Dynamic Hilbert-Type Inequalities with Fenchel-Legendre Transform

El‐Deeb, Ahmed A.; Makharesh, Samer D.; Băleanu, Dumitru

doi:10.3390/sym12040582

Cited by 17 publications

(11 citation statements)

References 45 publications

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“…These inequalities extend and give more general new forms of several previously established inequalities. For example, we generalize the results given in [7,20] and others.…”

Section: Lemma 14 ([7]supporting

confidence: 62%

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New dynamic Hilbert-type inequalities in two independent variables involving Fenchel–Legendre transform

et al. 2021

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“…These inequalities extend and give more general new forms of several previously established inequalities. For example, we generalize the results given in [7,20] and others.…”

Section: Lemma 14 ([7]supporting

confidence: 62%

“…Very recently, El-Deeb et al [7] studied the time scales version of the above inequalities. They proved that if A(s) :=…”

Section: Lemma 14 ([7]mentioning

confidence: 99%

New dynamic Hilbert-type inequalities in two independent variables involving Fenchel–Legendre transform

et al. 2021

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“…If k denotes the derivative of k with respect to the first variable, then f (t) = Other dynamic inequalities on time scales may be found in [37][38][39][40]. In this manuscript, we will discuss the retarded time scale case of the inequalities obtained in [1] using new techniques by replacing the upper limitς andˆ of the integral by the delay functionα(ς) ≤ ς andβ(ˆ ) ≤ˆ .…”

Section: Theorem 13 ([3])mentioning

confidence: 99%

On some new double dynamic inequalities associated with Leibniz integral rule on time scales

El‐Deeb

Rashid

2021

Adv Differ Equ

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In 2020, El-Deeb et al. proved several dynamic inequalities. It is our aim in this paper to give the retarded time scales case of these inequalities. We also give a new proof and formula of Leibniz integral rule on time scales. Beside that, we also apply our inequalities to discrete and continuous calculus to obtain some new inequalities as special cases. Furthermore, we study boundedness of some delay initial value problems by applying our results as application.

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“…In [10][11][12][13][14] many authors have studied many new dynamic inequalities. Řehák [14] is the first author proved the version of Hardy inequality on time scales that unifies (1) and (2).…”

Section: Introductionmentioning

confidence: 99%

A Variety of Nabla Hardy’s Type Inequality on Time Scales

et al. 2022

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The primary goal of this research is to prove some new Hardy-type ∇-conformable dynamic inequalities by employing product rule, integration by parts, chain rule and (γ,a)-nabla Hölder inequality on time scales. The inequalities proved here extend and generalize existing results in the literature. Further, in the case when γ=1, we obtain some well-known time scale inequalities due to Hardy inequalities. Many special cases of the proposed results are obtained and analyzed such as new conformable fractional h-sum inequalities, new conformable fractional q-sum inequalities and new classical conformable fractional integral inequalities.

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Dynamic Hilbert-Type Inequalities with Fenchel-Legendre Transform

Cited by 17 publications

References 45 publications

New dynamic Hilbert-type inequalities in two independent variables involving Fenchel–Legendre transform

New dynamic Hilbert-type inequalities in two independent variables involving Fenchel–Legendre transform

On some new double dynamic inequalities associated with Leibniz integral rule on time scales

A Variety of Nabla Hardy’s Type Inequality on Time Scales

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