FR2809507A1 - DEVICE AND METHOD FOR TRANSFERRING A FILE BETWEEN A SERVER OF A NETWORK AND AN APPARATUS FOR ACCESSING THIS NETWORK - Google Patents

Abstract

The invention concerns a method which consists in providing a television receiver/decoder (101) with means (107) to be connected to Internet via a telephone network. Said connection is relatively slow but enables a user of the apparatus to browse comfortably through the network. It the user wishes to download a large file from the server (140) he is offered the use of means (109) for fast connection of the apparatus. Depending on the television operator whereof he is a subscriber, the user may select on the basis of acquisition rights to download the file via the television flow (132, 104, 103). The payment of rights is carried out either at the time of selection validation for file transfer, or prior to the transfer. Once the transaction is concluded, the file is transferred from the server to the television operator, then to the user.

Description

The method of transferring a file between a network server and an apparatus allowing access to this network The present invention relates to a device and proceeds to transfer a file between a server of a network and an apparatus allowing '' access this network. The field of the invention is that of the transmission of files. More particularly, this field is that of the transmission of files having a large size, and therefore requiring the use of rapid transmission means or a significant transfer time. The object of the invention to allow users of a network to access this network by using means sized in relation to instantaneous user needs. A second goal, linked to the first, is also better management of the means of access to a given network, and by limiting the size of the access routes to this network.

In the state of the art, networks are known to which the user can access using means for which he has previously acquired rights. Regardless of the concept of law, the equipment it uses to access the network is not of variable configuration, that is to say that once installed, this equipment makes it possible to connect to the network in a given mode and more particularly with a given flow rate.

Take the Internet as an example of a network, and a private individual as a user. An individual who wishes to connect to the Internet must obtain a personal computer and a modem connected to this computer. He then connects the modem to the switched telephone network. Then he takes out a subscription, which he obtains either for a fee or free of charge, to an Internet service provider (ISP, or ISP). The user then configures his computer according to this subscription. When he wants to connect to the Internet, the user actually connects to the Internet service provider who will connect him to the Internet. The Internet service provider himself has a contract with an organization which allows him to have access to the Internet network with a certain speed F. The speed F is then shared between all subscribers to the access provider connected at an instant given to this supplier.

In addition, the maximum speed that a subscribed user can access is also limited by the technology of the modem that he uses. In practice the maximum speed is 56 kilobytes per second. But this is a theoretical flow which is rarely achieved. This is due to the quality of the telephone lines, and also to the large number of people who can be connected at the same time.

If a user uses this type of connection and wishes to download a file that has a large size at a specific time, he will therefore request maximum speed for a very long time. If the file is 1 Gigabyte in size, such as a movie, the transfer time at the maximum theoretical speed is 5 hours. In practice, it takes at least thirty hours. This is detrimental to all users connected to the access provider.

There are also known Internet service providers who offer a broadband connection between the ISP and the user. However, this type of connection has two drawbacks. A first drawback comes from the relatively high cost of such a connection. It is indeed a very expensive specific equipment whose purchase can not be justified by the sole desire of an individual to access the Internet. The second problem comes from the fact that in this case the supplier also has a maximum speed to access the Internet, and that he shares this speed between all his subscribers. The more subscribers connected at a given time, the less speed there is for each of the subscribers connected at that time. generalizing this type of connection to access the Internet would therefore ultimately lead to the same type of problem as those cited for a standard modem.

The invention solves these problems by integrating low-speed connection means into a television decoder receiver, and by making these means cooperate with means for receiving the television stream. The user of a device according to the invention therefore connects this device to a television screen and to the switched telephone network. He then uses the device, with an associated remote control, to browse the Internet via a connection to the PSTN network, and an ISP. The user can thus browse the Internet in the traditional way. When he wishes to download a large file, the user is offered a number of options, including that of transferring the file using the broadband connection of the television stream. If the user chooses the latter option, they may have to pay fees to be able to perform the file transfer. The user can acquire these rights either when he decides to transfer the file, this acquisition is then done by providing his credit card number for example. The user can also acquire rights at another time, these rights will then be stored in the device in the form of tokens. These tokens will then be stored in a memory that can be described as an electronic purse, for example, this memory will be reduced by as many tokens as it costs the user to transfer the file.

