WO2004085220A1 - Elektronisches steuersystem für ein fahrzeug und verfahren zum ermitteln mindestens eines vom fahrer unabhängigen eingriffs in ein fahrzeugsystem - Google Patents
Elektronisches steuersystem für ein fahrzeug und verfahren zum ermitteln mindestens eines vom fahrer unabhängigen eingriffs in ein fahrzeugsystem Download PDFInfo
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- WO2004085220A1 WO2004085220A1 PCT/EP2004/050384 EP2004050384W WO2004085220A1 WO 2004085220 A1 WO2004085220 A1 WO 2004085220A1 EP 2004050384 W EP2004050384 W EP 2004050384W WO 2004085220 A1 WO2004085220 A1 WO 2004085220A1
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- vehicle
- driver
- danger
- brake
- control system
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60R—VEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR
- B60R21/00—Arrangements or fittings on vehicles for protecting or preventing injuries to occupants or pedestrians in case of accidents or other traffic risks
- B60R21/01—Electrical circuits for triggering passive safety arrangements, e.g. airbags, safety belt tighteners, in case of vehicle accidents or impending vehicle accidents
- B60R21/013—Electrical circuits for triggering passive safety arrangements, e.g. airbags, safety belt tighteners, in case of vehicle accidents or impending vehicle accidents including means for detecting collisions, impending collisions or roll-over
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
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- B60R21/00—Arrangements or fittings on vehicles for protecting or preventing injuries to occupants or pedestrians in case of accidents or other traffic risks
- B60R21/01—Electrical circuits for triggering passive safety arrangements, e.g. airbags, safety belt tighteners, in case of vehicle accidents or impending vehicle accidents
- B60R21/015—Electrical circuits for triggering passive safety arrangements, e.g. airbags, safety belt tighteners, in case of vehicle accidents or impending vehicle accidents including means for detecting the presence or position of passengers, passenger seats or child seats, and the related safety parameters therefor, e.g. speed or timing of airbag inflation in relation to occupant position or seat belt use
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- B60R21/01—Electrical circuits for triggering passive safety arrangements, e.g. airbags, safety belt tighteners, in case of vehicle accidents or impending vehicle accidents
- B60R21/015—Electrical circuits for triggering passive safety arrangements, e.g. airbags, safety belt tighteners, in case of vehicle accidents or impending vehicle accidents including means for detecting the presence or position of passengers, passenger seats or child seats, and the related safety parameters therefor, e.g. speed or timing of airbag inflation in relation to occupant position or seat belt use
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- B60R21/01544—Passenger detection systems detecting seat belt parameters, e.g. length, tension or height-adjustment
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- B—PERFORMING OPERATIONS; TRANSPORTING
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- B60T8/17551—Brake regulation specially adapted to control the stability of the vehicle, e.g. taking into account yaw rate or transverse acceleration in a curve determining control parameters related to vehicle stability used in the regulation, e.g. by calculations involving measured or detected parameters
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- B—PERFORMING OPERATIONS; TRANSPORTING
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- B60R21/01—Electrical circuits for triggering passive safety arrangements, e.g. airbags, safety belt tighteners, in case of vehicle accidents or impending vehicle accidents
- B60R21/013—Electrical circuits for triggering passive safety arrangements, e.g. airbags, safety belt tighteners, in case of vehicle accidents or impending vehicle accidents including means for detecting collisions, impending collisions or roll-over
- B60R2021/01311—Electrical circuits for triggering passive safety arrangements, e.g. airbags, safety belt tighteners, in case of vehicle accidents or impending vehicle accidents including means for detecting collisions, impending collisions or roll-over monitoring the braking system, e.g. ABS
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- B—PERFORMING OPERATIONS; TRANSPORTING
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- B60R—VEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR
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- B60R2021/01313—Electrical circuits for triggering passive safety arrangements, e.g. airbags, safety belt tighteners, in case of vehicle accidents or impending vehicle accidents including means for detecting collisions, impending collisions or roll-over monitoring the vehicle steering system or the dynamic control system
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60R—VEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR
- B60R21/00—Arrangements or fittings on vehicles for protecting or preventing injuries to occupants or pedestrians in case of accidents or other traffic risks
