JP3401754B2 - Video information recording system - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video communication system, and more particularly to a video recording system for recording video information transmitted via a communication network. 2. Description of the Related Art In order to record video information transmitted via a conventional communication network, a user operates between a video receiving apparatus which is a video information receiving apparatus and a video server apparatus which transmits video information. A connection was established, and video information was received and recorded in real time through the connection. FIG. 5 is a block diagram showing a schematic configuration of a conventional video recording system. A conventional video recording system, as shown in FIG.
0 and the video receiver 4000 are connected via a communication network 10001. [0004] The video server device 3000 includes a video information input unit 3040 to which video information is input, a communication control unit 3030 for performing connection setting with the video receiving device 4000 via a communication network, and information between the video receiving device 4000. Network interface 3 for sending and receiving
020, these video information input means 3040, communication control means 3030, network interface 30
The control unit 3010 controls the control unit 20. [0005] The video receiver 4000 includes an input means 4040 for controlling input from a keyboard and a mouse, and an output means 40 for controlling output to a display, a speaker and the like.
50, video information storage means 406 for storing video information
0, video information recording means 407 for reproducing video information
0, a communication control unit 4030 for performing connection setting with the video server device 3000 via a communication network, a network interface 4020 for exchanging information with the video server device 3000, these input units 4040,
It comprises output means 4050, video information storage means 4060, video information recording means 4070, communication control means 4030, network interface 4020, and control means 4010 for controlling these. [0006] The video server device 3000 and the video receiving device 4000 have machine addresses 3021 and 4021 in the network interfaces 3020 and 4020 for uniquely identifying each of them. FIG. 6 is a flowchart showing the procedure of video recording processing in a conventional video recording system. In the video recording process of the conventional video recording system, as shown in FIG. 6, when the video recording process is started (step 80).
0), the machine address 3021 is input from the input unit 4040, and a connection establishment request to the video server device 3000 is sent to the control unit 4010. The control unit 4010 that has received the connection establishment request instructs the communication control unit 4030 to establish a connection with the video server device 3000. Communication control means 40 receiving the instruction
30 sends the connection establishment request data from the network interface 4020 to the video server device 3000 via the communication network 10001 (step 81).
0). [0008] The network interface 3020 of the video server 3000 receives the connection establishment request data from the communication network 10001, compares the destination machine address with its own machine address 3021, and confirms that they match, notifies the control means 3010. I do. The control unit 3010 that has received the notification sends the connection establishment request acceptance data to the communication control unit 3030 from the network interface 3020 to the video receiving device 4000 via the communication network 10001, and a connection is established (step 820). [0009] When a video information reception request is input from the input means 4040, the control means 4010 notifies the control means 3010 of the video information transmission request through the established connection (step 830). [0010] Upon receiving the notification, the control means 3010 inputs the video receiving apparatus 400 input to the video information input means 3040.
0 to the communication control means 3030.
Upon receiving the instruction, the communication control unit 3030 transmits the video information through the established connection from the network interface 3020 to the video receiving device 4000 via the communication network.
(Step 840). [0011] In the video receiving apparatus 4000, the communication network 10
The video information sent from the video server 3000 via the network interface 402
It receives sequentially from 0 and outputs it to the output means 4050. A video information recording start request is input from input means 4040 and sent to control means 4010. Upon receiving the video information recording start request, the control unit 4010 instructs to start recording the video information. The video information recording unit 4070 that has received the instruction records the video information sequentially transmitted to the video information storage unit 4060 (step 850). When the recording of video information is completed, a video information recording end request is sent from the input means 4040 to the control means 401.
Sent to 0. The control unit 4010 that has received the video information recording end request instructs the video information recording unit 4070 to end the recording of the video information. Upon receiving the instruction, the video information recording means 4070 ends the recording of the video information (step 860). Further, a request for disconnecting the connection from the input means 4040 to the video server device 3000 is sent to the control means 4.
010. The control unit 4010 that has received the connection disconnection request instructs the communication control unit 4030 to disconnect the connection. Upon receiving the connection disconnection instruction, the communication control unit 4030 operates the video server device 3000.
