System and method for executing diagnosis of vehicle performance

A system for executing diagnosis of vehicle performance using satellite telemetry technology includes a diagnostic unit for compiling telemetry data, transmitted in real-time, of an engine and various parts of a vehicle, comparing the telemetry data with specific values of the engine and various parts to determine if there are any abnormalities in vehicle performance, and monitoring diagnostic results of vehicle performance; and a communications unit for performing communications in real-time through a network with an external user requesting vehicle performance diagnostic results of the diagnostic unit. Accordingly, the driver or external user may easily determine if there are abnormalities in vehicle performance, take steps to cope with vehicle malfunctions before they occur, and know the precise location of any abnormal areas of vehicle performance.

BACKGROUND OF THE INVENTION

(a) Field of the Invention

The present invention relates to a system and method for executing diagnosis of vehicle performance. More particularly, the present invention relates to a system and method for a vehicle for enhancing vehicle performance reliability, in which diagnosis and monitoring of vehicle performance is executed in real-time using satellite telemetry technology.

(b) Description of the Related Art

There are a variety of systems for controlling a vehicle and performing diagnosis of the same, in which microprocessors or satellite communications are used to carry out these functions. That is, through the use of a microprocessor or satellite communications, control of a vehicle and diagnosis of the same are performed without direction operation and examination of the vehicle by the driver or a service technician.

In the case of a freight vehicle, a system using a microprocessor for controlling the freight vehicle and performing diagnosis of the same executes diagnosis of parameter values. That is, vehicle states are divided into dynamic and static parameters, and these values are then determined by the system. The vehicle is maintained in an optimal condition using the obtained values. Also, this information is stored in a memory of the system and used when repairs are needed.

Since such a system for freight vehicles must perform control and diagnosis differently according to vehicle type, freight vehicles must be classified into different types by size, various parameters must be defined to determine system structures for each vehicle type, and control and diagnostic programs need to be individually installed. As a result, the realization of such a system is extremely complicated.

Further, the parameter values defined to perform control and diagnosis are combined, and this value is used to perform diagnosis, as well as real-time dynamic and static control. As a result, a significant amount of time is required by the microprocessor to perform its calculations.

In the case of the automobile, on the other hand, a system for performing malfunction processing for an automobile using satellite communications includes a GPS (global positioning system) transmitter/receiver that uses satellite communications to enable the transmission and reception of data between the system and a supercomputer of a traffic bureau; a sensor unit for detecting various malfunctions of the vehicle, performing conversion into electric signals when a positive detection of a malfunction is made; diagnostic switches for performing a diagnosis of the vehicle; a satellite communications switch for performing satellite communications; a call switch; a controller; and a display.

In the above system for automobiles, after performing diagnosis of the vehicle and determining that there is a malfunction, the area of the malfunction and method of repair are provided from the system itself to enable self-repair by the driver in the case where the malfunction is simple. On the other hand, if the malfunction is somewhat more complicated, the system provides this information of the area of malfunction and method of repair through the traffic bureau and satellite communications. Finally, in the case where a serious malfunction is detected, the system provides the necessary information so that the driver can request the assistance of a tow truck.

However, in the system for performing malfunction processing for an automobile using satellite communications, since satellite communications are performed with a supercomputer of a traffic bureau, various communications equipment is required. Further, the system does not perform an ongoing check of automobile performance to anticipate potential malfunctions.

Accordingly, the conventional system for controlling vehicles and performing diagnosis of the same is complicated and encounters problems during application (i.e., slow process speeds). Most important, the prior art system checks only present states to determine if there is a malfunction, and does not check changes in states to determine if there is a potential for a malfunction. That is, the conventional system does not perform what would be a highly beneficial function of alerting the driver to potential problems in the vehicle.

SUMMARY OF THE INVENTION

The present invention has been made in an effort to solve the above problems.

It is an object of the present invention to provide a system and method for a vehicle, in which telemetry technology is used to perform automatic diagnosis of a vehicle and an appraisal of vehicle performance, and which detects vehicle malfunctions to enable easy determination of the area of malfunction and method of repair by the driver.

