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Digital Camera Patent Abstract
A digital camera and a digital video recorder are disclosed, including
an input unit, a user interface, an analysis unit, an encoding unit
and a storage unit. An analog data is transmitted to the input unit
and converted to the digital data. User may choose whether to store
the digital data in multimedia message forms by using the user interface.
The analysis unit analyzes the digital data and determines the corresponding
file format for the multimedia message. The encoding unit encodes
the digital data to the multimedia message in the determined file
format. Consequently, the multimedia message and/or the digital
data are stored in the storage unit.
Digital Camera Patent Claims
What is claimed is:
1. A digital recording device for storing multimedia messages by
connecting to a mobile communication device via a transmission unit,
comprising: an input unit for inputting a digital data, converted
from an analog data, into the digital recording device; a user interface
allowing a user to select whether to store the digital data as one
multimedia message; an analysis unit for analyzing the digital signal
to determine a file format corresponding to said one multimedia
message; an encoding unit for encoding the digital data into a multimedia
message based on the determined file format; a storage unit for
storing the multimedia message and the digital data.
2. The digital recording device of claim 1, wherein the digital
data including one of an image data, a video data, an audio data,
and a multimedia data.
3. The digital recording device of claim 1, wherein the multimedia
message conforms to protocols of Multimedia Message System.
4. The digital recording device of claim 3, wherein the transmission
unit is adapted to sends the multimedia message to the mobile communication
device.
5. The digital recording device of claim 3, wherein the transmission
unit is adapted to receive a multimedia message from the mobile
communication device for storing in the digital recording device.
6. The digital recording device of claim 1, wherein the user interface
is adapted to provide a browse function for a user to browse a plurality
of digital data stored in the storage unit, and the user is able
to select one of the digital data for encoding the selected digital
data into a multimedia message.
7. The digital recording device of claim 1, further comprising
an edit unit for modifying the digital data, capturing a portion
of the digital data, or combining a plurality of digital data before
encoding into the multimedia message.
Digital Camera Patent Description
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] This application claims priority of Taiwan Patent Application
Serial No. 093113439 entitled "Digital Camera and Digital Video
Recorder for Storing Multimedia Message", filed on May 13,
2004.
FIELD OF THE INVENTION
[0002] The present invention relates to a digital recording device
for storing multimedia message, and particularly to a digital camera
or a digital video recorder.
BACKGROUND OF THE INVENTION
[0003] Digital recording devices, including digital camera and
digital video recorder, have become more and more powerful then
ever. While the image pixel resolution of the device increases and
the peripheral functionality expands, the selling price keeps going
down. As a result, the digital recording device has replaced the
conventional devices, e.g. the analog devices, and became a popular
consumer electronic product.
[0004] On the other hand, the advanced mobile phone, e.g. 3G, also
has multimedia functionality such as multimedia message service
(MMS). Users are able to transmit all kinds of pictures or videos
to others via the MMS. Although some of the mobile phones are equipped
with camera to retrieve images, however, the built-in camera is
usually a basic type with lower pixel resolution, less functionalities,
with no optical zoom function. That causes the images captured by
the mobile phone to be blur, unclear, and not qualified for high-quality
images. Further, the small memory space is another issue due to
cost consideration. Contrarily, although the digital recording device
may provide high quality image, lacking of data transmission capability
disallows the retrieved image to be sent elsewhere.
[0005] FIG. 4 shows a conventional digital recording device. Users
may use the digital recording device 40 to capture high quality
images and then the images are sent to a personal computer 42. The
personal computer 42 then edits and converts the images into multimedia
messages 404, which are acceptable or supported by the mobile phone
44. At last, the multimedia messages 404 are transferred to the
mobile phone 44. It is inconvenient for general users not familiar
with computer operations to use the additional personal computer
42 while preparing the multimedia message.
[0006] Therefore, it is beneficial to have a stand-alone digital
recording device capable of converting the captured images to multimedia
messages. The digital recording device may have a transmission interface,
through which the multimedia message may be transferred to the mobile
communication device. Further, the images captured by a mobile communication
device may be transferred to and stored in the digital recording
device through the transmission interface. Thus, the digital recording
device may be utilized as an external storage to the mobile communication
device, and the insufficient memory issue of the mobile communication
device may be resolved.
