Binomials transformation formulae for scaled Fibonacci numbers

Edyta Hetmaniok; Bożena Piątek; Roman Wituła

doi:10.1515/math-2017-0047

Open Access Published by De Gruyter Open Access April 23, 2017

Binomials transformation formulae for scaled Fibonacci numbers

Edyta Hetmaniok , Bożena Piątek and Roman Wituła

From the journal Open Mathematics

https://doi.org/10.1515/math-2017-0047

Abstract

The aim of the paper is to present the binomial transformation formulae of Fibonacci numbers scaled by complex multipliers. Many of these new and nontrivial relations follow from the fundamental properties of the so-called delta-Fibonacci numbers defined by Wituła and Słota. The paper contains some original relations connecting the values of delta-Fibonacci numbers with the respective values of Chebyshev polynomials of the first and second kind.

Keywords: δ-Fibonacci numbers; δ-Lucas numbers; Binomial transformation

MSC 2010: llB39; llB83

1 lntroduction

Wituła and Słota in [1] defined the δ-Fibonacci numbers a_n(δ), b_n(δ), n ∈ ℕ₀ := ℕ ∪ {0} in the following way

(1−1+52δ)n=an(δ)−1+52bn(δ),δ∈C,n∈N0, (1)

or equivalently by the relation

(1+5−12δ)n=an(δ)+5−12bn(δ),δ∈C,n∈N0. (2)

From this, one can easily conclude that

a0(δ)=1,b0(δ)=0,

an+1(δ)bn+1(δ)=1δδ1−δan(δ)bn(δ),n∈N0 (3)

and next, the following recurrence relations hold true

an+2(δ)=(2−δ)an+1(δ)+(δ2+δ−1)an(δ), (4)

bn+2(δ)=(2−δ)bn+1(δ)+(δ2+δ−1)bn(δ), (5)

for every n ∈ ℕ₀. We note that a₁(δ) = 1 and b₁(δ) = δ.

We note also that δ-Fibonacci numbers are the simplest members of the family of the quasi-Fibonacci numbers of (k-th, δ-as) order (see [1–3] and the references therein). So the following natural question arises: does there exist some algebraic relation connecting a_n(δ) and b_n(δ), n ∈ ℕ₀, δ ∈ ℂ, with the Fibonacci numbers? The answer is positive. There exist two basic relations of such type resulting from two following fundamental properties of a_n(δ) and b_n(δ) (see formulae (1. 1), (3. 14), (3. 15), (5.6), (5.7) in [1]):

an(1)=Fn+1,bn(1)=Fn, (6)

and

an(δ)=∑k=0nnkFk−1(−δ)k=∑k=0nnkFk+1(1−δ)n−kδk, (7)

bn(δ)=∑k=1nnk(−1)k−1Fkδk=∑k=1nnkFk(1−δ)n−kδk, (8)

for every n ∈ ℕ₀. We note that one can easily verify all relations (6)-(8) by induction (on the basis of recurrence relations (4) and (5)).

Moreover, it follows from (7) and (8) that the sequences {an(δ)}n=0∞and{bn(δ)}n=0∞ are the binomial transformation (denoted for shortness by Binom(⋅)) of sequences {Fk−1(−δ)k}k=0∞and{−Fk(−δ)k}k=0∞, respectively. Similarly, we have

{an(δ)(1−δ)n}n=0∞=Binom({Fk+1(δ1−δ)k}k=0∞)

and

{bn(δ)(1−δ)n}n=0∞=Binom({Fk(δ1−δ)k}k=0∞).

We note also that, after [4], from (7) and (8) one can derive the generating functions A(x; δ) and B(x; δ) of {an(δ)}n=0∞and{bn(δ)}n=0∞ , respectively. For example, we obtain

B(x;δ)=11−(1−δ)xF(δx1−(1−δ)x)=δx(1−δ−δ2)x2+(δ−2)x+1,

where F(x)=x1−x−x2 is the generating function of the Fibonacci numbers. However, with regard to the length of our paper, we will not make use of the functions A(x; δ) and B(x; δ) as the alternative sources for deriving the presented here formulae.

