10/01 - Vectors & Functions: Difference between revisions

Vectors & Functions

• How to related the vector v to the sampling?

We could sample a continuous function every T seconds, creating a "bar graph".

${\displaystyle f(t)=\sum _{i=0}^{N-1}f(i\cdot T)\cdot p(t-i\cdot T)}$

• ${\displaystyle f(i\cdot T)}$ are the coefficients
• ${\displaystyle p(t-i\cdot T)}$ are the basis functions, where ${\displaystyle p(t)\,\!}$ is a rectangle 1 unit high and T units wide

In an effort to make this more exact, will will continue to shrink the rectangle down to the Dirac Delta function, ${\displaystyle \delta \,\!}$

• ${\displaystyle \delta (x)={\begin{cases}+\infty ,&x=0\\0,&x\neq 0\end{cases}}}$
• ${\displaystyle \int _{-\infty }^{\infty }\delta (x)\,dx=1.}$

By using the Dirac Delta function the summation becomes an integral

${\displaystyle f(t)=\int _{-\infty }^{\infty }f(u)\cdot \delta (t-u)\,du}$

Changing Basis Functions

• explain b_j