JPH1114747A - Object detecting device for vehicle - Google Patents

Abstract

PROBLEM TO BE SOLVED: To detect an object even when the detecting direction is vertically shifted by setting a radar so that a plurality of vertically differed detecting areas are mutually overlapped, and the overlap area includes the area parallel to a traveling road surface. SOLUTION: A radar 11 loaded on the front part of a vehicle V is constituted so as to be capable of detecting an object in a plurality of vertically differed detecting areas AH, AL, respectively. The overlap area A0 in which the areas AH, AL are mutually overlapped is set so as to include the area parallel to a traveling road surface. Thus, when the detecting direction of the radar 11 is not vertically shifted, the object can be surely caught in the area A0 . Even if it is vertically shifted, the object can be detected in either one of the areas AH, AL. The electromagnetic wave generating means of the radar 11 is provided with two radar diodes for vertically transmitting electromagnetic waves. Thus, an object can be detected in a plurality of detecting areas AH, AL, respectively, with a simple structure.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vehicle object detecting apparatus for detecting an object based on transmission of an electromagnetic wave and reception of a reflected wave of the electromagnetic wave.

[0002] In the present invention, the term "object" refers to an object that may obstruct the running of a vehicle. For example, a moving object such as a preceding vehicle, a stationary vehicle such as a stationary vehicle on a road, and a stationary object such as a falling object. It points.

[0003]

2. Description of the Related Art Conventionally, for example, Japanese Patent Application Laid-Open No. 8-240660.
As disclosed in Japanese Patent Application Laid-Open Publication No. H10-163, based on the detection result of a radar that transmits an electromagnetic wave such as a laser in the traveling direction of a vehicle and receives a reflected wave of the transmitted electromagnetic wave from an object, the electromagnetic wave exists in the traveling direction of the vehicle. It is known that an object that detects an object to be evacuated and, based on the detection result, issues an alarm that prompts the driver to perform an evasive movement or automatically performs an avoiding operation of the vehicle to avoid a collision with the object. I have.

[0004]

The above-mentioned conventional apparatus detects only an object existing on the path of a vehicle, and transmits an electromagnetic wave in a direction substantially parallel to a road in a traveling direction. Only objects existing in the traveling direction of the vehicle estimated based on the steering angle, the yaw rate, and the like are detected.

On an actual road on which a vehicle travels, an overpass or a sign is located above the road, or a cat's eye is embedded on the road surface. We want to avoid detecting those objects that should not. Therefore, it is conceivable to transmit an electromagnetic wave at a relatively narrow angle up and down and detect an object only in a direction substantially parallel to the road. However, although the detection direction of the radar is strictly adjusted at the stage of product shipment, vertical displacement may occur for some reason. For example, the radar detection direction shifts up and down with respect to the vehicle body due to a light collision of the vehicle, or the vehicle itself has a pitch angle due to suspension abnormality, installation of non-standard tires with different diameters before and after and overloading etc. The radar detection direction may shift up and down with respect to the road surface, and if such a shift increases, the radar that detects an object at a relatively narrow angle up and down as described above may not detect the object. Can be difficult.

The present invention has been made in view of such circumstances, and even if the radar detection direction is shifted up and down,
It is an object of the present invention to provide a vehicle object detection device capable of detecting an object.

[0007]

Means for Solving the Problems To achieve the above object, the invention according to claim 1 comprises an electromagnetic wave transmitting means for transmitting an electromagnetic wave and a reflected wave for receiving a reflected wave of the electromagnetic wave transmitted from the electromagnetic wave transmitting means. An object detection device for a vehicle, comprising: a radar having a receiving unit, which detects an object based on a detection result of the radar, wherein the radar is capable of detecting an object in a plurality of detection areas having different areas in the vertical direction. The detection areas are configured so that each detection area is overlapped with each other so that an overlap area includes an area parallel to a traveling road surface.

