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JPH0631600Y2 - Inter-vehicle distance control device - Google Patents

Inter-vehicle distance control device

Info

Publication number
JPH0631600Y2
JPH0631600Y2 JP1989041727U JP4172789U JPH0631600Y2 JP H0631600 Y2 JPH0631600 Y2 JP H0631600Y2 JP 1989041727 U JP1989041727 U JP 1989041727U JP 4172789 U JP4172789 U JP 4172789U JP H0631600 Y2 JPH0631600 Y2 JP H0631600Y2
Authority
JP
Japan
Prior art keywords
vehicle
distance
inter
acceleration
deceleration
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
JP1989041727U
Other languages
Japanese (ja)
Other versions
JPH02133800U (en
Inventor
敏彦 鈴木
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Toyota Motor Corp
Original Assignee
Toyota Motor Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Toyota Motor Corp filed Critical Toyota Motor Corp
Priority to JP1989041727U priority Critical patent/JPH0631600Y2/en
Publication of JPH02133800U publication Critical patent/JPH02133800U/ja
Application granted granted Critical
Publication of JPH0631600Y2 publication Critical patent/JPH0631600Y2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Control Of Velocity Or Acceleration (AREA)
  • Control Of Vehicle Engines Or Engines For Specific Uses (AREA)

Description

【考案の詳細な説明】 [産業上の利用分野] この考案は、前方車両又は障害物の加減速度を算出し、
該加減速度に応じて目標車間距離を変更する車間距離制
御装置に関するものである。
DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] This invention calculates acceleration / deceleration of a vehicle in front or an obstacle,
The present invention relates to an inter-vehicle distance control device that changes a target inter-vehicle distance according to the acceleration / deceleration.

[従来の技術] 従来、車間距離を所定値に保持する車間距離制御装置が
提案されているが(特開昭61−77534号公報参
照)、このものにあっては、制動手段(以下ブレーキと
いう)、エンジンの出力(スロットル弁開度)又は変速
ギアを用いて前方を走行する車両(以下先行車という)
との車間距離を車速に応じた所定距離を保持している。
[Prior Art] Conventionally, an inter-vehicle distance control device for keeping an inter-vehicle distance at a predetermined value has been proposed (see Japanese Patent Laid-Open No. 61-77534), but in this one, a braking means (hereinafter referred to as a brake) is used. ), A vehicle traveling forward using the output of the engine (throttle valve opening) or a transmission gear (hereinafter referred to as the preceding vehicle)
A predetermined distance corresponding to the vehicle speed is maintained as the vehicle-to-vehicle distance.

また、特開昭62−23832号公報に開示されている
ように、自己の車両(以下自車という)の減速中を報知
すると共に、車間距離と目標車間距離との差及び車間距
離の変化率に基づいて車速の増減開始を予告する車間距
離制御装置がある。
Further, as disclosed in Japanese Patent Application Laid-Open No. 62-23832, the fact that the vehicle (hereinafter referred to as the own vehicle) is decelerating is notified, the difference between the inter-vehicle distance and the target inter-vehicle distance, and the change rate of the inter-vehicle distance. There is an inter-vehicle distance control device that gives an advance notice of the increase / decrease of the vehicle speed based on.

[考案が解決しようとする課題] ところで、上述した何れの車間距離制御装置において
も、先行車両の加減速による突発的な走行変化が生じた
場合、車間距離の変化は先行車両の走行変化に対し遅れ
て変化するため、これを用いた自車の制御に遅れが生
じ、自車の追従性が悪いという問題があった。
[Problems to be Solved by the Invention] By the way, in any of the inter-vehicle distance control devices described above, when a sudden traveling change occurs due to acceleration / deceleration of the preceding vehicle, the change in the inter-vehicle distance changes with respect to the traveling change of the preceding vehicle. Since it changes with a delay, there is a problem in that the control of the own vehicle using this delays and the followability of the own vehicle is poor.

