| Id |
Subject |
Object |
Predicate |
Lexical cue |
| TextSentencer_T275 |
0-437 |
Sentence |
denotes |
We first introduce a useful result in probability theory: if the random variable X i is distributed geometrically with parameter p i for i = 1, · · ·, n and they are independent, then ∧ i=1,· · ·,n X i is distributed geometrically with parameter 1 − According to the characteristic of the DSI model, the time cost that an infected node w spends in infecting its uninfected neighbor v is distributed geometrically with parameter ip(w, v). |
| TextSentencer_T275 |
0-437 |
Sentence |
denotes |
We first introduce a useful result in probability theory: if the random variable X i is distributed geometrically with parameter p i for i = 1, · · ·, n and they are independent, then ∧ i=1,· · ·,n X i is distributed geometrically with parameter 1 − According to the characteristic of the DSI model, the time cost that an infected node w spends in infecting its uninfected neighbor v is distributed geometrically with parameter ip(w, v). |
| T14073 |
0-437 |
Sentence |
denotes |
We first introduce a useful result in probability theory: if the random variable X i is distributed geometrically with parameter p i for i = 1, · · ·, n and they are independent, then ∧ i=1,· · ·,n X i is distributed geometrically with parameter 1 − According to the characteristic of the DSI model, the time cost that an infected node w spends in infecting its uninfected neighbor v is distributed geometrically with parameter ip(w, v). |
