CN113456026A - Method for processing body and/or physiological measurements by means of a mobile terminal - Google Patents

Abstract

A method for processing physical and/or physiological measurements related to a user profile by a mobile terminal (T), the method comprising the steps of: -detecting at least one body and/or physiological measuring device (a), then obtaining measurement information (mes) from the at least one body and/or physiological measuring device (a), -detecting a remote server (S) capable of exchanging information with the mobile terminal (T), then-transmitting the collected information (col) to the remote server (S), and/or-receiving update information (upd) from the remote server (S).

Description

Method for processing body and/or physiological measurements by means of a mobile terminal

RELATED APPLICATIONS

The invention is a divisional application of patent application, which has application date of 2017, 3 and 17, and application number of 201780018148.X, and is named as a method for processing body and/or physiological measurement through a mobile terminal.

Technical Field

The invention relates to a processing method for processing physical and/or physiological measurements related to a user profile by means of a mobile terminal.

Background

It is known to have a body and/or physiological measurement device capable of communicating with a mobile terminal according to a communication protocol. This arrangement allows the values measured by the measuring device to be communicated to the mobile terminal.

It is also known to have a remote server with which the mobile terminal can exchange information. The server may be used to regroup the measurements.

The regrouping of the measurements may for example be a regrouping of measurements for the same user.

In this case, communication between the measuring device, the mobile terminal and the server is essential for a good regrouping of the measured values.

In addition, the selection of parameters for communication between these devices is cumbersome before secure communication is established.

Further, it is necessary to parametrically indicate to the user that the measuring device, mobile terminal or server is objectionable before the measuring apparatus can be used.

It is also difficult to manage the transfer of the measurement values after the communication between the measurement device, the mobile terminal and the server is interrupted.

Disclosure of Invention

The present invention aims to solve all or part of the above mentioned drawbacks.

To this end, the invention relates to a method for processing physical and/or physiological measurements related to a user profile by means of a mobile terminal, said method comprising the steps of:

-detecting at least one body and/or physiological measurement device capable of exchanging information with the mobile terminal according to a first communication protocol, and then obtaining measurement information from the at least one body and/or physiological measurement device, the measurement information comprising a user identifier and a time-stamped measurement value,

-detecting a remote server capable of exchanging information with said mobile terminal according to a second communication protocol, and then transmitting collected information to said remote server, said collected information comprising a user identifier and a time-stamped measurement value, and/or receiving update information from said remote server, said update information comprising a user identifier and a confirmation value relating to said user.

In other words, the steps of detecting at least one physical and/or physiological measurement device and detecting the remote server may be implemented independently of each other depending on whether the at least one measurement device and the server are detected or not.

It is further noted that both the measured values and the confirmed values are derived from measurements of body and/or physiological dimensions by the measuring device. The measured value refers to a value obtained by a sensor of the measuring device, and the confirmed value refers to a value that has been processed by the server. The server may modify the measured value, e.g. rounding (rounding), so that the amount of information stored is less voluminous.

Thus, the measurement information may be replenished from the measurement device to the mobile terminal first, and then the collected information may be replenished to the server.

In addition, the update information is sent to the mobile terminal as soon as possible. Thus, the server also processes and sends the collected information, which is replenished by updated information, as quickly as possible.

This arrangement is advantageous when it is not possible to connect to the measuring device and the server simultaneously. Synchronization is not prevented. In addition, since the measurement is time-stamped, it is not confused with another measurement.

A measuring device may also be used when a connection with the mobile terminal is not possible. In this case, the measuring device stores time-stamped measured values. Once the connection with the mobile terminal is established, corresponding measurement information will be sent.

Preferably, the order of the steps of detecting the body and/or physiological measurement device and the steps of detecting the remote server is not important. Likewise, these two steps may be performed simultaneously.

According to an aspect of the invention, the step of transmitting the collected information and the step of receiving the update information are implemented independently of each other. The order of these steps is not critical. Thus, only one of the two steps can be performed after detecting the remote server.

The body and/or physiological measurement device refers to any device all arranged for measuring a measurable body dimension and/or physiological property of a part of a user's body.