- B60R21/01—Electrical circuits for triggering passive safety arrangements, e.g. airbags, safety belt tighteners, in case of vehicle accidents or impending vehicle accidents
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- B60R21/0134—Electrical circuits for triggering passive safety arrangements, e.g. airbags, safety belt tighteners, in case of vehicle accidents or impending vehicle accidents including means for detecting collisions, impending collisions or roll-over responsive to imminent contact with an obstacle, e.g. using radar systems
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- B—PERFORMING OPERATIONS; TRANSPORTING
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
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- B—PERFORMING OPERATIONS; TRANSPORTING
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- B60T2201/00—Particular use of vehicle brake systems; Special systems using also the brakes; Special software modules within the brake system controller
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- B—PERFORMING OPERATIONS; TRANSPORTING
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- B60T2220/00—Monitoring, detecting driver behaviour; Signalling thereof; Counteracting thereof
- B60T2220/04—Pedal travel sensor, stroke sensor; Sensing brake request
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60T—VEHICLE BRAKE CONTROL SYSTEMS OR PARTS THEREOF; BRAKE CONTROL SYSTEMS OR PARTS THEREOF, IN GENERAL; ARRANGEMENT OF BRAKING ELEMENTS ON VEHICLES IN GENERAL; PORTABLE DEVICES FOR PREVENTING UNWANTED MOVEMENT OF VEHICLES; VEHICLE MODIFICATIONS TO FACILITATE COOLING OF BRAKES
- B60T2260/00—Interaction of vehicle brake system with other systems
- B60T2260/08—Coordination of integrated systems
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- B—PERFORMING OPERATIONS; TRANSPORTING
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- B60T2260/00—Interaction of vehicle brake system with other systems
- B60T2260/09—Complex systems; Conjoint control of two or more vehicle active control systems
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- B—PERFORMING OPERATIONS; TRANSPORTING
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- B60W—CONJOINT CONTROL OF VEHICLE SUB-UNITS OF DIFFERENT TYPE OR DIFFERENT FUNCTION; CONTROL SYSTEMS SPECIALLY ADAPTED FOR HYBRID VEHICLES; ROAD VEHICLE DRIVE CONTROL SYSTEMS FOR PURPOSES NOT RELATED TO THE CONTROL OF A PARTICULAR SUB-UNIT
- B60W50/00—Details of control systems for road vehicle drive control not related to the control of a particular sub-unit, e.g. process diagnostic or vehicle driver interfaces
- B60W2050/0001—Details of the control system
- B60W2050/0002—Automatic control, details of type of controller or control system architecture
- B60W2050/0016—State machine analysis
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- B60W50/00—Details of control systems for road vehicle drive control not related to the control of a particular sub-unit, e.g. process diagnostic or vehicle driver interfaces
- B60W50/02—Ensuring safety in case of control system failures, e.g. by diagnosing, circumventing or fixing failures
- B60W50/029—Adapting to failures or work around with other constraints, e.g. circumvention by avoiding use of failed parts
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- B60W50/00—Details of control systems for road vehicle drive control not related to the control of a particular sub-unit, e.g. process diagnostic or vehicle driver interfaces
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- B60W2710/00—Output or target parameters relating to a particular sub-units
- B60W2710/18—Braking system
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60W—CONJOINT CONTROL OF VEHICLE SUB-UNITS OF DIFFERENT TYPE OR DIFFERENT FUNCTION; CONTROL SYSTEMS SPECIALLY ADAPTED FOR HYBRID VEHICLES; ROAD VEHICLE DRIVE CONTROL SYSTEMS FOR PURPOSES NOT RELATED TO THE CONTROL OF A PARTICULAR SUB-UNIT
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- B60W30/09—Taking automatic action to avoid collision, e.g. braking and steering
Definitions
- the invention relates to an electronic control system for a vehicle and a method for determining at least one intervention in a vehicle system that is independent of the driver.
- the invention relates to a method for preventing accidents and injuries by integrating the active and passive safety means and the active driving dynamics control into an electronic control system of a vehicle.
- a further shortening of the entire stopping process is due to the faster possible pressure build-up by using a
- EMS electro-hydraulic brake system
- BA brake assistant
- networking has been expanded to include environmental information.
- a 77 GHz radar or a LIDAR distance sensor from Adaptive Cruise Control (ACC) provides distance and relative speed from the vehicles in front of the vehicle.
- the comfort-oriented ACC control uses this data to enable the driver to drive relaxed, relieved of routine tasks (keeping his distance) and free from fatigue.
- an activated ACC system also increases safety for an inattentive driver.
- the ACC detects a dangerous situation and initiates external braking at a critical distance and relative speed up to the permitted limit of 2 to 3 m / s 2 . If this deceleration is not sufficient to avoid a collision, the driver is warned by a signal and prompted to take over braking.
