Wiener Process - Statistics Perspective

Рет қаралды 8,692

Күн бұрын

Quantitative finance can be a confusing area of study and the mix of math, statistics, finance, and programming makes it harder as everyone comes from a different background. In this video I explain the Wiener Process which is also known as Brownian Motion from a statistical model perspective. The residuals of a model in traditional discrete time-series models such as OLS and ARIMA have specific properties which are a zero mean and no serial correlation. These properties are known as White Noise. This white noise can be found in nature as Brownian Motion (Wiener Process). A botanist named Robert Brown discovered this as he watch a particle of pollen float around water.
In continuous time-series (stochastic models) we have a Wiener Process denoted as w(t) at the end of the equation. In many math operations it will cancel out because the mean is zero however the properties of White Noise is what makes the specification of the formulas correct. If it was just ignored and the assumptions not tested, they would be incomplete and often wrong.
Stationarity Introduction:
• Stationarity Introduct...
Stationarity Complexity Explained Using the Mandelbrot
• Stationarity Complexit...
DF and ADF Stationarity Testing
• DF and ADF Stationarit...
Stationarity in Finance with Applications
• Stationarity in Financ...
Probability, Stationarity, and Failures in Finance
• Probability, Stationar...
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Пікірлер: 32

@jasdeepsinghgrover2470 Жыл бұрын

Thanks for the amazing video.. I was about to start with the book Dynamic Hedging and Statistical Consequences of Fat Tails... This seems a very good general into 🙂

@andresrossi9 Жыл бұрын

The relationship between the Weiner differential component and the error term in a statistical model is brilliant. Seems like they have different roles but it's conceptually the exact same thing. Good content Dimitri

@igorbaglay9064 Жыл бұрын

I, too, wish this was taught more approachable for people with statistical background. The "mean and nasty" teacher story at 16:20 rings a bell.. :) For me, the key intuition with that SDE was that it was for a Geometric Brownian Motion, meaning that it was a multiplicative process (unlike ARIMA which is inherently additive). And so the the distribution was log-normal, which is the "normal" for the multiplicative domain. I.e. Gibrat's law being similar to CLT. I wish that connection was made earlier, then the Black Scholes derivation would be easier to understand.

@maximoppitz3401 Жыл бұрын

Thank you, I’m an mfe student and I think a lot of programs are lacking on bringing time series and stochastic calculus together! Thank you for giving some intuition on how these things relate. Have a good one!

@DimitriBianco Жыл бұрын

I didn't realize it until I had been working in the industry for a year. It would have made grad school easier.

@armanmuslimov5988 Жыл бұрын

Awesome! Dmitri, please keep doing this kind of videos about different areas of quant finance topics and your perspective on them. Examples of practical application, associated challenges, common mistakes and consequences could also be great. Thanks for the interesting content!

@raphaeltaieb1323 Жыл бұрын

This kind of videos are amazing. It would be great to have more videos like this

@bohdanzhuravel5642 Жыл бұрын

Terrific! Keep going Dimitri

@bryanyang7626 Жыл бұрын

Such a succinct explanation!

@DimitriBianco Жыл бұрын

Thanks!

@daanialahmad1759 Жыл бұрын

Dear Dimitri, Thank you so much for such a beautiful video

@DimitriBianco Жыл бұрын

Thanks! I figured I would do something a little different since the recent videos have opinion ones.

@dovi77 Жыл бұрын

As a Financial Mathematics major, your professor probably used quadratic variation to show that terms (dt^2) were 0. Taylor Series and quadratic variation are the bedrocks to Ito formula, so it makes sense that your professor used to to prove the Black-Scholes PDE.

@martinsanchez-hw4fi Жыл бұрын

Thank you for the video, but there are some inaccuracies. The W_t is not independent of the past. It is a Martingale and a Markov process. It is only non overlaping increments of W_t which are independent of each other. There are other things, but that was the one worth mentioning

@MilkTea-sx8gd Жыл бұрын

This was absolutely amazing, thank you

@DimitriBianco Жыл бұрын

Thanks! I try to create unique views for topics like this.

@MilkTea-sx8gd Жыл бұрын

@DimitriBianco Great to see a statistical view regarding these topics. I hope you make more; looking forward to them.

@6Ligma Жыл бұрын

Dimitri I'm researching about the topic of my dissertation. What's your take on SABR model? Are they used in the industry now? What other stochastic volatility/risk models do you recommend? And what are the other areas or topics that have "momentum" now? Sorry I'm so confused... and you're the only real quant that I know.

@6Ligma Жыл бұрын

Dimitri what is the best method for making data stationary? We use log-transformation and simple differencing for our projects, I was wondering if it is this simple in the industry too. ...and brilliant video. Thanks

@DimitriBianco Жыл бұрын

Seasonal differencing is another approach which is often overlooked. A common issue is mis reading the ADF test, Rho vs Tau.

@Eta_Carinae__ Жыл бұрын

I think wrt Brownian motion, that it was the motion of a water droplet very close to boiling on a hot plate. I think it was also Einstein of all people who first captured that motion with equations, if my history is right. I just realised that SDEs are distinct from normal DEs in that the notion of a derivative implies smoothness when zoomed into the function, but SDEs do not. I have a feeling that derivatives of the itô process would look basically the same as the itô process - in that they'd diffuse and drift in like. Do you have a proof of dx_t in the itô process? I take it that dx_t means the same thing as it does in bog standard calculus.

@quiz_nam Жыл бұрын

amazing video as always!

@artlenski8115 Жыл бұрын

White means the spectrum is flat in other words it describes correlation properties of a process. Gaussian means that increments/changes are distributed according to Gaussian distribution. Hence a process could white and not gaussian, or gaussian and not white. AGWN: additive gaussian white noise is a popular choice as it mimics the effect of many random processes that occur in nature.

@small955 Жыл бұрын

I think this is brilliant if understood from an intuitive perspective, however, stochastic calculus is pure mathematics, hence absolute - it is based on definitions. It cannot be reduced to intuition.