According to such a configuration, since the overlap area includes an area parallel to the traveling road surface, when the radar detection direction is not shifted in the vertical direction, the object can be reliably captured in the overlap area. Can be. In addition, even when the radar detection direction is displaced in the vertical direction, it is possible to detect an object in any of a plurality of detection areas with different areas in the vertical direction, making it difficult to detect the object Absent.

The invention according to claim 2 is the same as the above-described claim 1.
In addition to the configuration of the invention described, the radar detects that the object is present in an area outside the overlap area in a state where the attitude of the vehicle is substantially parallel to a traveling road surface, and the radar detects It is characterized by including an abnormality judging means for judging an abnormality.

[0010] According to the configuration of the second aspect of the present invention, the object should be detected in the overlap area including the area parallel to the traveling road surface in a normal state in which the radar detection direction is not shifted vertically. Accordingly, when it is detected that an object exists in an area other than the overlap area, it can be determined that the radar is in an abnormal state in which the detection direction is shifted upward or downward.

According to the third aspect of the present invention, in addition to the configuration of the second aspect of the present invention, the state in which the radar detects that an object exists in an area outside the overlap area is the first state. When the abnormality has continued for a predetermined time or more, the abnormality determination means determines that the radar is abnormal, so that it is possible to avoid erroneously determining that the radar is abnormal due to temporary shaking of the vehicle body or the like.

According to a fourth aspect of the present invention, in addition to the configuration of the second or third aspect, the invention further comprises a vehicle speed detecting means for detecting a speed of the vehicle, and the abnormality judging means detects the vehicle speed by the vehicle speed detecting means. When the value indicates a stopped state of the vehicle or a traveling state at substantially constant speed, it is determined that the posture of the vehicle is substantially parallel to the traveling road surface, so that the posture of the vehicle is substantially parallel to the traveling road surface. Can be easily detected.

According to a fifth aspect of the present invention, in addition to the configuration of any one of the first to fourth aspects, the electromagnetic wave transmitting means is provided in a plurality of directions having different angles in the vertical direction. By providing multiple transmitters that each transmit an electromagnetic wave, the radar has a simple configuration in which each transmitter individually transmits electromagnetic waves in each detection area, and the radar has the function of detecting objects in multiple detection areas. You can have. In addition, although the object is detected in the portion corresponding to the overlap region of the detection region of some transmitters among the plurality of transmitters, the portion corresponding to the overlap region of the detection region of some transmitters is detected. If no object is detected, it can be easily determined that some of the transmitters are out of order.

According to a sixth aspect of the present invention, in addition to the configuration of any one of the first to fifth aspects, the reflected wave receiving means includes a plurality of directions having different angles in the vertical direction. With a simple configuration in which each receiver individually receives the reflected waves in each detection area by providing a plurality of receivers that respectively receive reflected waves, a function of detecting an object in each of the plurality of detection areas Can be held by the radar. In addition, although the object is detected in a portion corresponding to the overlap region of the detection region of some receivers among a plurality of receivers, a portion corresponding to the overlap region of the detection region of some receivers is detected. If no object is detected, it can be easily determined that some of the receivers are out of order.

According to a seventh aspect of the present invention, in addition to the configuration of any of the second to sixth aspects, the abnormality determination means includes a step of determining whether the radar is in any of the detection areas while the vehicle is running. And determining that the radar is abnormal based on not detecting an object.

According to the configuration of the present invention, it is easy to determine that the radar itself is abnormal due to the fact that there is almost no object in the transmission direction of the electromagnetic wave while the vehicle is running. Can be determined.

According to an eighth aspect of the present invention, in addition to the configuration of the seventh aspect of the present invention, the abnormality determination means may be arranged such that the radar continues for at least a second predetermined time in any of the detection areas. The radar is determined to be abnormal based on not detecting an object, and by setting the second time in consideration of the case where the vehicle travels on a road with a small traffic volume, the abnormality of the radar itself is determined. It can be detected reliably.