SUMMARY OF THE INVENTION
[0007] One aspect of the present invention is to provide a digital
recording device for selectively storing images as multimedia messages,
and users may choose to store the images as multimedia messages
for future use.
[0008] Another aspect of the present invention is to provide a
digital recording device for storing multimedia messages and communicating
with a mobile communication device, and users may utilize the mobile
communication device to send the multimedia message stored in the
digital recording device.
[0009] Still another aspect of the present invention is to provide
a digital recording device for storing multimedia messages and communicating
with a mobile communication device, and users may backup the data
of the mobile communication device on the digital recording device
to resolve the issue of insufficient memory space of the mobile
communication device.
[0010] A digital recording device is disclosed, including an input
unit, a user interface, an analysis unit, an encoding unit, a storage
unit, an edit unit, and a transmission unit. Analog data are transmitted
to the input unit and converted to digital data, and then the digital
data are stored in the storage unit of the digital recording device.
The user interface allows a user to select whether to store the
digital data as one multimedia message. The user interface further
provides a browse function for the user to browse a plurality of
digital data stored in the storage unit, and the user is able to
select one of the digital data for encoding the selected digital
data into a multimedia message. The analysis unit analyzes the selected
digital data to determine a file format corresponding to the multimedia
message. After the analysis process, the encoding unit encodes the
analyzed digital data into a multimedia message based on the determined
file format. At last, the multimedia message is stored in the storage
unit of the digital recording unit.
[0011] The user interface may further allow the user to determine
whether to edit the digital data and the multimedia message stored
in the storage unit. The edit unit may edit the selected digital
data (or multimedia message), including modifying the digital data,
capturing a portion of the digital data, or combining a plurality
of digital data before encoding into the multimedia message.
[0012] The digital recording device may connect to a mobile communication
device through the transmission unit, such as a transmission cable,
a USB line, an infrared communication channel, etc. The user interface
may further allow the user to browse the digital data and multimedia
messages stored in the storage unit, and the user may select a multimedia
message (or digital data) to be transferred to the mobile communication
device, or download the data from the mobile communication device
for backup purpose. The digital recording device transfers the selected
multimedia message through the transmission unit to the mobile communication
unit. The data to be backed up goes through the inverse direction.
Furthermore, the digital recording device may store the multimedia
messages on a removable storage unit.
BRIEF DESCRIPTION OF THE DRAWINGS
[0013] FIG. 1A illustrates a block diagram of a digital recording
device in accordance with an embodiment of the present invention;
[0014] FIG. 1B illustrates a digital camera in accordance with
an embodiment of the present invention is connected to a mobile
communication device;
[0015] FIG. 1C illustrates a digital video recorder in accordance
with another embodiment of the present invention is connected to
a mobile communication device;
[0016] FIG. 2 illustrates a flowchart of process for storing a
multimedia message in a digital recording device in accordance with
the present invention;
[0017] FIG. 3 illustrates a flowchart of process for editing a
multimedia message in a digital recording device in accordance with
the present invention; and
[0018] FIG. 4 illustrates schematically how to transfer a multimedia
message from a conventional digital recording device to a mobile
phone.
DETAILED DESCRIPTION OF THE INVENTION
[0019] The present invention resolves the problems described above
so that the multimedia message may be edited or used easily on the
digital recording devices, e.g. digital video recorder or digital
camera.
[0020] FIG. 1A illustrates a block diagram of a digital recording
device 10 in accordance with an embodiment of the present invention.
The digital recording device 10 includes an input unit 102, a user
interface 104, an analysis unit 106, an encoding unit 108, a storage
unit 110, an edit unit 112, and a transmission unit 114. Analog
data 120 are transmitted to the input unit 102 and converted to
digital data 122, and then the digital data 122 are stored in the
storage unit 110. The analog data 120 accepted by the digital recording
device 10 may include still images, motion pictures, audio signal,
or the combination thereof. The input unit 102 may include sensors
for different type of analog data 120, such as Charge Coupled Device
(CCD) or Complementary Metal-Oxide Semiconductor (CMOS) sensors
for sensing the image, a microphone for sensing the sound. The input
unit 102 may further include analog/digital (A/D) converter for
converting the analog data 120 to the digital data 122. The other
aspects of the input unit 102 are well known to those skilled in
the art and omitted here for conciseness.
