DE19838818B4 - View-controlled stop-and-go automatic in motor vehicles - Google Patents

Abstract

Looking controlled Stop-and-go automatic in motor vehicles comprising a central Control unit using complex sensors and actuators of a Onboard system a safe semi-automatic forward movement of a vehicle allows characterized in that the forward movement of the vehicle causally and alone by a conscious, over a defined period of continuous attention of the driver on triggered the portion of the road upstream of the vehicle and for the duration of continuing Eye care is maintained.

Description

The The invention relates to a method and a device for controlling of a vehicle in stop-and-go traffic through targeted viewing on the road.

in the Occupational and holiday traffic often occurs on major routes and in metropolitan areas Persistent congestion situations in which a motorist is his vehicle often over Hours only gradually and crawl forward can move. For vehicles with manual transmission and clutch control, but even with automatic transmissions this is a stressful process. A considerable loss of time arises Forcibly, by the necessary attention for moving in the column to the following often impatient road users not unnecessary to provoke and to allow the minimum flow of traffic.

task The invention is, using already known technical Facilities on board a vehicle in conjunction with a new one central control unit a virtually user-free semi-automatic vehicle management in stop-and-go traffic to highest To achieve safety criteria.

For automatic vehicle management various solutions are known. That's the title of the document US 4,361,202 of embedded metallic guide rails in the road surface, which are sensed by the vehicle and control the steering.

In the publication US Pat. No. 5,420,794 A the automatic vehicle control is performed by a roadside traffic infrastructure, which identifies the vehicle via its transponder and actuates the actuators for steering, acceleration and deceleration by means of radio signals. This is intended to reduce the data processing effort on board the vehicle and relocate it to the transport infrastructure. The driver can obtain information about traffic and weather conditions via a vehicle interface.

In the publication US 5 295 551 A It describes the technique of cooperative driving between two or more vehicles, which are effectively guided across the roads by sensors and communications equipment of the same equipment, thus helping to avoid congestion.

adversely on these proposals is the fundamental one Need for facilities outside of own vehicle, either in the infrastructure or at least in a second vehicle. Self-sufficient driving is therefore not possible without external support possible.

From the pamphlets US 4,950,069 and US 4 595 990 In each case, view-controlled devices are known, the viewing direction of a user being recognized, and a reaction of the system being triggered by a conscious viewing application lasting over a certain period of time.

The pamphlets DE 44 07 082 A1 and US 5 165 497 A describe automatic distance controls for motor vehicles, the motor vehicle following a preceding vehicle with a constant distance.

The publication DE 197 34 307 A1 describes a method and a device for monitoring and influencing the vehicle behavior of a driver-controlled motor vehicle with the aid of a viewing direction determination device. This method and apparatus can also be used in the context of an adaptive distance or vehicle speed control.

In another embodiment the state of the art vehicles are to be mentioned, with a most significant Electronic equipment with more than ten video cameras for environmental detection and related Data analysis are able to select a subline preferred a clearly structured street to accomplish by day in a fully automatic autarkic driving style.

Also here the disadvantage of insufficient system security is significant, ultimately the fully automatic driving even when crawling on our today's streets without involvement of the driver as the last control authority from traffic engineering and traffic law reasons will prevent.

According to claim 1, an embodiment of the semi-automatic vehicle control is now shown here, which incorporates the driver with his sensory skills in the action. Here, the consistent gaze of the driver through the windshield is sensed on the road ahead within a sequential process. This is done by an optical detection system with a camera on the dashboard, which - among other tasks - permanently determines the driver's line of sight. A follow-on journey in stop-and-go operation is thus triggered and maintained by the driver's conscious gaze application when the complex electronics When the stop-and-go button is activated, all sensors of the on-board system have detected all relevant parameters such as the distance to the vehicle in front, tracking, no obstacles, etc. as conclusive.

According to claim 2 allows the central control unit for the gaze-controlled automatic stop-and-go next to the longitudinal and transverse guidance of the vehicle also an engine shutdown at too long a standstill and an automatic startup of the engine to save fuel and emissions. However, this is according to the invention of the line of sight of the driver - and compliance with the other parameters - dependent. The engine only extinguishes when the eyes are turned away and starts ahead when looking at the road ahead. This distinguishes the start-stop operation from the methodology in the utility model document DE 93 09 617 U1 , According to claim 3, the use of the described method, the time spent in traffic jams are otherwise used advantageously without having to compromise on traffic safety or to slow down the minimum traffic flow even further, since the driver's hands and feet are not needed for vehicle operation. Possible business activities include telephone calls or dictation, private reading or family entertainment. Even relaxed listening to music or simply stretching of the limbs for better blood circulation after long periods of sitting brings further benefits.

in the Difference to already known devices for fully automatic Driving, referring to similar Sensors and actuators for the longitudinal and width guide of a vehicle, The entire responsibility remains with the view-controlled stop-and-go automatic always with the driver.

at the look in the form of a purposeful foresight is the Probability very high, that by direct or peripheral vision Obstacles or adverse special situations actually perceived become. This is crucial when the distance sensor for Vehicle ahead or the image sensor for the detection of the preceding Roadway for physical reasons were unable to grasp the situation correctly. Of the Driver will for such a case on conventional React manner and make a braking intervention or the Press steering. The stop-and-go automatic is thus automatically deactivated and must go through press again the stop-and-go button will be turned on again.