According to the ninth aspect of the present invention, in addition to the configuration of the seventh or eighth aspect of the present invention, an abnormality notification which operates in response to the abnormality determination means determining that the radar is abnormal. By including the device, it is possible to promptly inform the driver that the radar is abnormal.

According to the tenth aspect of the present invention, in addition to the configuration of the ninth aspect of the present invention, the abnormality determining means includes
Until the radar detects an object, the determination result when the radar is determined to be abnormal is stored irrespective of the driving state of the vehicle, and a signal for informing the abnormality alarm is output as long as the storage is maintained. By doing so, even if the vehicle is stopped after the abnormality determining means determines that the radar is abnormal, the driver can be notified that the radar is abnormal when the vehicle is restarted.

According to an eleventh aspect of the present invention, in addition to the configuration of the second, third, seventh, eighth, or tenth aspect, the apparatus further comprises a vehicle speed detecting means for detecting a speed of the vehicle, and The means is configured to use the object determined as a moving object based on the detection result of the radar and the detection value of the vehicle speed detection means to determine whether the radar is abnormal, so that a sign, The radar is not determined to be abnormal based on the result of detecting a stationary object that does not hinder the running of a vehicle such as a cat's eye.

[0021]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described based on embodiments of the present invention shown in the accompanying drawings.

1 to 3 show a first embodiment of the present invention. FIG. 1 is a diagram showing a detection area of a radar mounted on a vehicle, and FIG. 2 is a block diagram showing a configuration of an object detection device. FIG. 3 is a diagram showing the configuration of the electromagnetic wave transmitting means.

[0023] First, in FIG. 1, the front portion of the vehicle V and the radar 1 ₁ is mounted, the radar 1 _1, for example in the direction of travel of the vehicle V, a plurality of, for example, of two with different angles in the vertical Objects are detected in the detection areas A _{H and} A _L , respectively.

The upper detection area A _H of the vehicle V is normal traveling state, i.e. opening angle of the forward upward example 4 degrees when traveling at almost constant speed on level ground at light load, the lower the detection area A _L has an opening angle of, for example, 4 degrees forward and downward when the vehicle V is in the normal running state, and the two detection areas A _H and _AL are when the vehicle V is in the normal running state. And an overlap area _AO that overlaps, for example, about twice so as to include a reflector of another vehicle existing in the traveling direction of the vehicle V.

[0025] In FIG. 2, the radar 1 ₁ emits an electromagnetic wave toward the direction of travel of the vehicle V in the detection area A _H, the plurality of directions having different angles in the vertical direction in correspondence to A _L an electromagnetic wave transmitting means 2 _1, the electromagnetic wave transmitting means 2
And a reflected wave receiving means 3 ₁ for receiving a reflected wave returned from the direction of travel on the basis of the electromagnetic wave outgoing from _1, a drive means 6 for driving the electromagnetic wave transmitting means 2 _1, of the reflected wave order means 3 ₁ An object identification unit for identifying an object based on a reception result;

The electromagnetic wave transmitting means 2 _1, for example, as shown in Figure 3, the laser diode 4 _H, 4 _L and each laser diode 4 _H, 4 is a plurality of, for example two transmitter transmits the laser is an electromagnetic wave _The laser diode 4 _H and 4 _L are sequentially activated by the driving means 6 shown in FIG. The optical axis of the light-sending lens 5 is set to be substantially parallel to the road surface when the vehicle V is present in the normal running state, the laser diode 4 _H is light transmitting lens 5
The laser diode 4 _L is disposed at a position shifted downward from the optical axis of the light transmitting lens 5 so as to transmit a laser corresponding to the detection area A _H upward in the traveling direction via the light transmitting lens 5. The laser corresponding to the area A _L is disposed at a position deviated upward from the optical axis of the light transmitting lens 5 so as to transmit the laser downward in the traveling direction.