この考案は、上述した課題を解決するためになされたも
ので、先行車の加減速度に応じて目標車間距離を変更し
て追従性と安全性を向上できる車間距離制御装置を得る
ことを目的とする。
The present invention has been made to solve the above-described problems, and an object thereof is to obtain an inter-vehicle distance control device that can improve the following performance and safety by changing the target inter-vehicle distance according to the acceleration / deceleration of the preceding vehicle. To do.

[課題を解決するための手段] この考案に係る車間距離制御装置は、自車と前方の車両
との車間距離を計測する距離計測手段と、自車を制動す
る制動手段と、スロットル弁を駆動するスロットル弁駆
動手段と、自車の走行速度を計測する車速計測手段と、
前記車間距離と前記自車走行速度とから前方車両の加減
速度を算出する加減速度算出手段と、前記車間距離と前
記自車走行速度と前方車両の加減速度とに基づき目標車
間距離を設定し、該目標車間距離に前記車間距離が計測
する距離が等しくなるように制動手段又はスロットル弁
駆動手段を制御する制御手段とを有するものである。
[Means for Solving the Problems] An inter-vehicle distance control device according to the present invention drives a throttle valve, a distance measuring means for measuring an inter-vehicle distance between an own vehicle and a vehicle in front, a braking means for braking the own vehicle, and a throttle valve. A throttle valve driving means, a vehicle speed measuring means for measuring the traveling speed of the own vehicle,
Acceleration / deceleration calculation means for calculating the acceleration / deceleration of the front vehicle from the inter-vehicle distance and the own vehicle traveling speed, and setting the target inter-vehicle distance based on the inter-vehicle distance, the own vehicle traveling speed and the acceleration / deceleration of the preceding vehicle, And a control means for controlling the braking means or the throttle valve driving means so that the distance measured by the inter-vehicle distance becomes equal to the target inter-vehicle distance.

[作用] 以上のように構成される本考案装置によれば、前方の車
両又は障害物が加速又は減速した場合、まず加減速度算
出手段は距離計測手段の出力と車速計測手段の出力とか
ら前方の車両又は障害物の加減速度を算出する。
[Operation] According to the device of the present invention configured as described above, when the vehicle or obstacle in front accelerates or decelerates, the acceleration / deceleration calculating means first determines the distance from the output of the distance measuring means and the output of the vehicle speed measuring means. Calculate the acceleration / deceleration of the vehicle or obstacle.

そして、該加減速度、車間距離及び自車の走行速度に基
づき、先行車が定常走行状態にあるときと加減速状態に
あるときとでそれぞれ別個の演算処理を行い、目標とす
る最適車間距離を求める。そして、該目標車間距離に距
離計測手段が計測する現在の距離が等しくなるように制
動手段又はスロットル弁駆動手段を制御する。
Then, based on the acceleration / deceleration, the inter-vehicle distance, and the traveling speed of the host vehicle, separate calculation processing is performed when the preceding vehicle is in the steady traveling state and when the preceding vehicle is in the accelerating / decelerating state, and the target optimal inter-vehicle distance is calculated. Ask. Then, the braking means or the throttle valve driving means is controlled so that the current distance measured by the distance measuring means becomes equal to the target inter-vehicle distance.

従って、前方の車両が加減速した場合の追従性が向上し
てより一層の安全性が確保される。
Therefore, the followability when the vehicle ahead accelerates or decelerates is improved, and further safety is secured.

[実施例] 以下、図面に沿って、本考案の好適な実施例について説
明する。
[Embodiment] A preferred embodiment of the present invention will be described below with reference to the drawings.

第1図は、本考案の一実施例のブロック図である。エン
ジンによって駆動される車両には車間距離制御装置10
が搭載されており、該制御装置10はマイクロコンピュ
ータ等により構成された制御手段としての演算処理回路
12を備えている。
FIG. 1 is a block diagram of an embodiment of the present invention. An inter-vehicle distance control device 10 is provided for a vehicle driven by an engine.
Is mounted, and the control device 10 includes an arithmetic processing circuit 12 as a control means configured by a microcomputer or the like.

