### Table 11: Timing results for our Matlab implementation of the six algorithms in milliseconds. These results are for the 6-parameter affine warp using a BDBCBC A2 BDBCBC pixel grey-scale template on a 933MHz Pentium-IV. Steps 0 and 10 for Levenberg-Marquardt are negligible and so are omitted for lack of space. Precomputation:

2004

"... In PAGE 41: ...6.5 Timing Results The timing results in milliseconds for our Matlab implementation of the six algorithms are included in Table11 . These results are for the 6-parameter affine warp using a BDBCBC A2 BDBCBC pixel grey-scale template on a 933MHz Pentium-IV.... ..."

Cited by 144

### Table 11: Timing results for our Matlab implementation of the six algorithms in milliseconds. These results are for the 6-parameter affine warp using a BDBCBC A2 BDBCBC pixel grey-scale template on a 933MHz Pentium-IV. Steps 0 and 10 for Levenberg-Marquardt are negligible and so are omitted for lack of space. Precomputation:

2004

"... In PAGE 41: ...6.5 Timing Results The timing results in milliseconds for our Matlab implementation of the six algorithms are included in Table11 . These results are for the 6-parameter affine warp using a BDBCBC A2 BDBCBC pixel grey-scale template on a 933MHz Pentium-IV.... ..."

Cited by 144

### Table 11: Timing results for our Matlab implementation of the six algorithms in milliseconds. These results are for the 6-parameter affine warp using a a0a2a1a3a1a5a4 a0a2a1a3a1 pixel grey-scale template on a 933MHz Pentium-IV. Steps 0 and 10 for Levenberg-Marquardt are negligible and so are omitted for lack of space. Pre-computation:

2004

"... In PAGE 46: ...6.5 Timing Results The timing results in milliseconds for our Matlab implementation of the six algorithms are included in Table11 . These results are for the 6-parameter affine warp using a a0a2a1a3a1a5a4a6a0a7a1a3a1 pixel grey-scale template on a 933MHz Pentium-IV.... ..."

Cited by 144

### Table 5: Timing results for our Matlab implementation of the four algorithms in milliseconds. These results are for the 6-parameter affine warp using a BDBCBC A2 BDBCBC pixel template on a 933MHz Pentium-IV. Precomputation:

2004

"... In PAGE 25: ... Hence we re- implemented that step in C. The timing results for the 6-parameter affine warp using a BDBCBC A2 BDBCBC pixel grey-scale template on a 933MHz Pentium-IV are included in Table5 . As can be seen, the two inverse algorithms shift much of the computation into pre-computation and so are far faster per iteration.... ..."

Cited by 144

### Table 5: Timing results for our Matlab implementation of the four algorithms in milliseconds. These results are for the 6-parameter affine warp using a BDBCBC A2 BDBCBC pixel template on a 933MHz Pentium-IV. Precomputation:

2004

"... In PAGE 25: ... Hence we re- implemented that step in C. The timing results for the 6-parameter affine warp using a BDBCBC A2 BDBCBC pixel grey-scale template on a 933MHz Pentium-IV are included in Table5 . As can be seen, the two inverse algorithms shift much of the computation into pre-computation and so are far faster per iteration.... ..."

Cited by 144

### Table 2. The constrained affine projection algorithm. CAP Algorithm

### Table 4: Convergence range of different algorithms for affine mo- tion.

"... In PAGE 5: ... The experiments are similar to the ones for the rigid motion (table 3), we registered the source and target images while varying the synthetic affine motion until the methods fail to find the motion. Each motion parameter is evaluated independently, Table4 summarizes the results of applying our CCRE algorithm as well as the other MI schemes. The values shown are the maximum capture range (from a zero initial guess) for each parameter in each algorithm.... ..."

### Table 5: Timing results for our Matlab implementation of the four algorithms in milliseconds. These results are for the 6-parameter affine warp using a a0a2a1a3a1a5a4a6a0a2a1a3a1 pixel template on a 933MHz Pentium-IV. Pre-computation:

2004

"... In PAGE 28: ... Hence we re- implemented that step in C. The timing results for the 6-parameter affine warp using a a22 a41a15a41 a27 a22 a34a41a15a41 pixel grey-scale template on a 933MHz Pentium-IV are included in Table5 . As can be seen, the two inverse algorithms shift much of the computation into pre-computation and so are far faster per iteration.... ..."

Cited by 144