For example, the physical and/or physiological measurement may be a measurement of bio-impedance. The measurement of bio-impedance refers to a measurement of the impedance of a biological tissue of a user.

This type of measurement allows, for example, that a fat mass index may need to be determined by calculation or correlation.

According to one aspect of the invention, the measuring device is an electronic tape measure or a weight scale arranged to measure the contour of a portion of a user's body or the circumference of the user.

According to an aspect of the invention, the body and/or physiological measurement device by mobile terminal is arranged for exchanging information with the mobile terminal via an intermediate communication element.

The intermediate communication element is arranged to exchange information between the measurement device on the one hand and the mobile terminal on the other hand.

Preferably, the intermediate communication element comprises an internet terminal device and is capable of communicating with the measuring device and the mobile terminal according to a determined protocol (for example wifi protocol).

In particular, the mobile terminal is arranged for exchanging information with the server via an intermediate communication element.

According to an aspect of the invention, the mobile terminal is arranged for sending a re-supplementation information request to the measurement device, and the measurement device is arranged for sending a measurement information request to the mobile terminal according to the first communication protocol as a response to receiving the information re-supplementation request. This arrangement allows a request to be sent from the measurement device to the mobile terminal to immediately re-supplement the latest measurement information.

According to one aspect of the invention, the step of detecting at least one body and/or physiological measurement device is followed by the step of transmitting local replication information to the at least one body and/or physiological measurement device, the local replication information comprising a user identifier and a confirmation value relating to the user.

Thus, when the measurement device is connected to the mobile terminal, the local copy information may be stored locally on the measurement device.

This arrangement is advantageous for users who are accustomed to using the same measuring device: therefore, the original measured value can be obtained without carrying the mobile terminal with the mobile terminal.

According to an aspect of the invention, the processing method of processing physical and/or physiological measurements by a mobile terminal additionally comprises the step of creating and/or modifying locally copied information from the updated information and/or the measurement information.

Therefore, it is the mobile terminal that creates the local copy information. An advantage is that it is possible to control which local copy information is sent to the measurement device. Preferably, the local replication information is sent to the measuring device for an ordinary user of the measuring device.

In case new measurement information arrives at the mobile terminal and the mobile terminal is unable to communicate with the server, local replication information may be created or modified.

In this case, the last measurements taken will be taken into account to create or modify the local replication information before transmission. Thus, the local replication information can be rolled back to the measurement device without a complete synchronization by the server.

According to an aspect of the invention, the method of processing physical and/or physiological measurements by a mobile terminal additionally comprises the step of creating and modifying collected information from the measurement information.

Thus, the terminal can control which measurements it sends to the server. This arrangement allows not systematically transmitting all but only certain measurement values to the server.

This may be useful when the amount of information to be transmitted is large or the transmission rate is slow. Therefore, the measurement information is transferred according to importance.

According to an aspect of the invention, the collected information further comprises an indication relating to the user.

According to an aspect of the invention, the indication relating to the user comprises a record relating to a user profile, such as a height of the user.

Thus, the server may be re-supplemented with user-related indications that are not derived from measurements but are supplementary to the server.

Thus, the user-related indication is taken into account by the server and affects the update information transmitted to the mobile terminal.

According to an aspect of the invention, the update information and/or the local replication information comprises a return indication relating to the user.

This return indication is intended to be communicated to the user: for example, it may be an indication to the user that it has dropped below a certain limit weight. This arrangement is advantageous because it informs the user of the evolution of their measurements.

According to one aspect of the invention, the measurement information comprises a plurality of measurement values.

This arrangement allows for the simultaneous transmission of multiple measurements to the mobile terminal. It may be a measurement value that is made multiple times without the user having a connection with his mobile terminal between these measurements.

According to one aspect of the invention, the update information comprises a plurality of confirmation values.

Preferably, the local replication information comprises a plurality of measurement values.

Thus, for the same user, only measurement information, collected information, updated information, or locally replicated information may be sent for multiple measurements.

According to one aspect of the invention, the mobile terminal exchanges information with a plurality of body and/or physiological measurement devices according to the first communication protocol.