It is another object of the present invention to provide a system and method for a vehicle that is capable of providing information of performance of a particular, driver-selected area of the vehicle by searching telemetry data.

To achieve the above objects, the system for executing diagnosis of vehicle performance of the present invention includes a diagnostic unit for compiling telemetry data, which is transmitted in real-time, of an engine and various parts of a vehicle, comparing the telemetry data with specific designated values of the engine and various parts of the vehicle stored in the system to determine if there are any abnormalities in vehicle performance, and monitoring diagnostic results of vehicle performance.

The system also includes a communications unit for receiving through a communications network a call signal from an external user requesting vehicle performance diagnostic results of the diagnostic unit, and transmitting through the communications network performance diagnostic results in real time according to the call signal sent by the external user.

The system is connected to a computer to enable real-time communications through a communications unit of vehicle performance or safety states, and any additional information of the vehicle between a user external to the vehicle and the driver in the vehicle.

The diagnostic unit includes telemetry sensors installed in the engine and at various desired parts of the vehicle, the telemetry sensors generating input or measured/detected information as telemetry data then outputting the same; a controller receiving the telemetry data from the telemetry sensors, comparing values of the received data with specific designated values for the engine and various parts of the vehicle to determine if vehicle performance is normal or abnormal, and converting data of results of this diagnosis or of the diagnostic process itself into function control signals and outputting the same; and a display for receiving the function control signals from the controller and performing corresponding display as requested by the driver.

The controller includes a database for compiling and storing the telemetry data received from the telemetry sensors.

The function control signals of the controller include signals for providing various information to the user, that is, a function for providing notification of normal and abnormal states of vehicle performance, a function for displaying analysis results of vehicle malfunction states, a function for displaying assessment procedures for vehicle performance, a function for explaining each assessment procedure for vehicle performance that is displayed, a function for providing a warning with respect to a critical situation of vehicle performance, a function for adding new functions, and a function for providing additional information of vehicle states.

The display uses graphical user interface (GUI) technology through which the user interfaces with the system.

The controller includes a data processor for performing conversion of the telemetry data transmitted in real-time from the telemetry sensors into data that can represent vehicle states; a data search unit, which uses the vehicle state data converted by the data processor to perform procedures to assess vehicle performance for performing analysis of normal/abnormal states of vehicle performance; and a data diagnostic unit for confirming an abnormal state of vehicle performance according to analysis results of the data search unit, displaying abnormal states of vehicle performance, and processing results of vehicle performance assessment procedures.

The method for executing diagnosis of vehicle performance includes (a) compiling telemetry data, which is transmitted in real-time, of an engine and various parts of a vehicle; and (b) comparing the telemetry data with specific designated values of the engine and various parts of the vehicle stored in the system to perform diagnosis of normal/abnormal states of vehicle performance, and monitoring diagnostic results of vehicle performance.

The method further includes (c) transmitting additional information of the vehicle including diagnostic information of vehicle performance when an external makes a data communications request through a communications network.

Step (b) includes (i) processing the telemetry data into data that can represent vehicle states; (ii) comparing the converted vehicle state data with the specific designated values of the engine and various parts of the vehicle to perform assessment procedures of vehicle performance; (iii) performing diagnosis of normal/abnormal states of vehicle performance according to the assessment of vehicle performance of step (ii), and generating function control signals with respect to diagnostic results; and (iv) receiving the function control signals of step (iii) and displaying vehicle performance diagnostic procedures and diagnostic results as requested by the user.

The vehicle performance assessment procedures of step (ii) include a procedure, since the telemetry data vary with time, of analyzing vehicle performance trends using the vehicle state data.

In step (iii), the function control signals include data for analyzing and controlling malfunction states of the vehicle, data for analyzing abnormal states of vehicle performance, data for displaying assessment procedures for vehicle performance to the user, data for explaining each assessment procedure for vehicle performance as requested by the user, data for controlling a warning when the vehicle performance encounters a critical situation, data for adding new functions, and data including additional information of vehicle states.

