... n B ≥ x 1/ β 1/ β log n 1/ β ε log n x Δ 1/ 4 n ε P B ≥ x 2x ε P αn ≥ x ∞ log n n ε log n ∞ n≤A ε 1/ β −P : B ≥ y dy Δ 1/ 4 n 1/ β ε log n dx 1/ β ε log n 1/ β dx dx δ J 11 J12 J13 2 .13 1/ β Since n ≤ ... 2/β J 11 ≤ log n , it follows log n 2/β 1/ β Δ 1/ 4 n x ε Δn dx ≤ log n ≤ 1/ 4 n 2/β Δn 1/ β log n M1/β 1/ 2 n Δ 1/ 4 n log n 1/ β M1/β 2 .14 −→ 0, as n −→ ∞ By Lemma 2 .1 in Zhang and Yang 12 , we ... main results Theorem 1.1For < β ≤ 2, δ > 2/β − 1, one has lim εβ δ −2 ε ∞ n log n n δ−2/β E αn I αn ≥ ε log n 1/ β βE B β δ β δ −2 1. 4 Theorem 1. 2 For < β ≤ 2, δ > 2/β − 1, one has lim εβ δ ε...
... Ultramicroscopy 2 010 , 11 0(9) :12 05 -12 14 Zhang Y, Fang Y, Yu J, Dong X: Note: a novel atomic force microscope fast imaging approach: variable-speed scanning Rev Sci Instrum 2 011 , 82:05 610 3 -6- Useinov ... thank the Federal target programme Research and Pedagogical Cadre for Innovative Russia for 2009-2 013 (grant no 14 .740 .11 .14 49) for providing financial support to this project References Sulchek ... cantilever free-air amplitude is Afr = 10 0 nm ), the cantilever resonance frequency is f = 11 .5 kHz , the quality factor is 10 0, and the apex angle of a diamond tip is 12 0° [8], then the scan speed limit...
... standard and with the NCV73 41 transceiver [17 ] Accurate model Transconductor Yes Exponential Yes Yes 10 2 10 4 10 6 10 8 11 0 11 2 Time (μs) 11 4 11 6 11 8 11 4 11 6 11 8 11 4 11 6 11 8 BP BM (a) Vcc (V) (i) Statistical ... 3.5 CANL, CANH (V) uBus (V) (a) 1. 5 0.5 −0.5 11. 5 500 0 .15 Time (μs) 2.5 1. 5 1 1.05 1.11. 15 Time (μs) Measured Model fast Model moderate Model accurate Figure 12 : Dominant to recessive state ... detection Simulation period 1.1 ms 12 .3 ms 14 .0 μs 13 3 .1 μs 210 .1 μs 670 .1 μs 10 .5 ms PC workstation used to perform the tests presented in Table is an Intel P4, 2.66 GHz, 512 MB RAM, and Linux O.S...
... load dominates the system performance This can be seen in Figure 10 Michael J Meeuwsen et al 11 10 4 15 10 4 18 10 Viterbi decoder (one trellis with 512 ACS calc.) 512 -pt complex FFT (one stage) ... time (memory cycles) 16 10 20 12 10 10 24-tap FIR 14 30 40 50 60 Computation load Partitioning an application among multiple processors in address-data mode typically outperforms a mapping using ... simpler SRAM 12 EURASIP Journal on Embedded Systems Execution time (memory cycles) 10 4 12 Address gen (2%) Input port (5%) 10 Other (5%) Output FIFOs (10 %) Input FIFOs (10 %) SRAM (68%) 10 15 20 25...
... response vector of the desired user g1 and the variance of Intersymbol Detector for CDMA Networks 423 10 −2 10 −2 BER 10 1 BER 10 1 10−3 10 −3 10 −4 10 −4 −4 −2 10 12 Eb /N0 (dB) Proposed (M = 7) Optimal ... vol 46, no 1, pp 91 10 3, 19 98 [10 ] M K Tsatsanis and Z Xu, “Performance analysis of minimum variance CDMA receivers,” IEEE Trans Signal Processing, vol 46, no 11 , pp 3 014 –3022, 19 98 ´ [11 ] S Verdu, ... no 1, pp 11 5 12 4, 19 98 ´ [5] H C Huang and S Verdu, “Linear differentially coherent multiuser detection for multipath channels,” Wireless Personal Communications, vol 6, no 1- 2, pp 11 3 13 6, 19 98...
... rate 1/ 2, constraint length 7, and generators [10 110 11] , [11 110 01] Each user has a randomly selected short spreading code The spreading factor is 16 chips per information bit The system load is 12 /16 ... vol 17 , no 12 , pp 211 0– 212 2, 19 99 [15 ] D K Borah and P B Rapajic, “Optimal adaptive multiuser detection in unknown multipath channels,” IEEE J Select Areas Commun., vol 19 , no 6, pp 11 15 11 27, ... system (SU) 10 0 10 1 Bit error rate EURASIP Journal on Wireless Communications and Networking 10 −2 10 −3 10 −4 10 −5 2.5 3.5 4.5 5.5 6.5 Eb /N0 (dB) Detector1, iter Detector1, iter Detector1, 10 iter...
... gravity For different kinds of the porous media, the diffusion coefficient varies in a large scale Gravels Sands Silts Clays Limestone 0 .1 to cm/sec 10 −3 to 10 −2 cm/sec 10 −5 to 10 −4 cm/sec 10 −9 to 10 −7 ... convergence ratesfor the method 1. 1.2 Some preliminary results Lemma 1.1 .1 The coefficient-to-solution operator U : Q ⊂ L∞ (Ω) → H⋄ (Ω) is continuously Fr´chet differentiable on the set Q For each ... (qρ1n ) of (qρn ) and an element q ∈ ΠQad (u) such that n ∫ 1n δ1n ∫ δ1n limn ∥qρ1n − q∥L1 (Ω) = and limn Ω |∇qρ1n | = Ω |∇q| Further, q is a solution to problem ∫ δ ℓ (Kq ) and limn DT V (qρ1n...
... conjecture J Combin Theory Ser A 10 7, (2004), 15 3 16 0 [9] Regev, A Asymptotic values for degrees associated with strips of young diagrams Adv Math 41 (19 81) , 11 5 13 6 [10 ] Vatter, V Permutation classes ... π red(π) = 1 ⊕ ρ2 ⊕ · · · ⊕ ρc For example: red(2 413 76 89) = 2 413 65 For a set X of permutations red(X) = {red(π) : π ∈ X} the electronic journal of combinatorics 17 (2 010 ), #R1 41 The main ... map from [n] = {1, 2, , n} to itself, and is therefore a set of ordered pairs { (1, π (1) ), (2, π(2)), , (n, π(n))} the electronic journal of combinatorics 17 (2 010 ), #R1 41 (traditionally...