- This shortening of the reaction path can also be used when the distance sensor and brake system are networked consistently when the ACC system is switched off. If the driver
- the extended brake assistant (BA +) supports the driver in further increasing the brake pressure.
- DE 198 06 687 A1 discloses a method for preventing a collision of a vehicle with an object arranged in front of the vehicle.
- the distance and the relative speed between the vehicle and the obstacle as well as the speed and the acceleration or deceleration of the vehicle are recorded and, depending on this, collision notifications or braking processes are triggered.
- a braking process should only be initiated if the detected distance is less than two calculated distances.
- One calculated distance represents a minimum distance at which a collision with a maximum deceleration can be avoided, while the other distance should enable the vehicle to steer past the object.
- WO 03/006289 discloses a method for automatically triggering a deceleration of a vehicle to prevent a collision with another object, in which objects are detected in the course area of the vehicle and motion variables of the vehicle are detected as a function of radar or lidar signals or video signals , Depending on the detected object and the movement variables, a hazard potential should be determined. According to this hazard potential, the delay means should be operated in at least three states. In addition, the consequences of an impending collision with another object are reduced by activating passive or active restraint systems.
- the invention has for its object to provide an electronic control system and a method for preventing a collision and / or for reducing the consequences of a collision with an object, which avoids incorrect interventions directed against the driver's assessment or incorrect adjustments and yet optimally the driver in dangerous driving situations supports and initiates necessary protective measures.
- a generic electronic control system for a vehicle is designed in such a way that the control system contains a driver request module for determining parameters relating to a driver request from data which at least reflect pedal travel, conversion movements between the pedals and the brake pressure of the brake system and a hazard computer for determining the hazard potential from predetermined and current vehicle data and further data, such as environment data and driver data, and possibly also personal data inside and outside the vehicle and the like.
- the hazard calculator performs at least one assessment of the hazard situation of the vehicle and of the people present in the vehicle and possibly also of the surroundings and, depending on the assessment and further criteria or weightings according to hazard potential, outputs manual intervention for controlling actuators to an arbitration unit which at least depending on an influencing of the driving dynamics of the vehicle caused by the control interventions, carries out an evaluation with the data relating to the driver's request determined in the driver's request module, and conditionally enables, disables or blocks the stepped control interventions in accordance with the evaluation result.
- a generic method for determining at least one intervention in a vehicle system that is independent of the driver is carried out in such a way that in a driver request module for determining parameters relating to the driver request from data, at least pedal travel, conversion movements between the pedals and reproduce the brake pressure of the brake system, a driver's request is determined and determined in a danger computer from predetermined and current vehicle data and further data, such as environment data and driver data, and possibly also personal data inside and outside the vehicle and the like at least one assessment of the hazard situation of the vehicle and the people present in the vehicle and, if necessary, still carries out the environment and, depending on the evaluation and other criteria or weightings according to danger potential, outputs control interventions for the control of actuators to an arbitration unit which, at least depending on an influencing of the driving dynamics of the vehicle caused by the control interventions, evaluates them with those in the driver's request module determined data relating to the driver's request, and conditionally activates, activates or blocks the staged intervention according to the result of the
- data are generated from predefined and current vehicle data, environment data and driver data, as well as further data, such as possibly personal data inside and outside the vehicle and the like, in a danger computer Potential hazards for people inside and / or outside the vehicle and the vehicle or objects are determined.
- a driver request module from pedal travel, transfer movements between the pedals and brake pressures of the brake system and other sizes or states, such as Changes in steering angle, accelerator pedal travel, brake lights on / off and / or derivatives of the above data and sizes of the driver's request are determined. Acceleration or deceleration and / or a change in direction of travel may result as essential driver requests.
- manipulations for the actuators of a vehicle determined in the hazard computer are conditionally enabled, enabled or disabled in an arbitration unit.
- Conditional activation means interventions by selected actuators, while interventions issued by the hazard computer are blocked or suppressed by other actuators.
- control interventions for actuators generated from current driving situations with hazard potential can be suppressed, modified by control technology or partially activated (e.g. an intervention in the brakes of 40 bar is reduced to a brake pressure of 20 bar) or released.
- the assessment of the dangerous situation by the danger computer is designed to be “driver adaptive”, so that depending on the determined danger potential and the driver's wish, the control interventions are carried out, blocked or changed.
- Interventions can only be activated depending on the hazard potential, without the driver
- a criterion for the "disregard" of the driver's request is the influence on the driving dynamics of this intervention.