In step (c), the diagnostic result of vehicle performance are transmitted via a communications network to a vehicle maintenance facility to allow checking of vehicle states, and to receive vehicle maintenance services including repair information.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

FIG. 1is a block diagram of a system for performing diagnosis of vehicle performance according to a preferred embodiment of the present invention.

As shown inFIG. 1, a system for performing diagnosis of vehicle performance according to a preferred embodiment of the present invention includes a diagnostic unit100, which compiles telemetry data, which is transmitted in real-time, of the engine and various parts of the vehicle, and compares stored values of the engine and various parts of the vehicle with the incoming telemetry data to determine if the vehicle is experiencing a malfunction and perform general vehicle monitoring.

The system also includes a communications unit200that receives, via a communications network, a call signal from an external user requesting vehicle performance diagnostic results of the diagnostic unit100. When such a call signal is received, the communications unit200transmits the vehicle performance diagnostic results in real-time.

The diagnostic unit100is connected to a computer300via the communications unit200. This enables real-time communications between the driver and an external user with respect to vehicle performance or safety states, and any additional information. The computer300may be provided as needed. That is, a computer300may be provided for all users needing diagnostic information of vehicle performance, and, in particular, may also be installed at service stations or even at traffic facilities.

The diagnostic unit100includes telemetry sensors110installed in the engine and at various desired parts of the vehicle, the telemetry sensors110generating input or measured/detected information as telemetry data then outputting the same; a controller120receiving the telemetry data from the telemetry sensors110, comparing values of the received data with designated values for the engine and various parts of the vehicle to determine if the vehicle is operating normally or if there is a malfunction, and converting data of results of this diagnosis or of the diagnostic process itself into function control signals and outputting the same; and a display130for receiving the function control signals from the controller120and performing corresponding display as requested by the driver.

Sensors or transducers may be used as the telemetry sensors110. The controller120is an on-board computer that includes an internal multiprocessor for performing the processing of the telemetry data of the telemetry sensors110. Further, the controller120includes a database125for compiling and storing the telemetry data received from the telemetry sensors110. When the driver or an external user designates a specific vehicle performance state, the database125is searched to provide the desired information.

FIG. 2is a block diagram of the controller120.

As shown in the drawing, the controller120includes a data processor141for performing conversion of the telemetry data transmitted in real-time from the telemetry sensors110into data that can represent vehicle states; a data search unit142, which uses the vehicle state data converted by the data processor141to perform procedures to assess vehicle performance for performing analysis of normal/abnormal states of vehicle performance; and a data diagnostic unit143for confirming an abnormal state of vehicle performance according to analysis results of the data search unit142, displaying abnormal states of vehicle performance, and processing results of vehicle performance assessment procedures.

FIG. 3is a schematic view showing various indicators of the display130.

As shown inFIG. 3, a display screen of the display130includes an engine oil indicator131, a brake oil indicator132, a brake state indicator133, a tire state indicator134, and a light state indicator135. The display130receives the function control signals from the controller120to perform the display of the corresponding function. The function control signals of the controller120include basic information provided to the data such as data for analyzing and controlling vehicle malfunction states, data analyzing vehicle performance malfunction states, data for displaying vehicle performance assessment procedures to the driver, data for explaining and providing help with respect to the vehicle performance procedures as requested by the driver, data for adding new functions, data for controlling warnings when a critical situation occurs with the vehicle, and additional information of vehicle states.

The display130uses graphical user interface (GUI) technology to provide convenience to the user and system automation.

An operation of the system for executing diagnosis of vehicle performance described above will now be described with reference toFIG. 4, which shows a flow chart of a method for executing diagnosis of vehicle performance according to a preferred embodiment of the present invention.

