### Table 1. A summary of certain non-negative integer parameters

"... In PAGE 24: ... The next lemma involves four of the seven parameters 1{ 5, s, and t. In Table1 , which appears below, these seven parameters are summarized. 11.... In PAGE 26: ...Table 1. A summary of certain non-negative integer parameters In Table1 , for easy reference, we have summarized information about the seven parameters 1{ 5, s, and t each of which must be a non-negative integer. Four of these parameters, t, 1, 4, and 5, change their values according to the case we are in.... ..."

### Table 1. A summary of certain non-negative integer parameters

"... In PAGE 26: ... The next lemma involves four of the seven parameters 1{ 5, s, and t. In Table1 , which appears below, these seven parameters are summarized. 12.... In PAGE 27: ... = 1. By Lemmas 7.1, 7.2, and 7.3, in every case, J2 2 G;(H0 2). In Table1 , for easy reference, we have summarized information about the the seven parameters 1{ 5, s, and t each of which must be a non-negative integer. Four of these parameters, t, 1, 4, and 5, change their values according to the case we are in.... ..."

### Table 3 Results using multi-channel sub-band energy based EOU scheme.

2001

"... In PAGE 3: ...1 Table 1 Results with the confidence based EOU scheme. The results using the energy-based scheme with a single frequency band is given in Table 2, while Table3 gives the results for the proposed multi-channel sub-band energy based EOU scheme. It can be seen from the results that the single channel energy based scheme provides better results than the confidence based method especially in very high car noise conditions, but performs badly in the presence of background music.... ..."

Cited by 2

### Table 1: Summary of algorithms for Weighted Non-Negative Matrix Euclidean Distance (ED) KL Divergence (KLD)

### Table III. Comparison of the spectral reflectances measured from the original van Gogh Target and the printed targets estimated from the multi-channel acquisition.

### Table 3: A GapL algorithm for the determinant over non-negative integers

"... In PAGE 22: ...) Essentially, HA gives us a uniform polynomial size, polynomial width branching program, corresponding precisely to GapL. Table3 lists the code for an NL machine computing, through its gap 6.2-10 function, the determinant of a matrix A with non-negative integral entries.... ..."

### Table 3: A GapL algorithm for the determinant over non-negative integers

"... In PAGE 22: ...) Essentially, HA gives us a uniform polynomial size, polynomial width branching program, corresponding precisely to GapL. Table3 lists the code for an NL machine computing, through its gap 6.2-10 function, the determinant of a matrix A with non-negative integral entries.... ..."

### Table 1. Multi-channel examples

"... In PAGE 6: ... Since Mu[1] = Mv[1] = 00 and Mu[2] = Mv[2] = 00, we choose y = 2 for both j = 0 and 1 as a key-bit of type 1. The two paths from node 0 to node 64 of class 0 are shown in Table1 . The key-bit is shown with boldface.... In PAGE 6: ...y Case 2.2. We choose y = 2 for both j = 0 and 1. Since c(0) u = c(1) v and c(1) u = c(0) v , we have |Z0| = |Z1| = 1. The two paths from node u = 0000000001 to node v = 1101000000 are shown in Table1 . |P0| = |P1| = d(u,v)+4+|Z1| = 5+ 4+1 = 10, where d(1,64) = H(1,64)+22 = 1+4 = 5.... ..."

### Table 1: The algorithms tested in this article. These include a number of different algorithms for finding matrix factorisations under non-negativity constraints and a neural network algorithm for performing competitive learning through dendritic inhibition.

"... In PAGE 4: ...3. 3 Results In each of the experiments reported below, all the algorithms listed in Table1 were applied to learning the com- ponents in a set of p training images. The average number of components that were correctly identified over the course of 25 trials was recorded.... ..."

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### Table 10 - MULTI-CHANNEL ACTION code values

1524

"... In PAGE 10: ...able 9 - SRP_LOGIN_REQ request . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 Table10 - MULTI-CHANNEL ACTION code values .... ..."