- hazard potentials are advantageously determined in the hazard calculator and appropriately combined to form the control interventions, an ear potential being calculated from a fuzzy system.
- the control interventions are then compared with the driver's request, which is expediently implemented in a state machine.
- potential hazards are formed with regard to different areas of application.
- the hazard potentials differ in general potentials and special potentials.
- a general hazard potential is understood to mean actuator-independent, such as hazard potentials from environmental information and vehicle data that evaluate the longitudinally dynamic criticality of the driving situation.
- a special hazard potential is understood to mean actuator-specific, such as a hazard potential that evaluates the driving situation based on sensor information, vehicle data and actuator-specific parameters such as activation times.
- the hazard computer makes an assessment of the hazard situation of the vehicle and of the people present in and outside the vehicle. Depending on the evaluation and, if applicable, further criteria or weightings, the hazard computer outputs stepped intervention or control signals that control actuators that control the driving behavior of the vehicle and / or the occupant protection
- the priority circuit determines, depending on the identified hazard potential and other parameters, how the stepped intervention is prioritized.
- the conversion movement between the accelerator and brake pedals is advantageously determined from accelerator pedal travel information and the brake light information as input variables of the driver request module.
- the conversion time between the pedals is determined from these two input variables.
- At least one braking request is determined from the data and made available to the downstream arbitration unit.
- a steering request and / or acceleration request is expediently determined in the driver request module from further data and made available to the downstream arbitration unit.
- the hazard calculator is used to determine the hazard potential input data from vehicle systems such as environment systems, seat adjustments, belt tensioners, pedal travel sensors and / or vehicle dynamics control systems (ESP, ABS, ACC, BA) and the like. available
- vehicle systems such as environment systems, seat adjustments, belt tensioners, pedal travel sensors and / or vehicle dynamics control systems (ESP, ABS, ACC, BA) and the like. available
- the hazard computer uses data to calculate the at least the longitudinal vehicle speed, the longitudinal vehicle acceleration, the lateral vehicle acceleration, the distances to relevant objects in the near and / or long range, the relative speed to relevant objects in the near and / or long range and / or their derivatives and Zu - Status information about driving dynamics controllers, such as ABS, HBA, ESP etc., reproduce, hazard potentials, the effect of at least depending on the longitudinal dynamic and / or transverse dynamic hazard parameters, the effect of the manipulated variables for the brakes, the reversible occupant protection devices, which are dependent on the determined hazard potential generates the relative position between occupant protection means and vehicle occupants adjusting devices.
- driving dynamics controllers such as ABS, HBA, ESP etc.
- the hazard computer can use the information from the distance sensors to specifically condition the passive safety measures in addition to the active safety systems.
- the non-reversible occupant protection devices are preconditioned, i.e. additional information is provided by the hazard calculator. This information can be used to change the activation thresholds. The risk of injury to the occupants is reduced, the severity and frequency of accidents decrease.
- the time before the accident is used to determine the expected severity of the accident and the estimated direction of impact at the Activate the intervention strategy of the actuators, such as the deployment strategy of the airbags.
- the CV sensor is also used for de-
- the gain in safety through the electronic control system and the procedure can be achieved by networking the components and by centrally evaluating the probability of an accident using the information from the networked systems.
- the control system and the method are based on the basic idea of data exchange among security systems which have information about the driver, the vehicle and the vehicle environment.
- the aim is not only to add value for the driver to implement new functions with existing components, but also to reduce costs by networking the existing components.
- the central and networking part of the software is the hazard calculator, in which all data in the vehicle come together. There the environment information is merged and all data is analyzed. According to a preferred embodiment, the environment data usion can also take place in a separate module which is connected upstream of the danger computer and provides it with fused environment data as relevant data for a security system. For the current driving situation, a hazard potential is determined that reflects the current probability of an accident. As the risk potential increases, measures are then initiated in stages, from information and warnings for the driver to the activation of reversible restraint systems.
- the environment sensors make a significant contribution to this. It enables the sensible use of reversible passive safety measures.
- a further step in the direction of more security is being taken with the introduction of image processing camera systems.
- this also enables objects to be classified for the first time. Combined braking and steering interventions will help the driver to avoid accidents.
- the hazard computer obtains its information on the driving situation from the control states of the built-in active safety systems such as ESP, BA and Active Rollover Prevention (ARP) for the necessary control.