Thus, by using the same mobile terminal, information can be replenished to the server by a plurality of measuring devices. Likewise, the user may also perform measurements indiscriminately using the measurement device or other devices.

In fact, the measurement information is sent later by the mobile terminal, which is not necessarily the measurement information of the user for re-supplementing the server.

According to one aspect of the invention:

-acquiring, by the mobile terminal, at least two measurement information from a body and/or physiological measurement device, the first measurement information comprising a first user identifier and a time-stamped first measurement value, the second measurement information comprising a second user identifier and a time-stamped second measurement value, and

-at least two collected information are transmitted to the remote server, a first collected information comprising a first user identifier and a first measurement value time-stamped, a second collected information comprising a second user identifier and a second measurement value time-stamped, and/or two update information are received from the remote server, a first update information comprising a first user identifier and a first confirmation value related to the first user, a second update information comprising a second user identifier and a second confirmation value related to the second user.

Thus, measurement information relating to a plurality of users can be replenished by simply connecting the measurement device to a mobile terminal.

This arrangement is advantageous because there is typically only one user using the mobile terminal. Thus, even if a single user connects his mobile terminal to the measurement device, all measurement information is transmitted, even measurement information relating to other users.

This allows to re-supplement the server with measurements relating to users who do not have a proprietary mobile terminal in the vicinity of the measuring device.

According to an aspect of the present invention, the mobile terminal transmits first local replication information and second local replication information to the measurement device, the first local replication information including a first user identifier and a first confirmation value, and the second local replication information including a second user identifier and a second confirmation value.

Thus, for different users from the same terminal, the local replicated information may also be rewarded (rescensidre) back to the measurement device. Thus, it is not necessary that each user has a mobile terminal.

The invention also relates to a computer program product comprising code instructions arranged, when said program is executed on a processor of a mobile terminal, to implement the steps of the method of treating a body and/or physiological measurement device as described above.

According to an aspect of the invention the computer program product is arranged as an application downloadable to a mobile terminal when the program is run on a processor.

The invention further relates to a mobile terminal comprising code instructions of a computer program product as described above stored in a memory, the mobile terminal being arranged to execute the computer program product.

The invention further relates to an assignment method for assigning measured values to a user profile by means of a physical and/or physiological measuring device, comprising the following steps:

-obtaining a measurement value by means of the measurement device,

-comparing and/or selecting a user identifier according to determined criteria with said at least one further pre-measured value, and then creating measurement information comprising said user identifier and a time-stamped measured value.

By comparing the measured value with further previously obtained values, an assignment of the measured value to the user profile is achieved. In fact, if the two values are close, it is likely that they are associated with the same subscriber profile.

According to one aspect of the invention, the determined criterion corresponds to a percentage difference between the measurement value and another pre-measurement value.

According to an aspect of the invention, said selection of the user identifier is carried out according to a criterion determined whether or not a (reply) is entered, and/or wherein the selection of the user identifier is carried out according to a user command entered at the measuring device, or by transmitting user profile information and an allocation request from the mobile terminal.

If the measuring device recognizes the user by comparison, the assignment of the measured values to the user profile can be effected without intervention by the user or confirmation of his identity.

It is also possible that an unregistered user performs a number of measurements and then creates a user profile on the terminal. The set of measured values that have been regrouped can then be assigned to the new subscriber profile upon request, according to the determined criteria.

Thus, there is no need to create a user profile on the mobile terminal to use the measurement device in order to finally recover the measurement values before the user profile is created.

The invention also relates to a computer program product comprising code instructions arranged for implementing the steps of the method for assigning measurement values to a user profile by means of a body and/or physiological measurement device as described above, when said program is executed on a control line of the measurement device.

The invention also relates to a method for configuring a user profile implemented by a mobile terminal for combining the mobile terminal with a body and/or physiological measurement device, the method comprising the steps of:

-creating or modifying user profile information, said user profile information comprising a user identifier and a prompt related to said user,

-detecting a physical and/or physiological measurement device capable of exchanging information with the mobile terminal according to a first communication protocol,

-transmitting the user profile information to the body and/or physiological measurement device.

