3.4 using Do the following: (a)* Propose a set of intensity-slicing transforma- tion functions capable of producing all the individual bit planes of an 8-bit monochrome image. For example, applying to an image a transformation function with the property T(r) = 0 if r is 0 or even, and T(r) = 1 if r is odd, produces an image of the least signifi- cant bit plane (see Fig. 3.13). (Hint: Use an 8-bit truth table to determine the form of each transformation function.) (b) How many intensity transformation functions would there be for 16-bit images? (c) Is the basic approach in (a) limited to images in which the number of intensity levels is an integer power of 2, or is the method general for any number of integer intensity levels? (d) If the method is general, how would it be dif- ferent from your solution in (a)? 3.4 using Do the following: (a)* Propose a set of intensity-slicing transforma- tion functions capable of producing all the individual bit planes of an 8-bit monochrome image. For example, applying to an image a transformation function with the property T(r) = 0 if r is 0 or even, and T(r) = 1 if r is odd, produces an image of the least signifi- cant bit plane (see Fig. 3.13). (Hint: Use an 8-bit truth table to determine the form of each transformation function.) (b) How many intensity transformation functions would there be for 16-bit images? (c) Is the basic approach in (a) limited to images in which the number of intensity levels is an integer power of 2, or is the method general for any number of integer intensity levels? (d) If the method is general, how would it be dif- ferent from your solution in (a)