そして、演算処理回路12には、先行車又は障害物との
間の車間距離Dを計測する距離計測装置14の出力と自
車の速度Vを計測する車速計測装置16の出力とが入力
されている。
Then, the output of the distance measuring device 14 for measuring the inter-vehicle distance D between the preceding vehicle or the obstacle and the output of the vehicle speed measuring device 16 for measuring the speed V of the own vehicle are input to the arithmetic processing circuit 12. There is.

また、演算処理回路12には、車輪を摩擦制動する制動
装置20が接続されており、該制動装置20は演算処理
回路12からの信号により制御できるようになってお
り、更に該制動装置20は運転者が足踏みペダルにより
直接操作することもできる。
Further, a braking device 20 for frictionally braking a wheel is connected to the arithmetic processing circuit 12, and the braking device 20 can be controlled by a signal from the arithmetic processing circuit 12. The driver can also operate the pedal directly.

また、演算処理回路12には、エンジンのスロットル弁
を駆動するスロットル弁駆動装置22が、接続されてお
り、該スロットル弁駆動装置弁22は演算処理回路12
からの信号により制御できるようになっており、更に該
駆動装置22は運転者がアクセルペダルにより直接操作
することもできる。
A throttle valve drive device 22 for driving a throttle valve of the engine is connected to the arithmetic processing circuit 12, and the throttle valve drive device valve 22 is connected to the arithmetic processing circuit 12
Further, the driving device 22 can be directly operated by the driver by an accelerator pedal.

ついで、本実施例の作用を第2図のフローチャートに沿
って説明する。
Next, the operation of this embodiment will be described with reference to the flowchart of FIG.

ステップ1において、演算処理回路12は、距離計測装
置14の出力を入力して先行車との現在の車間距離Dを
算出する。
In step 1, the arithmetic processing circuit 12 inputs the output of the distance measuring device 14 and calculates the current inter-vehicle distance D from the preceding vehicle.

そして、車速計測装置16からの出力を入力する演算処
理回路12は自車の車速Vを演算により求める(ステッ
プS2)。また、演算処理回路12は車速Vを時間微分
することにより自車の加減速度gを求める(ステップS
3)。
Then, the arithmetic processing circuit 12 which receives the output from the vehicle speed measuring device 16 calculates the vehicle speed V of the own vehicle (step S2). Further, the arithmetic processing circuit 12 obtains the acceleration / deceleration g of the own vehicle by differentiating the vehicle speed V with respect to time (step S).
3).

それから、演算処理回路12は、第100式により先行
車の車速Vを演算する(ステップS4) 更に、演算処理回路12は、第100式を微分した第1
01式により先行車の加減速度gを演算する(ステッ
プS5)。すなわち、 なお、dV/dt=g、dV/dt=gであるので
第101式は、 と表示でき、第102式により を求める。
Then, the arithmetic processing circuit 12 calculates the vehicle speed V 0 of the preceding vehicle by the expression 100 (step S4). Further, the arithmetic processing circuit 12 uses a first
The acceleration / deceleration g 0 of the preceding vehicle is calculated by the expression 01 (step S5). That is, Since dV 0 / dt = g 0 and dV / dt = g, the 101st equation is Can be displayed as Ask for.

そして、演算処理回路12は、算出した先行車の加減速
度gに基づき、先行車が加減速状態か否か判断し(ス
テップS6)、加減速状態でないと判断した場合、予め
車速Vと車間距離Dの時間変化率によって定めれられて
いる定常走行時の目標車間距離を算出する(ステッ
プS7)(第3図参照)。
Then, the arithmetic processing circuit 12 determines whether or not the preceding vehicle is in the acceleration / deceleration state on the basis of the calculated acceleration / deceleration g 0 of the preceding vehicle (step S6). A target inter-vehicle distance during steady traveling, which is determined by the time change rate of the distance D, is calculated (step S7) (see FIG. 3).

