = \{ \cod(\chi) \ | \ \chi \in \Irr(G) \} $. For $d\in\cod(G)$, the multiplicity of $d$ in $G$, denoted by $m'_G(d)$, is the number of irreducible characters of $G$ having codegree $d$. A finite group $G$ is called a $T'_k$-group for some integer $k\geq 1$, if there exists $d_0\in\cod(G)$ such that $m'_G(d_0)=k$ and for every $d\in\cod(G)-\{d_0\}$, we have $m'_G(d)=1$. In this note we characterize finite $T'_k$-groups completely, where $k\geq 1$ is an integer.

Published
2021

13. Active Brownian particles and run-and-tumble particles separate inside a maze

Author

Khatami, Maryam, Wolff, Katrin, Pohl, Oliver, Ejtehadi, Mohammad Reza, and Stark, Holger

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

A diverse range of natural and artificial self-propelled particles are known and are used nowadays. Among them, active Brownian particles (ABPs) and run-and-tumble particles (RTPs) are two important classes. We numerically study non-interacting ABPs and RTPs strongly confined to different maze geometries in two dimensions. We demonstrate that by means of geometrical confinement alone, ABPs are separable from RTPs. By investigating Matryoshka-like mazes with nested shells, we show that a circular maze has the best filtration efficiency. Results on the mean first-passage time reveal that ABPs escape faster from the center of the maze, while RTPs reach the center from the rim more easily. According to our simulations and a rate theory, which we developed, ABPs in steady state accumulate in the outermost region of the Matryoshka-like mazes, while RTPs occupy all locations within the maze with nearly equal probability. These results suggest a novel technique for separating different types of self-propelled particles by designing appropriate confining geometries without using chemical or biological agents., Comment: submitted to Scientific Reports

Published
2016
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31. Quantitative assessment of LPS-HBsAg interaction by introducing a novel application of immunoaffinity chromatography.

Author

Kavianpour, Alireza, Ashjari, Mohsen, Hosseini, Seyed Nezamedin, and Khatami, Maryam

Subjects
IMMUNOAFFINITY chromatography, HEPATITIS associated antigen, VIRUS-like particles, TRANSMISSION electron microscopy, RECOMBINANT proteins, OCHRATOXINS
Abstract

Lipopolysaccharide (LPS), as a stubborn contamination, should be monitored and kept in an acceptable level during the pharmaceutical production process. Recombinant hepatitis B surface antigen (r-HBsAg) is one of the recombinant biological products, which is probable to suffer from extrinsic endotoxin due to its long and complex production process. This research aims to assess the potential interaction between LPS and r-HBsAg by recruiting immunoaffinity chromatography (IAC) as a novel tool to quantify the interaction. Molecular modeling was performed on the HBsAg molecule to theoretically predict its potential binding and interaction sites. Then dynamic light scattering (DLS) analysis was implemented on HBsAg, LPS, and mixtures of them to reveal the interaction. The virus-like particle (VLP) structure of HBsAg and the ribbon-like structure of LPS were visualized by transmission electron microscopy (TEM). Finally, the interaction was quantified by applying various LPS/HBsAg ratios ranging from 1.67 to 120 EU/dose in the IAC. Consequently, the LPS/HBsAg ratios in the eluate were measured from 1.67 to a maximum of 92.5 EU/dose. The results indicated that 77 to 100% of total LPS interacted with HBsAg by an inverse relationship to the incubated LPS concentration. The findings implied that the introduced procedure is remarkably practical in the quantification of LPS interaction with a target recombinant protein. [ABSTRACT FROM AUTHOR]

Published
2023
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36. Application of a 3D printed miniaturized hydrocyclone in biopharmaceutical industry-numerical and experimental studies of yeast separation from fermentation culture media.

Author

Abdollahzadeh, Laleh, Seyfi Mazraeno, Masoumeh, Hosseini, Seyed Nezamedin, Fazlali, Alireza, and Khatami, Maryam

Subjects
FERMENTATION, CENTRIFUGAL force, MACHINE separators, CONTINUOUS processing, MATHEMATICAL ability
Abstract

Various industries ranging from water purification to pharmaceutical production have experienced multi separation steps that impose more process time and contamination possibility by batch operation. We propose a developed microfluidic particle sorter (miniaturized hydrocyclone) that adopts centrifugal force as it has ability to decline the number of separation steps and the risk of extrinsic contamination in continuous process. While biological industries have not relied on mini hydrocyclones considerably because of low efficiency and microfabrication difficulties, current work has been planned to conquer these obstacles. In this research, biomass separation from fermentation broth by 3 mm hydrocyclones was investigated. The effect of apex size, feed flow rate, hydrocyclone geometry were analyzed numerically in four mini-hydrocyclones. The most efficient mini-hydrocyclone was chosen to be made by elegant additive manufacturing technology and studied experimentally. The separation efficiency was achieved up to 90% while the concentration ratio of heavy stream (apex) to dilute stream (vortex finder) was reached more than twofold. The mini hydrocyclone performance in view of energy target was studied by Euler-Reynolds-Efficiency plots. The 4 μm cut size was achieved that is promising high throughput separation for biological particles. [ABSTRACT FROM AUTHOR]

