Let
[MATH] f\left(x_{1}, x_{2}\right)=\exp \left(-x_{1}^{2} / 2-x_{2}^{2} / 2+x_{2} / 3+2 \log \left(\left|x_{1}\right|+1\right)\right), \quad \text { where } x_{1}, x_{2} \in \mathbb{R} [/MATH]
Solve numerically, where IA is the indicator function:
[MATH] \int_{\mathbb{R}^{2}} I_{A} d x_{1} d x_{2}, \quad \text { with } \quad A=\left\{\left(x_{1}, x_{2}\right): f\left(x_{1}, x_{2}\right) \geq 1 / 2\right\} [/MATH]
As mentioned in the title, I am quite lost at figuring out what to do with this. I think I do understand the concept of an Indicator function ( IA = 1 for f(x1,x2) >= 1/2, and 0 otherwise ) , but i don't seem to grasp how to put things together.
PS: Sorry my last math focused class was quite a while ago...
[MATH] f\left(x_{1}, x_{2}\right)=\exp \left(-x_{1}^{2} / 2-x_{2}^{2} / 2+x_{2} / 3+2 \log \left(\left|x_{1}\right|+1\right)\right), \quad \text { where } x_{1}, x_{2} \in \mathbb{R} [/MATH]
Solve numerically, where IA is the indicator function:
[MATH] \int_{\mathbb{R}^{2}} I_{A} d x_{1} d x_{2}, \quad \text { with } \quad A=\left\{\left(x_{1}, x_{2}\right): f\left(x_{1}, x_{2}\right) \geq 1 / 2\right\} [/MATH]
As mentioned in the title, I am quite lost at figuring out what to do with this. I think I do understand the concept of an Indicator function ( IA = 1 for f(x1,x2) >= 1/2, and 0 otherwise ) , but i don't seem to grasp how to put things together.
PS: Sorry my last math focused class was quite a while ago...