Apparatus and method for determining careless driving

An apparatus and a method for determining careless driving are provided and determine more reliable careless driving by generating normal driving patterns using driving performance data for a reference time at the beginning of driving. In addition, careless driving patterns greater than a predetermined number are detected using the normal driving pattern and a boundary between the normal driving and the careless driving is determined using a supervised learning method. The careless driving of the driver is then determined based on the determined boundary.

CROSS-REFERENCE TO RELATED APPLICATION

This application is based on and claims priority from Korean Patent Application No. 10-2013-0110533, filed on Sep. 13, 2013 in the Korean Intellectual Property Office, the disclosure of which is incorporated herein in its entirety by reference.

BACKGROUND

1. Field of the Invention

The present invention relates to an apparatus and a method for determining careless driving, and more particularly, to a technology of determining careless driving of a driver by detecting careless driving patterns of the driver based on normal driving patterns of the driver and then determining careless driving of the driver using the careless driving patterns.

2. Description of the Prior Art

Research for detecting careless driving of a driver by analyzing driving performance data of a vehicle has been conducted. Most research has used a method of inducing careless driving by allowing a driver to perform a specific task and then learning patterns, such as steering and deceleration and acceleration, in advance. In other words, this is a method that allows a driver to intentionally perform the careless driving to determine different careless driving patterns of each driver.

However, when the method is actually applied to a vehicle, the driver needs to perform the careless driving to determine the driving performance data for the careless driving pattern. Therefore, it may be difficult to allow the driver to intentionally perform the careless driving. Further, a careless driving alarming system applied to a vehicle does not perform a learning of the careless driving patterns or learns only natural driving patterns (e.g., normal driving patterns) for about the initial 10 to 15 minutes and does not separately learn the careless driving patterns even though the driver intends the learning. Additionally, in the method of learning only the normal driving patterns, it may be difficult to find a boundary which differentiates the normal driving and the careless driving, as compared to a method of learning the normal driving patterns and the careless driving patterns together.

SUMMARY

Accordingly, the present invention provides an apparatus and a method for determining careless driving that determines more reliable careless driving by generating normal driving patterns using driving performance data for a reference time at the beginning of driving, detecting careless driving patterns greater than a predetermined number using the normal driving pattern, determining a boundary between the normal driving and the careless driving using a supervised learning method, and determining the careless driving of the driver based on the decided boundary.

In one aspect of the present invention, an apparatus for determining careless driving may include a plurality of units executed by a controller. The plurality of units may include: a driving performance data collection unit configured to collect driving performance data; a driving pattern generation unit configured to generate driving patterns using the collected driving performance data; a storage unit configured to store normal driving patterns and careless driving patterns; a careless driving pattern detection unit configured to detect the careless driving patterns among the driving patterns transferred from the driving pattern generation unit, based on the normal driving patterns and store the detected careless driving patterns in the storage unit; a boundary decision unit configured to determine boundary values between the normal driving patterns and the careless driving patterns using an artificial neural network (ANN) technique; a careless driving determination unit configured to determine whether the driving patterns in a threshold time unit transferred from the driving pattern generation unit are the careless driving patterns, based on the decided boundary values; and a controller configured to operate the driving pattern generation unit to store the driving patterns generated within a reference time at the start of driving in the storage unit as the normal driving patterns, transfer driving patterns generated after the storage of the normal driving patterns is completed to the careless driving pattern detection unit, and transfer driving patterns generated after the careless driving patterns greater than a predetermined number are detected to the careless driving determination unit.

In another aspect of the present invention, a method for determining careless driving may include: collecting, by a controller, driving performance data; storing, by the controller, driving patterns generated within a reference time at the start of driving in a storage unit as normal driving patterns; detecting, by the controller, careless driving patterns among the driving patterns, based on the normal driving patterns; determining, by the controller, boundary values between the normal driving patterns and the careless driving patterns using an artificial neural network (ANN) technique; detecting, by the controller, driving patterns generated after the careless driving patterns greater than a predetermined number; and determining, by the controller, whether driving patterns in a threshold time unit are the careless driving patterns, based on the boundary values.

DETAILED DESCRIPTION

FIG. 1is an exemplary diagram of an apparatus for determining careless driving according to an exemplary embodiment of the present invention. As illustrated inFIG. 1, the apparatus for determining careless driving may include a plurality of units executed by a controller70. The plurality of units may include a driving performance data collection unit10, a driving pattern generation unit20, a careless driving pattern detection unit30, a storage unit40, a boundary decision unit50, and a careless driving determination unit60.