The subject of the invention is therefore a file transfer method between a server of a network and an apparatus allowing access to this network, characterized in that: - connects, thanks to the apparatus, to the server via a first low speed connection, - the file to be transferred is selected via the first connection, - the file is transferred from the server to the device via a second high speed connection.

The invention also relates to a file transfer device characterized in that it comprises: - television program receiver / decoder comprising means for connecting to a television operator, and means for connecting to a supplier access to an Internet type network, - server, data, connected to a network, Internet type, and comprising a memory for storing a list of television operator capable of transferring files with a high bit rate, - a server, of a television operator, connected to a network, of the Internet type, capable of transferring files with a high speed and comprising a memory for storing a list of server comprising files capable of being transferred.

The invention will be better understood on reading the description which follows and on examining the figures which accompany it. These are presented for information only and in no way limit the invention. The figures show - Figure 1: an illustration of means useful for implementing the method according to the invention; - Figure 2: an illustration of process steps according to the invention.

In the following description, the term “bus” designates a set of wires or tracks capable of carrying electrical signals corresponding to data signals, address signals, interrupt signals, control signals and / or clock signals. Likewise when we lend an action to a microprocessor, it must be understood that the microprocessor acts in fact controlled by instruction codes contained in a memory.

Figure 1 shows an apparatus 101 according to the invention. The apparatus 101 a television decoder receiver which comprises an antenna 102, this antenna makes it possible to establish a connection 103 with a satellite 104. The apparatus 101 therefore receives a television stream via the connection The apparatus comprises also a port 105 in order to connect said device to a telephone network 106. In one example, the telephone network 106 is a switched telephone network. But in a variant of the invention it could very well be a mobile telephone network. Port 105 would then be replaced by an antenna which would allow the device 101 to transmit and receive information from the mobile telephone network. In the following description, the network 106 is assimilated to a telephone connection.

The apparatus 101 comprises a circuit 107 modem. The circuit 107 is connected on the one hand to the port 105 and on the other hand to a bus 108. The circuit 107 receives digital information via the bus 108 which it modulates before transmitting it via the port 105 and the connection 106. On the other hand the modem 107 receives electrical signals via the connection 106 and the port 105, the circuit 107 demodulates these signals in order to produce digital signals which it stores in a memory not shown. Said memory can then be read via bus 108. This memory is part, in a preferred example, circuit 107.

The apparatus 101 also includes a radio circuit 109. The circuit 109 connected on the one hand to the antenna 102, on the other hand to the bus 108. The circuit 1 receives via the antenna 102 radio signals which it demodulates to produce digital signals which it stores in a memory , not shown. Said memory can be read via the bus 108. This memory is part, in a preferred example, of the circuit 109. On the other hand the circuit 109 receives via the bus 108 digital signals which it modulates then diffuses via the antenna 102 On the other hand the apparatus 101 comprises a microprocessor 110, a program memory 11, video circuits 112, a storage unit 113 and operator memory 114. The elements 110 to 114 are connected to the bus 108. The microprocessor 110 is controlled by the instruction codes contained in the memory 111. The memory 111 comprises several zones. A first area 111a of the memory 111 contains instruction codes which controls the microprocessor 110 when the apparatus 101 has to perform tasks related to its function of television decoder receiver. The memory 111 includes an area 111b which includes instruction codes which controls the microprocessor 110 when the device 101 performs navigation tasks on a network. We consider '' that the network in question consists of several interconnected devices. Each of these devices has files that can be viewed. Browsing on this type of network therefore consists of exploring, with ad hoc means, the content of some of these files. The memory 111 also contains an area 111c for storing instruction codes linked to the method according to the invention. Finally, the memory 111 also includes a data storage area and a working memory area.

