FR2940571A1 - METHOD AND DEVICE FOR WIRELESS COMMUNICATION - Google Patents

Abstract

The present invention essentially relates to a wireless communication device comprising at least one mobile handset (C1) communicating with a base station (S1) connected to a telephone network, characterized in that the at least one handset (C1) comprises means for transferring data from said at least one handset (C1) to a second fixed or mobile handset (C2) attached to said base station.

Description

METHOD AND DEVICE FOR WIRELESS COMMUNICATION

The present invention relates to a method and a wireless communication device. More particularly, the present invention relates to a method and a wireless communication device involving at least one base, a first mobile handset and a second mobile handset, these different elements being able to exchange signals with each other, for example in respecting the protocols of the DECT standard, said signals being either data type or voice message type (also designated as communication signals, or voice type signals). In general, the field of the invention is that of wireless communication systems with high user density and more particularly that of domestic wireless telephony. Conventionally, a wireless communication device comprises a home base station associated with one or more mobile stations. In general, the home base station is connected to the public telephone network.

In a first known application, the home base station is placed in a dwelling, and the users have one or more mobile stations operating with the home base station. In this case, the home base station is called a private base station, or more simply a base station, and the mobile stations are called mobile handsets, or more simply combined. In a second known application, the home base station is placed on the premises of a company, and several employees each have a handset operating with the home base station.

In any case, each mobile or combined station communicates with the telephone network via the base station. The base station contains a transmitter / receiver for transmitting the various signals to the handsets by providing local coverage corresponding approximately to the surface of an apartment, a house and a garden or corporate premises. One of the most interesting and promising wireless home communication technologies is the European digital wireless telecommunication system defined by the Digital Enhanced Cordless Telephone (DECT) standard. This digital wireless telephony standard is a standard for both individuals and businesses. The frequency band defined in this standard, from 1880 MHz (Megahertz) to 1900 MHz, is divided into ten carrier frequencies with a frame structure for each according to the Frequency Division Multiple Access (FDMA) technique. Each carrier is divided into 24 slots of which 12 slots are used to transmit the handset to the base station, the other 12 slots for transmitting the base station to the handset. Thus the capacity of such a system is increased to 120 channels allowing each base station to transmit simultaneously on 120 communication channels. Bidirectional communication between a base station and a handset only requires the use of two time slots; the handset can then devote the other time slots to the monitoring of the available channels in its range, at all the frequencies defined in the aforementioned standard. Since the DECT standard is generally very open, a number of profiles have been defined to ensure the interworking of equipment, ie the linking of base stations and handsets. The most widespread and well-known profile is the GAP profile (Generic Acess Profile) defined in the specifications of the DECT standard. The GAP profile is a standard profile adopted by device manufacturers known as DECT devices ensuring the compatibility of different equipment, handsets and base stations, from different manufacturers. The compatibility of these devices is valid for functions called basic functions of the phone; basic function means the functions necessary for the establishment of the communication between a handset and the base station to which it is attached. Functions considered as non-essential according to the DECT standard are generally specific to the base station and the specific protocol of each manufacturer. Thus, when the user wishes to add a new handset intended to be attached to a base station, the DECT / GAP standard allows him to choose any handset that meets his own criteria, economic or aesthetic, without him having the need to worry about the compatibility of the new handset with its existing device. On the other hand, a problem arises when the user wishes to use functions different from the basic functions between two handsets of different manufacturers. Indeed, the data exchange protocols useful for such functions, such as telephone directory transfer, are different according to the manufacturers and sometimes even according to different models of the same manufacturer. These protocols are not all compatible with the base station to which they are intended to be attached. The user is then unable to transfer data between two handsets of different manufacturers, including a phonebook transfer. The user is then obliged to manually copy the telephone directory of a first handset into a second handset, which is a generally long operation and little value for the user. In this context, the aim of the invention is to provide a wireless communication method and device, in particular of the type operating according to the criteria of the DECT standard, making it possible to solve the problems mentioned above and making it possible in particular to transfer data between plurality of handsets of different manufacturers without any data processing by a base station being involved. To this end, the invention essentially proposes a wireless communication device comprising at least one mobile handset communicating with a base station connected to a telephone network, characterized in that said at least one handset comprises means for transferring data from said least one handset to a second fixed or mobile handset attached to said base station.