In particular, the driving performance data collection unit10may be configured to collect various types of driving performance data through a vehicle network. The driving performance data may include longitudinal (e.g., a driving direction of a vehicle) data and lateral (e.g., a vertical direction of the driving direction of the vehicle) data. An example of the lateral data may include steering angles and steering speeds. In this configuration, the vehicle network may include a controller area network (CAN), a local interconnect network (LIN), FlexRay, media oriented system transport (MOST), and the like. The driving performance data collection unit10may be configured to directly collect the steering angles and the steering speeds from motor driven power steering (MDPS). Further, the driving performance data collection unit10may be operated with an electronic controller (ECU) to directly collect the steering angles and the steering speeds.

Additionally, the driving pattern generation unit20may be configured to generate driving patterns in a threshold time unit using the driving performance data collected by the driving performance data collection unit10. In other words, the driving pattern generation unit20may be configured to calculate a dispersion of the steering angles and an average of the steering speeds based on the steering angles and the steering speeds collected by the driving performance data collection unit10and then generate the driving patterns for the steering angles and the steering speeds by applying a Gaussian Mixture Model (GMM). Herein, the GMM is a generally widely used technology and the detailed description thereof will be omitted.

The driving pattern generation unit20may be configured to perform the following operation under the control of the controller70. First, the driving pattern generation unit20may be configured to store the driving patterns of a driver generated at a beginning (e.g., 10 minutes) of the driving of the vehicle as a normal driving pattern. This may be a process of generating the normal driving pattern. Further, the driving pattern generation unit20may be configured to transfer driving patterns generated after storing the normal driving (e.g., not careless driving such as when the driver is distracted) patterns is completed to the careless driving pattern detection unit30. The transferred driving patterns may be used to detect the careless driving pattern.

Furthermore, the driving pattern generation unit20may be configured to transfer the driving patterns generated after the careless driving patterns greater than a predetermined number are detected to the careless driving pattern determination unit60. The transferred driving patterns may be used to detect the careless driving patterns. Next, the careless driving pattern detection unit30may be configured to detect the careless driving patterns from the driving patterns transferred from the driving pattern generation unit20based on the normal driving patterns stored in the storage unit40. In particular, the careless driving pattern detection unit30may be configured to use a Mahalanobis distance to detect driving patterns that exceed a first threshold value as the careless driving patterns.

Additionally, the careless driving pattern detection unit30may be configured to store the detected careless driving patterns in the storage unit40. In particular, the careless driving pattern detection unit30may be configured to perform a process of detecting the careless driving patterns until the careless driving patterns above the reference number are detected. The storage unit40may be configured to store the normal driving patterns generated by the driving pattern generation unit20and the careless driving patterns detected by the careless driving pattern detection unit30. The boundary decision unit50may be configured to determine a boundary between the normal driving patterns and the careless driving patterns based on the normal driving patterns and the careless driving patterns stored in the storage unit40.

Hereinafter, referring toFIGS. 2A and 2B, a process of allowing the boundary decision unit50to determine the boundary between the normal driving patterns and the careless driving patterns will be described in detail.FIG. 2Ais an exemplary diagram illustrating results obtained by applying an artificial neural network (ANN) technique to the careless driving patterns according to the exemplary embodiment of the present invention. In particular, the ANN technique is a type of the supervised learning method.

First, as an input of the ANN, the dispersion of the steering angles and the average of the steering speeds that correspond to the careless driving patterns may be used. Further, the learning may be performed by marking a targeted value of the ANN for the input as [1, 0] for the careless driving and as [0, 1] for the normal driving. In other words, when the test is performed after the learning, as the first value of the two output values approaches 1, the test represents the careless driving and as the first value of the two output values approaches 0, the test represents the careless driving. For example, the first value in [M, N] that represents the two output values means an M value.

InFIG. 2A, an X axis represents time and a y axis represents a first value M of the two output values of the ANN. In particular, the first output may be changed over time even though the driving patterns are the careless driving patterns since when the time is divided into a substantially small time unit even though the careless driving is continuously performed, the controller may be configured to perform the normal driving for a portion of the substantially small time unit. The boundary decision unit50may be configured to calculate the average using the ANN results as illustrated inFIG. 2Aand determine the average of the calculated ANN results as the boundary between the normal driving patterns and the careless driving patterns. The decided boundary value201is as illustrated inFIG. 2B.

