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2. Note on the spectra of Steiner distance hypermatrices

Author

Cooper, Joshua and Du, Zhibin

Subjects
Mathematics - Combinatorics, 05C12 (Primary) 05C50, 15A69 (Secondary), G.2.2
Abstract

The Steiner distance of a set of vertices in a graph is the fewest number of edges in any connected subgraph containing those vertices. The order-$k$ Steiner distance hypermatrix of an $n$-vertex graph is the $n \times \cdots \times n$ ($k$ terms) array indexed by vertices, whose entries are the Steiner distances of their corresponding indices. In the case of $k=2$, this reduces to the classical distance matrix of a graph. Graham and Pollak showed in 1971 that the determinant of the distance matrix of a tree only depends on its number $n$ of vertices. Here, we show that the hyperdeterminant of the Steiner distance hypermatrix of a tree vanishes if and only if (a) $n \geq 3$ and $k$ is odd, (b) $n=1$, or (c) $n=2$ and $k \equiv 1 \pmod{6}$. Two proofs are presented of the $n=2$ case -- the other situations were handled previously -- and we use the argument further to show that the distance spectral radius for $n=2$ is equal to $2^{k-1}-1$. Some related open questions are also discussed., Comment: 6 pages, 0 figures

Published
2024

6. Complete characterization of the minimal-ABC trees

Author

Dimitrov, Darko and Du, Zhibin

Subjects
Mathematics - Combinatorics
Abstract

The problem of characterizing trees with minimal atom-bond-connectivity index (minimal-ABC trees) has a reputation as one of the most demanding recent open optimization problems in mathematical chemistry. Here firstly, we give an affirmative answer to the conjecture, which states that enough large minimal-ABC trees are comprised solely of a root vertex and so-called $D_z$- and $D_{z+1}$-branches. Based on the presented theoretical results here and some already known results, we obtain enough constraints to reduce the search space and solve the optimization problem, and thus, determine exactly the minimal-ABC trees of a given arbitrary order.

Published
2021

22. Estimating Some General Molecular Descriptors of Saturated Hydrocarbons

Author

Ali, Akbar, Du, Zhibin, and Shehzadi, Kiran

Subjects
Mathematics - Combinatorics
Abstract

Three general molecular descriptors, namely the general sum-connectivity index, general Platt index and ordinary generalized geometric-arithmetic index, are studied here. Best possible bounds for the aforementioned descriptors of arbitrary saturated hydrocarbons are derived. These bounds are expressed in terms of number of carbon atoms and number of carbon-carbon bonds of the considered hydrocarbons., Comment: 21 pages and 3 figures

Published
2018
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25. Forbidden branches in trees with minimal atom-bond connectivity index

Author

Dimitrov, Darko, Du, Zhibin, and da Fonseca, Carlos M.

Subjects
Computer Science - Discrete Mathematics
Abstract

The atom-bond connectivity (ABC) index has been, in recent years, one of the most actively studied vertex-degree-based graph invariants in chemical graph theory. For a given graph $G$, the ABC index is defined as $\sum_{uv\in E}\sqrt{\frac{d(u) +d(v)-2}{d(u)d(v)}}$, where $d(u)$ is the degree of vertex $u$ in $G$ and $E(G)$ denotes the set of edges of $G$. In this paper we present some new structural properties of trees with a minimal ABC index (also refer to as a minimal-ABC tree), which is a step further towards understanding their complete characterization. We show that a minimal-ABC tree cannot simultaneously contain a $B_4$-branch and $B_1$ or $B_2$-branches.

Published
2017
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31. Disproving a conjecture of Thornton on Bohemian matrices

Author

Du Zhibin, da Fonseca Carlos M., Xu Yingqiu, and Ye Jiahao

Subjects
bohemian matrix, integral matrix, normalized upper hessenberg matrix, determinant, 15a15, Mathematics, QA1-939
Abstract

In this paper, we disprove a remaining conjecture about Bohemian matrices, in which the numbers of distinct determinants of a normalized Bohemian upper-Hessenberg matrix were conjectured.