Thanks to the invention, it is possible to simplify data exchange operations between a plurality of handsets from different manufacturers. Such a device is remarkable in that it comprises data transfer means between two handsets regardless of the type of base used; the data transfer being defined solely through the handsets. The wireless communication device according to the invention may also have one or more of the following characteristics, considered individually or in any technically possible combination: said wireless communication device operates according to the DECT standard; said data transfer is carried out using a basic function of said at least one handset;

said basic function of said at least one handset is a function called intercom function allowing a transfer of communications between said at least one handset and said second handset; said at least one handset uses a data exchange protocol allowing data transfer via said intercom function. The present invention also relates to a data exchange method of a wireless communication device, according to at least one of the preceding claims, comprising at least one mobile handset communicating with a base station connected to a telephone network characterized in that it comprises a step of transferring data between said at least one handset, said at least one handset including means ensuring said data transfer from said at least one handset to a second mobile handset attached to said base station, and said second handset; Advantageously, the method of data exchange of a wireless communication device according to the invention is characterized in that it comprises: a step of encoding, by means of a software application, selected data; a step of sending said selected data using a communication field of said intercom function; a step of verifying the validity of the transferred data; a step of recording the data in a memory of said second handset. Other characteristics and advantages of the invention will emerge more clearly from the description which is given below, by way of indication and in no way limiting, with reference to the appended figures, among which: FIG. 1 is a schematic diagram of the wireless communication device according to the invention; FIG. 2 is a block diagram illustrating the main steps of the protocol for exchanging data between two handsets; FIG. 3 is an example of a data exchange protocol between two handsets according to the invention. In all the figures, the common elements bear the same reference numbers, unless otherwise specified. Throughout the description, we will speak of a data transfer from a handset C1 to a handset C2. The direction of data transfer from the handset C1 to the handset C2 is indicative and not limiting. FIG. 1 illustrates the operating principle of a wireless communication device according to the invention operating, by way of example, according to the criteria defined in the DECT standard. The wireless communication device generally comprises a base station connected to the telephone network and associated with one or more handsets communicating with the base station. In the particular representation with reference to FIG. 1, the wireless communication device comprises a base station S1 associated with two handsets, the handset C1 and the handset C2. It is obvious that the operating principle detailed later for two handsets applies for a wireless communication device comprising a plurality of base stations and a plurality of handsets. In wireless communication devices meeting the criteria of the DECT standard, an intercom function common to all types of handsets allows the call and the conversation between the base station S1 and the handset C1, C2 and the handover. communication between the handsets C1 and C2 or the communication transfer L1 and L2 between the base station S1 and the handset C1, C2. All types of handsets are understood to mean all the handsets manufactured by all the manufacturers on the market, corresponding to the DECT standard, thus allowing their operation with any base station, called the DECT base. This basic intercommunication function between the handsets C1 and C2 is called the intercom function. When using the intercom function, the audio communications transits between two handsets C1 and C2 via an audio communication field E12 said field B, the field B being defined in the GAP protocol of the DECT standard. The handset of the wireless communication device according to the invention comprises the characteristics required to obtain the DECT certification.

On the other hand, the handset of the communication device comprises software means for transferring data other than audio communications via the audio communication field E12 conventionally used by the intercom function of the handset. In this way, it is possible to transmit data recorded on a handset, such as a telephone directory, written messages or images, from said handset to a second handset without passing data through the base station. Thus the handset C1 according to the device comprises an internal data transfer mechanism organized by software means encoding the data selected for the purpose of routing to a second handset C2 via the communication field E12 used by the intercom basic function, software means performing the data transfer via the audio communication field E12 to the second handset C2, as well as software means decoding and verifying the good data transmission on the second handset C2. It is obvious that the device according to the invention is reversible and that the handset C2 comprises the above-described means of the handset C1 and that the handset C1 comprises the aforesaid means of the handset C2. FIG. 2 illustrates the steps of the method of exchanging data between two handsets of the wireless communication device according to the invention. When the user wishes to transfer telephone, image, ringtone, message or other data data from a handset C1 to a handset C2, he selects a data transfer function on the handset C1 by means for example of a key direct access to the handset keypad or by selecting the data transfer function in a menu of the handset Cl. The selection of the data transfer function then allows a coding of the selected data performed by means of a software function coding. The coding of the data applied is particular and allows the selected data to be transited by the communication field E12, called field B, used by the intercom function, said intercom function being present on the handsets C1 and C2. In parallel with the coding step in a first embodiment of the method, or after the coding step in a second embodiment of the method, the handset C1 calls handset C2 via the communication field E12. Upon receipt of the call from the handset C1, the handset C2 switches to a waiting mode of data transfer. When the handset C2 is in data transfer waiting mode, the handset C1 can send the data selected by the user via the communication field E12; the handset C2 in data transfer standby mode receives the selected data. A step of checking the data received by the handset C2 makes it possible to avoid the recording of corrupted or erroneous data during the transfer between the two handsets. Indeed, during a transfer via the communication field E12, it can be envisaged that the signal transiting between the two handsets is impaired by the presence of ambient interference. This verification step being performed by means of a data verification function makes it possible on the one hand to accept the transferred data if they are valid and in this case, the transferred data are recorded in the internal memory of the handset C2, and on the other hand, the handset C2 to request a new sending of the handset data Cl when the data are invalid.

