METHOD AND DEVICE FOR DRIVING ASSISTANCE USING MEASURING PERIPHERAL OF AT LEAST ONE PHYSIOLOGICAL PA

专利摘要:
The invention relates to a method for assisting the driving of a vehicle, implemented by a mobile device and comprising steps of: - Connection (21) with a device for measuring at least one physiological parameter of a conductor, - Reception (22) of measurements of the physiological parameter, - Determination (23) of a state of health of said conductor from the physiological parameters received, characterized in that it furthermore comprises steps of: - Connection (24) ) with a computer of a vehicle, - Selection (25) of a profile associated with said driver, said profile comprising associations between predefined health conditions, on the one hand, and configuration parameters of the vehicle on the other hand , - Determination (26) of vehicle configuration parameters from the determined health status and the selected profile, - Transmission (27) to the vehicle computer of the determined configuration parameters.
公开号:FR3040673A1
申请号:FR1558369
申请日:2015-09-09
公开日:2017-03-10
发明作者:Virginie Morel-Gardien；Lise Bouzat
申请人:Peugeot Citroen Automobiles SA；
IPC主号:

专利说明:

The invention relates to assistance to drivers and more particularly to drivers likely to experience a permanent or momentary health problem.
Document DE102012002037 discloses a device comprising sensors distributed on a vehicle seat back for measuring vital signs of a driver. In the event of driver failure, the device is able to issue an alert.
Such a device has the particular disadvantage of not detecting certain pathologies. In addition, the device is not customizable by the user. It does not make available to the driver all the resources of the vehicle that he may need while his health is degraded. The invention therefore aims to remedy the aforementioned problems. It proposes more specifically for this purpose a method for assisting the driving of a vehicle, implemented by a mobile device and comprising steps of:
Connection with a device for measuring at least one physiological parameter of a driver, Receipt of measurements of the physiological parameter, Determination of a health condition of said driver from the physiological parameters received,
Characterized in that it further comprises steps of:
Connection with a computer of a vehicle, Selection of a profile associated with said driver, said profile comprising associations between predefined health states, on the one hand, and vehicle configuration parameters, on the other hand, Determination of parameters vehicle configuration from the determined health status and the selected profile,
Transmission to the vehicle calculator of the determined configuration parameters.
The device according to the invention makes it possible to establish an interface between the state of health of the driver and the vehicle. The vehicle adapts to the driver's state of health according to the configuration parameters that are entered in the profile.
The device according to the invention also has the advantage of operating autonomously without requiring an Internet connection.
In addition, none of the medical data is transmitted to the vehicle. Indeed, only the configuration parameters are transmitted to the vehicle. In this way the confidentiality of the data is ensured.
According to one embodiment of the invention, the step of receiving the measurements of the physiological parameter comprises an electroencephalographic recording, the measured physiological parameter being representative of the electrical activity of the driver's brain. This characteristic has the advantage of making it possible to detect a deterioration of a state of health that can only be detected via this physiological parameter.
According to one characteristic of the invention, one of the predefined health conditions corresponds to a risk of epileptic seizure. This characteristic makes it possible to adapt the configuration of the vehicle in the specific case of a risk of epileptic seizure.
According to one characteristic of the invention, one of the predefined health conditions corresponds to a risk of hypoglycaemia or hyperglycemia of diabetic drivers. This characteristic makes it possible to adapt the configuration of the vehicle in the specific case of a risk of a hypoglycemia or hyperglycemia crisis.
According to a characteristic of the invention, the device for measuring at least one physiological parameter is a connected garment. This characteristic makes it possible to place sensors as close to the body as possible and to obtain impossible measurements of parameters otherwise.
According to another embodiment of the invention, the step of receiving the measurements of the physiological parameter comprises the recording of heartbeats of the driver.
According to one characteristic of the invention, the device for measuring at least one physiological parameter is a connected bracelet or watch.
According to one characteristic of the invention, the device for measuring at least one physiological parameter is an external sensor for recording, measuring and voice analysis of the driver's speech.
According to one characteristic of the invention, the device for measuring at least one physiological parameter is an external camera-type sensor for measuring and analyzing the driver's behavioral behavior.
According to another characteristic of the invention, the profile comprises at least three different predefined health states: a first state of health corresponding to a satisfactory state of the driver, a second state of health requiring surveillance and a third state of health in which the driver is no longer able to drive.
This characteristic makes it possible to gradually consider the health of the driver and makes it possible to adapt the configuration parameters of the vehicle accordingly.
According to another characteristic of the invention, the profile is further associated with said vehicle. The use of a specific profile for each vehicle makes it possible to adapt the configuration parameters according to the equipment available in the vehicle (presence or absence of an emergency call or an autonomous driving mode). The invention also relates to a device for assisting the driving of a vehicle, comprising: connection means with a device for measuring at least one physiological parameter of a conductor, means for receiving measurements of the physiological parameter means for determining a state of health of said driver from the physiological parameters received,
Characterized in that it further comprises: connection means with a computer of a vehicle, means for selecting a profile associated with said driver, said profile comprising associations between predefined health conditions, on the one hand , and vehicle configuration parameters on the other hand, means for determining the configuration parameters of the vehicle from the determined health state, means for transmitting to the computer configuration parameters determined. The invention also relates to a system for driving a vehicle comprising a computer, characterized in that it also comprises a device for measuring at least one physiological parameter of a driver and a mobile device according to the invention. invention, connected, on the one hand, to said measuring device and, on the other hand, to said computer. Other features and advantages of the invention will emerge on examining the following detailed description, and the accompanying drawings, in which: FIG. 1 illustrates a schematic view of a driving assistance system according to the invention; FIG. 2 shows a logic diagram illustrating the method according to the invention.
The attached drawings may not only serve to complete the invention, but also contribute to its definition, if any.
With reference to FIG. 1, the driving assistance system 10 according to the invention comprises a mobile device 11, a device 12 for measuring at least one physiological parameter of a driver and a computer 13 on board a vehicle 14.