Published
2021
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32. Service Life Prediction of Concrete with Combined Air-Entraining Admixture and Fibers under Freeze–Thaw Cycles Based on Critical Water Saturation Theory.

Author

Xu, Lei, Zhang, Chenyang, Wang, Junjie, Du, Zhibin, Hu, Xiaochuan, Yang, Qi, Li, Fuxiong, Li, Zhe, and He, Pukang

Subjects
CONCRETE durability, FREEZE-thaw cycles, SERVICE life, CONCRETE additives, FIBERS, POROSITY
Abstract

Freeze-thaw resistance ability of concrete is an important issue when evaluating its durability. In this research, the objective was to predict concrete resistance to such cycles by analyzing water absorption based on the critical water saturation theory. In order to achieve this goal, detailed experiments were conducted, including water absorption, pore structure scanning, and mercury intrusion porosimetry of concrete with air-entraining admixture and different fiber content to obtain critical indicators, such as water absorption, porosity, and air void spacing factor, which formed the basis for predicting the service life of concrete. To predict the service life of concrete under freeze-thaw cycles, the critical saturation theory was utilized, taking into account environmental parameters and experimental indexes. The service life of concrete against freeze-thaw using air-entraining admixture and fibers had been calculated quantitatively in this paper. The results show that the predicted service life of concrete with air-entraining admixture was increased by more than 50 times, and using both air-entraining admixture and fiber could increase the service life by more than 80 times, even reaching 249 years. [ABSTRACT FROM AUTHOR]

Published
2024
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33. Game-Based Flexible Merging Decision Method for Mixed Traffic of Connected Autonomous Vehicles and Manual Driving Vehicles on Urban Freeways.

Author

Du, Zhibin, Xie, Hui, Zhai, Pengyu, Yuan, Shoutong, Li, Yupeng, Wang, Jiao, Wang, Jiangbo, and Liu, Kai

Subjects
REINFORCEMENT learning, DEEP reinforcement learning, MACHINE learning, MOTOR vehicle driving, NASH equilibrium
Abstract

Connected Autonomous Vehicles (CAVs) have the potential to revolutionize traffic systems by autonomously handling complex maneuvers such as freeway ramp merging. However, the unpredictability of manual-driven vehicles (MDVs) poses a significant challenge. This study introduces a novel decision-making approach that incorporates the uncertainty of MDVs' driving styles, aiming to enhance merging efficiency and safety. By framing the CAV-MDV interaction as an incomplete information static game, we categorize MDVs' behaviors using a Gaussian Mixture Model–Support Vector Machine (GMM-SVM) method. The identified driving styles are then integrated into the flexible merging decision process, leveraging the concept of pure-strategy Nash equilibrium to determine optimal merging points and timing. A deep reinforcement learning algorithm is employed to refine CAVs' control decisions, ensuring efficient right-of-way acquisition. Simulations at both micro and macro levels validate the method's effectiveness, demonstrating improved merging success rates and overall traffic efficiency without compromising safety. The research contributes to the field by offering a sophisticated merging strategy that respects real-world driving behavior complexity, with potential for practical applications in urban traffic scenarios. [ABSTRACT FROM AUTHOR]

Published
2024
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38. The Number of P-Vertices of Singular Acyclic Matrices: An Inverse Problem

Author

Du Zhibin and da Fonseca Carlos M.

Subjects
trees, acyclic matrices, singular, multiplicity of eigenvalues, p-set, p-vertices, 15a18, 15a48, 05c50, Mathematics, QA1-939
Abstract

Let A be a real symmetric matrix. If after we delete a row and a column of the same index, the nullity increases by one, we call that index a P-vertex of A. When A is an n × n singular acyclic matrix, it is known that the maximum number of P-vertices is n − 2. If T is the underlying tree of A, we will show that for any integer number k ∈ {0, 1, . . . , n − 2}, there is a (singular) matrix whose graph is T and with k P-vertices. We will provide illustrative examples.