It should be noted in the case of scanning the outgoing laser from the laser diode 4 _H, 4 _L in a horizontal direction, between the laser diode 4 _H, 4 _L and light transmitting lens 5 or to the light-sending lens 5, In this case, a scanning rotary mirror or the like may be provided on the side opposite to the laser diodes 4 _H and 4 _L.

The reflected wave receiving means 3 _1, each detection area A _H,
It is intended for receiving a reflected wave of each A _L, the reception result of the reflected wave receiving means 3 ₁ is input to the object identification means 7.

The object identification means 7, which identifies whether detected object based on the reflected wave receiving means 3 ₁ of the reception result is present in any of the areas of both detection area A _H, A _L and the overlap area A _O In order to determine which area A _H , A _L , A _O the detected object is in from the driving means 6, a signal indicating the timing at which laser is emitted from the laser diodes 4 _H , 4 _{L is output} from the driving means 6. It is input to the identification means 7.

The radar 1 ₁ of the detection result, i.e. result identification by the object identification means 7, the object recognition unit 8,
It is determined whether or not the vehicle V should be recognized as an object that may be a hindrance to traveling. This object recognition means 8
The detected value of the yaw rate detecting means 9 for detecting the yaw rate for obtaining the traveling direction of the vehicle V,
The detection value of the vehicle speed detection means 10 for detecting the traveling speed of the vehicle is input, and the detected object identified by the object identification means 7
Based on the relative position and the relative momentum with respect to the own vehicle, it is recognized by the object recognizing means 8 whether or not the detected object is an object that can obstruct the vehicle V. On the basis of this, the actuator 11 such as an alarm for prompting the driver of the vehicle V to perform the avoidance operation and an automatic brake for performing the automatic avoidance operation is operated.

The result of identification by the object identification means 7 and the value detected by the vehicle speed detection means 10 are input to the abnormality determination means 12. Whether the abnormality judgment means 12, the detection value and the object that is detected by the radar 1 ₁ on the basis of the identification result and the vehicle speed detecting means 10 of the radar 1 ₁ of the detection result namely the object identification means 7 is a mobile as well as determine, which performs abnormality judgment radar 1 ₁ with an object is determined to be mobile, the first and second determination unit 12 _1,
Equipped with a 12 _2.

[0032] The first determination unit 12 _1, the overlap area A _O in substantially parallel to the posture road surface of the vehicle V
The radar 1 confirms that an object that is a moving object exists in the outside area.
_{When 1} has been detected, that is, when the object identification means 7 has identified its state in which the radar 1 ₁ with that lasted the first predetermined time, for example 2 seconds or more is determined to be abnormal. Radar 1 in such first determination portion 12 _1
1 of abnormality determination, when the detected direction of the radar 1 ₁ reflector or the like of the object for example a preceding vehicle or said prior vehicle as a mobile body is present in a normal state where no shift in the vertical ahead of the vehicle in the traveling direction thereof but is based on it should identify the object exists in the overlapping region a ₀ comprising road surface and parallel regions in the object identification means 7,
If the object is present in front of very-short-distance of the vehicle is, the radar 1 ₁ and the object and the height of the relationship (e.g., such as when present in the preceding vehicle of the reflector and the elevated position relative to the radar 1 ₁₎ since the object identification means 7 the presence of an object outside the overlap area a ₀ is identified, the abnormality determination is limited only when the object is away from the vehicle for example more than 10 m.

[0033] Moreover ₁ first determination unit 12 is substantially parallel to the vehicle V is traveling road surface with the detected value of the vehicle speed detecting means 10 is indicative of the stop state or running state of substantially constant speed of the vehicle V It is determined that it is in the posture.

