Method and apparatus for generating a reference frame and method and apparatus for encoding/decoding image using the same

What is claimed is: 1. A method performed by a video encoding apparatus for encoding pixels in an image, the method comprising: encoding an offset to be applied to a reference frame; generating predicted pixels of the pixels in the image, based on interpolating pixels in the reference frame and then adding the offset to the interpolated pixels; and encoding residual signals that are differences between the pixels in the image and the predicted pixels, by determining an encoding scheme of the residual signals, wherein the encoding of the residual signals comprises: skipping both transform and quantization for the residual signals and thereby encoding the residual signals for which both transform and quantization are skipped, when the determined encoding scheme of the residual signals corresponds to skipping of both transform and quantization; skipping transform and performing quantization for the residual signals and thereby encoding the quantized residual signals for which transform is skipped, when the determined encoding scheme corresponds to skipping of transform; and performing transform and quantization for the residual signals and thereby encoding the transformed and quantized residual signals when the determined encoding scheme corresponds to skipping neither transform nor quantization. 2. The method of claim 1 , wherein the interpolating comprises interpolating the pixels in the reference frame down to a quarter pixel unit. 3. The method of claim 1 , wherein the offset is included in the encoded data in units of a slice. 4. The method of claim 1 , wherein the generating of the predicted pixels comprises: generating first predicted pixels by interpolating the pixels in the reference frame based on a motion vector; and generating the predicted pixels by adding the first predicted pixels to the offset. 5. A video encoding apparatus for encoding pixels in an image, comprising: an interpolation unit, implemented by one or more processors, configured to interpolate pixels in a reference frame; an offset adder, implemented by one or more processors, configured to add the interpolated pixels to an offset to be applied to the reference frame, and thereby generate predicted pixels of the pixels in the image; and an encoder, implemented by one or more processors, configured to encode the offset to be applied to the reference frame, and encode residual signals that are differences between the pixels in the image and the predicted pixels, by determining an encoding scheme of the residual signals, wherein the encoder is configured to skip both transform and quantization for the residual signals and thereby encode the residual signals for which both transform and quantization are skipped, when the determined encoding scheme of the residual signals corresponds to skipping of both transform and quantization, skip transform and perform quantization for the residual signals and thereby encode the quantized residual signals for which transform is skipped, when the determined encoding scheme corresponds to skipping of transform, and perform transform and quantization for the residual signals and thereby encode the transformed and quantized residual signals, when the determined encoding scheme corresponds to skipping neither transform nor quantization. 6. The apparatus of claim 5 , wherein the interpolation unit is configured to interpolate the pixels in the reference frame down to a quarter pixel unit. 7. The apparatus of claim 5 , wherein the offset is encoded in units of a slice. 8. The apparatus of claim 5 , wherein the predicted pixels are generated by generating first predicted pixels by interpolating the pixels in the reference frame based on a motion vector, and adding the first predicted pixels to the offset. 9. The apparatus of claim 5 , further comprising: an offset calculator configured to calculate the offset to be applied to the reference frame.