- ESP built-in active safety systems
- ARP Active Rollover Prevention
- the hazard calculator can generate manipulated variables for closing vehicle openings depending on the hazard potential determined.
- the windows and the sunroof are preferably closed in the event of an impending accident. If the potential for danger increases further and an imminent crash is imminent, the vehicle occupants are secured and positioned using an electric motor-driven, reversible belt tensioner. Due to the reduced belt loops, you take part in vehicle deceleration earlier. Likewise, the risk of being injured continues to decrease.
- Optical and / or haptic warning and / or guidance instructions or instructions for warning and / or directing the driver to a driver reaction adapted to the current vehicle situation are advantageously provided.
- the warnings are preferably given by means of a vibrating pedal and / or seat and / or a display.
- the guidance instructions are given by means of a changed operating force on at least one pedal and / or the steering handle, so that the driver is prompted to steer the vehicle in a manner appropriate to the situation via the increasing or decreasing operating force.
- the hazard potential is a dimensionless variable in the range between 0 and 100. The greater the hazard potential, the more dangerous the situation.
- the actuators are only activated on the basis of threshold value inquiries of the potential hazards. Several hazard potentials can be combined to activate an actuator. This means that the condition assessment does not initially include the selection or the actuation dosage of the actuators. A certain situation is assessed by several potential hazards. This allows a more extensive assessment of the situation. There are potential dangers that
- the arbitration unit provided in the electronic control system preferably has a state machine which measures the behavior of the driver on the basis of variables, the accelerator pedal travel, the accelerator pedal speed and the conversion time between the accelerator and brake pedals and / or the state (on / off) of the brake light and / or represent measured and / or calculated brake pressures of the brake system and / or vehicle acceleration and / or their derivations in correlation to a control variable dependent on the hazard potential and arbitrary depending on the result activates brake pressure specifications of the hazard calculator.
- the control intervention such as the brake intervention
- the autonomous control intervention is limited with regard to the value of the manipulated variable, such as the brake pressure.
- control inputs are then made available for the deceleration devices of the vehicle, which contain various brake pressure requirements, which range from pre-filling the brake system to reduce the response time up to maximum brake pressure control.
- the state machine evaluates the behavior of the driver and, depending on this, enables the brake computer's brake pressure specifications. Essentially, the driver's foot movement is evaluated. This allows conclusions to be drawn as to how dangerous the driver regards the same situation or whether he has recognized a critical situation at all. Only when the driver confirms this critical situation does the driver build up brake pressure independently. There are four levels:
- prefill This level defines a state in which the driver's deceleration request can only be determined to a limited extent or does not yet exist. In this state, the driver must touch the accelerator pedal. There are two subordinate states: a) prefill 1: The calculated hazard potential has a time gradient that lies above a defined threshold. The driver does not change his accelerator position. This
- prebra e In this state, the driver has not pressed the accelerator or brake pedal. Therefore, this state is interpreted as a limited delay request. The maximum deceleration is thus raised to approximately the legally permitted level (0.3g), so that a maximum brake pressure of p3max> p2max can occur.
- a key figure which represents the degree of the driver's braking request. This factor consists of three parts, which are included in a certain weighting ratio. a) Ratio of brake pedal travel to the maximum of the brake pedal travel, which is dependent on the pressure in the system (represented by the wheel brake pressure) or ratio of brake pressure to the maximum of the brake pressure of the brake system. This is necessary because the driver feels the brake pressure in the system if it is pre-filled. b) Ratio of brake pedal speed to the maximum of the brake pedal speed or ratio of brake pressure change to the maximum of the brake pressure change. This maximum is approximately independent of the degree of system pre-filling. c) Factor that evaluates the conversion time from the accelerator to the brake pedal.
- the driver receives brake support adapted to the situation by activating the brake pressure determined in the danger computer.
- the specific design depends on the equipment of the vehicle.
- the electronic control system and the method for operating the control system is therefore preferably modular, so that modules for the active safety systems ABS, ESP, TCS and the like. and the hazard calculator can calculate delay requests and further manipulations in parallel and separately.
- the driver represents a plausibility check for the manipulations requested by the danger computer.
- Fig. 1 shows a state of the networking of the active and passive vehicle systems with the electronic control system according to the invention
- Fig. 2 is a block diagram of the system structure of the electronic control system
- Fig. 3 is a simplified categorized representation of the difference between the target and actual distance to road users
- Fig. 5 is a schematic representation of the rule base for the control intervention target deceleration a so u as a function of target, actual distance and relative speed
- Fig. 6 is a schematic representation of the state transitions prefill, prbrake, extend brake assist
- Fig. 7 is a schematic representation of the state transitions prefill
- Fig. 8 is a schematic representation of the activation of a belt tensioner
- Fig. 9 is a schematic representation of a sigmoidal transition unction
- FIG. 1 shows the overall system of a vehicle networked with the electronic control system 20.