Published
2023
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39. Analysis of wave scattering from 2D curved metasurfaces using Floquet and Fourier series expansions

Author

Khatami, Maryam S., Dehmollaian, Mojtaba, Yousefi, Leila, Khatami, Maryam S., Dehmollaian, Mojtaba, and Yousefi, Leila

Abstract

An efficient technique for calculating the scattering from curved metasurfaces using the extinction theorem in conjunction with the Floquet and Fourier series expansions is presented. Here, we treat the two-dimensional metasurfaces that have transversal polarizabilities with no variation along the y-axis. The boundary conditions at the metasurface are given by the generalized sheet transition conditions (GSTCs) whose susceptibilities are given in an arbitrary local coordinate system. First, we use the extinction theorem to provide integral equations of the scattering problem. The integral equations involve the Green's functions, tangential electric and magnetic fields and their normal derivatives in regions above and below the metasurface. Then, we employ the Floquet theorem that gives us the analytical periodic Green's functions of each region. Next, we employ the Fourier theorem to expand the tangential fields in terms of unknown Fourier coefficients. The GSTCs and the integral equations provide equations to be solved for the unknowns. The method can calculate scattering from both periodic and non-periodic metasurfaces. The technique is used to analyse different applied problems such as carpet cloaking, illusion, and radar echo width reduction. The method is fast and accurate and can efficiently treat metasurfaces with electrically large curved geometries with dimensions as large as 120 times the wavelength.

Published
2021

44. Inpatient discharge planning under uncertainty.

Author

Khatami, Maryam, Alvarado, Michelle, Kong, Nan, Parikh, Pratik J., and Lawley, Mark A.

Subjects
*DISCHARGE planning, *PATIENT satisfaction, *LENGTH of stay in hospitals, *HOSPITAL admission & discharge, *TIME management
Abstract

Delay in inpatient discharge processes reduces patient satisfaction and increases hospital congestion and length of stay. Further, flow congestion manifests as patient boarding, where new patients awaiting admission are blocked by bed unavailability. Finally, length of stay is extended if the discharge delay incurs an extra overnight stay. These factors are often in conflict, thus, good hospital performance can only be achieved through careful balancing. We formulate the discharge planning problem as a two-stage stochastic program with uncertain discharge processing and bed request times. The model minimizes a combination of discharge lateness, patient boarding, and deviation from preferred discharge times. Patient boarding is integrated by aligning bed requests with bed releases. The model is solved for different instances generated using data from a large hospital in Texas. Stochastic decomposition is compared with the extensive form and the L-shaped algorithm. A shortest expected processing time heuristic is also investigated. Computational experiments indicate that stochastic decomposition outperforms the L-shaped algorithm and the heuristic, with a significantly shorter computational time and small deviation from optimal. The L-shaped method solves only small problems within the allotted time budget. Simulation experiments demonstrate that our model improves discharge lateness and patient boarding compared to current practice. [ABSTRACT FROM AUTHOR]

Published
2022
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48. 1-Connected character-graphs of finite groups with non-bipartite complement.

Author

Ebrahimi, Mahdi, Khatami, Maryam, and Mirzaei, Zohreh

Subjects
*WISHES
Abstract

For a finite group G , let Δ (G) be the character-graph which is built on the set of irreducible complex character degrees of G. In this paper, we wish to determine the structure of finite groups G such that Δ (G) is 1 -connected with nonbipartite complement. Also, we classify all 1 -connected graphs with nonbipartite complement that can occur as the character-graph Δ (G) of a finite group G. [ABSTRACT FROM AUTHOR]

Published
2021
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50. Numerical and Experimental Biomass Separation from Fermentation Process by Minihydrocyclones.

Author

Abdollahzadeh, Laleh, Mazraeno, Masoumeh Seyfi, Hosseini, Seyed Nezamedin, Fazlali, Alireza, Soury, Ehsan, Habibian, Mahmoud, and Khatami, Maryam

Subjects
BIOMASS, COMPUTATIONAL fluid dynamics, FERMENTATION, LACTIC acid
Abstract

Biomass particle separation is challenging in the pharmaceutical industry because of the smallness and lightness of such particles. Centrifugation is applied conventionally for batch separation. However, imposing multiple wash steps in order to eliminate culture residues and the high risk of extrinsic contamination hamper batch techniques. In this research, minihydrocyclones were introduced to provide a better solution for the mentioned limitations in continuous processes. Numerical separation of methylotrophic yeast from fermentation broth was carried out in three hydrocyclones with different lengths, and the most efficient one was examined experimentally. Three various feed flow rates and seven feed concentrations were evaluated. The concentration of biomass suspension in the product was raised to 20 %. [ABSTRACT FROM AUTHOR]

Published
2021
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