Thus, before being able to receive measurement information from the measurement device, a configuration of the user profile has to be made, which allows to combine the mobile terminal and the measurement device.

By using a user identifier in each information transmitted between the measuring device, the mobile terminal and the server, this arrangement allows a good distribution of the measured values to the user profile.

According to one aspect of the invention, the step of detecting the measurement device is followed by a receiving step of receiving a request for application information from a user profile of the body and/or physiological measurement device, which is followed by a transmitting step of transmitting the user profile information to the body and/or physiological measurement device.

The measuring device may also send a request for application information of the user profile if the measurement has been made and no user profile has been assigned.

This arrangement is advantageous when the terminal is located in the vicinity of the measuring device, since the holder of the mobile terminal is also a user of the measuring device.

According to an aspect of the invention, said creating or modifying user profile information is performed after the step of entering user commands at a command and/or control interface of the mobile terminal.

Thus, the user uses the mobile terminal to create or modify his user profile: the profile information will then be updated on the measurement device.

According to an aspect of the invention, a method of configuring a user profile as described above comprises the steps of:

-detecting a remote server capable of exchanging information with said mobile terminal according to a second communication protocol, and then

-receiving instructions of creation and modification of information of a subscriber profile from a server capable of communicating with said mobile terminal according to said second communication protocol, the reception being effected before the step of creating or changing said subscriber profile information, and/or

-transmitting said user profile information to a server, the transmission being performed after the step of creating or modifying the user profile information.

Thus, the server still plays an important role in defining the changes to be brought to the user profile. The mobile terminal can re-supplement (remoter) the new profile information or the modified profile information, but the server decides the modifications to be brought to the profile.

This arrangement is advantageous because the same user can modify his profile from any mobile terminal in a group of mobile terminals and can have the latest version of his profile on another mobile terminal of the group.

The invention also relates to a computer program comprising code instructions arranged to implement the steps of the subscriber profile configuration method as described above, when said program is implemented on a processor of a mobile terminal.

According to an aspect of the invention, the computer program is arranged as an application downloadable on a mobile terminal when the program is executed on the processor.

The invention also relates to a mobile terminal comprising code instructions of a computer program product as described above stored in a memory, the mobile terminal being arranged to execute the computer program product.

Drawings

In summary, the invention will be better understood with the aid of the following description, given by way of non-limiting example, with reference to the accompanying drawings, which represents an implementation form of the processing method and the configuration method.

Fig. 1 is a schematic view of a body and/or physiological measurement system.

Fig. 2 is a schematic diagram illustrating the steps of a configuration method for configuring a subscriber profile by means of a mobile terminal.

Fig. 3 is a schematic illustration of an assignment method for assigning measurement values to a user profile by means of a body and/or physiological measurement device.

Fig. 4 is a schematic diagram illustrating steps of a processing method for processing physical and/or physiological measurements related to a user profile by a mobile terminal.

Detailed Description

As shown in fig. 1, the body and/or physiological measurement system SYS comprises a mobile terminal T, a server S and two body and/or physiological measurement devices a.

Body measurement refers to a measurement that allows the value of a body dimension (e.g., length or weight) to be determined. Physiological measurements refer to properties of a portion or all of a user's body that are measurable, such as the contours or circumference of a user member. Thus, the physical and/or physiological measurements are used for the user of the measurement system SYS.

Each body and/or physiological measurement device a comprises:

-a sensor c arranged to measure a value of a body and/or physiological dimension; a command interface icom;

-display interface idis;

-communication line Acom 1; and

a command line circ having a memory and arranged to cooperate with the operation of the measuring device a.

The communication line Acom1 is arranged to exchange information or data according to a first communication protocol. The first communication protocol is a telematics protocol, such as a first bidirectional communication protocol over radio waves.

The command interface icom is arranged to allow input of user commands to perform measurements and/or to record measurements into a memory.

The display interface idiss is arranged for displaying the value of the instantaneously measured body size and/or any other information stored in the memory, such as the value recorded in the memory, the name of the user or a measurement-related indication for realizing e.g. "waist circumference measurement".

