- 71 Views
- Uploaded on
- Presentation posted in: General

Cascade model: increasing N represents smaller scales

Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author.While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server.

- - - - - - - - - - - - - - - - - - - - - - - - - - E N D - - - - - - - - - - - - - - - - - - - - - - - - - -

Cascade model: increasing N represents smaller scales

M(N)=rgl3

Probability varies

with level

Smin

1

2

Highest probability and size at each level gives primary size distrib

Cascade model: increasing N represents smaller scales

M(N)=rgl3

Probability varies

with level

Smin

1

2

Highest probability and size at each level gives primary size distrib

Cascade model: increasing N represents smaller scales

M(N)=rgl3

Probability varies

with level

Smin

1

2

Highest probability and size at each level gives primary size distrib

Cascade model: increasing N represents smaller scales

M(N)=rgl3

Probability varies

with level

Smin

1

2

Highest probability and size at each level gives primary size distrib

Cascade model: increasing N represents smaller scales

M(N)=rgl3

Probability varies

with level

Smin

1

2

Highest probability and size at each level gives primary size distrib

Cascade model: increasing N represents smaller scales

M(N)=rgl3

Probability varies

with level

Smin

1

2

Highest probability and size at each level gives primary size distrib

Cascade model: increasing N represents smaller scales

M(N)=rgl3

Probability varies

with level

Smin

1

2

Highest probability and size at each level gives primary size distrib

Cascade model: increasing N represents smaller scales

M(N)=rgl3

Probability varies

with level

Smin

1

2

Highest probability and size at each level gives primary size distrib

Cascade model: increasing N represents smaller scales

M(N)=rgl3

Probability varies

with level

1

Smin

2

Highest probability and size at each level gives primary size distrib

Cascade model: increasing N represents smaller scales

M(N)=rgl3

Fp(>T)

Probability varies

with level

1

Smin

2

Highest probability and size at each level gives primary size distrib

Cascade model: increasing N represents smaller scales

M(N)=rgl3

Probability varies

with level

1

Smin

2

Highest probability and size at each level gives primary size distrib

Cascade model: increasing N represents smaller scales

M(N)=rgl3

Probability varies

with level

1

Smin

2

Highest probability and size at each level gives primary size distrib

Cascade model: increasing N represents smaller scales

M(N)=rgl3

1

Probability varies

with level

Smin

2

Highest probability and size at each level gives primary size distrib

Cascade model: increasing N represents smaller scales

M(N)=rgl3

Probability varies

with level

1

Smin

2

Highest probability and size at each level gives primary size distrib

Cascade model: increasing N represents smaller scales

M(N)=rgl3

Probability varies

with level

1

Smin

2

Highest probability and size at each level gives primary size distrib

Cascade model: increasing N represents smaller scales

M(N)=rgl3

Probability varies

with level

1

Smin

2

Highest probability and size at each level gives primary size distrib

Cascade model: increasing N represents smaller scales

M(N)=rgl3

Probability varies

with level

1

Smin

2

Highest probability and size at each level gives primary size distrib

Cascade model: increasing N represents smaller scales

M(N)=rgl3

Probability varies

with level

1

Smin

2

Highest probability and size at each level gives primary size distrib