Reflections

The δ-Fibonacci numbers [1] and the δ-Lucas numbers [5] represent the simplest ”quasi-Fibonacci” numbers of any order defined by R. Wituła and D. Słota (see [1, 2, 5, 6] and the references therein), which in fact are the recursively defined polynomials of the respective order. The above numbers have been introduced so that their definitions indicate an easy way for generating many standard identities for these numbers (including the sums of powers, the sums of the respective scalar products). Relations defining the quasi-Fibonacci numbers constitute the ”platform” for discussing the recursively defined sequences, alternative for Binet’s formulae or generating functions — very effective platform, according to us. It is worth to emphasize that all the quasi-Fibonacci numbers seem to exist independently of the background of the recurrence sequences discussed in literature.

Since the δ-Fibonacci numbers and the δ-Lucas numbers are in fact the binomial transformations of the scaled sequences of Fibonacci and Lucas numbers, thus in some moment we realized that it would be welcome, for emphasizing the meaning of these numbers, to have at our disposal the general formulae for δ-Fibonacci numbers and δ-Lucas numbers for “the most generally expressed” parameters δ from the set of complex numbers. So, these are the roots of this work.

2 Main results

First we will show relations between the special cases of δ-Fibonacci numbers for complex values of δ and the Fibonacci and Lucas numbers.

Theorem 2.1

Let δ=−12(1+i5tan⁡φ)andφ∉π2(2Z+1). Then

bn(δ)=−(52cos⁡φ)n×[FnTn(cos⁡φ)+i55Lnsin⁡φUn−1(cos⁡φ)],forevenn∈N0,[55LnTn(cos⁡φ)+iFnsin⁡φUn−1(cos⁡φ)],foroddn∈N, (9)

where T_n and U_n are the n-th Chebyshev polynomials of the first and second kind, respectively.

Indeed, we get

5bn(−12(1+i5tan⁡φ))=(1−5−12⋅1+i5tan⁡φ2)n−(1+5+12⋅1+i5tan⁡φ2)n=(14(5−5−i(5−1)5tan⁡φ))n−(14(5+5+i(5+1)5tan⁡φ))n=(−52βe−iφcos⁡φ)n−(52αeiφcos⁡φ)n=(52cos⁡φ)n[(−β)ne−inφ−αneinφ]=(52cos⁡φ)n[((−β)n−αn)cos⁡nφ−i(αn+(−β)n)sin⁡nφ]=(52cos⁡φ)n×[−5Fncosnφ−iLnsinnφ],forevenn∈N0,[−Lncosnφ−i5Fnsinnφ],foroddn∈N,

where we set (and these notations hold in the entire paper):

α:=1+52,β:=1−52

(α denotes the golden ratio) and where we used the Binet’s formulae for the Fibonacci and Lucas numbers, respectively

Fn=αn−βn5,Ln=αn+βn,n=0,1,2,...

Similarly we obtain the following theorem.

Theorem 2.2

Let δ=−12(1+i5tan⁡φ)andφ∉π2(2Z+1). Then

an(δ)=(52cos⁡φ)n×[55Ln−1Tn(cos⁡φ)+iFn−1sin⁡φUn−1(cos⁡φ)],foroddn∈N,[Fn−1Tn(cos⁡φ)+i55Ln−1sin⁡φUn−1(cos⁡φ)],forevenn∈N.

where again T_n and U_n denote the Chebyshev polynomials.

Indeed, one can deduce that

5an(−12(1+i5tan⁡φ))=(52cos⁡φ)n[α(−β)ne−inφ−βαneinφ]=(52cos⁡φ)n[(−β)n−1e−inφ+αn−1einφ]=(52cos⁡φ)n[(αn−1+(−β)n−1)cos⁡nφ+i(αn−1−(−β)n−1)sin⁡nφ]=(52cos⁡φ)n×[Ln−1cos⁡(nφ)+i5Fn−1sin⁡(nφ)],foroddn∈N,[5Fn−1cos⁡(nφ)+iLn−1sin⁡(nφ)],forevenn∈N.

