JPH03175752A - Device for continuously sending moving body packet - Google Patents

Abstract

PURPOSE:To guarantee a data packet lost at the time of deteriorating the state of a radio transmission line or switching the port of a wide packet net on the side of a moving body by connecting a call having a transmitting/ receiving sequence number between packet communication equipments on the base side and the moving body side at the time of deteriorating the state or switching the port. CONSTITUTION:When the moving body 110 is switched from the communication range of a radio equipment 104 to that of a radio equipment 103, a moving body side packet communication equipment 107 detected the abnormal generation/restoration of a radio transmission line 109 transmits a CR 300 to the wide packet net 102. The base side packet communication equipment 101 received the CR 300 disconnects a prelogical channel by a CQ packet 301 and transmits a CA 302 to the net 102. At the time of connecting a call, negotiation A to C and D to B is executed. Thus, call connection and data transfer can be attained by the continuous sending of a packet by using only the user data part of a packet level without allocating a header such as a specific sequence number to a DT packet.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention provides continuous packet transmission between a packet communication device of a packet terminal mounted on a mobile body and a packet communication device of a packet terminal on the base side. The present invention relates to a mobile packet continuous transmission device.

(Prior Art) Fig. 4 is a configuration diagram showing a conventional packet continuous transmission device disclosed in, for example, Japanese Patent Application Laid-Open No. 61-43850. 401 and 403 are respectively packet communication devices 400
, 404, a data packet transmission/reception frame, 402, inter-office transmission line, 405, data packet transmission/reception frame, 406, 407, respectively,
This is a data transmission path that connects the packet communication devices 400, 404 and the corresponding input/output devices 401, 403.

Therefore, the configuration of the above-mentioned transmission/reception frame 405 is based on F (F
lag), A (Address), C (Con
troll), Fe2 (Frame Check
5equence) and packets inserted between these fields. A sequence number S indicating the sending order is added to the C field. This sequence number S is used by dividing the digit into two, an upper digit and a lower digit. The upper digits are used as a sequence number SS for normal packet transmission and reception, while the lower digits are used as a serial number NS for continuous packet transmission.

That is, in this conventional example, as described above, the packet communication device 4
By providing an input/output device 401 that continuously transmits multiple identical packets between 00 and the inter-office transmission line 402, even if an error occurs in a packet due to an error on the inter-office transmission line 402, it is possible to ensure that the same packets are not continuously transmitted. If at least one of the input/output devices 40
If the packet is received at 3, it is regarded as normal reception and the packet is not retransmitted.

Next, the operation will be explained. A sequence number S is added to the C field of the packet sent from the packet communication device 400 by the input/output device 401, and packets with the same content are given consecutive numbers and sent to the inter-office transmission line 402, which has a high error rate. If the input/output device 403 successfully receives even one of the plurality of sequentially numbered packets with the same content, the input/output device 403 considers the reception to be normal and retransmits the packet. Don't ask for it. The received packet is then sent to the packet communication device 4.04.

[Problem to be solved by the invention]

Since the conventional packet continuous transmission device is configured as described above, it is effective only between the two-point packet communication devices 400 and 404 via the inter-office transmission line 402, which has a high error rate. Therefore, the packet communication devices 4.00 and 404 are connected by a wireless transmission path or the like, and the packet communication device 404 is
, 404 are mounted on a moving body such as a train and move, the number of transmission paths between the two packet communication devices 400, 404 is unspecified, and continuous packet transmission is impossible with conventional methods.

This invention was made to solve the above-mentioned problems, and includes a packet communication device that uses an unspecified transmission path such as a wireless transmission path and is mounted on a mobile body and moves. It is an object of the present invention to provide a mobile packet serial transmission device that can perform packet serial transmission also in a communication network 4-.

[Means to solve the problem]

A mobile packet continuous transmission device according to the present invention includes a packet terminal on the base side, a wide area packet network, a packet terminal on the mobile side connected to the wide area packet network via a wireless transmission path, and a packet terminal on the mobile side connected to the wide area packet network via a wireless transmission path. Data lost when the condition of the wireless transmission path deteriorates and when the port is switched to the wide area packet network on the mobile side, a call connection with a transmitting/receiving sequence number is made based on the transmitting/receiving sequence number. It is equipped with the packet communication device on the base side that guarantees packets and the packet communication device on the mobile side, and performs continuous packet transmission.

[Effect]

The mobile packet serial transmission device according to the present invention provides a call connection with a transmission/reception sequence number when the condition of the wireless transmission path between the mobile body and the wide area packet network deteriorates, and when the mobile body side switches ports to the wide area packet network. is performed between each packet communication device on the base side and the mobile side to guarantee data packets lost when the condition deteriorates or when switching ports.

〔Example〕

An embodiment of the present invention will be described below with reference to the drawings. 1st
In the figure, 100 is a packet terminal on the base side, 101 is a packet communication device on the base side connected to this packet terminal 100, 102 is a wide area packet network to which the packet communication device 101 is connected, and 103 to 105 are the wide area packet Radio equipment connected to each port of the network 102, 106 a radio equipment installed in a moving body 110 such as a train, 107
is a packet communication device on the mobile side connected to this radio device 106, and 108 is a packet terminal on the mobile side connected to this packet communication device 107.

