I think the easiest way to solve this problem is to beak it into small steps.

My first assumption is that you are trying to solve 15 (1111 (binary)) - 18 (10010 (binary))

I find the easiest way to do subtraction in two's complement is by the method of complements which is instead of trying to subtract the positive 18 from the positive 15 ( +15 - (+18)), we instead add negative 18 to positive 15 ( +15 + (-18) ). This has the same result but is easier to do in two's compliment ( note: you can't do this if your number system does not have negative numbers)

So we have to take the number 15 and -18 and convert them into two's complement numbers. Since 18 is represented in binary with 5 bits we need to use at least 6 six bit to represent -18 in twos complement.

To convert -18 into two's complement we take 18 in two's complement 010010 flip those bits (turn the 0s into 1s and 1s into 0s) 101101, and then to add one to the flipped bits using binary addition

```
1 (carried digits)
101101 (-19 (flipped 18 ))
+ 000001 (1)
_________
101110 (-18)
```

To convert 15 into two's complement we take 15 in binary (1111) and then we add zeros on the left until it has the same amount of digits as -18 (101110) 001111

Now that we both numbers in two's complement we can add them together using binary addition

```
111 (carried digits)
001111 (15)
+ 101110 (-18)
_________
111101 (-3)
```

This give us -3 in two's complement which is the correct answer (15 - 18 = -3).

You can learn about two's complement looking at the twos complement wiki page