FR2851159A3 - Visually impaired people guiding device, has detection module fixed on support of bracelet such that when bracelet is attached to arm of person, support maintains module following detection direction to form angle with arm direction - Google Patents

Abstract

The device has a detection module (30) to emit a signal in a given detection direction and capture reflected signal for detecting obstacles in the direction. The module is fixed on a support of a bracelet (10) such that when the bracelet is attached to an arm of the person, the support maintains the module following the direction to form an angle with an arm direction. The module has a battery detachably fixed on the bracelet.

Description

i

  The invention relates to the field of obstacle detection systems for the visually impaired.

  To allow one of these people to move autonomously, there are various guiding systems whose function is to warn the person by an audible or tactile signal of the proximity of an obstacle.

  US 3,654,477 (published Apr. 4, 1972) discloses an optical obstacle detection device integrated in spectacles.

  US 4280204 (published July 21, 1981) discloses an ultrasonic obstacle detection device disposed on the stem of a long rod. The detection device makes it possible to detect the obstacles situated in height.

  US 4,712,003 (published December 8, 1987) discloses a long rod comprising a handle in which an optical distance measuring device and a vibration plate in contact with the user's hand are integrated. The amplitude of the vibrations of the plate depends on the measured distance of an obstacle.

  Document US 5,097,856 (published March 24, 1992) discloses a rod comprising at its lower end a detection box mounted on wheels. The housing comprises detection means capable of detecting obstacles and voice synthesis means capable of informing the user of the presence of obstacles.

  US 6,928,010-B1 (published Oct. 2, 2001) discloses a portable distance measuring device. The device comprises optical distance measuring means and a touch cursor on which the user places a finger. The cursor moves according to the distance of a detected obstacle.

  US 6,489,605-B, published December 3, 2002) discloses a long rod equipped with an optical detection device disposed on the rod of the cane. The detection device makes it possible to detect obstacles located in height, in the plane of the cane.

  An object of the invention is to provide a guide device compact and particularly practical use.

  It proposes a guiding device for a visually impaired person comprising a detection module able to emit a signal in a given detection direction and to pick up a signal reflected for the detection of a possible obstacle in this direction, said detection module comprising battery means and being carried by fastening means which allow its attachment to the visually impaired person or to an object which it would hold, characterized in that the detection module, or a part thereof, which comprises the battery means, is removably attached to said attachment means and can be detached (e) to be put in place on means for recharging its battery means.

  In this way, a device is available which is particularly suitable for everyday use.

  Furthermore, the invention also proposes that the attachment means comprise means for attaching the module to the arm of the visually impaired person, the module being fixed on said attachment means so that said means are in place on said arm the detection direction forms an angle (a) of between 10 and 60 degrees with the direction of the arm of the person.

  Advantageously, the attachment means comprise a wristband adapted to be attached to the wrist of the person. Thus, the device of the invention can be worn as a watch, therefore it is particularly compact and relatively discreet.

  The user controls the detection direction of the device by moving the arm forward, substantially in the direction in which it wishes to move. This feature allows it to sense the direction of detection directly.

  The user, by performing a circular mowing movement of the arm, sweeps the surface of the ground to detect possible obstacles.

  The angle formed between the direction of detection and the direction of the arm of the user prevents the detection field of the detection module is disturbed by the hand of the user.

  Preferably, the detection direction forms an angle substantially equal to 45 degrees with the direction of the arm of the user.

  Other features and advantages will become apparent from the description which follows, which is purely illustrative and non-limiting and should be read with reference to the appended figures, among which: FIG. 1 schematically represents an example of a guide device 10 conforming to a Embodiment of the invention; FIG. 2 diagrammatically represents the guiding device when it is attached to the wrist of a user; FIG. 3 schematically represents the arm movement realized by a user equipped with the guiding device; FIG. 4 represents a calibration step of the guiding device; FIG. 5 represents an ascending type obstacle detection step; FIG. 6 represents a descending obstacle detection step; FIG. schematically represents a variant of the guiding device of FIG. 1; FIG. 8 schematically represents the various elements of the sensing module of the guide device.

  In Figure 1, the guide device 100 comprises a wristband adapted to be attached to the wrist of a user. It also comprises a support 20 fixed on the bracelet 10 and a detection module 30 able to be fixed detachably on the support 20.