And 109 is a wireless transmission path.

FIG. 2 is an explanatory diagram showing the call origination procedure from the packet terminal 108 on the mobile side. In the figure, 200 is an identifier CRQ indicating a call originating from the packet terminal 108 on the mobile side.
(Circuit Request) code is shown.

201 is an identifier CE N (C1rcquit E nabL) indicating an incoming call from the packet terminal 100 on the base side.
e) Show the code. 202 is an identifier A that is a delivery confirmation
CK (Acknowledge) code is shown.

FIG. 3 is an explanatory diagram showing a recovery procedure when the wireless transmission path 109 temporarily becomes abnormal. In the figure, 300
is the call originating from the packet communication device 107 on the mobile side.
e Confirmation) code.

301 shows a CQ packet which is the disconnection of the front ring channel. Reference numeral 302 indicates an identifier CEC code indicating an incoming call from the packet communication device 101 on the base side.

Note that the numbers in [ ] in FIGS. 2 and 3 indicate transmission and reception sequence numbers.

Next, the operation will be explained. Now, the mobile object 110 is the radio device 10.
When the packet terminal 108 within the communication range of the base station 7 makes a call to the packet terminal 100 on the base side and transfers data, the calling procedure is as shown in FIG. That is, every time the packet communication devices 101 and 107 receive eight DTs (data), they transmit IT (ACK, 8) 202 for confirming delivery to the other party. In this case, "8" indicates the reception sequence number, and there is no need to add a special header to the DT packet.

On the other hand, the communication recovery procedure when the mobile object 110 switches from within the communication range of the radio device 104 to within the communication range of the radio device 103 is as shown in FIG. That is, the packet communication device 1 on the mobile side detects the occurrence and recovery of an abnormality in the wireless transmission path 109.
07 is the CR (DT packet sequence number (A) to be transmitted next to CEC1, DT packet sequence number (B) to be received next)] 300 is transmitted by the wide area packet network 102. In the illustrated example, (A)= 7. (B) = 10. The packet communication device 10 on the base side that received this
Since 1 is CEC, the front ring channel is disconnected by CQ packet 301, and CA CCEC is performed.

DT packet sequence number to be transmitted next (C), 8 DT packet sequence number to be received next (D)] 30
2 to the wide area packet network 102. In the illustrated example, (C)=10. (D)=5.

Before making a call connection, A=10. B=7°C=1
1, D=5, but when the call is connected, A −+ C.

D-) Negotiate to B. Therefore A=
10. B=5. C=10. D=5, the packet communication device 101 on the base side corresponds to A=10, and the packet communication device 107 on the mobile side corresponds to D=5, and resumes transmission from the DT packet.

Note that when the packet communication devices 101 and 107 of the above embodiment transmit DT packets to the wide area packet network 1'02, they always leave a copy and periodically send an IT confirmation to the other party to confirm delivery in order to release the copy. Packets are sent at regular intervals, but with this method, they do not need to be IT packets, and the D bit for confirming delivery of DT packets is turned ON.
Other methods are also possible, such as .

〔Effect of the invention〕

- As described above, according to the present invention, it is possible to perform continuous packet transmission using only the user data part at the packet level for call connection and data transfer without adding a header such as a special sequence number to the DT packet. This configuration has the effect of making it possible to perform continuous packet transmission between the mobile unit and the base simply by providing a packet communication device between the existing packet terminal and the existing wide area packet network.

[Brief explanation of drawings]

FIG. 1 is a system configuration diagram of a communication network according to an embodiment of the present invention, FIG. 2 is an explanatory diagram showing the procedure for starting data transfer, and FIG. 3 is an explanatory diagram showing the procedure for data guarantee when switching transmission paths. , FIG. 4 is a system configuration diagram showing a conventional method of continuously transmitting packets via a transmission line with a high error rate. 100 is a packet terminal on the base side, 101 is a packet communication device on the base side, 102 is a wide area packet network, 103 to 10
6 is a wireless device, 107 is a packet communication device on the mobile side, 1
08 is a packet terminal on the mobile side, 109 is a wireless transmission path,
110 is a moving body. 10- In the figures, the same reference numerals indicate the same or corresponding parts. Agent Masuo Oiwa 1l- () @+ C'J Cv'> o o o.

Claims (1)

[Claims] A packet terminal on the base side, a wide area packet network to which the packet terminal on the base side is connected, a packet terminal on the mobile side connected to this wide area packet network via a wireless transmission path, and a deterioration in the condition of the wireless transmission path. At the time of port switching to the wide area packet network on the mobile side, a call connection with a transmission/reception sequence number is performed, and based on the transmission/reception sequence number, data packets lost when the condition of the wireless transmission path deteriorates and when the port is switched are connected. A mobile packet continuous transmission device comprising a packet communication device connected to the packet terminal on the base side and a packet communication device connected to the packet terminal on the mobile side.