FR2939262A1 - Device for measuring instantaneous exposition of user of global system for mobile communication radio telephone to electromagnetic radiations, uses algorithm for collecting information to measure exposition of user to radiations - Google Patents

Abstract

The device uses an algorithm for collecting information relative to communication quality, consumption of battery, and calculation and memory capacities of a radio telephone, and information relative to emission power of a base station and reception power of the telephone for measuring exposition of a user to radiations. The measured value is compared with a limit fixed by the user. The operation of the telephone is suspended based on the choice exerted by the user.

Description

The present invention relates to a device which allows the user of a GSM radiotelephone (or any other device emitting radio waves, electromagnetic waves, or other), to control its own exposure to these radiations and to limit this exhibition when it so wishes and at the level it deems satisfactory.

Users of GSM radiotelephones (and other electromagnetic emitting devices), either individually or through consumer associations, express concern about the long-term effects of their exposure to these waves. They would greatly benefit from a device that would allow them to control their exposure and limit it to their liking. This is the purpose of the present invention. Most GSM mobiles (and other radio network technologies) perform a reception power measurement. It is usually indicated on the screen of the mobile in the form of a bar indicator: a bar, the reception is bad, 5 bars the reception is excellent. The transmission power can be estimated inversely proportional to the reception power. In addition the transmission power is limited, and when the maximum emission does not reach an operator base, the mobile detects this failure and displays a special indication on the screen. Moreover, most mobiles feature an economical operating routine that saves battery as much as possible. And again, the level of battery consumption, which is often recorded by the mobile, can be correlated with the level of emission and thus with the level of exposure. Finally, many mobile and operators can update the embedded software or recorded in the mobile electronics simply by communication between the operator's computers and the mobile, or even by communication between a computer and the mobile.

From these data, it is possible to provide the user with information that enables him to control his exposure to radiation. The corresponding software will comprise the following modules: module 1: correlation between the data available on the mobile and the exposure measurement. This part will depend essentially on the mobile model. The user will have the choice between different modules depending on the mobile model and algorithms that can be found on free software sites. The user may be offered a standard algorithm defined by the mobile provider, and possibly an algorithm defined by the GSM operator.

2939262 Page 2 module 2: calculation of a synthetic exposure index. The level of exposure varies depending on whether the mobile is off, on standby or in communication; and when in communication, the level of exposure varies depending on whether a hands-free kit or device is used at the ear. The cumulative exposure depends on the level of instantaneous exposure, which can be measured at regular intervals, for example every 5 seconds, weighted by the exposure time. The mobile provider will be able to install a synthetic exposure calculation. The operator of the GSM network can install on the mobile its own calculation and obtain communication by the network of this index, if the user agrees. Finally the user will be able to install a method of calculating the synthetic exposure index that he will program himself or that he can obtain on a free software site. Of these algorithms, at least one will express the synthetic exposure using a mean and a standard deviation. Module 3: The program will include an alarm to the user when a predefined exposure level is crossed either by the instantaneous exposure measurement or by the synthetic measurement. The user can predefine the feedback such as sound alarm, mention on the screen, or even suspend the communication. - module 4: search for the preferred operator. The mobile can, from time to time, identify an operator that would allow him to reduce his level of exposure. This information will be recorded and returned in the form of synthetic information of the kind given the use of the mobile over the last days, your exposure level would have been reduced by x% if you had been a customer of the operator Y. Module 5: Saving information. The user can save this information by sending it on his computer, for example in the form of a periodic SMS. It will be able to obtain on a software-free site a software which will enable it to analyze this data and to make them usable, in particular in case of change of mobile or operator or change of algorithm. module 6: mobile or operator transfer. When the user changes mobile or operator, a module will allow him to transfer the history of his exposure on the new mobile or to make this history compatible with the data of the new operator. module 7: use of the network operator. The operator will have a computing module that will allow him to improve his service to the user, for example by training sales people who will have the task of helping the user to better use his mobile, or, for another example, by providing adequate data to the technical service to modify the layout of the bases. module 8: use of the base and mobile builder. The base and mobile manufacturer will be able to enrich its sales conditions in order to obtain user exposure information, information that it can use to improve its models 5 on the one hand and to improve its service to network operators by material.

Claims (4)

CLAIMS1) Device establishing a measurement of the instantaneous exposure of the radiotelephone user to electromagnetic radiation by using the information available on the apparatus (such as the quality of communication with the network, the consumption of the battery) or on the network (such as the power of the base broadcast, the reception power from the mobile) and the memory and computation capabilities available in the device, coupled with an appropriate algorithm, with a periodicity determined by the user . These instantaneous measurements are used to suspend the operation of the mobile when the exposure level exceeds the maximum limit set by the user, except for communication with some predefined correspondents (emergency 112, office, home ...). These successive measurements are summarized in a synthetic information of exposure during a period, by the average of the instantaneous measurements and their standard deviation, by distinguishing the different circumstances of the measurement: in pause, in communication the apparatus with the ear, in communication with hands-free kit, in car communication ... circumstances selected by the user among the various options offered by the device. The successive measurements and / or the synthetic index are periodically transmitted to the computer defined by the user using a wired communication or SMS. 2) Device according to claim 1, using an algorithm defined by the operator of the network, with the agreement of the user, transmits to the operator the information useful for, among other things, improve its commercial policy and its strategy. installation of the bases. 3) Device according to claim 1, measuring the potential communication quality with the other available networks in the user's operating area, so as to evaluate the possible improvement of the radiation exposure by the use of a other network. 4) Device according to claim 1, using an algorithm defined by the manufacturer of mobiles and or bases, and, with the agreement of the user, allowing him to collect useful information to improve its products and software.