Now we focus on the special cases of φ. One may note that if φ := arctan ( 5 5 tan ⁡ φ 0 ) , φ 0 ∈ ( − π 2 , π 2 ) , then

−12(1+i5tan⁡φ)=−12(1+itan⁡φ0)=−12cos⁡φ0eiφ0,cos⁡φ=11+15tan2⁡φ0=5cos⁡φ01+4cos2⁡φ0,sin⁡φ=tan⁡φ05+tan2⁡φ0=sin⁡φ01+4cos2⁡φ0.

Thus, as a consequence we obtain

for φ0=π3:
bn(−eiπ/3)=−2n/2×[FnTn(cos⁡φ)+i2310LnUn−1(cos⁡φ)],forevenn∈N0,[15LnTn(cos⁡φ)+i232FnUn−1(cos⁡φ)],foroddn∈N.

an(−eiπ/3)=2n/2×[15Ln−1Tn(cos⁡φ)+i232Fn−1Un−1(cos⁡φ)],foroddn∈N,[Fn−1Tn(cos⁡φ)+i2310Ln−1Un−1(cos⁡φ)],forevenn∈N,

where φ:=arctan(155) which yields cos⁡φ=58,sin⁡φ=38.

Furthermore, we have (see [7, 8]):
T2N(58)=N∑k=0N(−1)k2N−k2N−kk(52)N−k,T2N−1(58)=2N−110∑k=0N−1(−1)k2N−k−12N−k−1k(52)N−k,

since
Tn(x)=n2∑k=0⌊n/2⌋(−1)kn−kn−kk(2x)n−2k.

Similar formulae hold for the values of Chebyshev polynomials of the second kind
U2N(58)=∑k=0N(−1)k2N−kk(52)N−k,U2N−1(58)=25∑k=0N−1(−1)k2N−k−1k(52)N−k,

because of identity
Un(x)=∑k=0⌊n/2⌋(−1)kn−kk(2x)n−2k.

Moreover, we observe that all four numbers
2b2N−1(−eiπ/3),2a2N−1(−eiπ/3),2b2N(−eiπ/3),2a2N(−eiπ/3)

belong to the number class Z+i3Z since in definition of the coefficients of T_n(x) we have nn−k(n−kk)∈Z,k≤⌊n2⌋.
for φ0=π6:
bn(−33eiπ/6)=−(43)n/2×[FnTn(cos⁡φ)+i520LnUn−1(cos⁡φ)],forevenn∈N0,[55LnTn(cos⁡φ)+i4FnUn−1(cos⁡φ)],foroddn∈N,

an(−33eiπ/6)=(43)n/2×[55Ln−1Tn(cos⁡φ)+i4Fn−1Un−1(cos⁡φ)],foroddn∈N,[Fn−1Tn(cos⁡φ)+i520Ln−1Un−1(cos⁡φ)],forevenn∈N,

where φ:=arctan(1515) which gives cos⁡φ=154,sin⁡φ=14.
for φ0=π4:
bn(−22eiπ/4)=−(32)n/2×[FnTn(cos⁡φ)+i30LnUn−1(cos⁡φ)],forevenn∈N0,[15LnTn(cos⁡φ)+i6FnUn−1(cos⁡φ)],foroddn∈N,

an(−22eiπ/4)=(32)n/2×[15Ln−1Tn(cos⁡φ)+i6Fn−1Un−1(cos⁡φ)],foroddn∈N,[Fn−1Tn(cos⁡φ)+i30Ln−1Un−1(cos⁡φ)],forevenn∈N,

where φ:=arctan(55) which gives cos⁡φ=56,sin⁡φ=16.