Further, the careless driving determination unit60may be configured to determine that the driving patterns in the threshold time unit which are transferred from the driving pattern generation unit20are the careless driving patterns, based on the boundary values between the normal driving patterns and the careless driving patterns which are determined by the boundary decision unit50. In other words, the careless driving determination unit60may be configured to determine the driving of the driver as the careless driving when a ratio of the ANN result values that exceed the boundary values exceeds a second threshold value (e.g., about 20% or 40%). In particular, the careless driving determination unit60may include a first calculator (not illustrated) configured to calculate the ANN result value by applying the ANN technique to the driving patterns generated by the driving pattern generation unit20and a determiner (not illustrated) configured to determine the driving of the driver as the careless driving when the ratio of the ANN result values that exceeds the boundary values exceeds the second threshold value.

Additionally, the controller70may be configured to perform the overall operation to allow each component to normally perform respective functions. In particular, the controller70may be configured to operate the driving pattern generation unit20to store the driving patterns of the driver generated at the beginning (e.g., about 10 minutes) of the driving of the vehicle in the storage unit40as the normal driving patterns. Further, the controller70may be configured to operate the driving pattern generation unit20to transfer the driving patterns generated after the storage of the normal driving patterns is completed to the careless driving pattern detection unit30. The controller70may be configured to operate the driving pattern generation unit20to transfer the driving patterns generated after the careless driving patterns greater than the reference number are detected to the careless driving determination unit60.

Meanwhile, according to the apparatus for determining careless driving, even in the method for using the careless driving patterns together and the method for using only the normal driving patterns, the detection performance may be based on how to set the threshold value of the Mahalanobis distance that represents a difference between a data distribution of the normal driving patterns and a data distribution of test patterns (driving patterns of a current driver). For the evaluation, a task of performing the careless driving, such as continuous character transmission for a predetermined time (e.g., about 100 seconds) and device operation within a vehicle and a task of performing the normal driving for a predetermined time may be repeatedly performed several times for each driver. A performance analysis graph thereof is as illustrated inFIG. 3.

As illustrated inFIG. 3, in a careless detection graph301in which both the normal driving patterns and the careless driving patterns are learned and a careless detection graph302in which only the normal driving patterns are learned, a change in a detection rate varies based on the change in the Mahalanobis distance and a change in a misdetection rate varies based on the change in the second threshold value. Additionally,FIG. 3illustrates an improved performance since the careless detection graph301in which both the normal driving patterns and the careless driving patterns are learned is positioned at upper left compared to the careless detection graph302in which only the normal driving patterns are learned. In other words, it may be confirmed that the misdetection rate for the same detection performance target is substantially small or the higher detection rate for the same misdetection rate target performance is represented.

FIG. 4is an exemplary flow chart of a method for determining careless driving according to the exemplary embodiment of the present invention. First, the driving performance data collection unit10may be configured to collect the driving performance data (401). The driving pattern generation unit20may be configured to store the driving patterns generated within the reference time at the beginning of the driving in the storage unit40as the normal driving patterns (402). In addition, the driving pattern generation unit20may be configured to transfer the driving patterns generated after the storage of the normal driving patterns is completed to the careless driving pattern detection unit30(403).

Further, the careless driving pattern detection unit30may be configured to detect the careless driving patterns from the driving patterns transferred from the driving pattern generation unit20based on the normal driving patterns (404). The boundary decision unit50may be configured to use the artificial neural network (ANN) technique to decide the boundary values between the normal driving patterns and the careless driving patterns (405). The driving pattern generation unit20may be configured to transfer the driving patterns generated after the careless driving patterns greater than the predetermined number are detected to the careless driving determination unit60(406). The careless driving determination unit60may be configured to determine whether the driving pattern within the threshold time transferred from the driving pattern generation unit20is the careless driving pattern, based on the boundary values (407).

As set forth above, according to the exemplary embodiments of the present invention, it may be possible to determine the highly reliable careless driving by generating the normal driving patterns using the driving performance data for the reference time at the beginning of driving, detecting the careless driving patterns greater than the predetermined number using the normal driving pattern, deciding the boundary between the normal driving and the careless driving using the supervised learning method, and determining the careless driving of the driver based on the decided boundary.

As described above, although the present invention has been described with reference to exemplary embodiments and the accompanying drawings, it would be appreciated by those skilled in the art that the present invention is not limited thereto but various modifications and alterations might be made without departing from the scope defined in the following claims.