DE4130090C1 - Vehicle motion sensing system - samples outputs of sensors and combines them logically with further signal - Google Patents

Abstract

The system automatically determines the coordination of sensors with the motion of a vehicle (6). It involves a measuring unit (2) with several sensors and also a unit for evaluating signals to be combined together, belonging to a part of the data detecting equipment (1) installed in the vehicle and suited for a reconstruction of the movement path. The course or progress of the output signals of similar sensors is detected in a given interval of time and these output signals are combined logically with another signal, which is generated by a unit on the vehicle and is allocated in a single-valued and known way to a direction of movement of the vehicle. A particular sensor is related to that movement in a definite direction, for which the course of the output signal shows significant changes in value. USE/ADVANTAGE - The assembly and mounting of the data detecting equipment has been simplified and the measuring unit has been independent of its installed position. It is suitable for `black box' designs.

Description

The invention relates to a method for automatic Set the assignment of directional sensors to Movement directions of a vehicle, one of several sensors measuring device and an evaluation unit for evaluating signals to be linked together Part of a suitable for a trajectory reconstruction and data acquisition device installed in the vehicle are.

Data acquisition devices of the type mentioned are known with regard to their technical construction. It is known from EP 01 18 818 B1, as shown in FIG. 1 of the cited document, that the data acquisition devices, which are often in the form of a "black box", not only record vehicle dynamics data, such as longitudinal and lateral acceleration, but also time-synchronously register vehicle status information such as the turn signal function . At another point it has been proposed to also integrate a magnetic field-dependent measuring device for the sensory detection of the non-linear movement of a vehicle in a data acquisition device of the type mentioned in order to make the movement path of the vehicle completely reconstructable.

For the meaningful, task-related signal evaluation of this the directional sensors listed as examples is the Knowledge of the installation position of the data acquisition device, in which the sensors are rigidly arranged, crucial. Therefore, there is a need to label the proper installation position, e.g. B. by markings on the housing of the device. The proper function of the device is required compliance with precise installation regulations, which leads to assembly not insignificant requirements are made. Because straight  one encounters the subsequent installation of the data acquisition device in practice with the necessary housing size, which results from the Installation space of the functionally required modules to be enclosed results in not a minor arrangement problems. The Space is allowed in the few, also by Safety aspects restricted installation locations and very cramped often not easily accessible for assembly. The result is usually a complex and therefore expensive for the user Assembly. But this means for a voluntary installation based vehicle data acquisition device a significant Acceptance problem.

The invention is based on the task, the assembly simplify the data acquisition device and the appropriate Function of the directional measuring device from the Make the installation position of the device independent.

This task is characterized by the im Part of claim 1 specified Merk times solved.

The subclaims show advantageous developments of solution according to the invention.

The invention has the advantage that as a rule Sensor type two-channel measuring device for detection the vehicle dynamics in terms of their sensors absolutely identical, d. H. directionally neutral, can be built and from Manufacturer does not have to make any specifications at the factory, which sensory channel for the detection of the vehicle lengthways dynamics  or transverse dynamics is provided. Markings on the case of the data acquisition device and directional Installation instructions can be omitted. Also becomes unnecessary when Expansion of the data acquisition device, e.g. B. to read the data in an external computer system for the reconstruction of a The course of the accident, the installation position related to the vehicle of the device, its knowledge for the Path reconstruction is essential.

This is for the user of the data acquisition device Aspect also extremely beneficial. Because that's it possible to change the installation direction for the data acquisition device in almost any way to the main axes of the vehicle without Free choice of confusion. The device is therefore for everyone can be easily installed without necessarily one to have to call in a specialist workshop. Restrictive However, it must be noted that due to the rule Sensors installed orthogonally to each other are unsuitable where the sensor main axes are exactly at 45 ° to the main directions of movement of the vehicle are located. The two in the figures are preferred arrangements shown.

The data acquisition device recognizes by a logical Signal linkage and the evaluation more significant Measuring signal forms automatically, which part of the sensory Measuring device which directional component detected. A manual There is no interference with the hardware of the data acquisition device required. Also when installing the device in that Vehicle no calibration or calibration required what especially for applications in the general public, e.g. B. at Devices that are especially suitable for cars Accident data storage are designed, particularly advantageous is.

The invention is again intended to be brief with the aid of three figures are explained. It shows

Fig. 1 link with blinker signal

Fig. 2 link with brake signal

Fig. 3 linkage with angle encoder signal.

In a data acquisition device 1 of the type mentioned at the outset, the measuring device 2 for sensory detection of the vehicle dynamics, which can be determined by measuring the acceleration a and the magnetic field B surrounding the vehicle, is generally arranged inside the device. To protect against unauthorized intervention, the device housing often has to be sealed by the manufacturer. Operating elements acting on the measuring device 2 are generally not provided.

The user of the data acquisition device 1 , especially if it is designed as an accident data memory, should be able to install the device 1 in almost any arrangement with respect to the spatial axes of his vehicle. The installation positions 1 a / 2 a and 1 b / 2 b are given as an example. It is therefore necessary for the device 1 to automatically recognize when it is started up, in which position it was arranged, in particular in relation to the vehicle's longitudinal axis ( 3 ) or transverse axis ( 4 ). Since the traffic regulations stipulate for all vehicles, changes in direction of travel, e.g. B. from the direction of the vehicle longitudinal axis 3 in the direction 7 to actuate the direction indicator 5 , for example, the linkage of this vehicle status signal with the multichannel, sensory, designed to detect the vehicle dynamics measuring device 2 of the data acquisition device 1 is advantageous to make a direction assignment.