FIG. 3 is a particular representation of the protocol for exchanging data between two handsets of a wireless communication device according to the invention. The exchange protocol of FIG. 3 uses four different DATA-F, ACK-F, NACK-F and SPECIAL frames of 40 bits in order to pass information between handset C1 and handset C2. The DATA-F, ACK-F and NACK-F frames have a breakdown that breaks down as follows: the first 4 bits are dedicated to defining the type of the frame and the type of data transferred, the following 32 bits correspond to the data to be transited, - the last 4 bits are dedicated to the verification of the transfer. The first 4 bits are different according to each frame in order to differentiate the type of transfer selected by the user and thus switch the handset C2 in a mode that will allow it to correctly receive the transferred data. According to a particular representation of the data exchange protocol and the different frames used, the distribution of the first 4 bits can be carried out by hexadecimal coding as follows: 2 bits constant to all the frames of the type OxDCDC; - 1 bit defining the frame type: • OxDD for the DATA-F frame, • OxDA for the ACK-F frame, • OxDB for the NACK-F frame, - 1 bit defining the type of data transferred; for example 0x01 for the transfer of a telephone directory. The SPECIAL frame has a composition different from the previously described frames. The 40 bits of the SPECIAL frame are all identical and coded by hexadecimal coding of the type OxAA.

Before selecting the data transfer function, the handsets C1 and C2 are in a mode called waiting mode. When the handset C1 calls the handset C2, the handset C2 goes into detection mode. In detection mode, the handset C2 checks all the frames sent by the handset Cl.

When the user wishes to send data of the telephone directory type from the handset C1 to the handset C2, the handset C1 sends the SPECIAL frame to the handset C2 when it has entered the detection mode. The C2 handset thus receiving the SPECIAL frame switches to transfer mode.

If the handset C2 does not receive the SPECIAL frame in detection mode, then the handset C2 switches to voice mode, allowing the conventional use of the intercom function between the two handsets C1 and C2. The sending of the SPECIAL frame thus makes it possible to differentiate the data transfer function of the intercom function, the two functions using the same E12 communication field existing on the DECT handsets. In this way, the sending or not of the SPECIAL frame makes it possible to switch the handset C2 in a required mode of use. Each frame having its own function and composition, the handsets exchange information using previously defined frames where: - the DATA-F frame is a data transfer frame for sending handset data C1 to the handset C2; the frame ACK-F is a frame transmitted by the handset C2 receiving data making it possible to inform the handset C1 emitting the good data transmission between the handset C1 and the handset C2; the frame NACK-F is a transmitted frame by the handset C2 receiving data to inform the handset Cl issuer of the poor data transmission between the handset Cl and the handset C2. Thus, the subject of the invention is a method and a wireless communication device complying with the criteria of the DECT standard making it possible to simplify the transfer of data between a plurality of handsets of such a communication device while avoiding the use the data transfer function of a base station, which necessarily requires a base station offering this function and handsets compatible with the base station. The present invention is applicable to all types of wireless communication devices, including those meeting the criteria of the DECT standard. The transfer of data between two handsets is based on software means including a particular coding of data for the purpose of passing through an audio communication field. The other advantages of the invention include the following: - proposal of a low-cost data exchange function, - proposal of new exchange functions between handsets without change of the base station, - guarantee of a transfer of data whatever the manufacturer of the database. 25

Claims (7)

REVENDICATIONS1. Wireless communication device comprising at least one mobile handset (C1) communicating with a base station (S1) connected to a telephone network, characterized in that said at least one handset (C1) comprises means for transferring data of said at least one a handset (C1) to a second fixed or mobile handset (C2) attached to said base station. 2. Wireless communication device according to the preceding claim characterized in that said wireless communication device operates according to the DECT standard. 3. wireless communication device according to any one of claims 1 to 2 characterized in that said data transfer is performed using a basic function of said at least one handset (Cl). 4. Wireless communication device according to claim 3 characterized in that said basic function of said at least one handset (C1) is a function called intercom function for a transfer of communications between said at least one handset (Cl) and the said second handset (C2). 5. Wireless communication device according to claim 4 characterized in that said at least one handset (Cl) uses a data exchange protocol allowing the transfer of data via said intercom function. 6. Method for data exchange of a wireless communication device according to at least one of the preceding claims, comprising at least one mobile handset (C1) communicating with a base station (Si) connected to a telephone network. characterized in that it comprises a step of transferring data between said at least one handset (C1), said at least one handset (C1) comprising means ensuring said data transfer of said at least one handset (C1) to a second mobile handset (C2) attached to said base station, and said second handset (C2). 7. A method of data exchange of a wireless communication device according to claim 6 characterized in that it comprises: a step of encoding, by means of a software application, selected data; a step of sending said selected data using a communication field (E12) of said intercom function; a step of verifying the validity of the transferred data; a step of recording the data in a memory of said second handset (C2).