Further second determination unit 12 _2, the radar 1 ₁ which of the detection area A in a state in which the vehicle V is traveling
_H, when no detected objects is a mobile to A _L, the state is, the radar 1 ₁ with a possible lasting second predetermined time is determined to be abnormal. Such a second
Radar 1 ₁ abnormality determination at decision section 12 ₂ is so seldom object of the preceding vehicle or the like in the traveling direction of the vehicle V during running of the vehicle V does not exist for a long time, the detection direction of the radar 1 ₁ large deviation or, in the state in which failure of the radar 1 ₁ itself does not occur, is based on that the radar 1 ₁ should be detected an object is a mobile in either the detection area a _H, a _L, The second predetermined time is set to a relatively long time, for example, one hour in consideration of a case where the vehicle travels on a road with a small traffic volume.

[0035] Moreover the second determination unit 12 _2, its stored along with the determination result when the radar 1 ₁ is judged as abnormal to the radar 1 ₁ to detect the object is stored regardless of the operating state of the vehicle It outputs a signal indicating an abnormal state as long as it continues.

First and second in the abnormality determining means 12
The outputs of the judging units 12 ₁ and 12 ₂ are input in parallel to an OR gate 13, and the output of the OR gate 13 is input to an abnormality alarm 14 for notifying the driver of an abnormality by voice or display. As a result, the abnormality notification device 14 performs the notification operation when the abnormality determination unit 12 determines that the radar ₁₁ is abnormal.

Next, to explain the action of this first embodiment, the radar 1 _1, a plurality of detection areas A _H having different regions in the vertical direction, are detectability configured each object in A _L, each detection area a _H, overlapped areas mutually overlapped the a _L a _O is the respective detection areas a _H to include the road surface and parallel regions, since a _L is set, the radar 1 ₁ When the detection direction is not shifted in the vertical direction, a moving body, for example, an object such as a preceding vehicle can be reliably captured in the overlap area _AO .
The plurality of detection areas A _H having different regions in the vertical direction, even when the detection direction of the radar 1 ₁ vertical displacement occurs, it is possible to detect an object in one of A _L, the object of the Detection is not difficult. That region of the lower becomes more effective than the overlap area A _O in the detection area A _L when the nose of the vehicle V becomes upward by rapid acceleration, detection area A _H when the nose of the vehicle V becomes downward by rapid deceleration , An area above the overlap area A _O is effective.

By the way, in the normal state in which detection direction of the radar 1 ₁ is not displaced vertically, when the forward traveling direction to the object of the vehicle is present overlap area A the object contains a traveling road surface and parallel region Should be present in _O
The first determination of the abnormality determining means 12 12 _1, the radar 1 ₁ that the posture of the vehicle V is present object is a mobile in the overlap area A _O outside the area substantially parallel to the road surface since There radar 1 ₁ based to detect is determined to be abnormal, an abnormal state in which the detected direction of the radar 1 ₁ is displaced to either up and down easily determine the driver to an abnormal alarm 14 Can be informed. Moreover when the abnormality determination in the first determination unit 12 _1, since it is determined to be abnormal when the state in which an object exists in the overlap region A _O outside the region persisted first predetermined time (e.g., 2 seconds) In addition, it is possible to avoid erroneously determining that the radar ₁₁ is abnormal when an object is momentarily present in an area outside the overlap area _AO due to a temporary shaking of the vehicle body or the like. Further, the first determination unit 12 ₁ includes the vehicle speed detection unit 1
Since the detected value of 0 indicates the stopped state of the vehicle V or the running state at substantially constant speed, it is determined that the posture of the vehicle V is substantially parallel to the traveling road surface, and thus the posture of the vehicle V is detected. No special detection means is required, and it is possible to easily detect a state in which the attitude of the vehicle V is substantially parallel to the traveling road surface.

[0039] Incidentally, in the on real roads, pedestrian bridges and road signs present in the upper position of the road is detected above the detection area A _H by the radar 1 _1, also Cat's Eye embedded on the road surface Although or white line or the like is detected below the detection region a _L by the radar 1 _1, their detection object is never an obstacle to travel of the vehicle stationary, the object of the present invention in the object identification unit 8 Will not be recognized as

[0040] Also in the abnormality determining unit 12, the first first determining section 12 ₁ determines abnormality by the presence of an object is a moving body such as a forward vehicle in the region other than the overlap area A _O, the second the determination unit 12 _2, since it is determined abnormal by not detect an object which is a moving body such as a preceding vehicle in any of the region including the overlapping area a _O, it is judged that an abnormal by stationary objects as described above There is no.

