Can someone explain this formula for calculating Manhattan distance?Minimizing the maximum Manhattan distance

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Can someone explain this formula for calculating Manhattan distance?

Minimizing the maximum Manhattan distance

This is from a Kickstart problem:

Note: The Manhattan distance between two squares (r1,c1) and (r2,c2)
is defined as |r1 - r2| + |c1 - c2|, where |*| operator denotes the
absolute value.

Then in the analysis:

Note that the manhattan distance has an equivalent formula:
dist((x1, y1), (x2, y2)) = max(abs(x1 + y1 - (x2 + y2)), abs(x1 - y1 - (x2 - y2)))
This formula is based on the fact that for any point, the set of
points within a manhattan distance of K form a square rotated by 45
degrees. The benefit of this formula is that if we fix (x2, y2), the
distance will be maximized when x1 + y1 and x1 - y1 are either
maximized or minimized.

Could someone explain in more details how this formula can be derived?

asked 2 days ago

Eugene Yarmash

1284

New contributor

1

$begingroup$
Why don't you try drawing this square, and determine what these distances represent? Hint: try to determine the coordinates of the corners of this square.
$endgroup$
– Discrete lizard♦
2 days ago

1

$begingroup$
@DavidRicherby The benefit appears to be that for the specific use-case of determining whether there exists a point with distance at most $k$ to some set $S$, it seems we can do this more efficiently, as we only have to find the maximum and minimum of the points in $S$ according to $x_1+y_1$ and $x_1-y_1$ once and then can query for each point in constant time. Do you think there is an easier way to get a constant query time here?
$endgroup$
– Discrete lizard♦
2 days ago

$begingroup$
I suppose that you could also directly look at the corners of the smallest enclosing 45 degree turned square of these points, and then you end up with basically the same values as the maxima and minima in your dataset. So, in a way, I see that changing the Manhattan distance itself could be a rather complicated way of achieving this.
$endgroup$
– Discrete lizard♦
2 days ago

add a comment |

This is from a Kickstart problem:

Note: The Manhattan distance between two squares (r1,c1) and (r2,c2)
is defined as |r1 - r2| + |c1 - c2|, where |*| operator denotes the
absolute value.

Then in the analysis:

Note that the manhattan distance has an equivalent formula:
dist((x1, y1), (x2, y2)) = max(abs(x1 + y1 - (x2 + y2)), abs(x1 - y1 - (x2 - y2)))
This formula is based on the fact that for any point, the set of
points within a manhattan distance of K form a square rotated by 45
degrees. The benefit of this formula is that if we fix (x2, y2), the
distance will be maximized when x1 + y1 and x1 - y1 are either
maximized or minimized.

Could someone explain in more details how this formula can be derived?

asked 2 days ago

Eugene Yarmash

1284

New contributor

1

$begingroup$
Why don't you try drawing this square, and determine what these distances represent? Hint: try to determine the coordinates of the corners of this square.
$endgroup$
– Discrete lizard♦
2 days ago

1

$begingroup$
@DavidRicherby The benefit appears to be that for the specific use-case of determining whether there exists a point with distance at most $k$ to some set $S$, it seems we can do this more efficiently, as we only have to find the maximum and minimum of the points in $S$ according to $x_1+y_1$ and $x_1-y_1$ once and then can query for each point in constant time. Do you think there is an easier way to get a constant query time here?
$endgroup$
– Discrete lizard♦
2 days ago

$begingroup$
I suppose that you could also directly look at the corners of the smallest enclosing 45 degree turned square of these points, and then you end up with basically the same values as the maxima and minima in your dataset. So, in a way, I see that changing the Manhattan distance itself could be a rather complicated way of achieving this.
$endgroup$
– Discrete lizard♦
2 days ago

add a comment |

This is from a Kickstart problem:

Note: The Manhattan distance between two squares (r1,c1) and (r2,c2)
is defined as |r1 - r2| + |c1 - c2|, where |*| operator denotes the
absolute value.