  The support 20 extends transversely to the bracelet 10. It has a flat receiving surface 21 intended to receive the detection module 30. This receiving surface 21 extends in a plane forming an angle α with the surface of the bracelet 10 where ac is between 10 and 60 degrees.

  The orientation of the receiving surface 21 determines the orientation of the detection module when it is disposed on the receiving surface.

  This orientation therefore determines the direction of detection, that is to say the direction of emission of the beam emitted by the detection module.

  As illustrated in FIG. 2, when the bracelet 10 is attached to the wrist of a person, the support 20 holds the detection module 30 in a detection direction D forming an angle α with the direction of the arm of the person ( in this case, it is the axis of the bracelet).

  The angle a is between 10 and 60 degrees. It is preferably equal to 45 degrees.

  As illustrated in FIG. 1, the detection module 30 is detachably fastened to the bracelet 10. For this purpose, the receiving surface 21 of the support 20 has two transverse grooves 24 and 25 in which clipping lugs 34 may be inserted. The support 20 has on its front and rear faces buttons 26 and 27, which in a known manner, when pressed simultaneously, release the clipping pins 34 and 35 from the grooves 24 and 25. .

  According to a variant 200 of the device of the invention shown in FIG. 7, the support 20 comprises two lateral grooves extending one opposite the other. The detection module 30 is able to be slid between the two grooves and to be held in the support 20 by clipping. The support comprises buttons 26 and 27 which, when pressed simultaneously, release the detection module 30. A spring 28 is provided at the end of the support 20 between the two grooves to push the detection module 30 out of the grooves when 'he is free.

  In this figure, the detection module 30 further comprises a light indicator 39 indicating that the person is visually impaired. This indicator warns other nearby people that the user equipped with the guiding device 200 is visually impaired.

  The detection module 30 consists mainly of a distance measuring system, a battery, a speaker that can be vibrator and a calibration button.

  The detection module 30 may at any time be detached from its support 20 and placed on a charger to enable charging of the battery. For this purpose, the detection module 30 has two terminals plus (+) and minus (-) that allow it to be connected to a battery charger.

  The distance measuring system comprises a transmitting element 31 and a receiving element 32 disposed on the front surface 10 of the detection module 30.

  The distance measuring system is for example an infrared system. In this case, the emission element 31 is a laser diode able to emit a beam in the infrared frequency range. The receiving element 32 is a photodiode which is adapted to receive the reflected beam 15 and convert it into an electrical signal. In a conventional manner, the distance measuring system is able to measure the time interval between the emission of the beam and its reception and to deduce therefrom an estimate of the distance of an obstacle arranged in the direction D of the beam. infrared radiation.

  The distance measuring system may also be an ultrasound system as illustrated in FIG. 8. In this case, the transmitting and receiving elements 31 and 32 are ultrasonic transducers. A microprocessor drives an oscillator 41 which resonates the transmit transducer 31. The receive transducer 32 transforms the reflected ultrasound beam into an electrical signal. An amplifier 42 is provided to improve the received electrical signal before transmitting it to the microprocessor 44. The microprocessor 44 is able to determine the distance of an obstacle disposed in the direction D of emission of the ultrasound beam according to the interval of time elapsing between transmission and reception of the signal.

  Depending on the calculated distance, the microprocessor 44 controls a loudspeaker 33 which emits a sound sequence audible by the user, this sequence is indicative of the distance to which the detected obstacle is located.

  As shown in FIG. 3, the user controls the detection direction of the guiding device by orienting the arm forward. While walking, he performs a circular sweeping motion of the arm so as to angularly move the detection beam on the ground surface to detect possible obstacles.

  In an implementation of the invention, the detection module 30 comprises adjustment means allowing the user to record a reference distance do.

  As represented in FIG. 4, this reference distance δ corresponds to the distance measured by the detection module 30 when no obstacle is in the vicinity of the user, that is to say when the user is standing on a surface substantially horizontal and flat. This distance of course depends on the size of the user. Therefore, the detection device is operable in a calibration mode in which it measures the reference distance and stores it. This calibration mode is triggered by the user simply by pressing a button disposed on the detection module 30. The value of the reference distance 20 thus measured is recorded in a memory space of the microprocessor 44.

  During the normal movement of the user, the detection device regularly measures the distance in the measurement direction D.

  At each measurement, the microprocessor 44 compares the measured distance with the reference distance..