The circuits 112 are connected to a port 115. The port 115 makes it possible to connect the device 101 to a television screen 116. This connection takes place via a cable 117. When the microprocessor must display information coming either from circuit 107 or from circuit 109, it reads this information on the ad hoc circuit then it transmits it to the video circuits 112. In practice, the circuits 112 include a video memory which can be updated by the microprocessor 110. This video memory is then read by circuits 112 which produce a video signal. This video signal is transmitted to the screen 116 via the cable 117 and the port 115. Depending on the case, this operation is carried out under the control of instruction codes from one of the areas of the memory 111. If it is a television program, this will be zone 111a, or if it is information coming from a network such as the Internet, it will be instruction codes from zone 111b.

The storage unit 113 is used to store files produced during the execution of the various tasks that the device 101 can accomplish. Among these tasks, we can cite for example capturing an image from the video memory, or downloading a file from a network to which the device 101 is connected. The device 101 also includes a connector 118 connected to the bus 108. The connector 118 makes it possible to connect the device 101 to another device, of the personal computer type for example, in order to be able to read and use the contents of the storage unit 113.

The memory 114 is used to save a list of television operators to which the apparatus 101 is capable of connecting. The memory 114 is structured in a table, on each line of the memory 114 corresponding to an operator. The table 114 comprises at least two columns, a first column 114a is an identifier of an operator, a second column 114b makes it possible to store the credit that the user of the apparatus 101 has vis-à-vis the operator.

The device 101 can also include a reader 119 of chip cards 120. The reader 119 is then connected to the bus 108. The reader 119 is useful when the user wishes, for example, to obtain credits from an operator.

The device 101 also includes a port, preferably infrared, which enables it to receive orders from a remote control 121. This infrared port is not shown. The remote control 121 provides access to all the functionalities permitted by the device 101.

In the example treated, which is a preferred example, the device 101 is connected via the port 105 and the connection 106 to an Internet service provider 122. This is the connection 106. The supplier 122 is also connected to the Internet network 123, via a connection 124. The connections 106 and 124 make it possible to connect the device 101 to the Internet network 123. In practice, the The user is not even aware that he has connected to the supplier 122, this connection being completely transparent to him.

As an example, we have chosen to treat the case of the Internet network as an example, but the description remains valid in the case of another network.

FIG. 1 also shows a station head 125 managed by a television operator. The station head 125 includes all the means which allow it to broadcast television programs. These means are in particular a microprocessor 126, radio circuits 127, circuits 128 for producing television programs, and a program memory 129. The elements 126 to 129 are connected to a bus 130. The circuits 127 are connected to an antenna 131. The antenna 131 establishes a link 132 with the satellite 104. The link 132 is radioelectric. The memory 129 comprises several zones, in particular a zone 129a which contains instruction codes which control the microprocessor 126 when the latter has an activity of broadcasting television programs. During said activity, the microprocessor 126 reads information on the television programs produced by the circuit 128 and supplies this information to the circuits 127 which modulate them and broadcast them to the antenna 131. The signals thus modulated pass through the satellite 104 and arrive finally on the antenna 102 and can be processed by the device 101 to be displayed on the television 116.

The station head 125 also includes a memory 138 and circuits 139 for interfacing with a network, for example the Internet network. The elements 138 and 139 are connected to the bus 130. The memory 138 is structured in a table which comprises at least two columns, in a first column 138a the server identifiers of the network 123 are stored, in a second column 138b we code the conditions in which these servers can work with the station head 125. Finally, the memory 129 includes an area 129b which contains instruction codes which control the microprocessor when the latter performs tasks within the framework of the method according to the invention.

Figure 1 also shows a server 140 connected to the Internet 123 network. The server 140 includes a microprocessor 133, a program memory 134, a site memory 135 and an operator memory 136. The elements 133 to 136 are connected to a bus 137. The means which make it possible to connect the server 140 to the network 123 are not shown, but are of known type.

memory 135 has several sites. A site is a set of files that can be downloaded, these files are generally in HTML format (HyperText Edition Language). These files describe an interface which allows access to information relating in particular to other files which can be downloaded.