Then, a connection disconnection request is sent to disconnect the connection (step 870). Thus, the video recording process ends (step 880). [0015] As a result of studying the above-mentioned conventional video recording system, the present inventor has found the following problems. In the conventional video recording system, the video information must be recorded by the video receiving device in synchronization with the transmission time of the desired video information in the video server device. Also, video information transmitted from the video server device under uniform conditions such as color gradation, resolution, and number of frames has to be recorded by the video receiving device. For this reason, there are the following problems. (1) When transmitting desired video information, the video receiving apparatus must receive the video information. (2) The video information cannot be received and recorded in a format suitable for the reception environment such as the disk recording capacity of the video receiving apparatus. An object of the present invention is to provide a recording time of video information,
The receiving environment of the video receiving device can be designated to the video server device, the video server device temporarily records the video information of the designated recording time, and converts the recorded video information into a format suitable for the receiving environment of the video receiving device. An object of the present invention is to provide a video information recording system that can be received by a video receiving device. The above and other objects and novel features of the present invention will become apparent from the description of the present specification and the accompanying drawings. Means for Solving the Problems The outline of a typical invention among the inventions disclosed in the present application will be briefly described as follows. [0023] and the video server apparatus for transmitting and receiving video information via a communication network, the video information <br/> recording system consisting of a video receiving apparatus, the video server apparatus, time management means for managing time, video information The input video
E input means, input from the video input means at a recording time specified by a recording condition of a reception environment of the video receiving apparatus.
Video information recording means for recording the video information, video information storage means for storing video information to be recorded, the recording condition storage means for storing recording conditions sent from the video receiving device, suitable recording condition the sent comprising a video information transmitting means for sending the video information said accumulated in the video information storing means conversion method determining means, according to the conversion method determined by the conversion method determining means for determining a conversion method of video information, the video A receiving device that writes a recording time of video information transmitted from the video server device and a recording condition of a receiving environment of the video receiving device; a recording condition transmitting device that transmits the recording condition to the video server device; means, and characterized by including the video information storage means for storing the video information transmitted from the video server device To. According to the above-mentioned means, instead of receiving the desired video information by the video receiving device at the time of transmission and recording the video information by the video receiving device in the format at the time of transmission, the recording time of the video information is changed. And the recording conditions of the receiving environment of the video receiving device to the video server device, temporarily record the video information for the specified recording time in the video server device, and convert the recorded video information into a format suitable for the specified receiving environment Then, the video information is transmitted to the video receiving device, so that the video information can be received under conditions suitable for the receiving environment of the video receiving device. In addition, since it is not necessary to receive video information at the video receiving device when transmitting desired video information,
Video information can be recorded when the video receiving device cannot be operated, such as when the user is absent. Embodiments of the present invention will be described below in detail with reference to the accompanying drawings. FIG. 1 is a block diagram showing a schematic configuration of a video information recording system according to an embodiment of the present invention.
000 is a video server device, 2000 is a video receiving device, 1010 and 2010 are control means, 2040 is input means, 2050 is output means, 1040 is video information input means, 1050 is video information recording means, 1100 is video information storage means, 1030 and 2030 are communication control means, 1
020, 2020 are network interfaces, 1
200 is a video information converting means, 1300 is a recording information storing means, 1400 is a time managing means, 1500 is a video information transmitting means, 1600 is a conversion method determining means, 2100 is a recording condition writing means, and 2200 is a recording condition transmitting means. . As shown in FIG. 1, in the video information recording system of this embodiment, a video server device 1000 and a video receiving device 2000 are connected via a communication network 10000. The video server apparatus 1000 includes a video information input unit 1040 to which video information is input, a communication control unit 1030 for performing connection setting with the video receiving apparatus 2000 via a communication network, and information between the video receiving apparatus 2000. Network interface 1 for sending and receiving
020, video information recording means 1050 for recording video information input from the video information input means 1040, video information storage means 1100 for storing video information recorded by the video information recording means 1050, and recording transmitted from the video receiving device 2000. Record information storage means 1300 for storing conditions, time management means 14 for managing the current time
00, a conversion method deciding means 1600 for deciding the conversion method of the video information which is the most suitable for the recording conditions stored in the recording information storage means 1300, and stored in the video information storage means 1100 in accordance with the conversion method determined by the conversion method deciding means 1600. Video information converting means 120 for converting video information
0, a video information transmitting means 1500 for transmitting the video information converted by the video information converting means 1200 to the video receiving apparatus 2000, and these communication control means 103
0, video information input means 1040, network interface 1020, video information recording means 1050, video information storage means 1100, recording information storage means 130
0, time management means 1400, conversion method determination means 160
0, a video information converter 1200, a video information converter 1200, and a controller 1010 for controlling the video information transmitter 1500. The video receiving apparatus 2000 includes an input means 2040 for controlling input from a keyboard and a mouse, an output means 2050 for controlling output to a display, a speaker, and the like, and a video information storage means 2 for storing video information.