それから、演算処理回路12は、目標トルクすなわち走
行抵抗、路面傾斜等による定常トルクFを算出する
(ステップS8)。
Then, the arithmetic processing circuit 12 calculates the target torque, that is, the steady torque F 0 due to the running resistance, the road inclination, etc. (step S8).

更に、演算処理回路12は、算出したトルクFと1ス
テップ前に算出した目標トルクとの差ΔFを計算し(ス
テップS9)、ΔF=0の場合は前述ステップS1へ戻
る(ステップS10)。
Further, the arithmetic processing circuit 12 calculates a difference ΔF between the calculated torque F 0 and the target torque calculated one step before (step S9), and when ΔF = 0, returns to step S1 (step S10).

そして、ΔF≠0の場合、演算処理回路12は、ΔF>
0か否か判断し(ステップS11)、ΔF>0と判断し
た場合、スロットル弁駆動装置22へ制御信号を送出し
て加速する(ステップS12)また、ΔF<0と判断し
た場合、演算処理回路12は、制動装置20へ制御信号
を送出し、制動して減速する(ステップS13)。
Then, when ΔF ≠ 0, the arithmetic processing circuit 12 determines ΔF>
When it is determined that it is 0 (step S11), and when it is determined that ΔF> 0, a control signal is sent to the throttle valve drive device 22 to accelerate it (step S12). When it is determined that ΔF <0, it is an arithmetic processing circuit. 12 sends a control signal to the braking device 20 to brake and decelerate (step S13).

一方、前述ステップS6において、加減速状態であると
判断した場合、演算処理回路12は、第103式により
加減速時の目標車間距離を算出する(ステップS1
4)。
On the other hand, when it is determined in step S6 that the vehicle is in the acceleration / deceleration state, the arithmetic processing circuit 12 calculates the target inter-vehicle distance at the time of acceleration / deceleration by the expression 103 (step S1).
4).

=+αg …(103) なお、αは制御ゲインである。= + Αg 0 (103) where α is a control gain.

更に、演算処理回路12は、第104式により加減速時
の目標トルクFを算出する(ステップS15)。
Further, the arithmetic processing circuit 12 calculates the target torque F at the time of acceleration / deceleration by the expression 104 (step S15).

F=K(D−)+K(V−V)+F …(104) なお、K、Kは制御ゲインである。F = K 1 (D −) + K 2 (V−V 0 ) + F 0 (104) Note that K 1 and K 2 are control gains.

以下、前述ステップS9以後同様の動作により定常走行
又は加減速を行う。
Hereinafter, steady running or acceleration / deceleration is performed by the same operation after step S9.

また、本考案の装置に、自車の加減速度を直接計測する
自車加減速度計測装置を追加することにより、自車の走
行状態の変化も検出でき、先行車が突発的な走行変化を
おこした場合、自車の加速状態、減速状態に応じて補正
の仕方を変えることにより、より追従性の良い制御が可
能となる。
In addition, by adding an own vehicle acceleration / deceleration measuring device that directly measures the acceleration / deceleration of the own vehicle to the device of the present invention, it is possible to detect changes in the running state of the own vehicle, causing the preceding vehicle to change suddenly. In this case, by changing the correction method according to the acceleration state and the deceleration state of the host vehicle, control with better followability becomes possible.

[考案の効果] 以上のように本考案によれば、先行車の加減速状態に応
じて目標車間距離を変更するように構成したので、追従
性を向上して運転フィーリングを良くすることができ、
また先行車の加減速時に急停止するなどの予期せぬ事態
が生じても対処する時間的余裕が増大して安全性が向上
する。
[Advantages of the Invention] As described above, according to the present invention, the target inter-vehicle distance is changed according to the acceleration / deceleration state of the preceding vehicle, so that the followability can be improved and the driving feeling can be improved. You can
Further, even if an unexpected situation such as a sudden stop during acceleration or deceleration of the preceding vehicle occurs, the time margin for dealing with the situation increases and the safety improves.