Now, from (4) and (5) one may also obtain the result given below (in fact, one of the authors deduced these formulae by “observing” the numerical values of a_n(−i) and b_n(−i) for n = 0, 1, …, 20, and then he verified them easily by induction).

Lemma 2.3

The following recurrent identities hold

a0(−i)=a1(−i)=1,an+2(−i)=(2+i)(an+1(−i)−an(−i)),a2n+2(−i)=−(2+i)n+1in+3Fn=(2i−1)n+1Fn,a2n+3(−i)=−(2+i)n+1in+3(Fn+iFn+1)=(2i−1)n+1(Fn+iFn+1), (10)

b0(−i)=0,b1(−i)=−i,bn+2(−i)=(2+i)(bn+1(−i)−bn(−i)),b2n(−i)=−(2+i)nin+2Fn=−(2i−1)nFn,b2n+1(−i)=−(2+i)nin+2(Fn+iFn+1)=(2i−1)n(Fn+iFn+1), (11)

for every n ∈ ℕ₀.

Now one may deduce from (7) and (8) the corollary.

Corollary 2.4

For the Fibonacci numbers the following identities hold

(2i−1)n+1Fn=∑k=02n+22n+2kikFk−1=∑k=02n+22n+2k(1+i)2n+2−k(−i)kFk+1, (12)

(2i−1)nFn=∑k=12n2nkikFk, (13)

(2i−1)n+1(Fn+iFn+1)=∑k=02n+32n+3kikFk−1, (14)

(2i−1)n(Fn+iFn+1)=∑k=12n+12n+1kikFk,=−∑k=12n+12n+1k(1+i)2n+1−k(−i)kFk, (15)

for every n = 0, 1, ….

3 Some general recurrence relations

The above formulae can be used to generate the interesting general relations for Fibonacci numbers, but to this aim we need some technical result which holds true for both the Fibonacci and Lucas numbers (and even for the Gibonacci numbers).

Lemma 3.1

Let α_k,n, β_k,n ∈ ℂ, k = 0, 1, …, b n + c, b, c, n ∈ ℕ₀, a, r₀ ∈ ℤ. Let X, y, Z ∈ {F, L} (in fact, one can assume that X, y, Z are the Gibonacci numbers - see the respective definition at the end of this section). If there exists an r₀ ∈ ℤ such that the following equalities

Xan+r=∑k=0bn+cαk,nYk+r=∑k=0bn+cβk,n(−1)k−rZk−r (16)

hold for r = r₀, r₀+1 and for every n ∈ ℕ₀, then these equalities hold for all r ∈ ℤ and n ∈ ℕ₀.

Proof

We discuss here only the case r₀ = 0.

We will prove by induction that for every m ∈ ℕ and r ∈ ℤ, −m+1≤r≤m, equality (16) is an identity with respect to n ∈ ℕ₀. For m = 1 the above thesis follows from the assumption in Lemma. Thus, let us suppose that the statement is true for some m ∈ ℕ and for all r ∈ ℤ, −m+1 ≤ r ≤m. Then we find

Xan−m=Xan−m+2−Xan−m+1=∑k=0bn+cαk,n(Yk−m+2−Yk−m+1)=∑k=0bn+cβk,n((−1)k+mZk+m−2+(−1)k+mZk+m−1)=∑k=0bn+cαk,nYk−m=∑k=0bn+cβk,n(−1)k+mZk+m,Xan+m+1=Xan+m+Xan+m−1=∑k=0bn+cαk,n(Yk+m+Yk+m−1)=∑k=0bn+cβk,n((−1)k−mZk−m+(−1)k−m+1Zk−m+1)=∑k=0bn+cαk,nYk+m+1=∑k=0bn+cβk,n(−1)k−m−1Zk−m−1.

Hence, in view of the inductive assumption, relation (16) holds for every n ∈ ℕ₀ and r ∈ ℤ, −m ≤ r ≤ m+1. Therefore, by virtue of the mathematical induction rule, the Lemma is true. □

From the above Lemma and Corollary 2.4 we get the next result.