- the control system 20 on the basis of the input signals of the ABS / ESP brake system 11, the environment sensor system 12, the electric seat adjustment 13, the belt tensioner 19 and the resulting measured or derived internal and / or external signal variables in a danger computer 10 (FIG. 2) Interventions dependent on potential hazards are calculated.
- the determination of control interventions for actuators is based on the following input variables of the vehicle units networked with the control system 20:
- the distance to the relevant object from a far-range sensor, the relative speed to the relevant object from a far-range sensor, the relative acceleration to the relevant object from a far-range sensor and the status signals relevant object from the far-range sensor become valid, and possibly information about the type of the detected relevant object (e.g. pedestrian, truck and the like) and its state (stands, moves and the like) are made available to the control system 20.
- the type of the detected relevant object e.g. pedestrian, truck and the like
- its state stands, moves and the like
- the status signals are made available to the control system via the occupancy of the belt buckles of the driver and front passenger seat.
- the electronic control system 20 is also networked with the airbag control 15, a haptic accelerator pedal 16, the control of the window lifters and the sliding roof 17 and the display 18 of the vehicle.
- FIG. 2 shows the structure of the electronic control system 20. This provides for signal conditioning 21, into which the data / signals from the vehicle 23, the driver 24 and the environment 22 are read. The signals are then conditioned
- a module 29 for recording the driver's request is also connected to the signal conditioning 21.
- specific parameters such as conversion time between the pedals, driver's request delay and the like, are derived from input parameters that describe the driver's request with regard to the guidance of the vehicle.
- the probability of an accident is determined on the basis of the input data with the aim of controlling the actuator system present in the vehicle.
- the following data can be used as input variables to determine the current dangerous situation (potential and direction of danger):
- Classification of the detected objects (pedestrians, extension of the objects, 7) e.g. with camera and image processing
- Telematics information (traffic jam reports via TMC or GSM, road condition information, ..)
- Driving dynamics sensors and models for determining the driving condition from wheel speed, yaw rate, longitudinal acceleration, lateral acceleration, steering angle, steering angle speed, slip angle, ESP additional torque and / or coefficient of friction.
- the hazard computer 10 essentially carries out three process steps.
- An abstract level is defined that appropriately evaluates the situation. This level is realized through the hazard potential.
- the hazard potential is a dimensionless variable in the range between 0 and 100. The greater the hazard potential, the more dangerous the situation.
- the actuators are only activated on the basis of threshold value inquiries of the hazard potential.
- Several hazard potentials can be combined to activate an actuator. This means that the condition assessment initially only contains the selection or the actuation dosage of the actuators to a limited extent (see later special hazard potentials) or not (see later general hazard potentials). It is clear from the explanations that a certain situation is assessed by several potential hazards. This allows a more extensive assessment of the situation.
- the danger potential is a dimensionless quantity in the range between 0 and 100. It describes the danger of a certain situation.
- a risk potential of 0 means no danger and one of 100 very great danger.
- a hazard potential of 100 does not mean that an accident is inevitable.
- the actuators e.g. brakes, rev. Belt tensioners, seat adjustment, etc.
- the actuators are activated.
- the activation and the degree of this activation is guaranteed by a threshold value query of the hazard potential or the hazard potentials.
- the longitudinal dynamic driving situation is assessed via a longitudinal dynamic danger potential, provided that the speed is greater than a minimum speed. This is achieved with a fuzzy inference system. Fuzzy logic makes it possible to mathematize human behavior or human causal knowledge and thus make it imitable by computers.
- the traffic situation and the driving state are then classified using membership functions.
- the first input variable is the difference between the setpoint and actual distance based on the setpoint distance sx_rel_des.
- the target distance depends functionally on your own driving speed vx and is based on the relationship
- sx_rel_des sx_rel_desmin + t_ttc_des * vx (5.2)
- the relative speed as a second input variable is also categorized by corresponding membership functions.
- the output variable - i.e. the longitudinal dynamic hazard potential - is also determined with the help of membership functions (
- Figure 3 shows the membership functions for the first input variable, i.e. for the difference between target and actual distance sx_rel based on the target distance sx_rel_des. This input variable is classified using six membership functions.