[0041] Further or displacement detection direction of the radar 1 ₁ is large, in the state in which failure of the radar 1 ₁ itself has not occurred,
Based on the fact that the radar 11 should detect an object such as a reflector of a preceding vehicle in _one of the detection areas A _H and A _L , the second determination unit 12 of the abnormality determination means 12
_2, the detection region radar 1 ₁ is either in the running state of the vehicle V A _H, since the radar 1 ₁ when not detect the object even A _L is determined to be abnormal, the detection direction of the radar 1 ₁ large deviation or, abnormal conditions such as radar 1 ₁ itself has failed can be easily determined, it is possible to quickly notify the driver by notifying the abnormal state in the abnormal alarm 14.

[0042] Moreover the second determination unit 12 _2, the radar 1 ₁ is abnormal based on the fact that the radar 1 ₁ does not detect the detection area A _H, an object persisted either the second predetermined time or more of A _L By setting the second time in consideration of traveling on a road with a small traffic volume, it is possible to reliably detect the abnormality of the radar ₁₁ itself.

Further, a plurality of detection areas A different in the vertical direction
_H, A_LRadar 1 so that objects can be detected₁of
Electromagnetic wave emitting means 2₁Is a compound with different angles in the vertical direction.
A plurality of, for example, two, transmitting electromagnetic waves in the number directions
Laser diode 4_H, 4 _LWith a simple
Multiple detection areas that differ in the vertical direction with a simple configuration
A _H, A_LRadar 1 to detect objects with₁
Can be held. Also both laser diodes
4_H, 4_LFor example, 4_HDetection area A_HNo
Overlap area A_ODetect the object at the part corresponding to
The other laser diode 4_LDetection area by
A_LOverlap area A_OObject at the part corresponding to
If not detected, the other laser diode 4_L
Can be easily determined that the
It is also possible to notify the failure judgment result with the abnormality alarm 14.
is there.

FIGS. 4 and 5 show a second embodiment of the present invention. FIG. 4 is a block diagram showing a configuration of an object detecting device, and FIG. 5 is a diagram showing a configuration of a reflected wave receiving means.

The radar 1 _2, for example, traveling electromagnetic wave transmitting means 2 ₂ for transmitting a laser as the electromagnetic toward the forward, originating object of electromagnetic waves the direction of travel from the electromagnetic wave transmitting means 2 ₂ of the vehicle V provided in the reflection wave receiving means 3 ₂ for receiving a plurality of directions the reflected wave was vertically different angles occurring is reflected, and object identification unit 7.

The reflected wave receiving means 3 _2, as shown in Figure 5, a photodiode 15 _H, 15 is a plurality of, for example, a pair of receiver signals generated by receiving reflected laser wave
_L , a light receiving lens 16 having an optical axis arranged substantially parallel to the traveling road surface, a half mirror 17, and aperture plates 18 and 19.

The half mirror 17 has a detection area A_LObject
15 that receives the reflected wave from_Lupon
And the detection area A_HTo receive reflected waves from other objects.
Photodiode 15_HLight in front of
It is located behind the lens 16 and has a detection area A
_LThe reflected wave from the object is reflected by the half mirror 17
With the aperture plate 18 and the photodiode 15_L
And the detection area A _HReflected wave from object is half
The light passes through the mirror 17 and is stopped down by the stop
Photodiode 15_HIs input to

[0048] The electromagnetic wave emitting means 2 ₂ detection area A _H, which is configured to transmit a laser as the electromagnetic over the entire region of the A _L, the configuration other than the radar 1 ₂ the same as in the first embodiment is there.

According to the second embodiment, the same effects as those of the above embodiments can be obtained.