Thus, the command interface icom allows the user to select his name and measure body and/or physiological dimensions.

The first body and/or physiological measurement device a is a scale comprising a weight sensor c, and the second body and/or physiological measurement device a is an electronic measurement band comprising a sensor c measuring the length of the contour or measuring the circumference (measurement).

Each body and/or physiological measurement device a can be used alone to achieve instantaneous measurements that are displayed on the display interface idis.

Each measuring device a is further arranged to record the measured value vm only by storing it in a memory or by assigning the measured value vm value to a user identifier. The memory of each measuring device a is sized to allow a prescribed number of measurements to be recorded.

The command line circ thus comprises code instructions arranged for implementing the steps of the allocation method of allocating the measured values vm to the subscriber profile detailed below.

When the number of defined values is reached, it is possible for the user to erase the oldest value or a value selected for it from memory, and thus record other values.

As shown in fig. 1, the mobile terminal T includes:

-command and/or control interface idiss with touch screen;

a first communication line Tcom1, capable of exchanging information according to a first communication protocol;

a second communication line Tcom2, capable of exchanging information according to a second communication protocol, and;

-a command and/or control line circc arranged to coordinate the functions of the mobile terminal T and comprising a processor p.

The second communication protocol is also a two-way communication protocol over radio waves.

The first communication protocol allows the bidirectional exchange of information between the first measuring device a and the mobile terminal T on the one hand and the second measuring device a and the mobile terminal T on the other hand.

The protocols involved may be bluetooth or BLE type protocols, or even Wifi type protocols.

The mobile terminal T is arranged for remotely commanding the first measurement device a or the second measurement device a.

Therefore, it is to be noted that the first measurement apparatus a and the second measurement apparatus a do not exchange information.

The processor p of the mobile terminal T is arranged to execute a computer program product comprising code instructions arranged to implement the method steps detailed below.

The computer program product is arranged as an application downloadable to the mobile terminal T.

As far as the server S comprises the communication line Scom2, the communication line Scom2 is able to exchange information with the mobile terminal T according to the second communication protocol. The server S additionally comprises a processing unit uni with a processor p'.

The processing unit uni is arranged to regroup the measurement information a from the measurement device a and communicated by means of the mobile terminal T and then to update the information contained in the memories of the mobile terminal T and the measurement device a detailed below.

Reference is now made in the following to fig. 2, which describes in detail the steps of a method of configuring a subscriber profile by means of a mobile terminal T.

According to a first possibility, the user performs the step Einp of entering a user command at the command and/or control interface idiss of the mobile terminal T.

This input step is performed by means of a downloadable application installed on said mobile terminal T. This involves entering fields corresponding to indications related to the user usr, such as last name, first name, age.

According to a second possibility, a detection step Epla of the remote server S is performed first, followed by a reception step Epla _ d of receiving an instruction inst to create or modify the subscriber profile information from the server S.

The create or modify instruction inst comprises a user identifier id and one or more indications relating to the user usr.

The mobile terminal T then performs the step of creating or modifying subscriber profile pro information comprising a subscriber identifier id and one or more indications related to the subscriber usr.

Thus, the user profile pro information is defined or modified by user entered information or instructions inst from the server S.

If the user profile pro information is created or modified according to the first possibility, it needs to be transmitted to the remote server S. Thus, in this case either the remote server S has no user profile pro information or the remote server S has no latest modified version of the user profile pro.

In this case, the mobile terminal T performs the step Epla of detecting the remote server S and then performs the transmission step Epla _ u of transmitting the created or modified user profile pro information to the server S.

Similarly, the user profile pro information may be transmitted to measurement device a such that measurement device a has the latest version of the user profile pro information.

For this purpose, the mobile terminal T first performs a detection step Ediv of detecting the body and/or physiological measuring device a and then performs a transmission step Ediv _ d of transmitting the created or modified user profile pro information to the measuring device a.

Alternatively, this step Ediv _ d may be performed after the receiving step Ediv _ u of the request for information req received from the user profile of the measuring device a.

