FR2938099A1 - Electronic telecommunication device i.e. portable telephone, has detection unit detecting action of user, and associating unit associating type of movement or position of device with function of device based on detected action - Google Patents

Abstract

The device has a microcircuit card comprising a movement or orientation sensor e.g. accelerometer or magnetic sensor, delivering a signal representing movement or orientation of the device. An identification unit identifies type of movement or position of the device based on the signal. A detection unit detects an action e.g. short message service (SMS) sending action, of a user, and an associating unit associates the type of movement or position of the device with a function of the device based on the detected action.

Description

The invention relates to an electronic device equipped with a motion or orientation sensor. It is known to equip an electronic telecommunication device with a motion or orientation sensor in order to vary the operation of the device according to the movement or orientation detected by the sensor. It is thus possible, for example, to trigger the implementation of certain functionalities according to the movements detected. Such solutions are described in patent applications WO 2007/149747 and WO 2006/127270.

The latter document provides in particular that characteristic movements are associated with functions of the device and that exchanges are made when two devices have corresponding movements, which implies a predefined association of movements to functions.

In the same context but in another perspective, the invention proposes an electronic device, characterized in that it comprises a motion or orientation sensor capable of delivering a signal representative of movements or an orientation of the electronic device, means for identifying a type of movement or position of the device on the basis of said signal, means for detecting an action of the user and association means, depending on the detected action, the type of movement or position of the device to a function of the device. The user can thus associate movements and / or positions of the device to functions in a manner adapted to its use of the device.

It is then possible to provide means for implementing the function when the type of movement or position associated with the function is identified by the identification means.

In an embodiment described below, the electronic device comprises a subscriber identification card to a telephony network able to issue a command from a toolbox to the electronic device when said type is identified by the means of identification. The treatment can thus be performed at least in part by the card (generally microcircuit). The identification card is for example in practice a SIM-type card and the order for example SIM Toolkit type. This card or any other microcircuit card possibly provided in the device may comprise the sensor, which also moves the processing at the level of the microcircuit card. In this respect, the microcircuit card may comprise at least the association means. In this same context, it can be provided that the action of the user 15 is indicative of a positioning of the card in the device. In practice, it is possible to use information display means relating to said association and the detection means can then receive a choice from the user in response to said display. These detection means comprise for example at least one button (typically a keyboard) of the electronic device. In a variant, the detection means can detect said action as a function of said signal, which enables the user to define the movement-function association on the basis of a movement that he makes with the device and thus gives even more flexibility in the configuration of the electronic device. Other characteristics and advantages of the invention will become apparent in the light of the description which follows, made with reference to the appended drawings in which: FIG. 1 represents the main elements of a portable telephone participating in the implementation of FIG. the invention; FIG. 2 represents the main elements of a microcircuit card produced according to the teachings of the invention; FIG. 3 represents a first exemplary application that can be envisaged for the devices of FIGS. 1 and 2; FIG. 4 represents a second example of application of these devices; FIG. 5 represents a method that can be envisaged for the configuration of the functions associated with movements of the device of FIG. 1. FIG. 1 represents the main elements of an electronic telecommunication device (here specifically a mobile phone) 100.

The mobile phone 100 includes a microprocessor 130 which is associated with a non-volatile memory 140 (for example of the Flash type) and a volatile memory (or RAM) 150. The mobile phone also comprises a keyboard 120 and a screen 110 which form means interface with a user of the portable telephone. The mobile phone finally receives a microcircuit card 200 (described in more detail below) capable of exchanging data with the microprocessor 130, for example here through physical connection means 160. As a variant, it would naturally be possible to provide other means 20 for exchanging data between the microcircuit 130 and the microcircuit card 200, such as for example wireless communication means, possibly short-range. FIG. 2 shows the main elements of the microcircuit card 200. The microcircuit card comprises a microprocessor 210 associated with a non-volatile memory 220. An input / output interface 240 (which notably comprises pads intended to come into contact with corresponding pads of the connection means 160) allows the microprocessor 210 of the microcircuit card 200 to interact with an external equipment, in particular the microprocessor 130 of the mobile phone 100 when the microcircuit card 200 is mounted in contact with the connection means 160 .

