Thanks for the advice! I could solve it (or at least it's working for me) using the following code:

```
public class Pathfinder {
private static final int M = 5;
private static final int N = 5;
private static final int fila[] = {-1, 0, 0, 1, -1, -1, 1, 1};
private static final int columna[] = {0, -1, 1, 0, -1, 1, -1, 1};
private static boolean esValido(int matriz[][], boolean visitado[][], int fil, int col, int k) {
if(k < 4)
return ((fil >= 0) && (fil < M) && (col >= 0) && (col < N) && matriz[fil][col] < 4 && !visitado[fil][col]);
else if (k == 4)
return ((fil >= 0) && (fil < M) && (col >= 0) && (col < N) && matriz[fil][col] < 4 && !visitado[fil][col] && esValido(matriz, visitado, fil, col + 1, 0) && esValido(matriz, visitado, fil + 1, col, 0));
else if (k == 5)
return ((fil >= 0) && (fil < M) && (col >= 0) && (col < N) && matriz[fil][col] < 4 && !visitado[fil][col] && esValido(matriz, visitado, fil, col - 1, 0) && esValido(matriz, visitado, fil + 1, col, 0));
else if (k == 6)
return ((fil >= 0) && (fil < M) && (col >= 0) && (col < N) && matriz[fil][col] < 4 && !visitado[fil][col] && esValido(matriz, visitado, fil, col + 1, 0) && esValido(matriz, visitado, fil - 1, col, 0));
else
return ((fil >= 0) && (fil < M) && (col >= 0) && (col < N) && matriz[fil][col] < 4 && !visitado[fil][col] && esValido(matriz, visitado, fil, col - 1, 0) && esValido(matriz, visitado, fil - 1, col, 0));
}
private static int absoluto (int n) {
return n > 0 ? n : -n;
}
public static void BFS(int matriz[][], int i, int j, int x, int y) {
boolean [][] visitado = new boolean [M][N];
PriorityQueue<Nodo> cola = new PriorityQueue<Nodo>();
visitado[i][j] = true;
cola.add(new Nodo(i, j, 0, absoluto(x - i) + absoluto(y - j)));
int mincost = Integer.MAX_VALUE;
int cost, aux;
while(!cola.isEmpty()) {
Nodo nodo = cola.poll();
i = nodo.x;
j = nodo.y;
cost = nodo.cost;
if(i == x && j == y) {
mincost = cost;
break;
}
for(int k = 0; k < 8; k++) {
aux = 0;
if(esValido(matriz, visitado, i + fila[k], j + columna[k], k)) {
if(k < 4)
aux = 1;
else
aux = 2;
visitado[i + fila[k]][j + columna[k]] = true;
switch(matriz[i + fila[k]][j + columna[k]]) {
case 0:
cola.add(new Nodo(i + fila[k], j + columna[k], cost + aux, absoluto(x - i + fila[k]) + absoluto(y - j + columna[k])));
case 1:
cola.add(new Nodo(i + fila[k], j + columna[k], cost + aux*2, absoluto(x - i + fila[k]) + absoluto(y - j + columna[k])));
case 2:
cola.add(new Nodo(i + fila[k], j + columna[k], cost + aux*3, absoluto(x - i + fila[k]) + absoluto(y - j + columna[k])));
case 3:
cola.add(new Nodo(i + fila[k], j + columna[k], cost + aux*4, absoluto(x - i + fila[k]) + absoluto(y - j + columna[k])));
}
}
}
}
if(mincost != Integer.MAX_VALUE)
System.out.print("The path of minimum cost to the destination is " + mincost + ".");
else
System.out.print("Destination cannot be reached.");
}
}
```

The node structure I used is the following:

```
public class Nodo implements Comparable<Nodo> {
public int x, y, cost, dist, total;
public Nodo(int x, int y, int cost, int dist){
this.x = x;
this.y = y;
this.cost = cost;
this.dist = dist;
this.total = this.cost + this.dist;
}
public int compareTo(Nodo n) {
if(this.total < n.total)
return -1;
else if(this.total > n.total)
return 1;
else
return 0;
}
}
```