060, a recording condition writing unit 2100 for writing the recording condition of the video information, a recording condition transmitting unit 2200 for transmitting the recording condition to the video server device 11000, a communication control unit for performing connection setting with the video server device 1000 via a communication network. 2030, network interface 2 for exchanging information with video server device 2000
020 and these communication control means 2030 and input means 20
40, output means 2050, video information storage means 206
0, recording condition writing means 2100, recording condition transmitting means 22
00, which controls the network interface 2020. The video server apparatus 1000 and the video receiving apparatus 2000 have machine addresses 1021 and 2021 for uniquely identifying each of them in the network interfaces 1020 and 2020. FIG. 2 is a diagram showing details of the recording conditions stored in the recording condition writing means 2100 in this embodiment, and 2110 is a recording condition. The recording condition 2110 is
As shown in FIG. 2, the video receiving device machine address 21
10-1; a recording start date / time 2110-2 at which recording of video information is started; a recording end date / time 2110-3 at which video recording is ended;
00 column of the receivable disk capacity 2110-4, and the column 2110- of the monitor resolution of the video receiving apparatus 2000.
5. Video display speed column 21 of video receiver 2000
It consists of 10-6. FIG. 3 is a diagram showing details of the recording conditions stored in the recording information storage means 1300 in this embodiment, and reference numeral 1310 denotes the recording conditions. The recording condition 1310 is
As shown in FIG. 3, a column of the machine address 1310-1 of the video receiving apparatus that has created the recording condition, a column of the recording start date and time 1310-2 at which the recording of the video information is started, and a recording end date and time at which the recording of the video recording ends. A column 1310-3, a column 1310-4 of the allowable disk capacity of the video receiving device 2000, a column 1310-5 of the monitor resolution of the video receiving device 2000, and a column 1310 of the video display speed of the video receiving device 2000 -6. FIG. 4 is a flowchart showing the procedure of the recording process of the video information recording system of this embodiment. In the recording process of the video information recording system according to the present embodiment, as shown in FIG. 4, when the video recording process is started (step 4).
00), the recording condition writing means 210 from the input means 2040
0, the video information recording start date and time T1 is recorded in the video reception device address column 2110-1 of the recording condition 2110, and the video information recording end date and time T is recorded in the recording end date and time column 2110-3.
2. The allowable disk capacity M of the video receiving apparatus is written in the column of disk capacity 2110-4 (step 410). The video server device 1 is input from the input means 2040.
000 is input, and a transmission request for the recording condition 2110 is sent to the control means 2010 (step 412). The control means 2010 having received the transmission request together with the machine address 1021
0 instructs the video server apparatus 1000 to establish a connection. Receiving the instruction, the communication control means 2030 sends connection establishment request data including the connection destination machine address 1021 from the network interface 2020 to the video server apparatus 1000 via the communication network 10000 (step 414). The network interface 1020 of the video server apparatus 1000 receives the connection establishment request data from the communication network 10000 and, when confirming that the connection destination machine address included in the connection establishment request data and the own machine address 1021 match, the control means. Notify 1010. The control unit 1010 having received the notification instructs the communication control unit 1030 to accept the connection establishment request. The communication control means 1030 sends connection establishment request acceptance data from the network interface 1020 to the video receiving apparatus 2000 via the communication network 10000, and a connection is established (step 416). After the connection is established, the control means 2010
Instructs the recording condition transmitting unit 2200 to request transmission of the recording condition 2110. Receiving instruction recording condition transmitting means 22
00 transmits the recording condition 2110 to the video server apparatus 1000 through the connection established from the network interface 2020 (step 418). The control unit 1010 confirming the reception of the recording condition 2110 stores the recording condition 2 in the recording information storage unit 1300.