This request req is formulated by the measurement device a with the aim of receiving an updated version of the subscriber profile information created or modified more quickly.

Reference will now be made in the following to fig. 3, which describes in detail the steps of a method of assigning measurement values vm to a user profile by means of a body and/or physiological measurement device a.

Each measuring device a can operate independently, that is without being connected to the mobile terminal T. Thus, if the user already has a profile on the measurement device a, any measurements that he will make will later be synchronized by the server S described below.

However, when the user does not have a profile recorded on the measuring device a, the measurements that they will make are recorded but not synchronized until they record their profile on the measuring apparatus a.

The assignment method for assigning the measured values vm to the user profile by the body and/or physiological measuring device a therefore first comprises an acquisition step e1 of the measured values vm acquired by the measuring device a.

Then, in a second comparison step e2, the measured value vm is compared with at least one further preliminary measured value vm according to a determined criterion.

According to one aspect of the invention, said determined criterion corresponds to a percentage difference between the measured value vm and a further pre-measured value vm.

This comparison step allows to regroup the different measurement values vm measured very close and at short intervals. Therefore, it is highly likely that these values are values of the same user.

Then, a third step e3 of selecting a user id is performed, and then measurement information mes is created containing said user identifier id and a time-stamped measurement value vm.

The user identifier id is selected according to whether certain criteria are entered and/or according to a user command entered at the measuring device a or by transmitting user profile pro information and an allocation request from the mobile terminal T.

There are thus a number of possibilities for assigning the measurement value vm to a user, which preserves the possibility for a new user to take a measurement before, for example, creating his profile. The measurement values will not be lost and later, when the user records his profile on the measurement device a and distributes his measurements by himself, the measurement data will be synchronized.

If the measuring device a identifies the user by comparison, the assignment of the measured values vm to the user profile can be effected without user intervention or by simply confirming its identity at the measuring device a.

Reference is now made in the following to fig. 4, which describes in detail the steps of a method of processing physical and/or physiological measurements related to a user profile by means of a mobile terminal T.

By detailing the steps of the method, it is assumed that the user has a profile recorded on the server S and uses the measuring device a.

The method of processing physical and/or physiological measurements related to a user profile by means of a mobile terminal T comprises a detection step Ediv of detecting a physical and/or physiological measurement device a capable of exchanging information with the mobile terminal T according to a first communication protocol.

Then, the method comprises an acquisition step Ediv _ u of acquiring measurement information mes coming from the body and/or physiological measurement device a. The measurement information mes comprises a user identifier id and a time-stamped measurement value vm.

Thus, each measurement value vm transmitted from the measurement device a to the mobile terminal T comprises a unique user identifier id. No value assigned to the user can be transmitted to the mobile terminal T.

Even if the connection between the measuring device a and the mobile terminal T is interrupted, the method comprises a detection step Epla capable of monitoring the remote server S exchanging information with the mobile terminal T according to the second communication protocol, followed by a transmission step Epla _ u of the collected information col to the remote server S.

The collected information col comprises a user identifier id and a time-stamped measurement value vm. Thus, the collected information col corresponds to the measurement information from the measurement device a.

The steps detailed so far therefore correspond to the re-supplementation of the measured values from the measuring device a to the server S via the mobile terminal T.

When performing the detection of Epla of the remote server S, the method may comprise a receiving step Epla _ d of receiving updated information from the remote server S.

This updated information upd comprises a user identifier id and a confirmation value vc associated with said user.

This arrangement is advantageous when the same user has multiple mobile terminals T. Thus, if the measured value vm is replenished to the server S by the first mobile terminal T, the user will obtain this value by using the second mobile terminal T.

The method may additionally comprise a step E0pla _ u of creating and/or modifying the collected information col from the measurement information mes. The mobile terminal T therefore controls the measurement values it sends to the server S.

This arrangement is also advantageous when making multiple measurements: only one collected information col can be optimized from the plurality of measurement information mes.

In practice, each measurement information mes or collected information may comprise a plurality of measurement values vm and each updated information upd or local replication information cop may comprise a plurality of valid values.

Therefore, all the measurement information mes arrives at the server S and then is synchronized with the mobile terminal T and the measurement device a described below.

