The main idea is to use a 3D dynamic programming array dp[i][j][k] where i and j represent the current position on the grid, and k represents the number of moves remaining. The value at dp[i][j][k] represents the number of ways to move the ball out of bounds using at most k moves starting from (i, j).

Transitions are made by moving the ball in one of the four possible directions and decreasing the move count. If the ball goes out of bounds, increment the path count. The answer is the sum of paths from startRow, startColumn using maxMove moves.

DFS with memoization is used to prevent recalculating results for already evaluated states by storing them in a map or dictionary. Each call is a recursive attempt to move in all directions from the current cell, decrementing the move count. Result of out-of-bounds attempts is stored so it can be reused, avoiding exponential time complexity.

This algorithm uses a function that considers the current position and remaining moves. For every call, explore in four possible directions and add to the path count if the ball gets out of bounds. Store already calculated counts in a dictionary for path optimization.