With reference toFIG. 4, input or measured/detected telemetry data of the engine and various parts of the vehicle are transmitted from the telemetry sensors110to the controller120in step S1. The telemetry data include, but are not limited to, data of engine state, brake oil state, power steering oil state, transmission state, clutch state, brake state, tire state, light state, and wiper blade state. Further, applying satellite telemetry technology and GUI technology, the telemetry data may appear as real-time, automated data showing vehicle performance assessment and diagnostic processes performed directly by a technician at an existing repair facility.

The data processor141of the controller120receives the telemetry data and performs conversion into data that can represent vehicle states in step S2. Next, in step S3, the data search unit142compares/analyzes the converted vehicle state data with specific designated values of the engine and various parts of the vehicle. These designated values are pre-stored in the system.

Subsequently, the data diagnostic unit143of the controller120compares the vehicle state data according to the telemetry data with the specific designated values to perform analysis of a vehicle performance normal/abnormal state in step S4. If it is determined from the analysis result that the vehicle performance is normal, the controller120performs control such that the display130shows a normal state for vehicle performance in step S5.

However, if it is determined from the analysis result that the vehicle performance is abnormal, the controller120performs control so that an abnormal display of the vehicle is displayed through the display130in step S6. Next, the controller120performs processing of vehicle performance assessment and diagnostic results in step S7. At this time, the controller120generates function control signals such that vehicle performance assessment procedures, diagnostic states, and diagnostic results are displayed on the display130.

Further, since the telemetry data are data that vary with time with respect to vehicle performance, the controller120analyzes vehicle performance trends. Also, in the case where vehicle performance is abnormal, the controller120analyzes the cause of the malfunction to provide the appropriate repair information.

In addition, the controller120has a Help function so that the driver or external user can view the deduction process for determining vehicle performance assessment states, and also has installed an explanation function to describe the deduction process. Accordingly, the driver or external user can easily determine vehicle performance, and can obtain precise information with respect to vehicle performance.

Furthermore, since telemetry data is continuously transmitted in real-time, the controller120compiles this data and stores the same in the database125. If the driver or external user designates a specific aspect of vehicle performance, the controller120provides this information by searching the database125, thereby enabling the assessment and monitoring of vehicle performance.

If a critical situation occurs with the vehicle, the controller120has a warning control function such that the driver is warned of the critical situation. Alternatively, a service station or traffic facility may be notified of the critical situation through the communications unit200depending on the situation.

The controller120also has enables the expansion of the system by allowing the addition of extra functions.

As described above, the controller120has a variety of functions for performing vehicle performance assessment and diagnosis/monitoring, and generates function control signals using these functions to enable display on the display130or control of a specific part of the vehicle.

If an external user transmits a call signal through the communications unit200so that he or she may know of vehicle performance assessment and diagnosis states/diagnosis results in step S8, the controller120performs communications through a communications network such that vehicle performance diagnostic information and other additional information of the vehicle is displayed on the external user's computer300in step S9.

If the external user is a vehicle repair facility, vehicle performance assessment and diagnostic information of the diagnostic unit100is displayed in real-time on the external user's computer300. This capability is provided regardless of whether the vehicle is being operated or is parked.

Accordingly, an external user can check vehicle performance states, and if vehicle performance is abnormal, may provide vehicle maintenance services, including vehicle repair information, to the diagnostic unit100.

In the system and method for executing diagnosis of vehicle performance of the present invention, diagnosis and assessment of vehicle performance are performed in real-time and automatically using satellite telemetry technology such that the driver or an external user may determine if there are abnormalities in vehicle performance, may take steps to cope with vehicle malfunctions before they occur, and may know the precise location of any abnormal areas of vehicle performance, thereby making the repair of malfunctions more easy.

Further, in the system and method for executing diagnosis of vehicle performance of the present invention, if the driver or an external user designates a vehicle performance state that he or she desires to know, the corresponding information is provided to the driver or external user by searching vehicle telemetry data, thereby improving driver or user confidence in vehicle performance.

In addition, in the system and method for executing diagnosis of vehicle performance of the present invention, since real-time communications with an external user is possible through the communications unit, information of vehicle performance assessment and diagnostic states may be provided to users requiring this information, and additional information of the vehicle and other service information may be received.