Challenge: Mahalanobis Distance in Practice
Swipe to start coding
You are given a small 2D dataset. Your goal is to compute the Mahalanobis distance of each observation from the data center and use it to detect outliers.
Steps:
- Compute the mean vector of the dataset.
- Compute the covariance matrix and its inverse.
- For each observation, compute Mahalanobis distance using the formula:
[
D(x) = \sqrt{(x - \mu)^T \Sigma^{-1} (x - \mu)}
]
4. Store all distances in an array distances.
5. Classify points as outliers if distance > threshold (use threshold = 2.5).
6. Print both arrays (distances and outliers) for verification.
Use NumPy only.
Løsning
Tak for dine kommentarer!
single
Spørg AI
Spørg AI
Spørg om hvad som helst eller prøv et af de foreslåede spørgsmål for at starte vores chat
Can you explain this in simpler terms?
What are the main takeaways from this?
Can you give me a real-world example?
Awesome!
Completion rate improved to 4.55Challenge: Mahalanobis Distance in Practice
Stryg for at vise menuen
Swipe to start coding
You are given a small 2D dataset. Your goal is to compute the Mahalanobis distance of each observation from the data center and use it to detect outliers.
Steps:
- Compute the mean vector of the dataset.
- Compute the covariance matrix and its inverse.
- For each observation, compute Mahalanobis distance using the formula:
[
D(x) = \sqrt{(x - \mu)^T \Sigma^{-1} (x - \mu)}
]
4. Store all distances in an array distances.
5. Classify points as outliers if distance > threshold (use threshold = 2.5).
6. Print both arrays (distances and outliers) for verification.
Use NumPy only.
Løsning
Skift til skrivebord for at øve i den virkelige verdenFortsæt der, hvor du er, med en af nedenstående mulighederTak for dine kommentarer!
single