Although the embodiments of the present invention have been described in detail, the present invention is not limited to the above embodiments, and various design changes can be made without departing from the present invention described in the appended claims. It is possible to do.

For example, in the above-described embodiment, the object detecting device for detecting an object existing in the forward direction of the vehicle V has been described. However, the present invention relates to an object detecting device for detecting an object behind and in the lateral direction of the vehicle. Is also applicable.

As the electromagnetic wave, a millimeter wave can be used instead of a laser. Further, whether the vehicle V is in a stopped state or in a substantially constant speed running state is determined by detection values of acceleration / deceleration detecting means for detecting acceleration / deceleration of the vehicle V instead of the vehicle speed detecting means 10, V exists in a stopped state or a traveling state at a substantially constant speed.
Can be determined to be in a posture substantially parallel to the traveling road surface.

[0053]

As described above, according to the first aspect of the present invention, when the radar detection direction is not shifted in the vertical direction, the object can be reliably grasped, and the radar detection direction does not shift in the vertical direction. Even if it occurs, detection of the object does not become difficult.

According to the second aspect of the present invention, it is possible to detect an abnormal state in which the radar detection direction is shifted upward or downward.

According to the third aspect of the present invention, it is possible to avoid erroneously determining that the radar is abnormal due to temporary shaking of the vehicle body or the like.

According to the fourth aspect of the present invention, it is possible to easily detect a state in which the attitude of the vehicle is substantially parallel to the traveling road surface by eliminating the need for a special detecting means for detecting the attitude of the vehicle. it can.

According to the fifth aspect of the invention, the radar has a simple structure in which each transmitter individually transmits the electromagnetic waves in each detection area, and the radar has a function of detecting an object in each of the plurality of detection areas. It is possible to easily determine that some of the transmitters are out of order.

According to the sixth aspect of the present invention, a function of detecting an object in each of a plurality of detection areas is provided to the radar with a simple configuration in which each receiver individually receives reflected waves in each detection area. It is possible to easily determine that some of the receivers are out of order.

According to the present invention, it is possible to easily determine that the radar itself is abnormal.

According to the present invention, by setting the second time in consideration of the case where the vehicle travels on a road with a small traffic volume, it is possible to reliably detect the abnormality of the radar itself.

According to the ninth aspect, it is possible to promptly notify the driver that the radar is in an abnormal state.

According to the tenth aspect, even if the vehicle is stopped after the abnormality of the radar is determined by the abnormality determining means,
When the vehicle is restarted, the driver can be notified that the radar is abnormal.

According to the eleventh aspect of the present invention, the abnormality determining means determines whether or not the radar is abnormal by using an object determined to be a moving body based on the radar detection result and the detection value of the vehicle speed detecting means. Is determined, the radar is not determined to be abnormal by the detection result of a stationary object such as a sign or a cat's eye.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating a detection area of a radar mounted on a vehicle in a first embodiment.

FIG. 2 is a block diagram illustrating a configuration of an object detection device.

FIG. 3 is a diagram showing a configuration of an electromagnetic wave transmitting means.

FIG. 4 is a block diagram illustrating a configuration of an object detection device according to a second embodiment.

FIG. 5 is a diagram illustrating a configuration of a reflected wave receiving unit.

[Explanation of symbols]

1 ₁ , 1 ₂ ... Radar 2 ₁ , 2 ₂ ... Electromagnetic wave transmitting means 3 ₁ , 3 ₂ ... Reflected wave receiving means 4 _H , 4 _L. Vehicle speed detecting means 12 ... Abnormality judging means 14 ... Abnormality alarm device _15H , _15L ... Photodiode as receiver _AH , _AL ... Detection area _AO ... Overlap area V ···vehicle

Claims (11)

