# Search results

1. ### A finite state machine.

yeah i know that, but in a finite state machine... According to the sequence in the language there must be more 0 than 1... (the way I understand it..)
2. ### A finite state machine.

Why is it not possible to construct a finite state machine that recognizes precisely those sequences in the language A = {0^i 1^j |i,j Element Z^+, i>j} where the alphabet for A is {0,1}.. I just don't get it why this is not possible.. :grumpy: Is it because 0 can be infinite.. ?
3. ### Finite state machines

Alright, now i get it. thanks for the help:)
4. ### Finite state machines

Hmmm, i'm not sure i understod all you wrote, but thanks for your reply:) You see one of my exercises is based on a finite state machine diagram where we're supposed to determine the output string of some input etc. , but i'm having trouble translating the diagram to a state table. My book...
5. ### Finite state machines

Yeah, so i see :smile: But can you explain the process of "f" and "g" ? What make states: A, column f = B and C B, column f = B and C C, column f = C and C A, column g = 0 and 1 B, column g = 0 and 1 C, column g =1 and 1 ? I just don't get it :(((
6. ### Finite state machines

Hmm, my attachment is still pending. I've found the same example here : http://www.cis.uoguelph.ca/~sawada/2910/notes/fsm-1x2.pdf (check out page 3)
7. ### Finite state machines

Finite state machines :( Okay, i'm having trouble understanding a finite state machine example in my :yuck: book. It's a state table for the machine M = (S, \ell , \wp , v , \omega ) where S = {S0, S1, S2}, \ell = \omega = {0,1}. Please check out the attachment:smile: What i don't...
8. ### Weird :S

aight, thanks for the help dude
9. ### Weird :S

So.. nr 6 is like.. 4, right?
10. ### Weird :S

Some of them are obvious...
11. ### Weird :S

\lambda is according to definition a empty string - that is, the string consisting of no symbols taken from \Sigma. \{ \lambda \} \neq \emptyset because | \{ \lambda \} | = 1 \neq 0 = | \emptyset | . \parallel w \parallel[/itex] = the length of w, and \parallel \lambda...
12. ### Weird :S

I'm surprised that nobody can solve this ......
13. ### Weird :S

Well.. the problem is that i'm totally stuck. I have no idea what to do.. I've red the chapter over and over, checked several math websites, forum and so on.. :cry: It seems to me that people find it difficult to solve this no matter math skills :rolleyes: So if you don't want to help me...
14. ### Weird :S

Let \Sigma = { \beta,x,y,z} where \beta denotes a blank, so x\beta \neq x, \beta \beta \neq \beta, and x\betay \neq xy but x \lambday = xy. Compute each of the following: 1: \parallel \lambda \parallel 2: \parallel \lambda \lambda \parallel 3: \parallel \beta \parallel 4...