{ "data": { "question": { "questionId": "1726", "questionFrontendId": "1620", "boundTopicId": null, "title": "Coordinate With Maximum Network Quality", "titleSlug": "coordinate-with-maximum-network-quality", "content": "

You are given an array of network towers towers, where towers[i] = [xi, yi, qi] denotes the ith network tower with location (xi, yi) and quality factor qi. All the coordinates are integral coordinates on the X-Y plane, and the distance between the two coordinates is the Euclidean distance.

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You are also given an integer radius where a tower is reachable if the distance is less than or equal to radius. Outside that distance, the signal becomes garbled, and the tower is not reachable.

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The signal quality of the ith tower at a coordinate (x, y) is calculated with the formula ⌊qi / (1 + d)⌋, where d is the distance between the tower and the coordinate. The network quality at a coordinate is the sum of the signal qualities from all the reachable towers.

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Return the array [cx, cy] representing the integral coordinate (cx, cy) where the network quality is maximum. If there are multiple coordinates with the same network quality, return the lexicographically minimum non-negative coordinate.

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Note:

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Example 1:

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\nInput: towers = [[1,2,5],[2,1,7],[3,1,9]], radius = 2\nOutput: [2,1]\nExplanation: At coordinate (2, 1) the total quality is 13.\n- Quality of 7 from (2, 1) results in ⌊7 / (1 + sqrt(0)⌋ = ⌊7⌋ = 7\n- Quality of 5 from (1, 2) results in ⌊5 / (1 + sqrt(2)⌋ = ⌊2.07⌋ = 2\n- Quality of 9 from (3, 1) results in ⌊9 / (1 + sqrt(1)⌋ = ⌊4.5⌋ = 4\nNo other coordinate has a higher network quality.
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Example 2:

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\nInput: towers = [[23,11,21]], radius = 9\nOutput: [23,11]\nExplanation: Since there is only one tower, the network quality is highest right at the tower's location.\n
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Example 3:

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\nInput: towers = [[1,2,13],[2,1,7],[0,1,9]], radius = 2\nOutput: [1,2]\nExplanation: Coordinate (1, 2) has the highest network quality.\n
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Constraints:

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