Published
2020
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41. Transfer Learning for Driving Pattern Recognition

Author

Li, Maoying, Yang, Liu, Hu, Qinghua, Shen, Chenyang, Du, Zhibin, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Nayak, Abhaya C., editor, and Sharma, Alok, editor

Published
2019
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42. The Kirchhoff indices and the matching numbers of unicyclic graphs

Author

Qi, Xuli, Zhou, Bo, and Du, Zhibin

Subjects
Mathematics - Combinatorics, 05C90, 05C12, 05C35
Abstract

The Kirchhoff index of a connected graph is the sum of resistance distances between all unordered pairs of vertices in the graph. It found considerable applications in a variety of fields. In this paper, we determine the minimum Kirchhoff index among the unicyclic graphs with fixed number of vertices and matching number, and characterize the extremal graphs.

Published
2013

46. Sum-connectivity indices of trees and unicyclic graphs of fixed maximum degree

Author

Du, Zhibin, Zhou, Bo, and Trinajstic, Nenad

Subjects
Mathematics - Combinatorics
Abstract

We obtain the maximum sum-connectivity indices of graphs in the set of trees and in the set of unicyclic graphs respectively with given number of vertices and maximum degree, and determine the corresponding extremal graphs. Additionally, we deduce the n-vertex unicyclic graphs with the first two maximum sum-connectivity indices for $n\ge 4$., Comment: 12 pages

Published
2012

47. Reverse degree distance of unicyclic graphs

Author

Du, Zhibin and Zhou, Bo

Subjects
Mathematics - Combinatorics, 05C12, 05C35, 05C90
Abstract

The reverse degree distance is a connected graph invariant closely related to the degree distance proposed in mathematical chemistry. We determine the unicyclic graphs of given girth, number of pendant vertices and maximum degree, respectively, with maximum reverse degree distances.

Published
2011

48. On eccentric connectivity index

Author

Zhou, Bo and Du, Zhibin

Subjects
Mathematics - Combinatorics, 05C12, 05C35, 05C90
Abstract

The eccentric connectivity index, proposed by Sharma, Goswami and Madan, has been employed successfully for the development of numerous mathematical models for the prediction of biological activities of diverse nature. We now report mathematical properties of the eccentric connectivity index. We establish various lower and upper bounds for the eccentric connectivity index in terms of other graph invariants including the number of vertices, the number of edges, the degree distance and the first Zagreb index. We determine the n-vertex trees of diameter with the minimum eccentric connectivity index, and the n-vertex trees of pendent vertices, with the maximum eccentric connectivity index. We also determine the n-vertex trees with respectively the minimum, second-minimum and third-minimum, and the maximum, second-maximum and third-maximum eccentric connectivity indices for, Comment: 18 pages, 2 figures

Published
2010

49. Explicit determinantal formula for a class of banded matrices

Author

Amanbek Yerlan, Du Zhibin, Erlangga Yogi, da Fonseca Carlos M., Kurmanbek Bakytzhan, and Pereira António

Subjects
determinant, pentadiagonal matrices, chebyshev polynomials of second kind, 15a18, 15b05, Mathematics, QA1-939
Abstract

In this short note, we provide a brief proof for a recent determinantal formula involving a particular family of banded matrices.

Published
2020
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50. On Sum--Connectivity Index of Bicyclic Graphs

Author

Du, Zhibin and Zhou, Bo

Subjects
Mathematics - Combinatorics, 05C90, 05C35, 05C07
Abstract

We determine the minimum sum--connectivity index of bicyclic graphs with $n$ vertices and matching number $m$, where $2\le m\le \lfloor\frac{n}{2}\rfloor$, the minimum and the second minimum, as well as the maximum and the second maximum sum--connectivity indices of bicyclic graphs with $n\ge 5$ vertices. The extremal graphs are characterized.

Published
2009

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