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1 - 10 of 132 search results for tj KaKaotalk:PC53 |u:api.newton.ac.uk where 0 match all words and 132 match some words.

  1. Results that match 1 of 2 words

  2. EFFECTIVE SIMULATION OF A MACROSCOPIC MODEL FOR STATIONARY…

    https://api.newton.ac.uk/website/v0/events/preprints/NI03070
    T := (b[j,1], b[j,2])T |Tj|(mhT z) z. Tj. f dx;(. M11jj M12jj. ... substituted by m(n)h. (iv) Mark an element Tj T (n) provided ηj θ max1kN.

  3. Lagrangian multiforms and multidimensional consistency Sarah Lobb and …

    https://api.newton.ac.uk/website/v0/events/preprints/NI09032
    Utjtj. (n2j. (ti tj)2U2tiU2tjU2titjU2tj 1tj ti. UtitjUtj. ). n2i2(ti tj)3. UtjUti. ... 2(ti tj)(tj tk)U2tj+. n2k2(tj tk)(tk ti)U2tk. (4.10a). or(ti tj)UtkUtitj (tj tk)UtiUtjtk (tk ti)UtjUtkti = 0.

  4. BART:Bayesian Additive Regression Trees Hugh A. Chipman, Edward I. ...

    https://api.newton.ac.uk/website/v0/events/preprints/NI09002
    where for each binary regression tree Tj and its associated terminal node pa-. ... n followed by m successive drawsof (Tj, Mj)|T(j), M(j), z1,. ,

  5. EIGENVECTOR LOCALIZATION FOR RANDOM BAND MATRICES WITH POWER LAW ...

    https://api.newton.ac.uk/website/v0/events/preprints/NI09019
    Tj Pj1Y1+ Pj1T. †j , T. †j1Pj1YPj1Tj1 AW. By Prop. 5 Pj Y1Pj AW. ... Lemma 3.2 (Lemma W for XW ;nW ). Let Vj, Tj, j = 1,. ,

  6. A Graphical Method for Comparing Response-Adaptive Randomization…

    https://api.newton.ac.uk/website/v0/events/preprints/NI12009
    patient. Let NA(n) =n. j=1 Tj be the (random) number of assignments to treatment. ... Consider the binary response model, where Xj|(Tj = 1) and Xj|(Tj = 0) are.

  7. driver_SA.dvi

    https://api.newton.ac.uk/website/v0/events/preprints/NI11063
    involving the input xj,. Tj = Sj. k 6=j. Skj S1,2,.,d. ... effect, i.e., those with Tj >. 10, the plug-in Bayesian estimator has slightly smaller absolute.

  8. On a nonlinear integrable differenceequation on the square…

    https://api.newton.ac.uk/website/v0/events/preprints/NI09025
    Tj 1)µui,j µ1ui1,j. 1ui,jui1,j= 0, where Tj is the shift operator for the j index.

  9. Non-time-homogeneous Generalized Mehler Semigroups and Applications

    https://api.newton.ac.uk/website/v0/events/preprints/NI10058
    H. H. 1A(ε′)(x y) µt,tj (dx)(µtj,s U(t, tj)1)(dy). H. H. ... η. 2> µtj,s(A(ε. ′/2)) = µtj,t (µt,s U(tj, t)1)(A(ε′/2)). =. H.

  10. A Size Index for Multitape Turing Machines

    https://api.newton.ac.uk/website/v0/events/preprints/NI12061
    the values of z and kj = κ(tj) as follows,where lj = λ(tj):. • ... z = R,kj 6= lj: w(tj, (y,z)) = {kj1, (ij,1, ij,2,.

  11. Hypercontractive Inequality for Pseudo-Boolean Functions of Bounded…

    https://api.newton.ac.uk/website/v0/events/preprints/NI11017
    t2r} (j1i=1 Mi)such that w2µj = max{w. 2ti : ti Tj}, and let Mj be a minimally even subset of. ... Tj containing µj. Let s be the largest j for which µj is defined above.

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