[Claims] 1. An electromagnetic wave transmitting means (2 ₁ , 2 ₂ ) for transmitting an electromagnetic wave and said electromagnetic wave transmitting means (2 ₁ , 2 ₁₎ .
2 ₂₎ reflected wave receiving means for receiving reflected waves originating electromagnetic wave from (3 _1, 3 ₂₎ radar with a (1 _1, 1 ₂₎
The provided, in the object detecting apparatus for a vehicle for detecting an object based on a detection result of the radar (1 _1, 1 _2), wherein the radar (1 _1, 1 _2), a plurality of having different areas in the vertical direction The detection area (A _H , A _L ) is configured to be able to detect an object, and an overlap area (A _O ) in which the detection areas (A _H , A _L ) overlap each other is parallel to the traveling road surface. Each detection area (A _H , A
_L ) is set. Wherein the vehicle the overlapped area substantially parallel to the posture traveling road (V) (A _O) the radar (1 ₁ that is the object outside the area exists,
1 ₂ ) detects the radar (1 ₁ ,
_2. The vehicle object detection device according to claim 1, further comprising an abnormality determination unit configured to determine that 1) is abnormal. Wherein when sustained the overlap area (A _O) the radar that is the object outside the area exists (1 _1, 1 ₂₎ state is detected first predetermined time or more, the abnormality determining means (12) radar (1 _1, 1 ₂₎ the object detecting device for a vehicle according to claim 2, characterized in that determined to be abnormal. 4. A vehicle speed detecting means (10) for detecting a speed of the vehicle (V), wherein the abnormality judging means (12) determines whether the detected value of the vehicle speed detecting means (10) is in a stopped state of the vehicle (V). 4. The vehicle object detecting device according to claim 2, wherein the posture of the vehicle (V) is determined to be substantially parallel to the traveling road surface by indicating that the vehicle is traveling at a substantially constant speed. . 5. The electromagnetic wave transmitting means (2 ₁ ) includes a plurality of transmitters (4 _H , 4 _L ) for transmitting electromagnetic waves in a plurality of directions having different angles in a vertical direction. The vehicle object detection device according to claim 1. 6. The reflected wave receiving means (3 ₂ ) includes a plurality of receivers (15 _H , 15 _L ) for respectively receiving reflected waves in a plurality of directions at different angles in the vertical direction. The object detection device for a vehicle according to any one of claims 1 to 5, wherein 7. The abnormality determining means (12) does not detect the object in any of the detection areas (A _H , A _L ) when the radar (1 ₁ , 1 ₂ ) is in a running state of the vehicle (V). especially the radar based (1 _1, 1 ₂₎ the object detecting apparatus for a vehicle according to any one of claims 2 to 6, characterized in that determined to be abnormal. 8. The abnormality judging means (12) is such that the radar (1 ₁ , 1 ₂ ) does not detect an object for at least a second predetermined time in any of the detection areas (A _H , A _L ). particular basis the radar by (1 _1, 1 ₂₎ the object detecting device for a vehicle according to claim 7, characterized in that determined to be abnormal. 9. The radar (1), wherein the abnormality determining means (12) is a radar (1).
_1, 1 ₂₎ object detecting device for a vehicle according to claim 7 or 8, wherein the containing abnormal alarm (14) for notifying operates in response to determining that the abnormality. 10. The abnormality judging means (12) determines the judgment result when the radar (1 ₁ , 1 ₂ ) is abnormal until the radar (1 ₁ , 1 ₂ ) detects an object. 10. The vehicle object detection device according to claim 9, wherein the information is stored irrespective of the driving state of the vehicle and outputs a signal for informing the abnormality alarm device as long as the storage is continued. 11. A vehicle speed detecting means (10) for detecting a speed of a vehicle (V), wherein the abnormality judging means (12) detects a result of detection by the radar (1 ₁ , 1 ₂ ) and the vehicle speed detecting means (10). the object to be determined and the mobile body based on the detected value of 10) the radar (1 _1, 1 ₂₎ of claim 2, characterized in that it is configured to use in determining whether or not an abnormality, The vehicle object detection device according to 3, 7, 8, or 10.