One so-called empty look that over the camera of the optical detection system on the dashboard erroneously as purposeful foresight and thus interpreted as a creep order to move on could be in turn becomes permanent due to the complex electronic sensors of the on-board system for plausibility checked.

By this interaction between the driver on the one hand and the complex one on the other electronic sensors and actuators of the on-board system, on the other hand becomes a high-quality mutual functional safeguarding man / machine achieves a gaze-controlled stop-and-go operation without disadvantages for all Traffic participants allows.

According to claim 4 detects the central control unit reliably when the distance to the front man but the driver has not yet paid attention to the road ahead for the targeted triggering semi-automatic crawl in the column.

In In this case, the central control unit is after an action-less Time from z. B. ten seconds an acoustic and / or optical Signal for the Producing drivers who ask him, for example, the look of his reading to lift and the look-controlled and secured by his observation move up to generate in the column. This will certainly be a look with conscious awareness and the security of the gaze-controlled Stop-and-go operation to at least a comparable level as in conventional vehicle guidance.

According to claim 5, the longitudinal behavior of the vehicle is now signaled in the view-controlled stop-and-go operation, ie starting and braking, the following vehicle via a new rear light system. From the combination of a brake intensity indicator on the rear of the vehicle, as described in the publication DE 196 24 046 A1 is shown, and an acceleration display at the rear of the vehicle, as in the publication DE 197 38 767 A1 described, further benefits for a safe traffic occur. Further advantages and features will become apparent from the embodiments which are described with reference to the accompanying drawings in the overall context.

The Drawings show in

1 a block diagram with the central control unit and all the necessary sensor and control units on board a vehicle for a self-contained gaze-controlled stop-and-go operation of a vehicle

2 a timing diagram illustrating the parameter relationship in the sequential Driver / vehicle interaction for a self-contained, visually controlled stop-and-go operation of a vehicle In the present embodiment, according to the block diagram 1 and timing diagram 2 is the view-controlled stop-and-go operation by pressing the Stop-and-Go button ( 1 ) is consciously activated by the driver at time t ₀ .

The Button can light up in the activated state, or it will be a additional visual display for the activated stop-and-go operation in the instrument cluster or on presented another way.

Via an optical detection system with a camera ( 4 ) on the dashboard and its associated evaluation circuit in the central control unit ( 5 ) it is determined that the driver's gaze ( 21 ) is directed at t ₃ through the windshield on the road ahead. About the speed measurement ( 9 ) the stoppage of the vehicle is known since t ₀ .

From the two apron sensors ( 16 ) ( 17 ) the distance sensor ( 16 ) Since t ₂ a distance to the vehicle in the front of the vehicle column of> 5 meters, which would make an automatic advancement in creeper recommended. The image sensor ( 17 ) for the detection of the preceding roadway, the maintenance of the traffic lane unchanged since t ₀ .

The steering angle ( 10 ) has been tested for plausibility since t ₀ and would prevent automatic startup in the event of an arbitrary and extreme steering lock.

After the aforementioned main parameters now recognizes the central control unit ( 5 ) meets all conditions for the crawl as and causes in a timeline after the view of the driver on the road since t ₃ at the subsequent time t ₅ - so two seconds later - first a short acoustic acknowledgment signal through the speaker ( 7 ).

Simultaneously with the acoustic signal at t ₅ is now at the rear of the vehicle as optical information for the following driver, the acceleration light ( 18 ) alternatively for the extinguishing conventional pair of taillights ( 19 ) switched on. It is the acceleration light ( 18 ) to a smaller pair of taillights directly between the Heckkennzeichen ( 22 ) and the conventional pair of taillights ( 19 ). The acceleration light ( 18 ) lights now from the acoustic acknowledgment signal at t ₅ , continues at the creep from t ₆ and goes out at t ₈ . The time t ₈ is the time via the distance sensor ( 16 ) and speed sensor ( 9 ) Extrapolated time, which is one second before the calculated start of braking at t ₉ and also initiates the visual warning for the next driver. With the extinction of the acceleration light ( 18 ) at t ₈ namely the conventional pair of taillights ( 19 ) is activated again, at the same time the brake light (at t ₈ ) illuminates the pre-warning for the following vehicle ( 20 ) one second before the start of the braking operation.

The conventional pair of taillights ( 19 ) is at least during a view-controlled stop-and-go operation as Tagfahr taillights pair designated, so it will basically remain switched on during the day. The variable appearance of the rear lighting of the vehicle when starting and braking with the respective change between the conventional pair of taillights ( 19 ) and the smaller acceleration light ( 18 ) generates via the stimulus factors "smaller" and "narrower" - or vice versa - "big" and "further" an intuitive optical information for the next driver.

