FI123200B - File transfer in security networks - Google Patents

Description

File transfer on a dedicated network

The invention relates to a file transfer to multiple recipients in PMR networks (Private Mobile Radio, Professional Mobile Radio).

5 TETRA is the most widely used PMR network standard in Europe. The application describes the operation of Tetra networks, but the invention is also applicable to most other PMR networks such as Tetrapol and P25.

10 The TETRA network is a time division channeling network. The radio path between the base station and the terminals is very narrow in capacity and there is limited use of simultaneous voice or data channels. This is partially offset by the possibility of group call, whereby one channel or time slot can send a message from one speaker or message sender to multiple recipients at a time so that only one radio channel in each base station area is used and multiple recipients receive the call. Similarly, an SMS may be sent to a system control group in the Navigation System, whereby one message sent over the radio path is received by several terminals at a time. This allows for a reasonable communication between the group with a low radio capacity of 20 kHz. In addition, the TETRA network offers the ability to operate without a base station directly from one terminal to another.

Because the radio path is a bad bottleneck for data transmission, it has not been considered possible to send, for example, picture messages to multiple recipients. The picture message or other file must be sent to each terminal separately using a data connection for data transmission, whereby the base station becomes clogged for a long time if several | the recipient uses the same access point. Since the TETRA network is not aware of multicast operation on data channels or packet data on the radio path, the file needs to be updated several times on the radio path between the base station and the terminal, whereupon the network becomes clogged. The present standard does not recognize multicast data transmission at the radio network level, even though the terminals could support IP multicast 2, there is no assignment mechanism between the base station and the terminal for multi-recipient packets or data stream so that packets or da-stream are transmitted once to multiple recipients. The only form of group communication between a base station and a terminal or two terminals that is known to the TETRA standard is group text messaging and group calls. Text messages can also be sent in several parts in the same way as in a GSM network. However, if a file is sent to multiple recipients, only the message information is sent as an SMS and the file itself is retrieved using a data connection. In this case, the group-transmitted file transfer causes the base stations to overload 10 times, or very slow file transfers if there are multiple recipients within the same base station. In practice, therefore, sending a file to multiple recipients on the TETRA network has been considered impossible due to the narrow data transfer capacity.

The operation according to a preferred embodiment of the invention is based on the use of network-aware SDS group messages in file transfer. SDS group messages are text messages that the network sends to multiple recipients in the area of the base station via a control channel at one time. According to the invention, the transmitting server computer or network terminal transmits a plurality of group text messages over a TETRA network, encoding the file into a plurality of consecutive group text messages and attaching at least one of these messages with header information enabling recipients to compose and decode the transmitted file from multiple messages. The file to be transferred may be a precursor image, for example a search announcement image may be sent to multiple recipients, or a chart or map image may be sent to support operation control.

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C \ l | The sender slices the sending file into pieces suitable for sending as group text messages, for example, TETRA network SDS messages.

m g 30 This is done, for example, by a software tool according to the invention. Further, the messages are accompanied by the required header information, at least one identifier or sequence number identifying the transmission of the file to at least one of the transmitting messages, and a unique identifier or sequence number for each part of the text message. The sequential number sequence may be, for example, an integer of one byte or half byte. Preferably, the file name and the description 5 accompanying the file are sent in only one header message, which is usually sent first. Because the transmission delay of messages and the order in which messages are sent cannot be guaranteed in the TETRA network, the recipient may not receive the first message first. Because of this, after receiving the header message, the terminal may also need to compile 10 files of the messages received before the header message, so the messages must have, for example, a serial number that identifies portions of each file from other messages from the same sender. There can also be more than one sequence number, whereby each part of a file can be numbered separately, and messages are identified by a different sequence number or header information.