Corollary 3.2

The following identities hold

(2i−1)nFn+r=∑k=02n2nkikFk+r, (17)

(2i−1)n(Fn+r+iFn+r+1)=∑k=02n+12n+1kikFk+r, (18)

for every n ∈ ℕ₀ and r ∈ ℤ.

We note also that formulae (7) and (8) are not the only technical tools for generating the binomials transform formulae of scaled Fibonacci numbers. One can also apply the following formulae (see (5.1) and (5.2) in [1]).

Lemma 3.3

Let δ, γ ∈ ℂ and γ ≠ 0. Then

γnanδγ=∑k=0n(nk)(γ−1)n−kak(δ),γnbnδγ=∑k=0n(nk)(γ−1)n−kbk(δ). (19)

As examples of the previous lemma we may also deduce the additional relations between Fibonacci numbers. Let us note

an(−1)=F2n−1,bn(−1)=−F2n. (20)

So, if we set δ = −1, γ = − i, then by using (19), (10) and (11) we obtain

(1−2i)nFn−1=∑k=02n2nk(−1)k(1+i)2n−kF2k−1,(1−2i)n(Fn−iFn−1)=∑k=02n+12n+1k(−1)k+1(1+i)2n+1−kF2k−1,(1−2i)nFn=∑k=02n2nk(−1)k(1+i)2n−kF2k,(1−2i)n(Fn+1−iFn)=∑k=02n+12n+1k(−1)k+1(1+i)2n+1−kF2k,

which implies, by Lemma 3.1, that

(1−2i)nFn+r=∑k=02n2nk(−1)k(1+i)2n−kF2k+r, (21)

(1−2i)n(Fn+r−iFn+r−1)=∑k=02n+12n+1k(−1)k+1(1+i)2n+1−kF2k+r−1, (22)

for every n ∈ ℕ₀ and r ∈ ℤ. Similarly, if we set δ = 2, γ = 2i, then we can generate the identities (we note that especially for the left hand side the subtle calculations are needed-more precisely, one should use the auxiliary fact given in the footnote^{^[1]} ):

−(1−2i)n(Fr−1Fn+FrFn−2)=2−2n∑k=02n2nk(2i−1)2n−k(Fr+2−Fr+1(−1)k)5⌊k/2⌋, (23)

(1−2i)n(Fr−1Fn+1+FrFn−1−i(Fr−1Fn+FrFn−2))=2−2n−1∑k=02n+12n+1k(2i−1)2n+1−k(Fr+2−Fr+1(−1)k)5⌊k/2⌋, (24)

for every n ∈ ℕ₀ and r ∈ ℤ since a_n(2) = 5^⌊n/2⌋ and b_n(2) = (1 − (−1)ⁿ)5^⌊n/2⌋ (see [1]).

Finally, let us note that most of the presented results can be reformulated for the general Gibonacci numbers, i.e., the recurrent sequences {Gn}n=−∞∞ satisfying the recurrent relation

Gn+2=Gn+1+Gn,n∈Z

(only the recurrence relation is important, the initial conditions are not). It follows easily from the result given below and being the counterpart of Lemma 3.1 for more general case of Gibonacci numbers.

Theorem 3.4

Let α_k,n ∈ ℂ, k = 0, 1, …, b n + c, b, c, n ∈ ℕ₀, a ∈ ℤ. If the following identity holds with respect to n ∈ ℕ₀ and r ∈ ℤ

Fan+r=∑k=0bn+cαk,nFk+r,

then for every Gibonacci sequence {Gn}n=−∞∞ the identity

Gan+r=∑k=0bn+cαk,nGk+r

is satisfied for n ∈ ℕ₀ and r ∈ ℤ.

Proof

Since G_n = G₀ F_{n − 1} + G₁ F_n, n ∈ ℤ, thus we obtain

∑k=0bn+cαk,nGk+r=G0∑k=0bn+cαk,nFk+r−1+G1∑k=0bn+cαk,nFk+r=G0Fan+r−1+G1Fan+r=Gan+r.

