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  • Interpolatory integration rules  (3)
  • Potential theory  (2)
  • T antigen  (2)
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  • 1
    Digitale Medien
    Digitale Medien
    The simian virus 40 large tumor antigen
    Amsterdam : Elsevier
    Biochimica et Biophysica Acta (BBA)/Gene Structure and Expression 910 (1987), S. 1-10 
    Details
    ISSN: 0167-4781
    Schlagwort(e): Large tumor antigen ; Simian virus 40 ; T antigen ; Viral DNA replication
    Quelle: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002
    Thema: Biologie , Chemie und Pharmazie , Medizin , Physik
    Materialart: Digitale Medien
    URL: http://linkinghub.elsevier.com/retrieve/pii/0167-4781(87)90088-1
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  • 2
    Digitale Medien
    Digitale Medien
    Protein-DNA interactions at the simian virus 40 origin of replication
    Amsterdam : Elsevier
    Biochimica et Biophysica Acta (BBA)/Gene Structure and Expression 951 (1988), S. 388-395 
    Details
    ISSN: 0167-4781
    Schlagwort(e): (SV40) ; DNA replication ; Protein-DNA interaction ; T antigen
    Quelle: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002
    Thema: Biologie , Chemie und Pharmazie , Medizin , Physik
    Materialart: Digitale Medien
    URL: http://linkinghub.elsevier.com/retrieve/pii/0167-4781(88)90111-X
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  • 3
    Digitale Medien
    Digitale Medien
    What distributions of points are possible for convergent sequences of interpolatory integration rules? (1993)
    Springer
    Constructive approximation 9 (1993), S. 41-58 
    Details
    ISSN: 1432-0940
    Schlagwort(e): Primary 41A55 ; 65D30 ; 65D32 ; Secondary 42C05 ; Integration rules ; Interpolatory integration rules ; Convergence ; Distribution of points ; Weak convergence ; Potential theory
    Quelle: Springer Online Journal Archives 1860-2000
    Thema: Mathematik
    Notizen: Abstract Suppose that, forn≥1, $$I_n [f]: = \sum\limits_{j = 1}^n {w_{jn} f(x_{jn} )} $$ is aninterpolatory integration rule of numerical integration, that is, $$I_n [f]: = \int\limits_{ - 1}^1 {P(x)dx,} degree(P)〈 n.$$ Suppose, furthermore, that, for each continuousf:[−1, 1]→R, $$\mathop {\lim }\limits_{n \to \infty } I_n [f] = \int\limits_{ - 1}^1 {f(x)dx.} $$ What can then be said about thedistribution of the points $$\{ x_{jn} \} _{1 \leqslant j \leqslant n} $$ n→∞? In all the classical examples they havearcsin distribution. More precisely, if $$\mu _n : = \frac{1}{n}\sum\limits_{j = 1}^n {\delta _{x_{jn} } } $$ is the unit measure assigning mass 1/n to each pointx jn, then, asn→∞ $$d\mu _n (x)\mathop \to \limits^* \upsilon (x)dx: = \frac{1}{\pi }(\arcsin x)'dx = \frac{{dx}}{{\pi (1 - x^2 )^{1/2} }}.$$ Surprisingly enough, this isnot the general case. We show that the set of all possible limit distributions has the form 1/2(v(x) dx+dv(x)), wherev is an arbitrary probability measure on [−1, 1]. Moreover, given any suchv, we may find rulesI n,n≥1, with positive weights, yielding the limit distribution 1/2v(x) dx+dv(x)). We also consider generalizations when the quadratures have precision other thann−1, and when we place a weight σ in our integral.
    Materialart: Digitale Medien
    URL: http://dx.doi.org/10.1007/BF01229335
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  • 4
    Digitale Medien
    Digitale Medien
    Distribution of points for convergent interpolatory integration rules on (−∞, ∞) (1993)
    Springer
    Constructive approximation 9 (1993), S. 59-82 
    Details
    ISSN: 1432-0940
    Schlagwort(e): Primary 41A55 ; 65D30 ; 65D32 ; Secondary 42C05 ; Integration rules on (−∞, ∞) ; Interpolatory integration rules ; Convergence ; Distribution of points ; Weak convergence ; Potential theory ; Gauss quadrature ; Nevai-Ullmann distribution
    Quelle: Springer Online Journal Archives 1860-2000
    Thema: Mathematik
    Notizen: Abstract Letw be a “nice” positive weight function on (−∞, ∞), such asw(x)=exp(−⋎x⋎α) α〉1. Suppose that, forn≥1, $$I_n [f]: = \sum\limits_{j = 1}^n {w_{jn} } f(x_{jn} )$$ is aninterpolatory integration rule for the weightw: that is for polynomialsP of degree ≤n-1, $$I_n [P]: = \int\limits_{ - \infty }^\infty {P(x)w(x)dx.} $$ Moreover, suppose that the sequence of rules {I n} n=1 t8 isconvergent: $$\mathop {\lim }\limits_{n \to \infty } I_n [f] = \int\limits_{ - \infty }^\infty {f(x)w(x)dx} $$ for all continuousf:R→R satisfying suitable integrability conditions. What then can we say about thedistribution of the points {x jn} j=1 n ,n≥1? Roughly speaking, the conclusion of this paper is thathalf the points are distributed like zeros of orthogonal polynomials forw, and half may bearbitrarily distributed. Thus half the points haveNevai-Ullmann distribution of order α, and the rest are arbitrarily distributed. We also describe the possible distributions of the integration points, when the ruleI n has precision other thann-1.
    Materialart: Digitale Medien
    URL: http://dx.doi.org/10.1007/BF01229336
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  • 5
    Digitale Medien
    Digitale Medien
    Interpolatory integration rules and orthogonal polynomials with varying weights (1992)
    Springer
    Numerical algorithms 3 (1992), S. 55-65 
    Details
    ISSN: 1572-9265
    Schlagwort(e): Interpolatory integration rules ; convergent integration rules ; orthogonal polynomials ; varying weights ; equilibrium distribution
    Quelle: Springer Online Journal Archives 1860-2000
    Thema: Informatik , Mathematik
    Notizen: Abstract We investigate which types of asymptotic distributions can be generated by the knots of convergent sequences of interpolatory integration rules. It will turn out that the class of all possible distributions can be described exactly, and it will be shown that the zeros of polynomials that are orthogonal with respect to varying weight functions are good candidates for knots of integration rules with a prescribed asymptotic distribution.
    Materialart: Digitale Medien
    URL: http://dx.doi.org/10.1007/BF02141915
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