- Relationships (rules) are evaluated and then result in a share of the total risk potential for each individual rule, depending on the degree of fulfillment.
- the resulting hazard potential results from the accumulation of the individual partial implications.
- FIG. 5 shows an example of the rule base that results from the evaluation of the fuzzy system.
- the longitudinal dynamic hazard potential is plotted as a function of the input variables relative speed and the difference between the target and actual distance in relation to the target distance.
- the longitudinal dynamic driving situation is assessed via a further longitudinal dynamic danger potential.
- This hazard potential is calculated as follows: 1. Condition: The vehicle speed must be greater than a threshold value (no hazard potential is calculated in shunting mode)
- Condition 2 The relative speed to the detected object must be less than a negative threshold.
- This potential hazard sets the delay that is necessary to prevent a collision in relation to a proportion of the maximum delay that can be transmitted to the road.
- the calculation rule is:
- This hazard potential is 0 as long as there is no ABS braking. However, if ABS braking is carried out, this hazard potential 100.
- This hazard potential is 0 as long as there is no braking with brake assist support (classic hydraulic brake assist HBA, not the extended brake assist BA +). If, on the other hand, braking is carried out with assistance from the brake assist, this hazard potential is 100.
- This hazard potential is 0 as long as there is no ESP intervention. However, if the ESP intervenes in the driving dynamics, this hazard potential is 100.
- Condition 2 The relative speed to the detected object must be negative.
- the actual calculation of the hazard potential forms the quotient from the currently determined time to collision ttc from the sensor information and the average activation time of the reversible belt tensioner.
- the hazard potential calculated above is limited to a certain value depending on the quotient of the necessary delay and the maximum delay that can be transmitted to the road. This evaluates the driver's ability to brake before the accident, i.e. to change the state variables of speed and acceleration. These constant state variables are assumed when calculating the time to collision as used above.
- the additions of the above-described expansions lead to a more realistic assessment of the actual danger, since the options for influencing the current driving situation of the driver are taken into account.
- Figure 8 shows the step-by-step activation of a belt tensioner depending on the hazard potential, e.g. 20%, 60% and 100%.
- Stage 20 of the belt tensioner is activated at 20% of the hazard potential, stage II at 60% and stage III at 100%.
- stage I the strapless is removed, at stage I
- the occupant is positioned, i.e. the belt tensioner is tensioned and locked with maximum force.
- the activated belt tensioner remains in its activated stage until the hazard potential is below a threshold that no longer represents a hazard and the resulting vehicle acceleration is below a threshold and a certain period of time has passed.
- This hazard potential is calculated according to the same calculation rule as the hazard potential dp_msb_sen.
- the average activation time is used (instead of tmsb_activate set tseat_activate), which is necessary to adjust the seat.
- the additions as described in the calculation of the hazard potential dp_msb_sen can also apply here.
- This hazard potential is calculated according to the same calculation rule as the hazard potential dp_msb_sen.
- the average activation time is used (instead of tmsb_activate set twind_activate or troof_activate), which is necessary to close the window or sunroof.
- the additions as described in the calculation of the hazard potential dp_msb_sen can also apply here.
- the advantage of the invention is that influencing variables can be calculated, evaluated and categorized separately from one another. Using the various hazard potentials, the overall picture of the current hazard situation can be described through simple individual relationships. The overall picture of the current danger situation results from the evaluation of the individual risk potential.
- the control interventions determined from the danger computer can only be matched to an appropriate one after an evaluation in the arbitration unit 28 (FIG. 2) with the driver request determined in the driver request module 29 (FIG. 2), such as the driver action and other variables describing the current driver situation Degrees can be realized.
- a state machine uses the parameters provided by the driver's request module and, depending on this, enables, for example, delay specifications of the danger computer 10. Essentially, the driver's foot movement is evaluated. This allows conclusions to be drawn about how dangerous the driver is
- an emergency situation is derived from a) the time course of the brake pressure and the brake light information and b) the time course of the hazard potential. If this is recognized, the brake pressure calculated by the hazard computer is completely forwarded to the brake system as a setpoint. The driver receives maximum support. If, on the other hand, no emergency situation is recognized, a key figure is determined which represents the degree of the driver's braking request. This factor consists of three parts, which are included in a specific weighting ratio, a) Ratio of brake pedal travel to the maximum of the brake pedal travel, which is dependent on the pressure in the system (represented by the wheel brake pressure). This is necessary because the driver feels the brake pressure in the system if it is pre-filled.