□

Acknowledgement

The Authors want to express sincere thanks to the Reviewer for many essential remarks and advices. We had a fortune that our paper was investigated by a careful and understanding Reviewer who not only showed us the failings but also influenced the final form of this paper. We are very grateful.

References

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Received: 2015-12-24

Accepted: 2016-9-15

Published Online: 2017-4-23

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

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Chain conditions on composite Hurwitz series rings

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Coloring subgraphs with restricted amounts of hues

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An extension of the method of brackets. Part 1

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Branch-delete-bound algorithm for globally solving quadratically constrained quadratic programs

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Strong edge geodetic problem in networks

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Ricci solitons on almost Kenmotsu 3-manifolds

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Uniqueness of meromorphic functions sharing two finite sets

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On the fourth-order linear recurrence formula related to classical Gauss sums

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Dynamical behavior for a stochastic two-species competitive model

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Two new eigenvalue localization sets for tensors and theirs applications

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κ-strong sequences and the existence of generalized independent families

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Commutators of Littlewood-Paley gκ∗ -functions on non-homogeneous metric measure spaces

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On decompositions of estimators under a general linear model with partial parameter restrictions

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Groups and monoids of Pythagorean triples connected to conics

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Hom-Lie superalgebra structures on exceptional simple Lie superalgebras of vector fields

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Numerical methods for the multiplicative partial differential equations

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Solvable Leibniz algebras with NF_n⊕ Fm1 nilradical

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Evaluation of the convolution sums ∑_al+bm=n lσ(l) σ(m) with ab ≤ 9

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A study on soft rough semigroups and corresponding decision making applications

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Some new inequalities of Hermite-Hadamard type for s-convex functions with applications

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Deficiency of forests

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Perfect codes in power graphs of finite groups

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A new compact finite difference quasilinearization method for nonlinear evolution partial differential equations

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Does any convex quadrilateral have circumscribed ellipses?

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The dynamic of a Lie group endomorphism

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On pairs of equations in unlike powers of primes and powers of 2

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Differential subordination and convexity criteria of integral operators

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Quantitative relations between short intervals and exceptional sets of cubic Waring-Goldbach problem

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On θ-commutators and the corresponding non-commuting graphs

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Quasi-maximum likelihood estimator of Laplace (1, 1) for GARCH models

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Multiple and sign-changing solutions for discrete Robin boundary value problem with parameter dependence

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Fundamental relation on m-idempotent hyperrings

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A novel recursive method to reconstruct multivariate functions on the unit cube

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Nabla inequalities and permanence for a logistic integrodifferential equation on time scales

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Enumeration of spanning trees in the sequence of Dürer graphs

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Quotient of information matrices in comparison of linear experiments for quadratic estimation

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Fourier series of functions involving higher-order ordered Bell polynomials

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Simple modules over Auslander regular rings

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Weighted multilinear p-adic Hardy operators and commutators

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Guaranteed cost finite-time control of positive switched nonlinear systems with D-perturbation

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A modified quasi-boundary value method for an abstract ill-posed biparabolic problem

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Extended Riemann-Liouville type fractional derivative operator with applications

Topical Issue on Topological and Algebraic Genericity in Infinite Dimensional Spaces

The algebraic size of the family of injective operators

Topical Issue on Topological and Algebraic Genericity in Infinite Dimensional Spaces

The history of a general criterium on spaceability

Topical Issue on Topological and Algebraic Genericity in Infinite Dimensional Spaces

On sequences not enjoying Schur’s property

Topical Issue on Topological and Algebraic Genericity in Infinite Dimensional Spaces

A hierarchy in the family of real surjective functions

Topical Issue on Topological and Algebraic Genericity in Infinite Dimensional Spaces

Dynamics of multivalued linear operators

Topical Issue on Topological and Algebraic Genericity in Infinite Dimensional Spaces

Linear dynamics of semigroups generated by differential operators