Electrical computers and digital processing systems: multicomput – Remote data accessing
Reexamination Certificate
1998-12-07
2002-08-20
Vu, Viet D. (Department: 2154)
Electrical computers and digital processing systems: multicomput
Remote data accessing
C709S250000, C709S241000, C348S207110, C348S211130
Reexamination Certificate
active
06438587
ABSTRACT:
BACKGROUND OF THE INVENTION
a) Field of the Invention
The present invention relates to an imaging apparatus provided with an interface connectable to a network and also to a network system configured using the imaging apparatus.
b) Description of the Related Art
Since the establishment of a networked computing, a variety of image data is now frequently transmitted among a plurality of computers. Accordingly, demand for capturing various image data for the computers is increasing. Generally, when image information is taken into a personal computer, an add-in video capture board is mounted on the computer, and image information supplied through a video camera or electronic still camera connected to the add-in board is converted into a predetermined data format before sent to the computer. Image data captured by the computer is temporarily stored in the internal storage device and can be transmitted to other computer equipment through the network as required.
FIG. 1
is a schematic diagram showing an example configuration of a network system. This drawing shows a client/server type network system.
Communication line L comprises a coaxial, twisted pair, or fiber optic cable. A server C
0
and a plurality of clients C
1
to C
5
are connected to the communication line L. The server C
0
performs a variety of processing in response to requirements from the clients C
1
to C
5
and also manages operation of the network system as a whole. The clients C
1
to C
5
operate independently and transfer a variety of data to/from the server C
0
or another one or more of the clients C
1
to C
5
as required.
The server C
0
and the clients C
1
to C
5
are given respective unique network addresses, and the server C
0
or the clients C
1
to C
5
are configured so to be mutually identifiable based on these network addresses. Each of the clients C
1
to C
5
can share data or a variety of hardware with the server C
0
or another one or more of the clients C
1
to C
5
.
The clients C
1
, C
4
have respective cameras V
1
, V
2
as input device of image data so to enable capturing image data. Image data taken into the clients C
1
, C
4
through the cameras V
1
, V
2
is temporarily stored in a storage device such as a hard disk in the clients C
1
, C
4
. The image data is transferred to any of the clients C
1
to C
5
or the server C
0
as desired in response to a transfer requirement from any one of the clients C
1
to C
5
. The image data is transferred on a picture-by-picture basis, or in units of divided blocks of each picture, according to the communication protocol of the network system.
Where it is determined that cameras V
1
, V
2
will be shared over the network, the clients C
2
, C
3
, C
5
not having the cameras V
1
, V
2
can control the cameras V
1
, V
2
via the clients C
1
, C
4
. Image data is transferred in the same way as above, either on a picture-by-picture basis, or in units of divided blocks, again, according to the network communication protocol.
FIG. 2
is a block diagram showing the configuration of a video capture for capturing image information taken into a client (personal computer) by an electronic camera. The drawing shows that the image information is output as digital data (image data) from the electronic camera.
A capture board
10
comprises a frame memory
1
, a synchronism detecting circuit
2
, a timing control circuit
3
, and an interface circuit
4
, and is connected between the electronic camera and a client. The frame memory
1
stores image data, input through the electronic camera on a picture-by-picture basis. This frame memory
1
has sufficient capacity to store a number of pictures according to a ratio between an input rate of image data from the electronic camera and a transfer rate of image data to the client. The synchronism detecting circuit
2
detects a synchronism component contained in the image data entered from the electronic camera and generates a timing pulse corresponding to each timing of vertical scanning and horizontal scanning. The timing control circuit
3
controls timing of writing and reading image data into and from the frame memory
1
based on the timing pulse supplied from the synchronism detecting circuit
2
and directions from the client.
An interface (I/F) circuit
4
is connected between the frame memory
1
and the client and transfers image data read from the frame memory
1
to the client according to the instructions given by the timing control circuit
3
. The interface circuit
4
sends interrupt instructions being output from the timing control circuit
3
to the client, receives a control command sent out from the client, and then gives instructions to the timing control circuit
3
. Thus, the image data input from the electronic camera on a picture-by-picture basis is stored in the frame memory
1
on a picture-by-picture basis and also taken into the client on a picture-by-picture basis in response to a request from the client.
Control programs corresponding to the cameras V
1
, V
2
and their video captures are installed in the clients C
1
, C
4
connected with the cameras V
1
, V
2
. The cameras V
1
, V
2
are connected to the clients C
1
, C
4
and can only be controlled by the clients C
1
, C
4
. When the clients C
2
, C
3
, C
5
to which the cameras V
1
, V
2
are not connected, wish to capture image data using the cameras V
1
, V
2
, image data must first be sent to the clients C
1
, C
4
which are connected with the cameras V
1
, V
2
before it can be transferred from the clients C
1
, C
4
to the clients C
2
, C
3
, C
5
. Where the cameras V
1
, V
2
are shared on the network, the control programs are installed in the clients C
2
, C
3
, C
5
, so that the cameras V
1
, V
2
can be controlled from the clients C
2
, C
3
, C
5
of the network via the clients C
1
, C
4
.
In such a network, the cameras V
1
, V
2
are connected to the communication line L via respective clients C
1
, C
4
. In other words, the clients C
1
, C
4
are necessary in order to connect the cameras V
1
, V
2
to the network. If the clients C
1
, C
4
connected with the cameras V
1
, V
2
are not turned on, the operation of the cameras V
1
, V
2
cannot be controlled, regardless of the control programs installed in the other clients C
2
, C
3
, C
5
. Therefore, topological placement of the cameras V
1
, V
2
is limited to the neighborhood of the clients C
1
, C
4
, and their versatility is lowered. As a result, the cost of the network system increases.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a camera having high general versatility corresponding to a network, and also to reduce the cost of a network system.
The present invention was designed in order to remedy the above-described problems. A first aspect of the present invention relates to an imaging apparatus which can directly connect to a network and comprises an imaging device, which generates and accumulates information charges depending on the image of a subject, a drive circuit which drives the imaging device in response to a predetermined timing signal to produce an image signal indicating the subject image on a screen-by-screen basis, a signal processing circuit which performs predetermined signal processing on the image signal to generate the processed image signal, a control circuit which controls operation timing of the drive circuit and the signal processing circuit in response to a control command, and an interface circuit which is connected to a communication line through which an information packet is transmitted, which captures the control command from the communication line to supply to the control circuit, and which also sends the processed image signal to the communication line.
The imaging apparatus of the invention can be connected directly to the communication line of a network to capture the control command from the communication line to operate and also to send the image data obtained by picking up the subject to the communication line.
A second aspect of the invention relates to a network system which comprises a communic
Cantor & Colburn LLP
Sanyo Electric Co,. Ltd.
Vu Viet D.
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