  The microprocessor 44 controls the speaker or vibrator 33 in the following manner. When the measured distance is equal to the reference distance,, then the speaker or vibrator 33 does not emit any audible indication. On the other hand, when the detection device 30 measures a large variation in the measured distance, the loudspeaker or vibrator 33 emits a sound signal. The tone of this signal is a function of the amplitude of the distance variation.

  In Figure 5, the user stands near a discontinuity of the ground in the form of a rising step. The distance measured by the detection device 30 goes from do to d1, the distance d1 being less than the reference distance: dl - <do. The speaker or vibrator then emits a signal in the bass.

  In Figure 6, the user stands near a discontinuity in the form of a downward march. The distance measured by the detection device 30 goes from do to d2, the distance d2 being greater than the reference distance: d2> - do. The loudspeaker or vibrator then emits a signal in the treble.

  The loudspeaker or vibrator 33 is controlled by the microprocessor 44 so that the tone of the sound signal emitted by the speaker or vibrator 33 is representative of the measured distance variation. Thus, the emitted sound signal gives an indication to the user about the nature (downward or upward) and the size of the obstacle that is in close proximity to him.

  An operating mode of the detection device has been described in which the loudspeaker or vibrator is controlled to generate sounds whose tone varies as a function of the measured distance variation.

The speaker or vibrator could be controlled to generate different sounds. It could for example generate prerecorded spoken sentences. These sentences could include in particular indications as to the distances measured by the detection device.

Claims (14)

  1. Guiding device (100, 200) for a visually impaired person comprising a detection module (30) able to emit a signal in a given detection direction (D) and to pick up a signal reflected for the detection of a signal. possible obstacle in this direction, said detection module comprising battery means and being carried by fastening means which allow its attachment to the visually impaired person or on an object that it would hold characterized in that the detection module (30 ), or a part thereof which comprises the battery means, is removably attached to said attachment means (10) and can be detached from it to be put in place on means allowing recharging its battery means.   2. Device according to claim 1, characterized in that the attachment means comprise means for attaching the module to the arm of the visually impaired person, the module being fixed on said attachment means so that said means are in place on said arm, said arm the detection direction (D) forms an angle (ar) between 10 and 60 degrees with the direction of the arm of the person.   3. Device according to claim 1, characterized in that the detection direction (D) forms an angle substantially equal to 45 degrees with the direction of the arm of the person.   4. Device according to one of claims 1 to 3, characterized in that the attachment means comprises a wristband adapted to be attached to the wrist of the person.   5. Device according to claim 4, characterized in that it comprises a support (20) fixed to the bracelet and intended to receive the detection module (30), said fixing means and said module comprising fixing means (24). , 25, 34, 35) for fastening by clipping said module (30) onto said support (20).   6. Device according to one of the claims   the detection module (30) comprises ultrasonic distances (31, 32).   7. Device according to one of claims 5 that the detection module (30) comprises infrared distances.   8. Device according to one of the claims   the detection module (30) comprises laser distances.   9. Device according to one of the claims   1 to 5, characterized in that measuring means from 1 to 5, characterized in that measuring means from 1 to 5, characterized in that measuring means from 1 to 8, characterized in that the detection module (30) comprises means (44) for measuring a distance variation in the detection direction (D) and a loudspeaker (33), the loudspeaker (33) being adapted to emit an audible signal as a function of the measured distance variation.   10. Device according to one of claims 1 to 9, characterized in that it comprises means (44) for measuring a distance in the direction of detection (D) and means for recording a reference distance (do) corresponding at a distance measured by the detection module (30) when no obstacle is in the vicinity of the user.   11. Device according to one of claims 9 and 10 characterized in that it comprises processing means (44) adapted to compare a measured distance (d1, d2) with the reference distance (do) and according to this comparing to controlling the speaker (33) to generate a given sound signal.   12 Device according to one of claims 9 to 11, characterized in that the speaker (33) is adapted to generate a sound signal whose tone depends on the measured distance variation.   13. Device according to one of claims 9 to 11, characterized in that the speaker (33) is adapted to generate a sound signal in the form of a spoken sentence.   14. Device according to claim 13 characterized in that the speaker (33) is adapted to generate a sound signal in the form of a spoken sentence corresponding to a distance indication.   Device according to one of claims 1 to 14 characterized in that it comprises a light indicator indicating that the person is visually impaired.