Mathematicians use the logarithm to express the inverse function of exponentiation. That is, the logarithm of a given number p is the exponent to which another fixed number, the base b, must be raised ...

When you spend hours at your desk, the right task lighting makes all the difference. The best desk lamp doesn't just brighten your immediate space, it reduces eye strain, sharpens focus, and can help ...

Abstract: In this paper, we investigate the use of relaxed logarithmic barrier functions in the context of linear model predictive control. We present results that allow to guarantee asymptotic ...

Exponential and logarithmic functions are mathematical concepts with wide-ranging applications. Exponential functions are commonly used to model phenomena such as population growth, the spread of ...

This is Part 3 of Embedded Bias, a series revealing how race-based clinical algorithms pervade medicine and why it's so difficult to change them. There it was on James Cannon’s lab report, two tiny ...

Abstract: An un-unconstrained optimization problem involving logarithmic cost function that incorporates a diagonal matrix is utilized for deriving gradient dynamical systems that converge to the ...

Download this article in PDF format. Logarithmic amplifiers with their log functionality are useful for compressing wide dynamic-range signals whereby the measured quantities are in decibels (dB).

Inverse log, or “antilog,” is the reverse operation of finding a logarithm. If we have a logarithm equation log_b(x) = y, then the inverse log would be b^y = x. Essentially, we’re undoing the ...