【図面の簡単な説明】[Brief description of drawings]

第1図は本考案の一実施例のブロック図、 第2図は、第1図の実施例の動作を説明するためのフロ
ーチャート図、 第3図は目標車間距離と車速との関係を示す図である。 10……車間距離制御装置 12……制御手段 14……距離計測手段 16……車速計測手段 18……加減速度計測手段 20……制動手段 22……スロットル弁駆動手段
FIG. 1 is a block diagram of an embodiment of the present invention, FIG. 2 is a flow chart for explaining the operation of the embodiment of FIG. 1, and FIG. 3 is a diagram showing a relationship between a target inter-vehicle distance and a vehicle speed. Is. 10 ... Inter-vehicle distance control device 12 ... Control means 14 ... Distance measuring means 16 ... Vehicle speed measuring means 18 ... Acceleration / deceleration measuring means 20 ... Braking means 22 ... Throttle valve driving means

Claims (1)

【実用新案登録請求の範囲】[Scope of utility model registration request] 【請求項1】自車と前方の車両との車間距離を計測する
距離計測手段と、 自車を制動する制動手段と、 スロットル弁を駆動するスロットル弁駆動手段と、 自車の走行速度を計測する車速計測手段と、 前記車間距離と前記自車走行速度とから前方車両の加減
速度を算出する加減速度算出手段と、 前記車間距離と前記自車走行速度と前方車両の加減速度
とに基づき目標車間距離を設定し、該目標車間距離に前
記車間距離が計測する距離が等しくなるように制動手段
又はスロットル弁駆動手段を制御する制御手段と、 を有することを特徴とする車間距離制御装置。
1. A distance measuring means for measuring a distance between an own vehicle and a vehicle ahead, a braking means for braking the own vehicle, a throttle valve driving means for driving a throttle valve, and a traveling speed of the own vehicle. A vehicle speed measuring means, an acceleration / deceleration calculating means for calculating an acceleration / deceleration of a front vehicle from the inter-vehicle distance and the own vehicle traveling speed, and a target based on the inter-vehicle distance, the own vehicle traveling speed and an acceleration / deceleration of the preceding vehicle. An inter-vehicle distance control device, comprising: a control means for setting a vehicle-to-vehicle distance and controlling the braking means or the throttle valve driving means so that the distance measured by the vehicle-to-vehicle distance becomes equal to the target vehicle-to-vehicle distance.
JP1989041727U 1989-04-10 1989-04-10 Inter-vehicle distance control device Expired - Fee Related JPH0631600Y2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP1989041727U JPH0631600Y2 (en) 1989-04-10 1989-04-10 Inter-vehicle distance control device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP1989041727U JPH0631600Y2 (en) 1989-04-10 1989-04-10 Inter-vehicle distance control device

Publications (2)

Publication Number Publication Date
JPH02133800U JPH02133800U (en) 1990-11-06
JPH0631600Y2 true JPH0631600Y2 (en) 1994-08-22

Family

ID=31552644

Family Applications (1)

Application Number Title Priority Date Filing Date
JP1989041727U Expired - Fee Related JPH0631600Y2 (en) 1989-04-10 1989-04-10 Inter-vehicle distance control device

Country Status (1)

Country Link
JP (1) JPH0631600Y2 (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2021024338A (en) * 2019-07-31 2021-02-22 ダイハツ工業株式会社 Following travel control device

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2871079B2 (en) * 1990-11-28 1999-03-17 日産自動車株式会社 Inter-vehicle distance control device
DE4418085C2 (en) * 1993-05-21 1999-09-09 Toyota Motor Co Ltd Safety device for a vehicle
JP3726923B2 (en) * 1996-04-10 2005-12-14 富士重工業株式会社 Vehicle driving support device
JP7449910B2 (en) * 2021-10-14 2024-03-14 ダイハツ工業株式会社 Vehicle control device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2021024338A (en) * 2019-07-31 2021-02-22 ダイハツ工業株式会社 Following travel control device

Also Published As

Publication number Publication date
JPH02133800U (en) 1990-11-06

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