110 is instructed. The recording information storage unit 1300 that has received the instruction stores the recording condition 2110 as the recording condition 1310. At this time, the machine address 2021 of the video receiving device that transmitted the recording condition 2110 is recorded in the video receiving device machine address column 1310-1, the video information recording start date and time T1 is recorded in the recording start time column 1310-2, and the recording end time is recorded. In the column 1310-3, the video information recording end date and time T2 is assigned, and in the disk allowance column 1310-4, the disk allowance M is assigned (step 420). Thereafter, a request for disconnecting the connection with the video server apparatus 1000 is sent from the input means 2040 to the control means 2.
010. The control unit 2010 that has received the connection disconnection request instructs the communication control unit 2030 to disconnect the connection. Upon receiving the connection disconnection instruction, the communication control unit 2030 sets the video server apparatus 1000
A connection disconnection request is sent to the server to disconnect the connection. (Step 422). The time management unit 1400 stores the current date and time in the recording condition 131 stored in the recording information storage unit 1300.
T assigned to the recording start date / time column 1310-2 of 0
When confirming that it has become 1, the control means 1010 is notified. The control unit 1010 having received the notification instructs the video information recording unit 1050 to start recording the video information input from the video information input unit 1040 to the video information recording unit 1050. Upon receiving the instruction to start recording the video information, the video information recording unit 1050 operates as the video information input unit 1.
The video information input from 040 is sequentially recorded in the video information storage means 1100 (step 424). The time management unit 1400 stores the current date and time in the record information storage unit 1300.
When it is confirmed that T2 has been assigned to the recording end date / time column 1310-3 of the recording condition 1310 stored in the storage unit 1310, the control unit 1010 is notified. The control unit 1010 having received the notification instructs the video information recording unit 1050 to end the recording of the video information. The video information recording unit 1050 that has received the instruction ends the recording of the video information (step 426). When the recording of the video information is completed, the control means 1010 substitutes the video information stored in the video information storage means 1100 into the monitor resolution column 1310-5 of the recording condition 1310 in the conversion method determining means 1600. Resolution suitable for the given resolution R and recording conditions 13
The number of frames suitable for the video display speed S assigned to the video display speed column 1310-6 of 10 and the recording condition 131 stored in the recording information storage unit 1300
The user is instructed to find a conversion method suitable for recording conditions such as color gradation, resolution, and the number of frames so as to be within the disk capacity suitable for the disk capacity M substituted in the disk capacity column 1310-4 of 0. Conversion method determining means 1600 receiving the instruction
Calculates a conversion method suitable for the recording condition,
Is notified (step 428). Upon receiving the notification, the control means 1010 instructs the video information conversion means 1200 to store the video information according to the conversion method determined by the conversion method determination means 1600.
To convert the video information stored in. Upon receiving the instruction, the video information conversion means 1200 converts the video information stored in the video information storage means 1100 according to the conversion method determined by the conversion method determination means 1600 (step 430). The video server device 1 is input from the input means 2040.
The machine address 1021 of 000 is input, and a request for receiving video information is sent to the control means 2010 (step 432). The control means 2010 which has received the reception request together with the machine address 1021
To the video server apparatus 1000 to establish a connection. Upon receiving the instruction, the communication control means 2030 sends the connection establishment request data including the connection destination machine address 1021 to the network interface 2020.
Server 100 via a communication network 10000
0 (step 434). The network interface 1020 of the video server apparatus 1000 receives the connection establishment request data from the communication network 10000 and, when confirming that the connection destination machine address included in the connection establishment request data and the own machine address 1021 match, performs control. The means 1010 is notified. Control means 1010 that has been notified
Instructs the communication control means 1030 to accept the connection establishment request. The communication control means 1030 sends the connection establishment request acceptance data from the network interface 1020 to the video receiving device 2000 via the communication network 10000, and a connection is established (step 436). After the connection is established, the control means 2010
Requests the control unit 1010 to transmit the converted video information stored in the video information storage unit 1100 through the established connection. Control means 10 receiving the request
10 requests the video information transmitting means 1500 to transmit the converted video information stored in the video information storing means 1100. Requested video information transmitting means 1500
Transmits the converted video information stored in the video information storage unit 1100 through the connection to the video receiving device 2.
000 (step 438). The control means 2010 instructs the video information storage means 2060 to store the converted video information received through the connection. Upon receiving the instruction, the video information storage means 2060 stores the converted video information (step 4).
