AU3069200A - Voice driven mouth animation system - Google Patents

Description

WO 00/45380 PCT/IBOO/00067 VOICE DRIVEN MOUTH ANIMATION SYSTEM BACKGROUND OF THE INVENTION THIS invention relates to an animation system which is voice activated. Conventional voice activated animation systems which generate animated graphics are complex and are mainly aimed at producing seamless, life-like animation. This, in turn, leads to difficulty in achieving proper live animation, with time aligning techniques being employed so as to align the speech signal and the animated sequence. GONWIRMATION

COPY

WO 00/45380 PCT/IBOO/00067 -2 SUMMARY OF THE INVENTION According to the invention there is provided an animation system which is sound activated, the system comprising: input means for receiving an input sound signal; sampling means for sampling the input sound signal; processing means for generating a value characteristic of each sample; comparison means for comparing each value to a plurality of pre-stored value ranges each corresponding to a predetermined graphic; and display means for displaying said predetermined graphics corresponding to each value sequentially; wherein, for every sample of the input sound signal, the corresponding graphic is displayed substantially simultaneously therewith, so as to generate an animation sequence synchronised with the input sound signal. The input sound signal may be an analogue signal and the sampling means may comprise an analogue to digital converter. The processing means may be arranged to generate a value characteristic of each sample which is related to the maximum amplitude of the sample. The predetermined graphic may be, for example, a mouth graphic representing a character's mouth.

WO 00/45380 PCT/IBOO/00067 -3 in a preferred embodiment of the invention the display means is arranged to display the predetermined graphics superimposed upon a display of an animated character or object. Preferably, the display means comprises a monitor on which a software generated display window is shown, the animated character and the predetermined graphics being displayed within the display window. The predetermined graphics may be stored in a specified directory on the hard drive of a computer. Preferably, a plurality of sets of predetermined graphics, each corresponding to a basic expression of an animated character, are stored in respective sub directories. The system may include a software based user interface for allowing the user to select a desired one of a plurality of character expressions, the system selecting the set of predetermined graphics corresponding to the selected expression. In a preferred form of the invention, means for allowing the character to perform pre-determined actions or gestures is included. The invention further allows the selection of a variety of camera shots, for example a close-up shot, a medium shot or any other kind of camera shot. Advantageously, the invention includes means for controlling the speed at which the value characteristic of each sample is generated.

WO 00/45380 PCT/IBOO/00067 -4 BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be described in more detail, by way of example only, with reference to the accompanying drawings in which: Figure 1 is a schematic block diagram showing the major components of the live performance animation system according to the invention; Figure 2 is a schematic flow chart showing the method used in the voice engine component of the invention; Figure 3 is a graphical representation of the selection method used in determining which mouth position is to be displayed; Figure 4 shows the various mouth positions which may be displayed, as well as the associated letter or sounds; Figure 5 shows the character display window component of the invention; Figure 6 shows the user interface component of the invention; Figure 7 is a schematic flow chart showing the routine followed when the user interface component of the invention is initiated; Figure 8 is a schematic flow chart showing the relationship between the voice engine component and the user interface component; and Figure 9 is a schematic illustration of the directory arrangement employed by the invention.

WO 00/45380 PCT/IBOO/00067 -5 DESCRIPTION OF PREFERRED EMBODIMENTS Referring to Figure 1, a graphic animation system 10 of the invention comprises a voice engine 12 with a headset microphone 14 and an analogue to digital converter 16 which is connected to a processor 18. The system further comprises a user interface 20 as well as a character display interface using a monitor 22. These three components of the system operate together, as will be described further on in the specification. Referring now to Figure 2, the voice engine is connected to the microphone 14 into which the user speaks, with the resulting continuous analogue speech signal from the microphone then being amplified by a pre-amplifier 24. The continuous speech signal f(t) is sampled by means of the analogue to digital converter 16, at a sampling rate of 16 kHz, resulting in a digital sampled speech signal f(n). The sampled speech signal f(n) is then multiplied by a Hamming window w(n) which is defined below, in which N is the number of samples and n is the sample number: w(n)= 0.54 - 0.46cos 27c n for 0 n > N-1 (N -1I The resulting weighted signal F(n) is stored in an array called input (n). A Discrete Fast Fourier Transform, achieved via the Radix-2 method, is then performed on the weighted signal F(n) resulting in an array of complex Fourier coefficients f(k).

