Table 6. Security and performance features using m = 16. Sk is the pairwise key size, traitor node capture size nc, number of possible master key solutions Φ. ∗Computation times are for the MICAz xxxx with an eight-bit CPU at 8 MHz with 4 KB ROM 4 KB RAM 128 KB flash. η N p = 13 p = 17 p = 31 Qo (bytes) Tc∗omp (ms) Sk ≥ 64 bits Sk ≥ 80 bits Sk ≥ 128 bits log(nc) log(Φ) log(nc) log(Φ) log(nc) log(Φ) 6 6 7.36 9.01 10.67 23.40 24.50 25.46 6.76 8.40 10.05 23.16 24.30 25.46 5.00 22.64 576 175 7 6.52 8.09 23.86 24.90 672 200 8 768 225 7 6 9.11 11.08 13.04 24.30 25.46 26.60 8.50 10.46 12.41 24.30 25.46 26.45 6.61 8.47 10.37 23.63 24.90 25.97 672 229 7 784 263 8 896 296 8 6 10.88 13.14 15.41 25.28 26.45 27.46 10.26 25.09 8.28 10.47 12.69 24.71 25.97 27.04 768 292 7 12.52 14.78 26.30 27.32 896 335 8 1024 379 Legend: Key sizes 64 bits, 80 bits, 96 bits, 128 bits 7. Discussions
Table 6. 7 (Change of design), twelfth row, in the first column replace "Dome shape" by "Dome design" and in the eighth column insert the figure "X**" including a new note** to read: "** Drop test A.20 only required for CNG-3 and CNG-4 designs".
Table 6. 2.1-1: Archive Standard Metadata MD Reference MD Standard Repository REF ID:
Table 6. 2.1-1: Archive Standard Metadata MD Reference MD Standard Repository REF ID: Support Items and Services Instructions This section identifies the items and services specifically needed by the Consumers from the Archive for processing and/or understanding the data available from the Archive. Table 6.2.2-1: Support Items and Services Item / Service Support Description REF ID: Designated Community Monitoring Instructions This section identifies ways the Archive may stay current with the technical needs of the Consumers so that the Archive can best serve the Designated Community.
Table 6. 5 Bearing arrangement and dynamic equivalent load The equivalent radial loads for these bearing pairs are given in Table 6.5. Bearing arrangement Load condition Axial load Equivalent radial load DB arrangement II FrII DF arrangement I FrI Fa Fa I FrI II FrII 0.5FrII ≤ 0.5FrI + F F = 0.5FrI aI Y I PrI = FrI Y Y a II I F = 0.5FrI + F aII Y a PrII = XFrII +YII FaII I 0.5FrII > 0.5FrI + F F = 0.5FrII − F aI Y a II PrI = XFrI +YI FaI Y Y a II I F = 0.5FrII aII Y PrII = FrII II DB arrangement II FrII DF arrangement I FrI Fa Fa I FrI II FrII 0.5FrI ≤ 0.5FrII + F F = 0.5FrII + F aI Y a II PrI = XFrI +YI FaI Y Y a I II F = 0.5FrII aII Y PrII = FrII II 0.5FrI > 0.5FrII + F F = 0.5FrI aI Y I PrI = FrI Y Y a I II F = 0.5FrI − F aII Y a PrII = XFrII +YII FaII I Note: 1) The above are valid when the bearing internal clearance and preload are zero.