The method of the invention can send a passport-sized image for display on a terminal display, typically by means of about 12 consecutive SDS messages of about 140 bytes. Compared to the data transfer technology now in use, in which each terminal opens an IP or circuit switched data channel for retrieving an image or other file, the system of the invention enables the transmission of files to multiple recipients without clogging the network. The 12 SDS messages needed to send the image file load the control channel cm in a relatively small amount compared to the fact that each multicast recipient within the range of base station 25 would open its own packet or circuit switched connection to retrieve the file. For each data or packet,

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cv opening the link will burden both the data and the control channel, so | a plurality of separately open data connections for transmitting the same file through the congestion also passes the control channel if there are multiple receivers in the area of the same base station.

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In order to implement the method according to the TETRA network embodiment according to the invention, a terminal means is needed for the terminal device to compile and decode a file to be transferred from a plurality of SDS messages. Transmission requires a software device on a server, gateway device or terminal device that slices and encodes the file to be transferred into multiple consecutive group text messages.

No changes are needed to the TETRA network itself, the system and method of the invention use TETRA network group messages 10 as such, and the method of the invention is applicable to any TETRA standard network capable of transmitting standard SDS group text messages. The method is useful in any other network where radio over-the-air group message transmission is available, and is not limited to the TETRA network and SDS-15 messages.

The terminal and the software of the terminal used in the TETRA network according to the invention are characterized in that the terminal or the software has means for receiving a plurality of SDS text messages in succession and combining them with an encoded file.

The preferred embodiment of the TETRA network transmission program according to the invention is characterized by means for encoding the file to be transmitted to a plurality of consecutive SDS messages and means for transmitting a plurality of consecutive SDS messages as a group text message to multiple recipients.

o "It is also possible to build a terminal or computer device connected to the network. | using TETRA or other PMR network voice messages. However, in this case, the speech encoder in the transmitting device and the speech decoder in the receiving device 30 must be replaced by a program medium which, instead of speech, encodes the file data to the voice channel. Hereby, larger amounts of data can be advantageously transmitted, but on the other hand, the implementation requires a change in the firmware of the receiving terminal so that the voice data can be stored or sent to the application for decoding the file. Except for the terminals and the transmission coding, the use of the voice channel is similarly transparent to the PMR network itself, the changes are only needed for the transmitting and receiving devices of the file. Thus, with the embodiment described above, it is possible to send a message to multiple recipients in the current TETRA network using a voice call group call for file transfer.

Further, it is possible to modify the operation of the TETRA network itself so that multicast or broadcast IP packets are transmitted to multiple recipients on a radio path between base stations or terminals by assigning them to multiple recipients. This would also allow for better prioritization of network load management and data communications. However, the current TETRA standard only supports SDS and voice multicast on the radio path. Because of this, it is most advantageous to transfer a file to multiple recipients on existing networks using SDS messages as described above.

As the application developer cannot influence the operation of the base station network itself, the terminal and data network applications in the current TETRA-20 network will have to operate over the functions now available, at least until the use of the radio path for data transmission can be improved. It would be advantageous to define a communication method in which multicast messages are transmitted from a base station or terminal to multiple recipients in the same manner as group call operation. In this case, each base station can buffer the transmission of ° 25 data to the terminals of its area, giving priority to speech. A multi-recipient data call or data packet transfer would allow

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cv also, for example, during an operation, transferring an image directly from one terminal | from the road to others, for example, prior to invading the dangerous state, the first sighted person may send the image as a data roadcast m g 30 to other terminals within the same group coverage area and possibly also to the base station e.g. This important information can be transmitted to several recipients at once directly from one terminal to another, whereby the radio band is effectively used for the whole. In practice, much of the IP protocol header information is redundant to the radio path, since the PMR network in any case only provides data to group members, and there are only a few protocols required, so much of the IP packet ot-5 data is redundant. Indeed, IP packets can only be made complete after receiving from the radio path, so that only the amount of information necessary to form the packets is transmitted on the radio path.

10 The above described file transfer via SMS can be advantageously implemented as a java program which can be downloaded to the terminal without any other changes to the hardware or firmware of the terminals. The method according to the invention may also be implemented by means of a firmware change of the terminal device or by means of a special terminal device, whereby the transmission of the file is succeeded by coded data in the data stream of the group call transmitted over the voice channel. Even then, the infrastructure of the TETRA network itself is otherwise unchanged, and file transfer is a network transmission of speech, whereby the terminal application receives and transmits multicast data economically to multiple recipients on existing TETRA networks without making any changes to the network itself.