WO 00/45380 PCT/IBOO/00067 -6 The magnitude of each sample's complex coefficients is calculated using the following formula: Magnitude(n) = (Freal(n))2 + (Fimaginay(nf) The maximum magnitude and corresponding sample number n are then found. This n is then compared to a stored set of previously derived ranges for n and the set that has the lowest comparative variance is then determined. This result governs which of a plurality of possible predetermined mouth positions corresponds to that particular sample of the incoming speech signal. The predetermined ranges for n and corresponding mouth values are shown in Figure 3. The actual graphic mouth representations (mouth graphics) corresponding to the various mouth values are shown in Figure 4, from which it may be seen that the user's speech pattern is broken up into nine possible mouth positions which are then displayed to give the illusion of animated speech. The result of this is that as the user speaks into the microphone, an animated character is able to mimic the user's speech with real time lip or mouth synchronisation by superimposing the resultant sequence of mouth graphics on a graphic representation of the character. As an example, consider for N=512 the range of the vowel "A" is between 200 and 300. If the maximum magnitude of the coefficients is found to be at n=256 then the corresponding mouth position is "A". The bitmap graphic file "02.bmp" WO 00/45380 PCT/IB00/00067 -7 is then loaded from the current directory and displayed in the character display window which is described below. A typical character display window 26 appearing on the character display monitor 22 is shown in Figure 5. Although the character shown in the display window 26 in Figure 5 is a two-dimensional image of a person, it will be appreciated that the character can also be three-dimensional, with there being no limitation on the animation style or the design of the character used. It will also be appreciated that the "character" need not be a human or humanoid character at all, but could be any object which is made to "speak". The window 26 comprises an eye picture box 28, a mouth picture box 30 as well as a body picture box 32. The mouth picture box 30 displays the selected mouth position corresponding to the sample of the input speech signal, according to the output of the voice engine. The eye and body picture boxes 28, 30 display expressions and/or actions which the user has assigned to the character, as will be described further below with reference to the user interface. The character display window 26 further comprises a "blink timer" 34 which is a timer object which waits for three seconds and then triggers an event. On this trigger event, five bitmap files are displayed in the eye picture box 28, one after the other, to give the impression that the character is blinking Referring now to Figure 6, the user interface 34 of the invention allows the user to control the character. If the user wants to change the expression of the WO 00/45380 PCT/IBOO/00067 -8 character, for example to neutral, happy, angry etc., he or she would click the relevant icon in the expressions box 36. The ability to change expressions is made possible in that for each expression there are provided all nine frames needed for the different mouth positions, adapted for the different expressions. These sets of frames are each stored in a separate directory, and when the user clicks on one of the expression buttons, the software changes to the corresponding directory and loads the nine new images needed. Similarly, if the user wants the character to perform one of the pre-animated sequences of actions, he or she would click the relevant icon on the actions box 38. All images are stored in either Windows Bitmap (BMP), Compuserve Gif (GIF), Joint Picture Experts Group (JPG) or Windows Metafile (WMF) format, which are decoded by appropriate decompression routines within the software. When the user clicks any one of the keys in the actions box 38, the character's eye picture box 28 and mouth picture box 30 are displayed over the appropriate image file of the body for the action being played. Once the action is completed, the character's eye, mouth and body picture boxes are redisplayed. With reference to Figure 7, when the user interface 34 component is initialised, the system reverts to all of the default settings, and the character display window 26 is opened. The user interface 34 includes a timer 42 which runs continuously and processes the incoming value from the voice engine as is shown in Figure 8. As is clear from Figure 8, the system first checks to see if any actions are WO 00/45380 PCT/IB00/00067 -9 currently running. If the result is "NO" then the application takes the value obtained by the voice engine and compares it to the set of stored values, as described earlier. Based upon the result of this comparison, the relevant mouth graphic bitmap file is loaded and displayed in the mouth picture box 30 of the character display window 26. If, on the other hand, the result of the check in Figure 8 is "YES" which means that an action is currently playing, no further processing takes place. Since the graphic bitmap files are relatively small, they load and display relatively quickly giving the illusion of real time animation. The rapid change of expressions is achieved by exploiting the character's directory structure on the drive, which is shown in Figure 9. The drive includes a character's base directory having an expressions sub-directory on level B. Within this sub-directory, further sub-directories on level C are provided for each possible expression. The invention further provides for three different camera positions on level D, typically a close up, a medium shot and a long shot. A further sub-directory on level E is created which contains the direction in which the character is looking. A further sub-directory on level F contains the actual bitmap files representing each mouth position. For example, if the user wants to change the expression of the character he or she would click the required expression icon on Figure 6. The application would then change directory at level C on Figure 8. Similarly, if the user were to WO 00/45380 PCT/IBOO/00067 -10 change the current camera view, the directory that would change would be on level D of Figure 9 and, once changed, all of the picture boxes on the character display window 26 would be reloaded. The system includes a speech speed control, shown in Figure 6, which is in the form of a horizontal slider with a range of 1 to 100. The setting of this slider will decide the speed at which the voice engine value is interpreted. If the speed is increased from say 10 to 30, the timer object's value would change, which would have the visual effect that the character's speech would be slower, and vice versa. This value may thus be adjusted to present a particular artistic style. The dominant feature of the present invention is thus its unique ability to convert human speech into graphically represented character speech in real-time or near real-time. It further allows the user the opportunity of manipulating the character in order to obtain the desired animation. The invention is thus a real time animation system which is positioned between conventional animation software and motion capture. As has been described, the invention allows a single user to control an animated character in real time by speaking into a microphone and triggering gestures and actions on the fly. Thus, there is no need to synchronise the voice signal manually to the generated image since, because of the method used by the invention, it could be said that the audio signal is automatically synchronised with the visual images.