Then in the analysis:

Note that the manhattan distance has an equivalent formula:
dist((x1, y1), (x2, y2)) = max(abs(x1 + y1 - (x2 + y2)), abs(x1 - y1 - (x2 - y2)))
This formula is based on the fact that for any point, the set of
points within a manhattan distance of K form a square rotated by 45
degrees. The benefit of this formula is that if we fix (x2, y2), the
distance will be maximized when x1 + y1 and x1 - y1 are either
maximized or minimized.

Could someone explain in more details how this formula can be derived?

asked 2 days ago

Eugene Yarmash

1284

New contributor

This is from a Kickstart problem:

Note: The Manhattan distance between two squares (r1,c1) and (r2,c2)
is defined as |r1 - r2| + |c1 - c2|, where |*| operator denotes the
absolute value.

Then in the analysis:

Note that the manhattan distance has an equivalent formula:
dist((x1, y1), (x2, y2)) = max(abs(x1 + y1 - (x2 + y2)), abs(x1 - y1 - (x2 - y2)))
This formula is based on the fact that for any point, the set of
points within a manhattan distance of K form a square rotated by 45
degrees. The benefit of this formula is that if we fix (x2, y2), the
distance will be maximized when x1 + y1 and x1 - y1 are either
maximized or minimized.

Could someone explain in more details how this formula can be derived?

square-grid

asked 2 days ago

Eugene Yarmash

1284

New contributor

asked 2 days ago

Eugene Yarmash

1284

New contributor

asked 2 days ago

Eugene Yarmash

1284

New contributor

asked 2 days ago

Eugene Yarmash

1284

asked 2 days ago

Eugene Yarmash

1284

New contributor

Eugene Yarmash is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

1

$begingroup$
Why don't you try drawing this square, and determine what these distances represent? Hint: try to determine the coordinates of the corners of this square.
$endgroup$
– Discrete lizard♦
2 days ago

1

$begingroup$
@DavidRicherby The benefit appears to be that for the specific use-case of determining whether there exists a point with distance at most $k$ to some set $S$, it seems we can do this more efficiently, as we only have to find the maximum and minimum of the points in $S$ according to $x_1+y_1$ and $x_1-y_1$ once and then can query for each point in constant time. Do you think there is an easier way to get a constant query time here?
$endgroup$
– Discrete lizard♦
2 days ago

$begingroup$
I suppose that you could also directly look at the corners of the smallest enclosing 45 degree turned square of these points, and then you end up with basically the same values as the maxima and minima in your dataset. So, in a way, I see that changing the Manhattan distance itself could be a rather complicated way of achieving this.
$endgroup$
– Discrete lizard♦
2 days ago

add a comment |

1

$begingroup$
Why don't you try drawing this square, and determine what these distances represent? Hint: try to determine the coordinates of the corners of this square.
$endgroup$
– Discrete lizard♦
2 days ago

1

$begingroup$
@DavidRicherby The benefit appears to be that for the specific use-case of determining whether there exists a point with distance at most $k$ to some set $S$, it seems we can do this more efficiently, as we only have to find the maximum and minimum of the points in $S$ according to $x_1+y_1$ and $x_1-y_1$ once and then can query for each point in constant time. Do you think there is an easier way to get a constant query time here?
$endgroup$
– Discrete lizard♦
2 days ago

$begingroup$
I suppose that you could also directly look at the corners of the smallest enclosing 45 degree turned square of these points, and then you end up with basically the same values as the maxima and minima in your dataset. So, in a way, I see that changing the Manhattan distance itself could be a rather complicated way of achieving this.
$endgroup$
– Discrete lizard♦
2 days ago

Why don't you try drawing this square, and determine what these distances represent? Hint: try to determine the coordinates of the corners of this square.

– Discrete lizard♦
2 days ago

@DavidRicherby The benefit appears to be that for the specific use-case of determining whether there exists a point with distance at most $k$ to some set $S$, it seems we can do this more efficiently, as we only have to find the maximum and minimum of the points in $S$ according to $x_1+y_1$ and $x_1-y_1$ once and then can query for each point in constant time. Do you think there is an easier way to get a constant query time here?