The memory 134 comprises instruction codes which control the microprocessor 133. The memory 134 comprises an area 134a which comprise the instruction codes of an HTML engine. The memory 134 also includes an area 134b which include the process-related instruction codes according to the invention.

The memory 136 is structured as a table. Table 136 has several columns. A first column 136a makes it possible to store the identifier of a television operator, a second column 136b makes it possible to store a price, for example a cost related to a number of kilobytes. Finally, a third column 136c makes it possible to code a transmission duration per kilobyte. Each line of table 136 corresponds to a television operator. The units in which the values stored in columns 136b and 136c are expressed are given as an indication, they could be other. Table 136 is used to provide information relating to television operators, regarding costs and file transmission times.

Figure 2 shows a preliminary first step 201 of slow connection to the Internet. In step 201, the device 101 connects to the Internet using the link 106. The microprocessor 110 is then controlled by the instruction codes of the area 111b. The microprocessor 110 constitutes requests which it transmits to the circuit 107. These requests are modulated by the circuit 107 and transmitted to the ISP 122 via the link 106. The ISP 122 demodulates these requests and sends them over the network 123 Internet. These requests include the address of their recipient, which allows the network 123 to route these requests to said recipient. When it establishes the connection 106, the device 101 emits requests with a predetermined configurable address. In general, this is the address of an FAI site 122. We then go to a step 202 of browsing and choosing the file.

In step 202, the user of the device 101 uses the remote control 121 to "browse the Internet". In the description of the process according to the invention, reference is made to the Internet network. In practice, it could be another network, the principles would remain the same.

remote control includes a pointing device as well as validation keys. once connected to the Internet, the device 101 receives files, in particular HTML format. These files in HTML format are processed by a microprocessor 110 and then displayed on the screen 116 via the circuits 112 and the port 115. When these files are displayed, hypertext links and buttons appear. The selection of these hypertext links or these buttons with the pointing device of the remote control 121 can trigger actions or move on to viewing a new site. Some links have links to files on a server. Selecting this link triggers the downloading of this file to the device 101. These actions, in particular selection, are grouped under the name of navigation.

During step 202 the device 101 connects to the server 140, and more particularly to one of the sites contained in the memory 135. During the browsing of this site the user will find a file that he wishes download, so it selects a link to that file. We pass to a step 203 where the server 140 sends transfer possibilities relating to the files.

In step 203, the server 140 has received a request from the device 101 to obtain a file contained on the server 140. This file is contained in the memory 135. After decoding this request, the microprocessor 133, controlled by the instruction codes of the zone 134b reads the memory 136 in order to constitute a response to the request that it has received. The response thus constituted is a frame which includes operator identifiers associated with costs, transmission times, as well as deadlines within which the transmission of the selected file can be carried out. The microprocessor 133 can calculate these various elements from the data stored in the memory 136 and from the size of the file to be transferred. The microprocessor 133 knows the size of the file to be transferred, since it is stored in the memory 135, it therefore has access to this information. The server response can be sent in multiple frames if the amount of information to be transmitted is too large to be contained in a single frame.

We pass to a step of selecting a possibility of transmission by the user of the device 101. The response from the server 140 will pass through the network 123, the link 124, the ISP 122, the link 106, the connector 105 then the circuit 107. microprocessor 110, controlled by the instruction codes of the zone 111 c will then perform a first sorting in this response. To carry out this sorting, the microprocessor 110 uses the contents of the memory 114. It is in fact useless to retain an operator, for the transfer of the file, that the apparatus 101 is not capable of managing. The microprocessor 110 therefore traverses the response of the server 140 and retains only the operators which are present in the table 114. Once this selection has been made, the microprocessor formats the remaining information and displays it on the screen 116. This amounts to submitting to the user of the device 101 a list of operators corresponding to a cost, a transmission duration and a transmission date, of course the microprocessor 110 also offers the possibility of transferring the file by the standard link indicating how long it would take.

