For fixed $g$, I want to find maximum $b$ with $-2b(3t^2(s+1)+6t(s+1)+3s+2)-2g(6ts+3t+6s+2)-3ts^2+6ts+3t-3s^2+3s+1>0$ for some nonnegative reals $t,s$. Here $g, b$ are also $\geq 0$. Can it be possible to get a function $f$ such that we get the upper bound on $b$ as $f(g)$ i.e, $b
Multivariate Maximization
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calculus
optimization
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0There might be some typo in the expression you want to be positive. You could check it. – 2011-08-22
1 Answers
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For every nonnegative $g$, $s$ and $t$, let $ u(g,s,t)=\frac{-2g(6ts+3t+6s+2)-3ts^2+6ts+3t-3s^2+3s+1}{2(3t^2(s+1)+6t(s+1)+3s+2)}. $ and $ \varphi(g)=\inf\{u(g,s,t);s\ge0,t\ge0\}. $ Then $f(g)=\varphi(g)$ fits your requirement and no number greater than $\varphi(g)$ can.
The problem is that for every $g$, $u(g,s,1)\to-\infty$ when $s\to+\infty$ hence $\varphi(g)=-\infty$ and no finite $b$ is such that $b for every nonnegative $s$ and $t$.