– Discrete lizard♦
2 days ago

I suppose that you could also directly look at the corners of the smallest enclosing 45 degree turned square of these points, and then you end up with basically the same values as the maxima and minima in your dataset. So, in a way, I see that changing the Manhattan distance itself could be a rather complicated way of achieving this.

– Discrete lizard♦
2 days ago

add a comment |

1 Answer
1

active

oldest

votes

Lemma. $|a|+|b|=max(|a+b|, |a-b|)$ for any real number $a$ and $b$.

Proof 1.
$|x|=max(x, -x)$ for all real number $x$. So
$$beginaligned
|a|+|b|
&=max(a, -a) + max(b, -b)\
&=max(a+b, a-b, -a+b, -a-b)\
&=max(max(a+b, -a-b), max(a-b, -(a-b))\
&=max(|a+b|, |a-b|)
endaligned$$

Proof 2.
There are $2 times 2 = 4$ cases.

$age 0$
- $bgt 0$. LHS is $a+b$, RHS is $a+b$.
- $ble 0$. LHS is $a-b$, RHS is $a-b$.

$alt 0$
- $bgt 0$. LHS is $-a+b$, RHS is $-(a-b)$.
- $ble 0$. LHS is $-a-b$, RHS is $-(a+b)$.

One dimensionality of Manhattan-distance.

Proof: By definition,
$$d((x_1, y_1),(x_2, y_2))=|x_1-x_2| + |y_1-y_2|.$$
Now apply the lemma above. QED.

_{This answer also serves as a complement to another answer of mine.}

answered 2 days ago

Apass.Jack

13.8k1940

2

$begingroup$
The one dimensionality of Manhattan-distance is the main trick that is applied in the algorithm, as this allows you to sort according to this distance.
$endgroup$
– Discrete lizard♦
2 days ago

$begingroup$
This is a great explanation, thanks. One question remains though: how is this formula based on the fact that for any point, the set of points within a manhattan distance of K form a square rotated by 45 degrees ?
$endgroup$
– Eugene Yarmash
2 days ago

$begingroup$
@EugeneYarmash Let the given point be $(a,b)$. Then a point (x,y) is within $K$ M-distance of $(a,b)$ if and only if $|x+y-(a+b)|le K$ and $|x-y-(a-b)|le K$. The points defined by $|x+y-(a+b)|le K$ is between two parallel lines, $x+y=a+b+K$ and $x+y=a+b-K$, both of which are in 45 degree with the axises. The points defined by $|x-y-(a-b)|le K$ is between two parallel lines, $x-y=a-b+K$ and $x-y=a-b-K$, both of which are in 45 degree with the axises as well.
$endgroup$
– Apass.Jack
2 days ago

$begingroup$
@EugeneYarmash (continued) The Euclidean distance between the first two parallel lines is $sqrt 2K$, which is also the the Euclidean distance between the second two parallel lines. So we got "a square rotated by 45 degree." By the way, I am explaining the logic the other way around, that is, that fact is based on the formula! I believe, it should be better to say "this formula can be understood intuitively from the fact that ..." instead of "this formula is bases on the fact that ...".
$endgroup$
– Apass.Jack
2 days ago

$begingroup$
Images can help understanding a lot (because the super-parallel computation done by human's eyes and brains) but could be deceiving or misleading. A mathematical proof might not be easy to come by or understand but it is much more rigorous.
$endgroup$
– Apass.Jack
2 days ago

|
show 1 more comment

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1 Answer
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1 Answer
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active

oldest

votes

Lemma. $|a|+|b|=max(|a+b|, |a-b|)$ for any real number $a$ and $b$.

Proof 2.
There are $2 times 2 = 4$ cases.

$age 0$
- $bgt 0$. LHS is $a+b$, RHS is $a+b$.
- $ble 0$. LHS is $a-b$, RHS is $a-b$.

$alt 0$
- $bgt 0$. LHS is $-a+b$, RHS is $-(a-b)$.
- $ble 0$. LHS is $-a-b$, RHS is $-(a+b)$.

One dimensionality of Manhattan-distance.