[0021] The user interface 104 allows a user to select whether to
store the digital data 122 as one multimedia message 128. The user
interface 104 may further provide a browse function for the user
to browse a plurality of digital data 122 stored in the storage
unit 110, and the user is able to select one of the digital data
122 to encode the selected digital data 124 into the multimedia
message 128. Once the user selects the digital data 124 for encoding
process, the selected digital data 124 are sent to the analysis
unit 106 for analysis process 124. According the type of selected
digital data 124, an appropriate file format corresponding to the
multimedia message 128 is determined. In this embodiment, the multimedia
message 128 conforms to the Multimedia Message Service (MMS). For
example, the MMS Media Format and Codecs for CDMA2000 Spread Spectrum
Systems version 1 (C. S0045-0 V1.0) issued by the 3.sup.RD Generation
Partnership Project 2 (3GPP2). In this embodiment, the file format
may include 3GPP2 or AMR format for voice type, MPEG-4 AAC Low Complexity
Object Type format for audio type, or Scalable Polyphony MIDI (SP-MIDI)
format for synthetic audio type. When the selected digital data
124 are still image data, the file format may include ISO/IEC JPEG,
GIF 87a, GIF 89a, PNG, or the likes. When the selected digital data
124 are multimedia data, the file format may include ITU-T standard,
MPEG4 standard, or the likes. It should be noted that the file formats
are introduced for illustrating purpose and the present invention
may be implemented according to any other multimedia message standards.
After the analysis process is completed, the analyzed digital data
126 are sent to the encoding unit 108. The encoding unit 108 encodes
the analyzed digital data 126 into the multimedia message 128 based
on the file format determined by the analysis unit 106. At last,
the multimedia message 128 is stored in the storage unit 110.
[0022] The user interface 104 may further allow the user to determine
whether to edit the digital data 122 or the multimedia message 128
stored in the storage unit 110, or whether to edit the digital data
122 before encoding by the encoding unit 108. When the editing process
begins, the selected digital data (or multimedia message) 130 are
sent to the edit unit 112. The edit unit 112 edits the selected
digital data 130, including modifying the digital data 130 (e.g.
adjusting the brightness of the image), capturing a portion of the
digital data 130 (e.g. cutting a portion of audio signal), or combining
a plurality of digital data 130 (e.g. combining a plurality of video
signals into a single movie clip). The post-edited digital data
132 are sent back to storage unit 110 for storing again. The edit
unit 112 allows the user to modify and personalize the selected
digital data (or multimedia message) 130, such as adding frames,
stamps, descriptions, etc.
[0023] Furthermore, the digital recording device 10 may connect
to a mobile communication device 30, such as a mobile phone or PDA,
through the transmission medium 20, such as a transmission cable,
a USB line, an infrared communication channel, etc. In this embodiment,
a transmission cable is implemented for illustrating purpose. The
user interface 104 may further allow the user to browse the digital
data 122 stored in the storage unit 110, and the user may select
and transfer a multimedia message (or digital data) 134 to the mobile
communication device 30. The multimedia message 134 is sent to the
transmission unit 114 first, and then to the mobile communication
device 30 through the transmission medium 20. In this way, the digital
recording device 10 can still generate a multimedia message without
connecting to a computer. Users may directly utilize the stand-alone
digital recording device 10 to edit or encode the image. In the
past, users need to use a camera for high quality images and use
a mobile phone for multimedia messages processing. Alternatively,
the digital recording device 10 may download data from the mobile
communication device 30 through the transmission medium 20 for backup
purpose. The issue of insufficient memory space of the mobile communication
device 30 may be resolved. Comparing to the prior art's digital
recording device 40 shown in FIG. 4, the digital recording device
10 in accordance with the present invention effectively uses the
mass storage therein to backup the multimedia messages from the
mobile communication device 30. The mobile communication device
30 transfers the data to the digital recording device 10 through
the transmission medium 20, and then to the storage unit 110 through
the transmission unit 114. Note that the backup data of multimedia
messages are used here for exemplary purpose, those who skilled
in the art, however, may realize that the present invention may
be equally implemented to backup other data, such as address book,
calendar, ringtones, plain-text messages, voice messages, or the
likes.
