The present invention relates to a method for playing computer multimedia and, more particularly, to a method for express execution of playing computer multimedia with device group activation.
The multimedia playing system made with the integration of a computer system and an audiovisual player is gaining popularity and is widely used on many occasions, including offices and households, because the rapid development of computer technology.
The design of the conventional multimedia playing systems is basically interfacing a computer system with an audiovisual player. With this type of design, the user usually needs to boot the computer system up in order to activate and operate the audiovisual player. In other words, the user must wait until the computer system completes the BIOS program initialization, POST program, peripheral detection and driving, OS activation, system state setting, and so on, before the user can execute the audiovisual program to play the audiovisual data. It is inconvenient for the user as there is no shortcut to bypass the tedious booting process of the computer system.
The aforementioned drawback deters the computer-based multimedia system from behaving like a household appliance with a quick activation, such as a television set. As the computer provides many functions, yet most computer users usually use one or few computer functions at a time, such as music listening, TV watching, movie watching, it is a waste of time for the user to wait for the computer system to execute the initialization of all the hardware before they can use the intended function.
The present invention is provided to overcome the aforementioned drawbacks of the conventional methods of express execution of playing computer multimedia. A primary objective of the present invention is to provide a method for playing computer multimedia so that the computer can initialize only the hardware related to the application program selected by the user in order to shorten the waiting period.
Another objective of the present invention is to provide a method for playing computer multimedia with a device group activation table to manage the activation and operation of multimedia players with a device activation group table.
To achieve the aforementioned objectives, the present invention provides a device activation group table. The device activation group table defines, according to the functional features of each multimedia player connected to the computer, each hot key and its associated multimedia player, driver, and application program. To execute the express activation with the device group activation table, the method performs the following steps: detecting depression or actuation of a hot key; computer loading and executing a driver for a multimedia player associated with the depressed hot key by referring to the device activation group table; and loading and executing application program for the multimedia player associated with the depressed hot key to activate the associated multimedia player. For those multimedia players associated with hot keys not being depressed, no action is taken.
In comparison with the conventional methods, the present invention allows a multimedia computer system with a plurality of multimedia players, such as CD, VCD, DVD players, TV, and so on, to selectively activate the associated driver and application program according to user's selection. This saves the user from waiting the computer system to activate all the hardware before the intended application program can start execution.
These and other objectives, features, and advantages of the invention will be apparent to those skilled in the art, from a reading of the following brief description of the drawings, the detailed description of the preferred embodiment, and the appended claims.
The present invention can be understood in more detail by reading the subsequent detailed description in conjunction with the examples and references made to the accompanying drawings, wherein:
With reference to the drawings and in particular to
The second bus bridge 13 is connected to a BIOS memory 16. The BIOS memory 16 stores a BIOS program 161 and a power-on-self-test (POST) program 162, required by the computer 100 during the booting.
The second bus bridge 13 is connected to a hard-disk interface 170 through a bus. The hard-disk interface 170 is connected to a hard-disk 17. The hard-disk 16 served as a data storage is for storing data in the present invention.
In the embodiment of the present invention, the drivers 172 for the multimedia players include a CD player driver 172a, a digital musical device driver 172b, a VCD player driver 172c, and a TV driver 172d. The application programs 173 for the multimedia players include a CD player application program 173a, a digital musical device application program 173b, a VCD player application program 173c, and a TV application program 173d, respectively associated with the drives 172a, 172b, 172c, 172d. The hard-disk 17 also includes an audio device driver 175 and a display driver 176.
The second bus bridge 13 of the computer 100 is connected to a hot key detection interface circuit 20 through a bus 130, and the hot key detection interface circuit 20 is connected to a hot key set 2. The hot key set 2 includes a plurality of hot keys 21, 22, 23, 24, which activate a CD player, a digital music device, a VCD player and a TV, respectively, when operated by the user.
The hot keys 21, 22, 23, 24 can be defined as control keys for express activation of a multimedia player. The hot keys 21, 22, 23, 24 can be buttons installed on a panel of the corresponding multimedia player or on the computer 100. The hot keys 21, 22, 23, 24 can also be specific keys on a keyboard of the computer 100. The specific keys can be decoded by a keyboard controller (not shown) of the computer 100, and identified by the central processing unit 11 of the computer 100.
The second bus bridge 13 of the computer 100 is connected to a multimedia player 3 through a bus 130.
The second bus bridge 13 of the computer 100 is connected to an audio interface circuit 40 through the bus 130. The audio interface circuit 40 is connected to an audio device 4. The second bus bridge 13 of the computer 100 is also connected to a TV tuner 5 through the bus 130.
After the computer 100 finishes the above activation process, the computer 100 determines which multimedia player to activate according to the hot key that is depressed. If the hot key that is depressed is the hot key 21, as shown in step 104a, the computer 100 loads and executes the CD player driver 172a and the audio device driver 175 from the hard-disk 17 according to the definition in the device activation group table 174, as shown in step 105a. Step 106a is to load and execute the CD player application program 173a, and step 107a is to activate the CD reading device 3a and the audio device 4 to start playing the musical data read by the CD reading device 3a.
If the hot key that is depressed is the hot key 22, as shown in step 104b, the computer 100 loads and executes the digital music device driver 172b and the audio device driver 175 from the hard-disk 17 according to the definition in the device activation group table 174, as shown in step 105b. Step 106b is to load and execute the digital music device application program 173b, and step 107b is to activate the digital music reading device 3b and the audio device 4 to start playing the musical data read by the digital music reading device 3.
If the hot key that is depressed is the hot key 23, as shown in step 104c, the computer 100 loads and executes the VCD player driver 172c, the display driver 176, and the audio device driver 175 from the hard-disk 17 according to the definition in the device activation group table 174, as shown in step 105c. Step 106c is to load and execute the VCD player application program 173c, and step 107c is to activate the VCD reading device 3c, the audio device 4, and the display 15 to start playing the visual and musical data read by the VCD reading device 3c.
If the hot key that is depressed is hot key 24, as shown in step 104d, the computer 100 loads and executes the TV driver 172d, the display driver 176, and the audio device driver 175 from the hard-disk 17 according to the definition in the device activation group table 174, as shown in step 105d. Step 106d is to load and execute the TV application program 173d, and step 107d is to activate the TV signal receiver 3d, the audio device 4, and the display 15 to work with the TV tuner 5 to start playing the TV images and musical data read by the TV signal receiver 3d.
While the invention has been described in connection with what is presently considered to the most practical and preferred embodiment, it is to be understood that the invention is not to be limited to the disclosed embodiment, but on the contrary, is intended to cover various modifications and equivalent arrangement included within the spirit and scope of the appended claims.
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