To this end, the method comprises, after the detection step Ediv of the measuring device a, a transmission step Ediv _ d of transmitting the local replication information cop to the measuring device a.

The local copy information cop comprises a user identifier id and a confirmation value vc associated with the user. The local copy information is not necessary but can be used, for example, for a user who changes the measuring device a and wishes to have old measurements.

The transmission step Ediv _ d of the transmission of the local copy information cop may follow the creation and/or changing step E0div _ d of creating and/or modifying the local copy information cop from the updated information upd and/or the measurement information mes.

The creation and/or changing step E0div _ d implementing this creation and/or modification of the local replication information cop may be located just before the transmission of the local replication information cop.

Thus, this step E0div _ d is performed after the receiving step Epla _ d of receiving the updated information upd from the remote server S, as shown in fig. 4. Thus, when the local copy information cop is ready, it will be transmitted to the measurement device a once the connection is established.

The processing method of processing body and/or physiological measurements operates in a similar manner to the plurality of measurement devices a and the plurality of mobile terminals T.

Thus, such allowed synchronization does not require that communication be permanently established between the measurement device a, the server S and the mobile terminal T.

In practice, the measuring device a may first connect to the mobile terminal T, and then the mobile terminal T may connect to the server S when the communication is no longer operational.

This arrangement is particularly advantageous because even if synchronization cannot be performed immediately because the connection is temporarily unavailable, there is no concern about any consequences, since any measured value vm is time-stamped.

Once the data is synchronized with the server S, it will be available on all mobile terminals T of the recording user.

Thus, the same user can use a plurality of mobile terminals T and always have versions of their updated profiles and data.

The user may also use a large number of measuring devices a. For example, if it wishes not to weigh his own weight in the usual way, the measured value vm of his weight will be replenished to the server S and will be used on his mobile terminal T.

Rather, each measuring device a may be used by multiple users. Then, it is sufficient to connect only the mobile terminal T in order to replenish the server S with all the user' S measured values.

This arrangement is practical because when the user uses the measuring apparatus a which is not the measuring apparatus a generally used, the user has no obligation to have the mobile terminal T in the vicinity thereof.

The subscriber profile should be recorded on the measuring device a described above, so that the measured values vm are replenished to the server S. This task can be done before or after the measurement itself, which is practical for the user.

The server S is important in processing the measured values vm. Thus, if already synchronized, no value is lost. If the measuring device a stops functioning or if the user loses his mobile terminal T, the previously performed measurements that have been synchronized can be re-recorded at the mobile terminal T or at a new measuring device a.

This synchronization also allows to avoid duplication, since each measurement value vm is assigned to a unique user. When the subscriber profile is deleted, all profiles on the mobile terminal T and the measuring device a will also be deleted.

The downloadable application will also allow to use the measurement values vm, with or without the use of the processing unit uni of the server S, to compare the evolution of the physical and/or physiological quantity between reaching a certain time in an object or to calculate the median or average of several measurements.

It is advantageous for the server S to have all the measured values vm. Outliers can also be identified and deleted to keep only the measured values vm consistent with the others.

It goes without saying that the invention is not limited to the only embodiment of this processing method and to this configuration method, which, as mentioned above by way of example, includes all variant embodiments.

Claims (11)

1. A method for processing physical and/or physiological measurements related to a plurality of user profiles by means of a mobile terminal (T) of a user, the method comprising the steps of:

- (Ediv) detecting at least one body and/or physiological measurement device (a), followed by (Ediv _ d) transmitting to said at least one body and/or physiological measurement device (a) a local copy information (cop) comprising a user identifier (id) and a third confirmation value (vc) relating to the user, said third confirmation value resulting from a reduction in the amount of memory of a measurement value corresponding to said third confirmation value after processing by a server, said body and/or physiological measurement device (a) comprising:

-a sensor (c) arranged to measure a value of a body and/or physiological dimension;

-a command interface (icom);

-display interface (idis);