Proof: By definition,
$$d((x_1, y_1),(x_2, y_2))=|x_1-x_2| + |y_1-y_2|.$$
Now apply the lemma above. QED.

_{This answer also serves as a complement to another answer of mine.}

answered 2 days ago

Apass.Jack

13.8k1940

2

$begingroup$
The one dimensionality of Manhattan-distance is the main trick that is applied in the algorithm, as this allows you to sort according to this distance.
$endgroup$
– Discrete lizard♦
2 days ago

$begingroup$
This is a great explanation, thanks. One question remains though: how is this formula based on the fact that for any point, the set of points within a manhattan distance of K form a square rotated by 45 degrees ?
$endgroup$
– Eugene Yarmash
2 days ago

$begingroup$
@EugeneYarmash Let the given point be $(a,b)$. Then a point (x,y) is within $K$ M-distance of $(a,b)$ if and only if $|x+y-(a+b)|le K$ and $|x-y-(a-b)|le K$. The points defined by $|x+y-(a+b)|le K$ is between two parallel lines, $x+y=a+b+K$ and $x+y=a+b-K$, both of which are in 45 degree with the axises. The points defined by $|x-y-(a-b)|le K$ is between two parallel lines, $x-y=a-b+K$ and $x-y=a-b-K$, both of which are in 45 degree with the axises as well.
$endgroup$
– Apass.Jack
2 days ago

$begingroup$
@EugeneYarmash (continued) The Euclidean distance between the first two parallel lines is $sqrt 2K$, which is also the the Euclidean distance between the second two parallel lines. So we got "a square rotated by 45 degree." By the way, I am explaining the logic the other way around, that is, that fact is based on the formula! I believe, it should be better to say "this formula can be understood intuitively from the fact that ..." instead of "this formula is bases on the fact that ...".
$endgroup$
– Apass.Jack
2 days ago

$begingroup$
Images can help understanding a lot (because the super-parallel computation done by human's eyes and brains) but could be deceiving or misleading. A mathematical proof might not be easy to come by or understand but it is much more rigorous.
$endgroup$
– Apass.Jack
2 days ago

|
show 1 more comment

Lemma. $|a|+|b|=max(|a+b|, |a-b|)$ for any real number $a$ and $b$.

Proof 2.
There are $2 times 2 = 4$ cases.

$age 0$
- $bgt 0$. LHS is $a+b$, RHS is $a+b$.
- $ble 0$. LHS is $a-b$, RHS is $a-b$.

$alt 0$
- $bgt 0$. LHS is $-a+b$, RHS is $-(a-b)$.
- $ble 0$. LHS is $-a-b$, RHS is $-(a+b)$.

One dimensionality of Manhattan-distance.

Proof: By definition,
$$d((x_1, y_1),(x_2, y_2))=|x_1-x_2| + |y_1-y_2|.$$
Now apply the lemma above. QED.

_{This answer also serves as a complement to another answer of mine.}

answered 2 days ago

Apass.Jack

13.8k1940

2

$begingroup$
The one dimensionality of Manhattan-distance is the main trick that is applied in the algorithm, as this allows you to sort according to this distance.
$endgroup$
– Discrete lizard♦
2 days ago

$begingroup$
This is a great explanation, thanks. One question remains though: how is this formula based on the fact that for any point, the set of points within a manhattan distance of K form a square rotated by 45 degrees ?
$endgroup$
– Eugene Yarmash
2 days ago

$begingroup$
@EugeneYarmash Let the given point be $(a,b)$. Then a point (x,y) is within $K$ M-distance of $(a,b)$ if and only if $|x+y-(a+b)|le K$ and $|x-y-(a-b)|le K$. The points defined by $|x+y-(a+b)|le K$ is between two parallel lines, $x+y=a+b+K$ and $x+y=a+b-K$, both of which are in 45 degree with the axises. The points defined by $|x-y-(a-b)|le K$ is between two parallel lines, $x-y=a-b+K$ and $x-y=a-b-K$, both of which are in 45 degree with the axises as well.
$endgroup$
– Apass.Jack
2 days ago