- the driver receives brake support adapted to the situation by activating the brake pressure determined in the danger computer.
- the driver's deceleration support is dependent on the accelerator pedal travel s_aped and the brake pedal travel s_bped.
- An increase in the positive or negative acceleration of the vehicle is assumed in the arrow direction of the respective axes s_aped and s_bped.
- the arbitration unit cannot release any brake pressure, a brake pressure that leads to the application of the brake pads or a brake pressure that leads to the vehicle slightly warping. If the driver leaves the accelerator pedal and falls below the threshold THR_S_APED1, he indicates the desire to decelerate the vehicle and the state changes to path 61 to prebrake 63.
- the threshold THR_S_APED2 must be overcome so that the State changes via path 62 to prefill / not supported 60. If the system is in the prebrake 63 state and the driver presses the brake pedal until a SMINFORAPIABLS threshold is exceeded, the prebrake state changes to the extended brake assist 65 state via path 64.
- FIG. 7 shows the transitions between the states not supported, prefill 1 and prefill 2.
- Ds_aped denotes the accelerator pedal speed.
- a positive gradient of the accelerator pedal is assumed starting from 0 in the direction of the arrow.
- the path 75 is changed under the condition that the gradient of the accelerator pedal travel is greater than the threshold THR_DS_APED2L and the hazard potential is less than a threshold is in the state prefill 1 73.
- the state prefill2 74 is exited via path 76 if the gradient of the accelerator pedal travel is greater than the threshold THR_DS_APED2R.
- the state prefill 1 73 can change to the state prefill 2 74 via the path 71 if the gradient of the accelerator pedal travel is less than the threshold THR_DS_APED1L.
- the state prefill 1 73 can change to the state not supported 70 via the path 76 if the gradient of the accelerator pedal travel is greater than the threshold THR_DS_APED2R.
- transition conditions can be refined if the vehicle acceleration is evaluated as an additional input variable.
- the advantage of this extension is to consider an accelerated driving state over a longer period of time, when evaluating the actuation of the accelerator pedal
- sigmoid transition function is used to transfer the current control level to the new one.
- a section of the sine function or its approximation through a series expansion can be used as an exemplary embodiment.
- the driver remains in control in every situation and can at least override the braking intervention by accelerator pedal actuation.
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Abstract
Description
Claims
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
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EP04723620A EP1610992B1 (de) | 2003-03-26 | 2004-03-26 | Elektronisches steuersystem für ein fahrzeug und verfahren zum ermitteln eines vom fahrer unabhängigen eingriffs in ein fahrzeugsystem |
DE112004000314T DE112004000314A5 (de) | 2003-03-26 | 2004-03-26 | Elektronisches Steuersystem für ein Fahrzeug und Verfahren zum Ermitteln mindestens eines vom Fahrer unabhängigen Eingriffs in ein Fahrzeugsystem |
US10/550,315 US7668633B2 (en) | 2003-03-26 | 2004-03-26 | Electronic control system for a vehicle and method for determining at least one driver-independent intervention in a vehicle system |
JP2006505499A JP2006525174A (ja) | 2003-03-26 | 2004-03-26 | 車両用の電子制御システム及び車両システムで運転者に依存しない少なくとも1つの介入を算出する方法 |
Applications Claiming Priority (2)
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DE10313650 | 2003-03-26 | ||
DE10313650.9 | 2003-03-26 |
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WO2004085220A1 true WO2004085220A1 (de) | 2004-10-07 |
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ID=33038776
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Application Number | Title | Priority Date | Filing Date |
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PCT/EP2004/050384 WO2004085220A1 (de) | 2003-03-26 | 2004-03-26 | Elektronisches steuersystem für ein fahrzeug und verfahren zum ermitteln mindestens eines vom fahrer unabhängigen eingriffs in ein fahrzeugsystem |
Country Status (4)
Country | Link |
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US (1) | US7668633B2 (de) |
EP (1) | EP1610992B1 (de) |
JP (2) | JP2006525174A (de) |
WO (1) | WO2004085220A1 (de) |
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Also Published As
Publication number | Publication date |
---|---|
US20060195231A1 (en) | 2006-08-31 |
JP2012035831A (ja) | 2012-02-23 |
JP2006525174A (ja) | 2006-11-09 |
EP1610992A1 (de) | 2006-01-04 |
EP1610992B1 (de) | 2011-05-18 |
US7668633B2 (en) | 2010-02-23 |
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