Table 6. Analysis 1: metric selection results. Metric - stressor correlation was consistent (yes) if the sign of the correlation was as expected. Xxxxxxxx rank correlation between the EQR, calculated using the formula EQR1, and the stressor is reported. A metric was redundant (redundancy=yes) if correlated (r>0.8)
Table 6. Sensitivity and specificity of all tracings classified by observers as pathological or category III in prediction of newborn acidemia, by study group, and according to the number of years of experience of the clinicians in cardiotocography analysis (95% CI= 95% confidence intervals). Sensitivity % (95% CI) Specificity % (95% CI) FIGO 1987 89 (52-98) 63 (55-71) > 10 years experience 90 (59-100) 67 (59-74) 6-10 years experience 86 (42-100) 64 (56-72) < 6 years experience 90 (59-100) 58 (50-66) ACOG 2010 32 (10-67) 95 (90-98) > 10 years experience 38 (10-71) 92 (87-96) 6-10 years experience 24 (4-58) 95 (91-98) < 6 years experience 33 (18-81) 98 (94-99) NICE 2007 97 (61-100) 66 (58-73) > 10 years experience 95 (56-100) 72 (64-79) 6-10 years experience 95 (59-100) 57 (49-65) < 6 years experience 100 (59-100) 67 (59-75)
Table 6. Typical content of a lead acid automotive battery In the case of the EXIDE plant, the raw material that arrives at the factory comes from two different sources. The largest amount of raw material comes from external suppliers, around 70%. This raw material arrives at the factory in trucks containing already classified material. Paste is the fundamental raw material, although materials such as metallic ones also arrive, and to a lesser extent, mixed battery elements such as grids, oxides, separators, etc. The rest, 30% of the raw material comes from its internal suppliers. 90% correspond mainly to used batteries and 10% belong to rejects from the EXIDE group's battery production plants. After the process of breaking the batteries, pastes are obtained in 20% and metallic in 70%. The paste and the metallic that arrive from the suppliers are analysed in the laboratory, with an Inductively Coupled Plasma Spectroscopy (ICP) to detect the lead content. The paste (Figure 56) usually has an average of 72% lead content and 9% moisture. On the contrary, the metallic (Figure 57) that are separated into lead paste, inert and metallic for analysis, usually have an average content of 92% lead and moisture of 2%. Variability of both moisture and lead content depends on the raw material supplier. It also influences on the form of presentation of the raw material. For example, it is not the same if the raw material is present whole or crushed.
Table 6. Xxxxxxx’x correlation coefficients between survey response variables, lifestyle factors and psychosocial constructs, organised by operational firefighters and non-operational (control and support) staff. Role Operational Firefighters (n=2043) Non-operational staff (n=1096) Variable Age Waist BMI Physical Activity Alcohol Sleep hours Age Waist BMI Physical Activity Alcohol Sleep hours Age - 292** 220** -.106** .015 -.120** - .123** .147** .006 -.099** -.197** Waist .292** - .716** -.114** .076** -.093** .123** - .759** -.029 .083** -.063* BMI .220** .716** - -.082** .086** -.118** 147** .759** - -.061* .051 -.104** Physical Activity -.106** -.114** -.082** - -.069** -.024 .006 -.029 -.061* - -.048 -.021 Alcohol .015 .076** .086** -.069** - -.010 -.099** .083** .051 -.048 - .005 Depression .063** .084** .131** -.078** .035 -.262** -.094** .044 .067* -.037 .033 -.284** Anxiety .013 .056* .082** -.069** .029 -.230** .103** .103** .124** -.018 .004 -.232** Stress .072** .063** .085** -.074** .040 -.306** -.073* .045 .078** -.044 .027 -.262** Positive Affect -.034 -.001 -.008 .077** -.043 .132** .069* .049 .000 .068* -.034 .174** Negative Affect .021 .026 .061** -.032 .018 -.202** -.084** .053 .088** .008 -.013 -.205** Autonomy Satisfaction -.049* -.007 -.035 .067** -.021 .139** .081** .009 -.026 .029 -.025 .186** Autonomy Frustration .151** .114** .127 -.049* .055* -.186** -.027 .025 .041 .013 .007 -.175** Relatedness Satisfaction -.102** -.085** -.073** .073** .004 .146** .006 -.042 -.047 .035 -.066* .152** Relatedness Frustration .107** .096** .113** -.060** -.014 -.189** .012 .100** .090** -.027 .031 -.177** Competence Satisfaction -.057** .043 .046* .078** .013 .111** .064* -.025 -.057 .055 -.006 .154** Competence Frustration .005 -.011 .005 -.051* -.042 -.142** -.093** .013 .050 -.066* -.025 -.201** SWL -.044* -079** -.098** .073** -.006 .296** .069* -.075* -.078** .065* -.004 .255** Note: SWL: Satisfaction with Life. *denotes significance at p<0.05. ** denotes significance at p<001.
Table 6. C.2: MSF for Prepaid Subscribers Subsequent to [**] Min Subs Max Subs MSF in a [**] [**] [**] [**] [**] [**] [**] [**] [**] [**] [**] [**] [**] [**] [**] [**] [**] [**] [**] [**] [**] [**] [**] [**] [**] [**]