$begingroup$
@EugeneYarmash (continued) The Euclidean distance between the first two parallel lines is $sqrt 2K$, which is also the the Euclidean distance between the second two parallel lines. So we got "a square rotated by 45 degree." By the way, I am explaining the logic the other way around, that is, that fact is based on the formula! I believe, it should be better to say "this formula can be understood intuitively from the fact that ..." instead of "this formula is bases on the fact that ...".
$endgroup$
– Apass.Jack
2 days ago

$begingroup$
Images can help understanding a lot (because the super-parallel computation done by human's eyes and brains) but could be deceiving or misleading. A mathematical proof might not be easy to come by or understand but it is much more rigorous.
$endgroup$
– Apass.Jack
2 days ago

|
show 1 more comment

Lemma. $|a|+|b|=max(|a+b|, |a-b|)$ for any real number $a$ and $b$.

Proof 2.
There are $2 times 2 = 4$ cases.

$age 0$
- $bgt 0$. LHS is $a+b$, RHS is $a+b$.
- $ble 0$. LHS is $a-b$, RHS is $a-b$.

$alt 0$
- $bgt 0$. LHS is $-a+b$, RHS is $-(a-b)$.
- $ble 0$. LHS is $-a-b$, RHS is $-(a+b)$.

One dimensionality of Manhattan-distance.

Proof: By definition,
$$d((x_1, y_1),(x_2, y_2))=|x_1-x_2| + |y_1-y_2|.$$
Now apply the lemma above. QED.

_{This answer also serves as a complement to another answer of mine.}

answered 2 days ago

Apass.Jack

13.8k1940

Lemma. $|a|+|b|=max(|a+b|, |a-b|)$ for any real number $a$ and $b$.

Proof 2.
There are $2 times 2 = 4$ cases.

$age 0$
- $bgt 0$. LHS is $a+b$, RHS is $a+b$.
- $ble 0$. LHS is $a-b$, RHS is $a-b$.

$alt 0$
- $bgt 0$. LHS is $-a+b$, RHS is $-(a-b)$.
- $ble 0$. LHS is $-a-b$, RHS is $-(a+b)$.

One dimensionality of Manhattan-distance.

Proof: By definition,
$$d((x_1, y_1),(x_2, y_2))=|x_1-x_2| + |y_1-y_2|.$$
Now apply the lemma above. QED.

_{This answer also serves as a complement to another answer of mine.}

answered 2 days ago

Apass.Jack

13.8k1940

answered 2 days ago

Apass.Jack

13.8k1940

answered 2 days ago

Apass.Jack

13.8k1940

answered 2 days ago

Apass.Jack

13.8k1940

2

$begingroup$
The one dimensionality of Manhattan-distance is the main trick that is applied in the algorithm, as this allows you to sort according to this distance.
$endgroup$
– Discrete lizard♦
2 days ago

$begingroup$
This is a great explanation, thanks. One question remains though: how is this formula based on the fact that for any point, the set of points within a manhattan distance of K form a square rotated by 45 degrees ?
$endgroup$
– Eugene Yarmash
2 days ago

$begingroup$
@EugeneYarmash Let the given point be $(a,b)$. Then a point (x,y) is within $K$ M-distance of $(a,b)$ if and only if $|x+y-(a+b)|le K$ and $|x-y-(a-b)|le K$. The points defined by $|x+y-(a+b)|le K$ is between two parallel lines, $x+y=a+b+K$ and $x+y=a+b-K$, both of which are in 45 degree with the axises. The points defined by $|x-y-(a-b)|le K$ is between two parallel lines, $x-y=a-b+K$ and $x-y=a-b-K$, both of which are in 45 degree with the axises as well.
$endgroup$
– Apass.Jack
2 days ago

$begingroup$
@EugeneYarmash (continued) The Euclidean distance between the first two parallel lines is $sqrt 2K$, which is also the the Euclidean distance between the second two parallel lines. So we got "a square rotated by 45 degree." By the way, I am explaining the logic the other way around, that is, that fact is based on the formula! I believe, it should be better to say "this formula can be understood intuitively from the fact that ..." instead of "this formula is bases on the fact that ...".
$endgroup$
– Apass.Jack
2 days ago