If the turn signal switch is actuated and the vehicle 6 changes its direction of travel within a time interval determined by the turn signal, one of the two sensors provided for each type of sensor delivers a greater change in the measured values than the other. The measuring device 2 generally consists of two sensors arranged orthogonally to one another for each sensor type. However, it can also be expanded in the same way by the third spatial axis. The changes in the measured values are evaluated over a period of time, which includes certain lead and / or follow-up times with respect to the time interval defined by the blinker signal, in that the signal changes of similar sensors are detected and evaluated. The longitudinal dynamic values do not change in their values before and after the time interval defined by the turn signal in the same significant way. The comparison is made between the two sensor signal changes, which sensor of the measuring device 2 detects the transverse dynamics.

Since the arrangement of the data acquisition device 1 in the vehicle 6 , namely the position 1 a / 2 a or the position 1 b / 2 b, is generally not changed after the initial installation, the assignment ratio can be regarded as constant after the first assignment. Nevertheless, if special circumstances so require, this assignment ratio can be checked from time to time or even continuously in the manner described above.

Since the actuation of the direction indicator at Change of direction for driving behavior conforming to the law heard and odd movements the usual Corresponds to the operating conditions of a vehicle Data acquisition device in a short time in one for the Pathway reconstruction required, defined state. In general, this is already the case when starting the vehicle - or at least a short time later.

Besides the link with the turn signal, there are still further signal links with the same function are conceivable, around the goal of independently determining the assignment directional sensors to the directions of movement of a To reach the vehicle.

A second exemplary embodiment is shown in FIG. 2. Here, a signal generated in a clear manner by the braking device of the vehicle is used to identify those sensors which are assigned to the longitudinal direction of the vehicle and thus to the usual main direction of movement of the vehicle. Which component of the brake system 8 the signal is tapped from can be decided on the basis of purely practical considerations.

Once that - in this example, more generally than Brake signal designated - signal is present and at the same time the Evaluation unit in one of the orthogonally arranged Acceleration sensors a predetermined threshold exceeding delay of z. B. determines more than 0.2 g, recognizes the measuring device of the data acquisition device this linking and evaluation of the signals mentioned automatically which sensor is to be assigned to the longitudinal direction, because during a braking process, the measurement signals of the Acceleration sensor assigned to the vehicle travel direction significantly different, namely by a larger signal swing, change as the measurement signals of the orthogonally arranged similar sensor.

In addition, a third possibility of signal linking is shown in FIG. 3. If, for example, the vehicle is equipped with a rotation angle sensor and this sensor transmits a signal to the evaluation unit of the data acquisition device, then when driving a signal that means a constant angle, preferably the main direction of movement of the vehicle, over a predetermined time interval can be linked by linking it Angle signal with the measurement signals of the acceleration sensors also automatically assign the installation position of the sensors to the main vehicle axles. For this application, for example, steering angle sensors, electronic compasses or similar devices can be considered as angle sensors 9 . A vehicle movement signal can be tapped from the speedometer 10 .

The three examples given here do not constitute any final list, but only illustrate by way of example the idea of the invention, namely the signals from means whose Relationship to the main axes of the vehicle is known is with the signals of the measuring device  Data acquisition device with each other via an evaluation unit link to an automatic determination of the directional sensors of the measuring device to the To achieve directions of movement of the vehicle.

Claims (7)

1.A method for automatically determining the assignment of direction-related sensors to the directions of movement of a vehicle ( 6 ), a measuring device ( 2 ) comprising a plurality of sensors and an evaluation unit for evaluating signals to be linked being part of a data acquisition device which is suitable for a movement path reconstruction and is installed in the vehicle ( 1 ) are characterized ,

• that the time course of the output signals of similar sensors is detected within a certain time interval,
• - That these output signals are logically linked to a further signal which is generated by a vehicle unit and which is assigned in a clear, previously known manner to a direction of movement of the vehicle and
• - That the sensor is assigned to a specific direction of vehicle movement for which the temporal course of the output signal has significant changes in measured values.

2. The method according to claim 1, characterized, that the signals from the sensors of the data acquisition device with the vehicle's turn signal.   3. The method according to claim 1, characterized, that the signals from the sensors of the data acquisition device with linked to the brake signal of the vehicle. 4. The method according to claim 1, characterized, that the signals from the sensors of the data acquisition device with the signal from an angle encoder under the condition be linked together that the angle encoder signal while driving in a predetermined time interval Meaning of a constant angle at which the Vehicle has moved. 5. The method according to claim 1, characterized, that the signals from the sensors of the data acquisition device with the signal of an angle encoder are linked, the Angle encoder signal with the vehicle cornering in Connection is established. 6. The method according to any one of the preceding claims, characterized, that the assignment of the sensors of the data acquisition device to the directions of movement of the vehicle by detection and Evaluation of the measured value changes of the sensors via a Period before and / or after the time interval that by actuating a vehicle unit, which in a known spatial relationship to the main axes of the Vehicle stands, is determined. 7. The method according to any one of the preceding claims characterized, that the assignment ratio of the sensors of the Data acquisition device to the directions of movement Vehicle is checked from time to time or continuously.