The solution of the invention achieves, for example, the transfer of an image file sufficient for face image transfer to a large number of recipients in a standard time. cm According to the tests, it typically takes about 14 seconds to send and receive the 12 SDS messages required, regardless of the number of recipients. If the base station control channel is congested for other reasons,

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cv for stationary access point, the file transfer will naturally slow down because of messages | stay in the queue.

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A terminal device according to the invention, such as a program for receiving and compiling SDS messages, for example a java application, is preferably not worth acknowledging successful reception, because if there is a large number of recipients 7, the network would be overloaded with reception acknowledgments. After an unsuccessful reception, a randomly determined time is preferably awaited before a retransmission request. The time may be, for example, between 1 and 20 seconds, in the case of a large number of recipients, the time is preferably extended by a request made, for example, by the header information transmitted in the message, or by using group size to determine a randomly selected maximum time.

In this case, the sender may retransmit a portion of the missing or corrupted file, either as a multicast message or as a single message to the individual recipient if it is likely that the multicast would overload the network with a single message. If multiple error messages are quickly received, it is likely that the message or part of it is worth sending as a group message before the random maximum time has elapsed, whereas if there is only one error message during the 15 maximum waiting times, it is not useful to send a group message.

If the network is able to provide the sender with information on the base stations used by the terminals, this information can be utilized in deciding the retransmission method. If there are a large number of retransmission requests, the entire message can be retransmitted as a multicast. In this case, preferably, the message header indicates a retransmission, so that the recipients know that a missing or defective part of the previous message is not sending a retransmission request before receiving the retransmission in its entirety. Preferably, during retransmission, the recipient can use the data of the favorite transmissions to compile the file and correct the errors.

o c3 The software sending the file may be a gateway computer associated with | PMR network and, for example, an authority data network. The transmitting medium may also be part of a terminal or an emergency exchange, an order transmission duration,, g 30 or the like.

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Claims (9)

A method for transferring a file on a discrete network to multiple recipients, characterized by the steps of: - providing software means in the terminal equipment of the sender and receiver of the message to: - chop and encode the file into one or more pieces capable of being transmitted as multiple messages; multiple pieces that fit into a single message as a set of group messages that are sent over a separate network over a single radio transmission to multiple recipients - the recipients of the message receive group messages, whereby the program means installed in the terminal recognize said set of group messages for file transfer and compose and decode them. The method for transferring a file according to claim 1, wherein the dedicated network is a TETRA network and messages SDS group messages. The method of transferring a file according to claim 1, wherein the dedicated network is a TETRA network and the program equipment of the terminal of the message receiver comprises a Java-language program. c \ j A method for transferring a file on a dedicated network according to any one of the preceding claims, characterized in that the method further comprises the step of sending a receipt or a retransmission request of the message to the recipients of the message after a variable or random time on the network | to minimize the load. CVJ r ^ LO g 30 The method of transferring a file in a remote network according to claim 4, characterized in that, in the method, the initiation of retransmission interrupts the transmission of retransmission requests until the retransmission is completed and its success is verified. The method for transferring a file according to claim 1, wherein in the method 5 the dedicated network is a TETRA network and at least some of the group messages to be transmitted are encoded in place of the group data voice data stream. 7. A program means for transmitting a file to multiple recipients in a PMR network, characterized in that the means for encoding, slicing and transmitting the data of the file 10 in a plurality of text messages or as voice data coded group calls to multiple recipients. 8. Programming means for receiving a file in a PMR network, characterized in that means for decoding and combining data in a file from a plurality of group text messages. 9. A program means for receiving a file in a PMR network, characterized in that the means comprises means for decoding encoded data into a file instead of speech into a group call voice channel. C \ J δ c \ j i o CO C \ l X cc CL CM 1 ^ m m O) o o CM