$begingroup$
Images can help understanding a lot (because the super-parallel computation done by human's eyes and brains) but could be deceiving or misleading. A mathematical proof might not be easy to come by or understand but it is much more rigorous.
$endgroup$
– Apass.Jack
2 days ago

|
show 1 more comment

2

$begingroup$
The one dimensionality of Manhattan-distance is the main trick that is applied in the algorithm, as this allows you to sort according to this distance.
$endgroup$
– Discrete lizard♦
2 days ago

$begingroup$
This is a great explanation, thanks. One question remains though: how is this formula based on the fact that for any point, the set of points within a manhattan distance of K form a square rotated by 45 degrees ?
$endgroup$
– Eugene Yarmash
2 days ago

$begingroup$
@EugeneYarmash Let the given point be $(a,b)$. Then a point (x,y) is within $K$ M-distance of $(a,b)$ if and only if $|x+y-(a+b)|le K$ and $|x-y-(a-b)|le K$. The points defined by $|x+y-(a+b)|le K$ is between two parallel lines, $x+y=a+b+K$ and $x+y=a+b-K$, both of which are in 45 degree with the axises. The points defined by $|x-y-(a-b)|le K$ is between two parallel lines, $x-y=a-b+K$ and $x-y=a-b-K$, both of which are in 45 degree with the axises as well.
$endgroup$
– Apass.Jack
2 days ago

$begingroup$
@EugeneYarmash (continued) The Euclidean distance between the first two parallel lines is $sqrt 2K$, which is also the the Euclidean distance between the second two parallel lines. So we got "a square rotated by 45 degree." By the way, I am explaining the logic the other way around, that is, that fact is based on the formula! I believe, it should be better to say "this formula can be understood intuitively from the fact that ..." instead of "this formula is bases on the fact that ...".
$endgroup$
– Apass.Jack
2 days ago

$begingroup$
Images can help understanding a lot (because the super-parallel computation done by human's eyes and brains) but could be deceiving or misleading. A mathematical proof might not be easy to come by or understand but it is much more rigorous.
$endgroup$
– Apass.Jack
2 days ago

The one dimensionality of Manhattan-distance is the main trick that is applied in the algorithm, as this allows you to sort according to this distance.

– Discrete lizard♦
2 days ago

This is a great explanation, thanks. One question remains though: how is this formula

based on the fact that for any point, the set of points within a manhattan distance of K form a square rotated by 45 degrees

?

– Eugene Yarmash
2 days ago

This is a great explanation, thanks. One question remains though: how is this formula

based on the fact that for any point, the set of points within a manhattan distance of K form a square rotated by 45 degrees

?

– Eugene Yarmash
2 days ago

@EugeneYarmash Let the given point be $(a,b)$. Then a point (x,y) is within $K$ M-distance of $(a,b)$ if and only if $|x+y-(a+b)|le K$ and $|x-y-(a-b)|le K$. The points defined by $|x+y-(a+b)|le K$ is between two parallel lines, $x+y=a+b+K$ and $x+y=a+b-K$, both of which are in 45 degree with the axises. The points defined by $|x-y-(a-b)|le K$ is between two parallel lines, $x-y=a-b+K$ and $x-y=a-b-K$, both of which are in 45 degree with the axises as well.

– Apass.Jack
2 days ago

@EugeneYarmash (continued) The Euclidean distance between the first two parallel lines is $sqrt 2K$, which is also the the Euclidean distance between the second two parallel lines. So we got "a square rotated by 45 degree." By the way, I am explaining the logic the other way around, that is, that fact is based on the formula! I believe, it should be better to say "this formula can be understood intuitively from the fact that ..." instead of "this formula is bases on the fact that ...".

– Apass.Jack
2 days ago

Images can help understanding a lot (because the super-parallel computation done by human's eyes and brains) but could be deceiving or misleading. A mathematical proof might not be easy to come by or understand but it is much more rigorous.

– Apass.Jack
2 days ago

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