In what follows, it is considered by way of non-limiting example that the vehicle 14 is automotive type. But the invention is not limited to this embodiment. Indeed, it concerns any type of vehicle, i.e thermal, electric, the two wheels of types: scooters, cycles with or without electric assistance.
The computer 13 on board the vehicle comprises at least one processor and at least one memory. The computer 13 further comprises wireless or / and wired communication means. The mobile device 11 and the computer 13 exchange data via wireless communication (for example Bluetooth or wifi) or by wired communication.
The computer 13 comprises means for receiving configuration parameters and means for controlling the application of these configuration parameters to the various equipment of the vehicle.
The computer 13 is for example able to control: the activation or deactivation of the air conditioning of the passenger compartment, the switching on or off of a lighting of the passenger compartment, sending an emergency call , activation of an autonomous driving mode that partially or fully supports the vehicle controls.
The device 12 is able to measure and / or analyze one or more physiological parameters of a driver such as for example: the heart rate, the cerebral electrical activity, the frequency of the breathing or the blood sugar. The device 12 further comprises means of connection to the mobile device 11. The mobile device 11 and the device 12 exchange data via wireless communication (for example Bluetooth or wifi) or by wired communication.
According to one embodiment, the device 12 is a connected garment capable of measuring a physiological parameter representative of the cerebral electrical activity of a conductor and making it possible to establish an electroencephalogram.
We know, for example, by the document "BIOSERENITY RAISES 3 MILLION EUROS IN SEED ROUND" (published on 04/06/2015 and available on the website http://www.bioserenity.com/img/press_en_2015-06- 04_Bioserenity.pdf) a connected garment associated with a mobile application allowing the recording of continuous electroencephalography. The garment is equipped with integrated biometric sensors recording body parameters. It includes a T-shirt and a hat. The mobile application analyzes the data coming from the garment.
According to another embodiment, the device 12 is a connected bracelet able to measure the heart rate.
According to another embodiment, the device 12 is a connected watch capable of measuring the heart rate.
According to another embodiment, the device 12 is an onboard camera for measuring the heart rate, the level of awakening of the driver.
According to another embodiment, the device 12 is an on-board microphone capable of recording the voice of the driver to perform the driver's voice analysis concerning his waking state or even his state of health (eg: stroke detection and / or cardiac malaise).
The mobile device 11 is for example a smart mobile phone (or "smartphone"), a touch pad or a laptop computer comprising: - connection means with a peripheral device 12 for measuring at least one physiological parameter of a driver, means for receiving the measurements of the physiological parameter, means for determining a state of health of said conductor from the physiological parameters received.
The mobile device 11 further comprises: means of connection with a computer 13 of a vehicle 14, means for selecting a profile associated with said driver, said profile comprising associations between predefined health states, one hand, and configuration parameters of the vehicle 14 on the other hand, - means for determining the configuration parameters of the vehicle 14 from the determined state of health, - means for transmitting to the computer 13 of the configuration parameters determined. The invention also relates to a method of assisting the driving of a vehicle 14. The method according to the invention is implemented by the mobile device 11 and comprises the following steps.
The method according to the invention comprises first of all a connection step 21 of the mobile device 11 with the peripheral device 12 for measuring at least one physiological parameter of the driver. The connection between these two devices 11, 12 is for example a wireless connection type Bluetooth.
Then, the mobile device 11 receives measurements of the physiological parameter from the measurement device.
The mobile device is then able to determine a state of health of the driver from the physiological parameters received.
According to an advantageous embodiment, the reception 22 of the measurements of the physiological parameter comprises an electroencephalographic recording. The physiological parameter measured is then representative of the electrical activity of the driver's brain. In this case, one of the predefined health conditions may correspond to a risk of epileptic seizure. In other words, the mobile device is able to identify an imminent epileptic fit. The use of a connected garment having an element to be arranged on the driver's head (for example a cap) is particularly suitable for this embodiment.
Alternatively or in a complementary manner to the preceding embodiment, the reception 22 of the measurements of the physiological parameter includes the cardiac pulse recording of the driver. In this case, one of the predefined health conditions corresponds for example to heart palpitations.
The measurement of the heartbeat of the driver can be performed by a connected bracelet, by the previously mentioned connected garment or by any other suitable measuring means.
According to one embodiment of the invention, the profile comprises at least three different predefined health states: - a first state of health corresponding to a satisfactory state of the driver, - a second state of health requiring surveillance and - a third state for which the driver is no longer able to drive.
In this embodiment, the mobile device for example reports the health status by displaying a color code: green for the first state of health, orange for the second and red for the third.
The method according to the invention also comprises a connection step 24 of the mobile device 11 with the computer 13 of the vehicle 14. The connection between these two devices 11, 13 is for example a wireless connection type Bluetooth or Wifi.
The mobile device then selects a profile associated, on the one hand, with the driver and, on the other hand, with the vehicle 14. The profile comprises associations between predefined health states, on the one hand, and configuration parameters of the vehicle 14 on the other hand.
This profile makes it possible to establish a relationship between a state of health detected by the mobile device 11 and an action or configuration of the vehicle 14 in response to this state of health. For example, the profile includes an association between the health status "risk of seizure crisis" with the configuration parameters of the vehicle 14 allowing the emission of an emergency call by the vehicle and / or the activation of an autonomous mode of driving the vehicle 14.
The profile includes for example the following associations: - For the first state of health, the driver is fine, no parameter of the vehicle is changed; - For the second state of health, the modified configuration parameters are: cabin temperature (set to a preset temperature), selection of a musical or audio program, selection of a predefined driving position, selection of a bright atmosphere in the passenger compartment, starting the ventilation; - For the third state of health, the modified configuration parameters are: emergency call, automatic parking on the side of the road, telephone call to a pre-filled contact list.
Thus, when a health condition is identified by the mobile device 11, the mobile device 11 determines the configuration parameters of the vehicle 14 by consulting the selected profile.
The mobile device 11 transmits 27 to the computer 13 of the vehicle 14 configuration parameters determined.
In the example, the mobile device 11 transmits 27 to the computer 13 configuration parameters corresponding to the transmission of an emergency call. In response, the computer 13 controls the transmission of an emergency call.