The microcircuit card 200 also comprises a motion sensor 230, here of the accelerometer type, which makes it possible to have access to at least one component of the movement of the microcircuit card 200 in the terrestrial reference system, here by means of the acceleration in at least one dimension of the microcircuit card. Alternatively, the motion sensor 230 could be a gyroscope, suitable for example to measure the rotational speed of the card about an axis. According to another variant, the motion sensor 230 could be replaced by a position sensor, such as for example a magnetic sensor capable of determining the position of the microcircuit card 200 in the earth's magnetic field (see for example on this subject the patent application EP 1 731 098). Several position or motion sensors can naturally be used in the microcircuit card 200 without departing from the scope of this patent application. Furthermore, the motion sensor 230 may according to a first possible embodiment deliver (here to the attention of the microprocessor 210) information indicative of the motion detected at a given moment (whether continuously or in response to a request microprocessor 210). According to a second possible embodiment, the motion sensor 230 can furthermore memorize a plurality of detected values and thus provide a history of the values (including the aforementioned plurality), for example with a given period or, alternatively, on a request from the user. microprocessor 210. The microcircuit card 200 is for example a subscriber identification card to a telephony network (in particular mobile telephony), such as a SIM card (for "Subscriber Identity Module"), a USIM card (for "Universal Subscriber Identity Module"), or an ERIM card (for "Removable 30 Universal Identity Module"). FIG. 3 represents a first example of an application that can be envisaged for the devices that have just been mentioned.

In this application, when the telephone receives a communication from another electronic device connected to the same telecommunication network (step E300), it informs the microcircuit card 200 in step E302 (for example by means of a SIM Toolkit event). The microprocessor 210 of the microcircuit card 200 then receives in step E304 this information according to which an incoming call is detected. The microprocessor 210 then proceeds to a motion detection algorithm (or program) at the step E306 which uses the data coming from the sensor 230. Such an algorithm is for example stored in the non-volatile memory 220 of the microcircuit card 200. The microprocessor 210 then sends a command to the microprocessor 130 of the mobile phone 100 which depends on the type of motion detected. For example, the microprocessor 210 selects a predetermined message in the nonvolatile memory 220 according to the motion detected in step E306 and sends a command, for example a SIM Toolkit command for sending the message selected by the mobile telephone network, for example by SMS (in which case the SIM Toolkit command used is "SEND SMS") or MMS; alternatively, a voice message may be sent.

This is for example a message of a first type if two taps on the phone are detected (detection of two sets of low amplitude vibrations by the sensor) and a message of a second type (or variant of an absence of reaction) in case of repeated movement in one direction then in the opposite direction. The messages of a first type and a second type and the movement to which each type of message is associated are stored in the non-volatile memory 220. The SIM Toolkit command is transmitted to the microprocessor 130 of the mobile phone 100 that receives it. executes it in step E312, which causes in step E314 the transmission by the mobile telephone network of the previously selected message as a function of the movement detected by the motion sensor 230 of the microcircuit card.

FIG. 4 represents another example of application of the devices which have just been described. In this application, the motion sensor 230 detects continuously in step E400 the movement of the microcircuit card 200 (and therefore also that of the mobile phone 100 which carries the microcircuit card 200). The detected motion values are periodically compared to a signature of a falling movement (for example stored in non-volatile memory 220). In this regard, reference may be made, for example, to US Patent Application 2001/004234. It is then determined in step E404 whether a fall is detected (as a function of the result of the comparison of step E402). If no fall is detected, continuous motion detection is continued in step E400. On the other hand, if a fall is detected by the positive comparison of the detected movement values with the signature stored in the non-volatile memory 220 (signature which corresponds, for example, to a falling movement of a person carrying the telephone), the microprocessor 210 sends a command for the mobile phone 100 and 20 executable by the microprocessor 130. This is for example a SIM Toolkit function as defined by the GSM11.14 standard. The command issued by the microprocessor 210 to the microprocessor 130 (therefore transmitted through the interface 240 and the connection means 160) leads, according to a possible possibility, to the generation of a call by the mobile telephone 100 via the network. mobile phone, for example to alert a rescue center. Communication with the mobile phone carrier can be initiated (the SIM Toolkit "SET UP CALL" command is used). As a variant, the command sent by the processor 210 could generate the transmission of a message through the mobile telephone network (for example of the SMS type, in which case the SIM Toolkit "SEND SMS" command is used), the message which may include the identity of the holder of the subscription, possibly with other information (such as, for example, location information of the mobile phone, obtained either through the identification of the cell to which the telephone is connected portable 100 in a cellular network, or by means of geolocation type GPS for example). It is understood that the mobile phone thus sends a call or a message on the basis of a movement detected by the microcircuit card 200, without the mobile phone itself having been previously configured to perform such detection.

Note that in the examples just described, we deduce the movement or the position of the mobile phone 100 from the movements or the position of the microcircuit card 200 because these two elements are physically linked. It may, however, be desirable to indicate the positioning of the microcircuit card 200 in the mobile phone 100 (particularly if motion initiated commands depend on the relative orientation of the mobile phone 100 and the microcircuit card 200). This is a configuration step that can naturally be performed only at the first introduction of the microcircuit card 200 in the mobile phone 100.