-a communication line (Acom 1); and

a command line (circ) having a memory and arranged to cooperate with the operation of the measuring device (A),

said at least one body and/or physiological measurement device (A) being able to exchange information with said mobile terminal (T) according to a first communication protocol, and said mobile terminal (T) being able to exchange information with a plurality of body and/or physiological measurement devices (A) according to a first communication protocol, and then (Ediv _ u) obtaining at least one measurement information (mes) from at least one body and/or physiological measurement device (A), each measurement information (mes) comprising a user identifier (id) and a time-stamped measurement value (vm),

- (Epla) detecting a remote server (S) capable of exchanging information with said mobile terminal (T) according to a second communication protocol, and then (Epla _ u) transmitting at least one collected information (col) to said remote server (S), said method further comprising the step of creating and/or modifying said at least one collected information (col) from said measurement information (mes), each collected information (col) comprising a user identifier (id) and a measurement value (vm) marked with a time stamp.

2. Method for processing physical and/or physiological measurements associated with a plurality of user profiles by means of a mobile terminal (T) of a user according to claim 1, further comprising (Epla _ d) receiving at least one update message (upd) from said remote server (S), each update message (upd) comprising a user identifier (id) and a fourth confirmation value (vc) associated with said user, said fourth confirmation value being obtained by a reduction in the storage of a measurement value corresponding to said fourth confirmation value after processing by the server.

3. Method of handling physical and/or physiological measurements related to a plurality of user profiles by means of a mobile terminal (T) of a user according to claim 1 or 2, further comprising the step of modifying the locally copied information (cop) from the updated information (upd) and/or the measurement information (mes) (E0div _ d).

4. Method for processing physical and/or physiological measurements related to a plurality of user profiles by means of a mobile terminal (T) of a user according to claim 1 or 2, wherein said collected information (col) additionally comprises an indication related to the user (usr).

5. Method for processing physical and/or physiological measurements related to a plurality of user profiles by means of a mobile terminal (T) of a user according to claim 1 or 2, wherein said update information (upd) and/or local copy information (cop) comprises a return indication related to the user (usr).

6. Method for processing physical and/or physiological measurements related to a plurality of user profiles by means of a mobile terminal (T) of a user according to claim 1 or 2, wherein said measurement information (mes) comprises a plurality of measurement values (vm).

7. Method for processing physical and/or physiological measurements related to a plurality of user profiles by means of a mobile terminal (T) of a user according to claim 1 or 2, wherein said update information (upd) comprises a plurality of fourth confirmation values (vc).

8. Method of processing physical and/or physiological measurements related to a plurality of user profiles by means of a mobile terminal (T) of a user according to claim 1 or 2, wherein:

-acquiring (Ediv _ u) by a mobile terminal (T) at least two measurement information (mes) from a physical and/or physiological measurement device (a), a first measurement information (mes) comprising a first user identifier (id) and a time-stamped first measurement value (vm), a second measurement information (mes) comprising a second user identifier (id) and a time-stamped second measurement value (vm), and

-at least two collected information (col) are transmitted to the remote server (S) (Epla _ u), a first collected information (col) comprising a first user identifier (id) and a first measurement value (vm) time-stamped, a second collected information (col) comprising a second user identifier (id) and a second measurement value (vm) time-stamped, and/or wherein two update information (upd) are received from the remote server (S), a first update information (upd) comprising a first user identifier (id) and a first confirmation value (vc) related to the first user, a second update information (upd) comprising a second user identifier (id) and a second confirmation value (vc) related to the second user, the first confirmation value being obtained after the server processing the measurement value corresponding to the first confirmation value to reduce the amount of storage, the second confirmation value is obtained by processing a measured value corresponding to the second confirmation value by the server to reduce the storage amount.

9. A computer readable storage medium comprising code instructions for implementing the steps of the method according to any one of claims 1 to 8 when executed on a processor (p) of a mobile terminal (T).

10. The computer-readable storage medium of claim 9, arranged in the form of an application downloadable at a mobile terminal (T) when the code instructions are executed on the server (p).

11. A mobile terminal (T) comprising code instructions according to any of claims 9 or 10 stored in a memory, the mobile terminal (T) being arranged to execute the code instructions.

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