[0024] As described above, the digital recording device 10 in accordance
with the present invention may include digital camera, digital video
recorder, or the likes. Referring to FIG. 1B and FIG. 1C, FIG. 1B
illustrates a digital camera 10 in accordance with an embodiment
of the present invention is connected to a mobile communication
device 30. FIG. 1C illustrates a digital video recorder 12 in accordance
with another embodiment of the present invention is connected to
a mobile communication device 30.
[0025] Furthermore, referring to FIG. 1A, the storage unit 110
of digital recording device 10 of the present invention may include
a removable storage unit (not shown), such as flash memory cards,
e.g. Compact Flash, Memory Stick, Smart Media, Security Disk, and
so on. The removable storage unit may be inserted into a memory
slot of the mobile communication device 30, which may access the
multimedia messages in the removable storage unit.
[0026] FIG. 2 illustrates a flowchart of process for storing a
multimedia message in a digital recording device in accordance with
the present invention. The method begins at step 202, by which analog
data 120 are inputted into the digital recording device 10 through
the input unit 102. In step 204, the analog data 120 are converted
into digital data 122. In step 206, the user interface 104 allows
the user to determine whether to encode the digital data 122 into
a multimedia message 128. If not, the digital data 122 are directly
stored in the storage unit 110 in step 208. Otherwise, the digital
data 122 are transferred to the analysis unit 106 for analyzing
an appropriate file format in step 210.
[0027] In step 212, the analysis unit 106 determines whether the
digital data 122 is a still image. If yes, the digital data 122
are transferred to encoding unit 108 for encoding based on the appropriate
file format in step 214. Various file formats are afore-described
and omitted here for conciseness. In step 216, the analysis unit
106 determines whether the digital data 122 are a motion picture.
If yes, the digital data 122 are transferred to encoding unit 108
for encoding based on the appropriate file format in step 218. In
step 220, the analysis unit 106 determines whether the digital data
122 are audio data. If yes, the digital data 122 are transferred
to encoding unit 108 for encoding based on the appropriate file
format in step 222. In step 224, the analysis unit 106 determines
whether the digital data 122 are multimedia data. If yes, the digital
data 122 are transferred to encoding unit 108 for encoding based
on the appropriate file format in step 226. Note that four types
of file formats are mentioned here for illustrative purpose, and
those who skilled in the art should understand that other types
of multimedia messages may be implemented in the present invention.
In step 228, the encoded multimedia messages are stored in the storage
unit 110. Although not shown in the flowchart, the digital data
122 may be stored in the storage unit 110 for future use.
[0028] FIG. 3 illustrates a flowchart of process for editing a
multimedia message in a digital recording device in accordance with
the present invention. The process beginning at step 302, in which
the user interface 104 allows a user to browse a plurality of digital
data stored in the storage unit 110. In step 304, the user selects
a digital data for editing or encoding. In step 306, the user determines
whether to edit the selected digital data. If yes, the selected
digital data are sent to the edit unit 112 in step 308 for the editing
operations mentioned above, such as dividing, combining, or modifying
the digital data. After the editing operation, the digital data
are sent to the analysis unit 106 in step 310 for analyzing an appropriate
file format. Alternatively, if the user determines not to edit the
digital data in step 306, the process goes directly to step 310.
In step 312, the encoding unit 108 encodes the digital data into
the multimedia message. In step 314, the multimedia message is stored
in the storage unit 110 for future use, e.g. transfer of messages
to mobile communication device 30 through the transmission unit
114. It should be noted that the multimedia message may be edited
in a similar way.
[0029] The above description sets forth various preferred embodiments
of the invention only, and is not intended to limit the scope, applicability,
or configuration of the invention in any way. Rather, various changes
may be made in the function and arrangement of the elements described
in these embodiments without departing from the spirit and scope
of the invention. Thus, the protected scope of the present invention
is as set forth in the appended claims. |