According to a first embodiment, the positioning of the card 200 in the mobile phone 100 may be indicated by the user using the keyboard 120 in response to the display of a corresponding menu by means of the screen 110 Preferably, the menu is stored by the microcircuit card 200 (non-volatile memory 220) and the display by the telephone is controlled by a SIM Toolkit command "SELECT ITEM" sent by the card 200 to the mobile phone 100. According to a second possibility of realization, an application is implemented by the microprocessor 210 causes the display on the screen 110 of a message asking the user to perform a particular movement with the mobile phone 100. The detection by the motion sensor 230 located in the card 200 of the particular movement of the telephone 100 made by the user then allows the processor 210 to deduce the relative orientation of the micro card circuit 200 and the mobile phone 100. FIG. 5 represents a method that can be envisaged for the configuration of the functions associated with movements of the telephone, for example in addition to what has just been described with regard to the positioning of the microcircuit card in the mobile phone 100. This process begins with a display of a representation of the possible movements on the screen 110 of the mobile phone 100 and the selection of one of these movements by the user by means of the interface (here 10 keyboard 120) in step E500. According to one conceivable possibility, the user can then be asked to perform this movement in order to perform a test in step E502: it will then be possible, depending on the movement actually achieved as detected by the motion sensor 230, to display information enabling the user to approach the predefined movement, possibly repeating the test of step E502 as long as the motion made by the user and detected by the motion sensor 230 is not close enough to the predefined movement selected in step E500 (for example in terms of motion signature).

The user is then asked to select via the interface 110, 120 an action to be associated with the movement selected in step E500: the action to be associated is typically a function implemented by the mobile phone 100, as for example the display of a menu, the call of a predetermined number, the sending of a message (for example of the SMS type), the connection to the Internet network or the implementation of means of communication. wireless communication other than those of the telephony network (for example of the Bluetooth or WIFI type). Once the action has been selected by the user, the movement selected in step E500 and the action 30 selected in step E504 are combined, for example by storing this association in the non-volatile memory 220 (Or possibly in the nonvolatile memory 140 in the embodiments where at least a portion of the processing is performed in the mobile phone as mentioned below). Thus, during subsequent steps of operation of the mobile phone 100, if the movement (previously selected in step E500 for example a brief tap on the phone detected by the sensor 230 as a brief movement of low amplitude) is detected by the motion sensor 230 as shown in step E508, the microprocessor 210 will request the implementation (step E510) by the microprocessor 130 of the mobile phone 100 of the action (for example, the display of a menu such as the of the operator) associated with the detected motion, as described above, using for example an appropriate SIM Toolkit command ("SELECT ITEM" in the case of the example of the aforementioned operator menu display) . According to one conceivable variant, the above-mentioned steps E500 and E502 could be replaced by the display of a request intended for the user to carry out a free movement and by the detection of the movement carried out by the user, which will then be the associated movement. to one of the possible actions, according to the wishes of the user. The preceding embodiments are only possible examples of implementation of the invention which is not limited thereto. In particular, the above description has been made in the context of devices where the motion or position sensor is located in the microcircuit card and where the processing of data from the sensor and the control of an action according to the movement or position detected (e) are made by the card. One could alternatively provide to use a sensor of the phone (instead of the sensor present in the card), and / or perform the above treatment and / or order within the mobile phone. The invention is thus applicable to an electronic device without a microcircuit card (in which case all the aforesaid treatments are naturally performed in the electronic device).

Claims (10)

REVENDICATIONS1. Electronic device, characterized in that it comprises: a motion or orientation sensor capable of delivering a signal representative of movements or an orientation of the electronic device; means for identifying a type of movement or position of the device on the basis of said signal; means for detecting an action of the user; means for associating, depending on the action detected, the type of movement or position of the device to a function of the device. 2. Electronic device according to claim 1, characterized in that it comprises means for implementing the function when the type of movement or position associated with the function is identified by the identification means. 3. An electronic device according to claim 2, characterized in that it comprises a subscriber identification card to a telephony network able to issue a command from a toolbox to the electronic device when said type is identified by the means of identification. 4. An electronic device according to claim 3, characterized in that the identification card is a SIM card and in that the control is SIM Toolkit type. 5. Electronic device according to claim 1 or 2, characterized in that it comprises a microcircuit card comprising the sensor. 30 6. Electronic device according to claim 5, characterized in that the microcircuit card comprises in part at least the association means. 7. Electronic device according to claim 5 or 6, characterized in that the action of the user is indicative of a positioning of the card in the device. 8. Electronic device according to one of claims 1 to 7, characterized by means for displaying information relating to said association and in that the detection means are adapted to receive a choice of the user in response to said display. . An electronic device according to claim 8, characterized in that the detecting means comprises a button of the electronic device. 10. Electronic device according to one of claims 1 to 7, characterized in that the detection means are adapted to detect said action as a function of said signal.