权利要求:
Claims (10)
[1" id="c-fr-0001]
A method of assisting driving a vehicle (14), implemented by a mobile device (11) and comprising steps of: - Connection (21) with a device (12) measuring at least a physiological parameter of a conductor, - Reception (22) of measurements of the physiological parameter, - Determination (23) of a state of health of said conductor from the physiological parameters received, characterized in that it further comprises steps of: - Connection (24) with a computer (13) of a vehicle (14), - Selection (25) of a profile associated with said driver, said profile comprising associations between predefined health conditions, on the one hand , and vehicle configuration parameters (14) on the other hand, - Determination (26) of vehicle configuration parameters (14) from the determined health status and the selected profile, - Transmission (27) to computer (13) of the vehicle (14) of the parameters of determined configuration.
[2" id="c-fr-0002]
Driving assistance method according to claim 1, characterized in that the receiving step (22) of the measurements of the physiological parameter comprises an electroencephalographic recording, the measured physiological parameter being representative of the activity electric driver's brain.
[3" id="c-fr-0003]
3. Driving assistance method according to claim 2, characterized in that one of the predefined health conditions corresponds to a risk of epileptic seizure.
[4" id="c-fr-0004]
4. Driving assistance method according to one of the preceding claims, characterized in that the device (12) for measuring at least one physiological parameter is a connected garment.
[5" id="c-fr-0005]
5. Driving assistance method according to claim 1, characterized in that the reception step (22) of the physiological parameter measurements comprises the recording of heartbeats of the driver.
[6" id="c-fr-0006]
6. Driving assistance method according to claim 5, characterized in that the device (12) for measuring at least one physiological parameter is a connected bracelet or a connected watch.
[7" id="c-fr-0007]
7. Driving assistance method according to one of the preceding claims, characterized in that the profile comprises at least three different predefined health states: a first state of health corresponding to a satisfactory state of the driver, a second state of health. health requiring surveillance and a third state of health for in which the driver is no longer able to drive.
[8" id="c-fr-0008]
8. Driving assistance method according to one of the preceding claims, characterized in that the profile is further associated with said vehicle (14).
[9" id="c-fr-0009]
9. Device (11) for assisting the driving of a vehicle (14), comprising: - connection means with a device (12) for measuring at least one physiological parameter of a driver, - means of receiving the measurements of the physiological parameter, - means for determining a state of health of said conductor from the physiological parameters received, characterized in that it further comprises: - connection means with a computer (13) d a vehicle (14), means for selecting a profile associated with said driver, said profile comprising associations between predefined health states, on the one hand, and vehicle configuration parameters (14) on the other hand; - means for determining the configuration parameters of the vehicle from the determined state of health, - means for transmitting to the computer (13) configuration parameters determined.
[10" id="c-fr-0010]
10. System (10) for driving a vehicle (14) comprising a computer (13) characterized in that it further comprises a device (12) for measuring at least one physiological parameter of a conductor and a mobile device (11) according to the preceding claim, connected on the one hand to said measuring device (12) and on the other hand to said computer (13).