This feigned Signal image of a "near" or "distant" vehicle ahead signaled for the following driver clearly the difference between standing and Driving a look-ahead vehicle and announces over time very advantageous the respective actions "start" and "deceleration" on. vice versa

At time t ₆ , the central control unit ( 5 ) the speed step ( 15 ) without the driver's intervention and via the gas actuator ( 2 ) initiated the automatic controlled crawl. Actuator of steering ( 6 ) is permanently monitored by the evaluation circuit of the image sensor ( 17 ) and necessary adjustments to track compliance made.

About the permanent distance measurement to the person in front by means of the distance sensor ( 16 ) and the speed measurement data ( 9 ) is displayed in the central control unit ( 5 ) that time t ₁₀ extrapolated to the distance to the front man would fall below the threshold of five meters again. In time, via the actuator of the brake ( 3 ) initiated the braking operation at t ₉ and moderately carried out until t ₁₀ , if the vehicle ahead has not moved in the meantime.

Does the distance sensor ( 16 ) recognized during their own forward movement, a further journey of the car in front, the crawl continues until the limit of five meters is reached. The temporally associated control of the rear light system for information of the following vehicle has already been described above.

At time t ₁₀ , the end of the braking process is now reached at a target distance of five meters to the vehicle in front. About the speaker ( 7 ) sounds a short acknowledgment signal, the gear ( 15 ) is automatically switched by its actuator to neutral position, and the driver can turn his gaze, for example, at time t ₁₂ again from the road ahead.

The Time in stop-and-go traffic can now be taken away by the driver the vehicle used become.

There for one so far-reaching automation of vehicle management highest safety standards have to be achieved it requires the use of further technical equipment on board a vehicle to generate additional redundancies in the area safety.

For the view-controlled stop-and-go operation, the image sensor ( 17 ) also by the locating / navigation ( 13 ). In the future, this will work with position accuracies below one meter and is able to avoid misinterpretations in the evaluation of the image sensor ( 17 ) with regard to tracking via the control unit ( 6 ) to influence. This is done by comparing the located actual track course with the stored digital route information in the navigation system. Incorrect tracking would result in deviations of the data sources by the central control unit ( 5 ) prevented. If there is a persistent system failure, the stop-and-go operation would be automatically disabled and the driver through the speaker ( 7 ) informed by voice output.

Another sensitive point in the overall system is the distance sensor ( 16 ), which, for example, uses radar technology for the intelligent cruise control to sense the distance to the vehicle ahead. Sometimes objects can not be uniquely determined by radar beam absorption or other unwanted physical side effects. Failure to recognize the distance to the car in front or a spontaneous crossing of the track by pedestrians could lead to accidents. Here, for additional protection, the front-end park distance sensors are used ( 12 ). Thus, in case of failure of the main measuring device distance sensor ( 16 ) and a long reaction time of the driver of the long reaction creeper of the vehicle in stop-and-go operation by the actuator of the brake ( 3 ) abruptly stopped when the parking distance sensors ( 12 ) an obstacle is detected within 1.5 meters.

The rest of the protection of the view-controlled stop-and-go operation is carried out by the driver himself; in the event of critical situations being perceived by its brake intervention, the brake contact ( 11 ) is activated. The stop-and-go operation would be deactivated automatically. Through the stop-and-go button ( 1 ) it can be reactivated.

By another measure, which is not described here in detail, is via a driver identification ( 14 ) captures the typical control behavior of people in gaze application and interprets it better and better in a learning system with repeated use.

To support the optical detection system with the camera ( 4 ) on the dashboard is in lack of detection of the driver's view, for example, not anti-reflective lenses also a voice input channel via the microphone ( 8th ) intended. With this known technique, a "go" command could also trigger a crawl and up to a "stop" command with the stop-and-go button activated ( 1 ) and compliance with the said framework conditions. This possibility is well known and not the subject of the invention.

Claims (5)

Vision-controlled automatic stop-and-go system in motor vehicles comprising a central control unit which enables reliable semi-automatic forward movement of a vehicle by means of complex sensors and actuators of an on-board system, characterized in that the forward movement of the vehicle is causally and solely by means of a conscious, over a defined period of time continuous attention of the driver on the vehicle upstream portion of the road is triggered and maintained for the duration of the continued viewing giveaway. View-controlled stop-and-go automatic according to claim 1, characterized in that the central control unit avoids gaze from the roadway as the decisive criterion for an automatic Engine shutdown at standstill and view of the roadway ahead for an automatic start of the engine to record the following drive based on stop-and-go traffic. View-controlled stop-and-go automatic according to claims 1 and 2, characterized in that the advancing in the vehicle convoy exclusively from the central control unit to the actuators becomes. View-controlled stop-and-go system according to one of the preceding claims, characterized in that the central control unit via the evaluation of the sensors of the on-board system detects a necessary retraction of the vehicle in stop-and-go traffic automatically and prompts the driver by an audible and / or visual reference to viewzuzu on the vehicle upstream portion of the road. View-controlled stop-and-go automatic after one the aforesaid claims, characterized in that the automatic activities of the view-controlled Vehicle for be signaled to the following driver by a tail light system, wherein the starting and braking of the gaze-controlled vehicle is indicated by optical light signal images.