In a variant, the microprocessor 110 includes in the displayed information the credit that remains for the user of the device 101 for each operator. We go to a step 205 of a choice of fast transfer or not.

In step 205, the user of the device 101 uses the remote control 121 to select one of the choices offered to him. If the user chooses not to use a fast connection, we go to step 211 of transferring the file from the server 140 to the device 101. This transfer is then carried out via the Internet, the link 124, the FAI 122 and the link 106. This transfer is then slow but it does not require any rights acquisition from the user of the device 101.

If the user of the device 101 chooses to carry out a rapid transfer, we pass to a step 206 of verification of the rights. In step 206, the microprocessor compares, for the operator selected by the user of the device 101, the cost of the operation that it wishes to perform with the credit remaining to the user for this operator. The cost of the operation has been transmitted by the server 140. If the rights possessed by the user of the device 101 are sufficient to carry out the selected operation, we go to a debit step 207.

In step 207, the microprocessor 110 decreases the value of the field in column 114b corresponding to the operator selected by the user. This reduction is equal to the cost of the operation that the user wishes to perform.

If the user does not have enough rights to perform the operation, we go to a step 208 for acquiring rights.

There are several ways to acquire rights. A first way to acquire these rights is to establish a connection, via the Internet, between the device 101 and the station head 125. The user of the device 101 then supplies the station head with his credit card number, either by entering it or by carrying out a transaction via the card reader 119. This transmission or transaction is obviously secure so that it cannot be decrypted. The user of the apparatus 101 can then acquire just the missing rights to perform the operation, or a quantity of higher rights, in anticipation of future operations. The transaction between the apparatus 101 and the station head 125 ends with an increase in the credit in the column 114b corresponding to the operator.

To acquire rights, the user of the device 101 can also temporarily give up the transfer of the file to contact the operator managing the station head 125 so that he sends rights to him by another means than the Internet 123 network. This sending of rights can take the form of reception of a command message sent by the station head via the antenna 131 and the satellite 104. The user does not then have to provide his credit card number on the Internet, the cost of the operation will be deducted, for example, at the time of settlement of the contract subscription which binds the user to the operator managing the station head 125.

The user can also receive, after negotiation, a smart card containing rights. He then only has to insert this chip card into the reader 119 so that the field in column 114b corresponding to the operator is credited with the rights contained in the chip care.

If the user chooses to acquire rights online, i.e. when he wishes to transfer the file, the amount of rights that will remain after the operation will be equal to the amount of rights that 'he previously owned more the quantity of rights acquired minus the quantity of rights corresponding to the transaction. From steps 207 or 208, we go to step 209 of transferring the file between the server 140 and the station head 125.

In step 209, the server 140 notifies the station head 125 that one of the subscribers to the operator managing the station head 125 has made a request for a file transfer. This communication is carried out by an exchange of frames between the station head 125 and the server 140. It is noted that, by their specificity, the station head 125 and server 140 benefit from access to a high speed Internet 123 network. . Once the server 140 has notified the station head 125 it transmits to it the file that the station head 125 will have to send by the device 101 via the television stream transmitted by the station head 125. The file thus transferred is stored in a temporary memory of the station head 125.

We pass the step 210 d transfer of the file from the station head 125 to the device 101. In the step 210, the microprocessor 126 reads the temporary memory and inserts into the television stream, together with the information from the circuits 128, frames corresponding to the file to be transferred. These frames are then modulated by the circuit 127 then transmitted by the antenna 131 and pass through the circuit 104 before arriving at the antenna 102. These frames include an address corresponding to the device 101 and therefore cannot be received only by him. The microprocessor 110 reads the information corresponding to these frames after demodulation by the circuit 109. It concatenates the information corresponding to all these frames in a file on the storage unit 113. Once all the frames corresponding to the file to be transferred have been received, the user can access this file either through the device 101, if it is a film for example or via another device connected to the device 101 via the connector 118. It may indeed be a program which has been transferred. The program can be intended to be used on another personal computer. This computer is therefore connected to the apparatus 101 to effect the transfer of the file. Note that the connector 118 can be used to transfer any file contained in the unit 113, regardless of the nature of the file.