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FR3040673B1|2017-08-25|

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法律状态:
2016-08-22| PLFP| Fee payment|Year of fee payment: 2 |

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2017-03-10| PLSC| Search report ready|Effective date: 20170310 |

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2017-08-22| PLFP| Fee payment|Year of fee payment: 3 |

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2018-06-29| CA| Change of address|Effective date: 20180312 |

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2018-06-29| CD| Change of name or company name|Owner name: PEUGEOT CITROEN AUTOMOBILES SA, FR Effective date: 20180312 |

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2018-08-22| PLFP| Fee payment|Year of fee payment: 4 |

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2020-10-16| ST| Notification of lapse|Effective date: 20200910 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1558369A|FR3040673B1|2015-09-09|2015-09-09|METHOD AND DEVICE FOR DRIVING ASSISTANCE USING MEASURING PERIPHERAL OF AT LEAST ONE PHYSIOLOGICAL PARAMETER|FR1558369A| FR3040673B1|2015-09-09|2015-09-09|METHOD AND DEVICE FOR DRIVING ASSISTANCE USING MEASURING PERIPHERAL OF AT LEAST ONE PHYSIOLOGICAL PARAMETER|

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EP16770061.6A| EP3347255B1|2015-09-09|2016-08-30|Method and device for driving assistance using a peripheral for measuring at least one physiological parameter|

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CN201680052311.XA| CN108025752B|2015-09-09|2016-08-30|Method and device for assisting driving using a peripheral device for measuring at least one physiological parameter|

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PCT/FR2016/052147| WO2017042452A1|2015-09-09|2016-08-30|Method and device for driving assistance using a peripheral for measuring at least one physiological parameter|