WO 00/45380 PCT/IBOO/00067 - 11 The main advantage of the invention is that the animated character mimics the operator with real time lip synch which is voice driven. Since the system is mainly software based, no motion capture devices are required, which greatly simplifies implementation of the present invention. Furthermore, there are no limitations in the character that is to be used, and the character may thus be any two-dimensional or a three-dimensional image, including human or non-human characters or objects.

Claims (10)

1. An animation system which is sound activated, the system comprising: input means for receiving an input sound signal; sampling means for sampling the input sound signal; processing means for generating a value characteristic of each sample; comparison means for comparing each value to a plurality of pre stored value ranges each corresponding to a predetermined graphic; and display means for displaying said predetermined graphics corresponding to each value sequentially; wherein, for every sample of the input sound signal, the corresponding graphic is displayed substantially simultaneously therewith, so as to generate an animation sequence synchronised with the input sound signal.

2. An animation system according to claim 1 wherein the input sound signal is an analogue signal and the sampling means comprises an analogue to digital converter.

3. An animation system according to claim 1 or claim 2 wherein the processing means is arranged to generate a value characteristic of each WO 00/45380 PCT/IBOO/00067 - 13 sample which is related to the maximum amplitude of the sample.

4. An animation system according to any one of claims 1 to 3 wherein the predetermined graphic is a mouth graphic representing a character's mouth.

5. An animation system according to claim 4 wherein the display means is arranged to display the predetermined graphics superimposed upon a display of an animated character or object.

6. An animation system according to claim 5 wherein the display means comprises a monitor on which a software generated display window is shown, the animated character and the predetermined graphics being displayed within the display window.

7. An animation system according to any one of claims 1 to 6 wherein the predetermined graphics are stored in a specified directory on the hard drive of a computer.

8. An animation system according to claim 7 wherein a plurality of sets of predetermined graphics, each corresponding to a basic expression of an animated character, are stored in respective sub-directories.

9. An animation system according to claim 8 including a software based user interface for allowing the user to select a desired one of a plurality of character expressions, the system selecting the set of predetermined graphics corresponding to the selected expression.

10. An animation system substantially as herein described with reference to WO 00/45380 PCT/IBOO/00067 - 14 the accompanying drawings.