40). After transmitting the converted video information, the video information transmitting means 1500 notifies the control means 1010 of the completion of the transmission. The control unit 1010 that has received the notification notifies the control unit 2010 of the end of transmission through the established connection. The control unit 2010 having received the notification instructs the communication control unit 2030 to disconnect the connection. The communication control unit 2030 that has received the instruction to disconnect the connection,
A connection disconnection request is sent to the video server apparatus 1000 to disconnect the connection (step 442).
Thus, the video recording process ends (step 444). As can be seen from the above description, according to the present embodiment, the recording time of the video information,
0 can be specified to the video server apparatus 1000,
Since the video server apparatus 1000 temporarily records the video information of the designated recording time, and transmits the video information obtained by converting the recorded video information into a format suitable for the reception environment of the video reception apparatus 2000, the video information is transmitted to the video reception apparatus. Can be received under conditions suitable for the receiving environment of the video receiving device 2000. Since the video information need not be received by the video receiving device 2000 when the desired video information is transmitted, recording is possible even when the video receiving device 2000 cannot be operated, such as when the user is absent. Further, it becomes possible to receive and record video information in a format suitable for the receiving environment such as the disk recording capacity of the video receiving apparatus. As described above, the present invention has been specifically described based on the embodiments. However, the present invention is not limited to the above embodiments, and it is needless to say that various modifications can be made without departing from the gist of the present invention. . The effects obtained by typical aspects of the invention disclosed in the present application will be briefly described as follows. The recording condition specifying the recording time of the video information and the receiving environment of the video receiving device is sent to the video server device, the video information of the specified recording time is once recorded by the video server device, and the recorded video information is recorded. Since the video information is converted into a format suitable for the designated receiving environment and transmitted to the video receiving device, the video information can be received under conditions suitable for the receiving environment of the video receiving device. In addition, since it is not necessary to receive the video information with the video receiving device when transmitting the desired video information, it is possible to record the video information when the video receiving device cannot be operated such as when the user is absent.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing a schematic configuration of a video information recording system according to one embodiment of the present invention. FIG. 2 is a diagram illustrating the contents of recording conditions stored in a recording condition writing unit according to the embodiment. FIG. 3 is a diagram illustrating the contents of recording conditions stored in a recording condition storage unit in the present embodiment. FIG. 4 is a flowchart illustrating a procedure of a recording process of the video information recording system according to the embodiment. FIG. 5 is a block diagram showing a schematic configuration of a conventional video recording system. FIG. 6 is a flowchart showing a procedure of video recording processing of a conventional video information recording system. [Description of Signs] 1000, 3000: Video server device, 2000, 4
000 video receiver, 1010, 2010, 301
0, 4010 control means, 2040, 4040 input means, 2050, 4050 output means, 1040, 304
0 ... video information input means, 1050, 4070 ... video information recording means, 1100, 4060 ... video information storage means, 1030, 2030, 3030, 4030 ... communication control means, 1020, 2020, 3020, 4020 ... network interface, 1200 ... Video information conversion means, 1300: Recorded information storage means, 1400: Time management means, 1500: Video information transmission means, 1600 ...
Conversion method determining means, 2100... Recording condition writing means, 22
00: recording condition transmitting means.

──────────────────────────────────────────────────続 き Continued on the front page (58) Fields surveyed (Int.Cl. ⁷ , DB name) H04N 7/10 H04N ⁷ /14-7/173 H04N 7/20-7/22 H04N 5/76 H04N 5 / 91-5/95

Claims (1)

(57) [Claim 1] In a video information recording system comprising a video server device for transmitting / receiving video information via a communication network and a video receiving device, the video server device manages time. Time management means, video input means for inputting video information, video information recording means for recording video information input from the video input means at a recording time specified by a recording condition of a reception environment of the video receiving apparatus, recording Information storing means for storing video information to be recorded, recording condition storing means for storing recording conditions transmitted from the video receiving apparatus, and conversion method determining means for determining a conversion method of video information suitable for the transmitted recording conditions. video to send the video information said accumulated in the video information storing means according to the conversion method determined by said conversion method determination means A recording condition writing unit for writing a recording time of video information transmitted from the video server device and a recording condition of a reception environment of the video receiving device, the video receiving device comprising: A video information recording system comprising: a recording condition transmitting unit that transmits the recording condition; and a video information storing unit that stores video information transmitted from the video server device.