FIG. 2 also shows a step 212 of updating the table 136 of the server 140. This update is carried out by the station head 125 according to the contracts which exist between the operator managing the station head 125 and the operator managing the server 140. In the update, the microprocessor 126 browses the table 138 and sends update requests to all the servers whose address is entered in the table 138. These notification requests include the new conditions in which can be transferred. The server 140 therefore receives a modification request from the station head 125. This request contains information which enables it to update the column 136b and 136c corresponding to the operator managing the station head 125.

In a variant of the invention, the table 136 can be contained in the station head 125. Negotiation for the choice of transfer is then carried out via the network 123, between the station head 125 and the device 101. In this variant, the server 140 only has one table which is a list of station heads allowing perform high speed file transfers. When a user connected to the server 140 wishes to make a transfer, the server 140 then transmits to the user this list from which the user can make a choice. If the user chooses to perform a broadband transfer, the server 140 then transmits the file, object of the transfer, to the head 1 of the station. This variant dispenses with having to update the table 136 when it is contained in the server 140. However, it is always necessary to maintain a table of operators in the server 140.

Note that throughout the description, there is talk of a station head 125. In practice, it can be a server managed by a television operator. Said server is then connected to a head of stations to which it sends requests.

Claims (1)

CLAIMS 1 - Method of transferring a file between a server (140) of a network (123) and an apparatus (101) allowing access to this network characterized in that: - one connects (201), thanks to the device, on the server via a first low-speed connection (106), - the file to be transferred is selected (202), via the first connection - the file is transferred (209 - 210) from the server and to the device, via a second high speed connection (103, 104, 132). 2 - Process according to claim 1, characterized in that - the first connection is established through the switched telephone network. 3 - Method according to one of claims 1 or 2, characterized in that: - the second connection is established through a network for broadcasting television programs. 4 - Method according to one of claims 1 to 3, characterized in that: - the server interrogates, via the first connection and sends an interrogation request, the device to know if said device is capable of 'establish the second connection. - the device responds to the query by returning a frame containing data relating to connection possibilities of the device. 5 - Method according to one of claims 1 to 4, characterized in that: - the device notifies (205), via the first connection and sends a notification frame, the server to inform it that said server is able to establish the second connection. - the server responds (205) to the interrogation by returning a frame containing data relating to connection possibilities of the server. 6 - Method according to one of claims 1 to 5, characterized in that: - the server and the device exchange, via the first connection, frames containing data to determine the parameters of the second connection. 7 - Method according to one of claims 1 to 6, characterized in that: - the server interrogates (206), via the first connection and sends a request, the device in order to determine whether a user of said device has rights to establish the second connection. 8 Method according to one of claims 1 to 7, characterized in that a user of the device acquires (208) rights to establish the second connection via the first connection and sends a frame. 9 Method according to one of claims 1 to 8, characterized in that: - establishes (209 - 210) the second connection for the time required to transfer the selected file. 10 - Method according to one of claims 1 to 9, characterized in that: - on a screen connected to the device, connection possibilities between said device and the server are displayed, - a possibility is selected from the choices displayed, - the file selected is transferred according to the choice of connection made, - a credit is debited from a user of the device, the debit corresponding to the transfer made. 11 - Method according to one of claims 1 to 10, characterized in that the device is a television receiver / decoder comprising means for connecting to a telematic network. 12 - File transfer device characterized in that it comprises: - a television program receiver / decoder (101) comprising means (102, 109) for connecting to a television operator, and means (105, 107) to connect to a network access provider of the Internet type, a server (140), of data, connected to a network, of the Internet type, and comprising a memory (136) for storing an operator list television capable of transferring files at a high speed, - a server (125), of a television operator, connected to a network, of the Internet type, capable of transferring files at high speed and comprising a memory 38) to store a server list with files that can be transferred.