KR20020048019A - Remote diagnosis system of the car for the mobile communication - Google Patents

Abstract

PURPOSE: A remote diagnosis system of a vehicle for a mobile communication is provided to analyze accurately the state of a vehicle at a remote diagnosis center through a mobile communication network, process the analyzed data as diagnosis information and transmit the diagnosis data and necessary information to a mobile communication terminal of a user. CONSTITUTION: A vehicle diagnosis controller(1) controls the engine of the vehicle and various devices and extracts data of the vehicle therefrom. A mobile communication terminal(6) transmits data of the vehicle transmitted from the controller(1) into a remote diagnosis center. A data processing unit processes the data of the vehicle by a predetermined algorithm and transmits the processed data into the remote diagnosis center through the mobile communication terminal(6). An OBD II interface unit(2) have a protocol satisfying SAE(Society Automotive Engineering) standard as a digital communication algorithm and performs the processing according to the priority order when collision between data occurs.

Description

REMOTE DIAGNOSIS SYSTEM OF THE CAR FOR THE MOBILE COMMUNICATION}

The present invention relates to a remote diagnosis system of a mobile communication vehicle, and more particularly, a remote diagnosis of a mobile communication vehicle that enables remote diagnosis of a vehicle by using a notebook connected to a mobile communication PDA or a mobile phone. It's about the system.

The recent increase in automobiles can be said to be explosive as personal necessities. Accordingly, the moving distance by the vehicle is also increasing, and the automobile accidents and failures are increasing with the increase of the moving distance. Accordingly, an increase in breakdown and repair of a vehicle is increasing as the use time of the vehicle, such as an increase in the moving distance of the vehicle, and the types of electronic controllers mounted on the vehicle.

However, the maintenance facilities and advanced technicians for diagnosis and repair are far short of the increase in the number of failures caused by the increase of automobiles. As a result, a lot of time is delayed during the inspection and repair of automobiles, and users do not make a preliminary diagnosis by requesting a specialized shop other than regular inspection. In the past, when a mechanical device was the center, a normal maintenance technician or a user could diagnose and repair it with the naked eye or sound when the failure occurred. It is not possible to use advanced diagnostic equipment. Because of this, the self-operated driver or a small maintenance shop that has a hydraulic system can not make an accurate diagnosis and cannot perform an accurate repair. This makes the management of the car more difficult, leading to problems such as not only simple troubleshooting but also a reduction in fuel efficiency and replacement time of consumables due to changes in the characteristics of the engine and the transmission due to the aging of the car.

The present invention has been made to solve the above problems, and the information of the electronic controller or the dedicated diagnostic device for the vehicle to the wireless communication network to accurately analyze the status of the vehicle for each vehicle in the vehicle diagnostic center of the remote location to the diagnostic information It is an object of the present invention to provide a remote diagnosis system for a mobile communication vehicle that processes and transmits diagnostic data and other necessary information suitable for a vehicle state to a mobile communication terminal of a vehicle user.

The object of the present invention is to provide an electronic controller for controlling an engine and various devices of a vehicle and extracting data of the vehicle from the vehicle, and a remote diagnosis center installed at a location remote from the electronic controller to analyze vehicle data. In the remote diagnosis system of a mobile communication vehicle, an OBD II interface unit for matching and extracting the vehicle data from a electronic controller with a predetermined communication protocol, and processing the vehicle data extracted from the OBD II interface unit in a predetermined information unit and, if necessary, A microprocessor for outputting it, an oscillation circuit for generating start data to the microprocessor, a short-range transmission means for transmitting the vehicle data processed by the microprocessor to a relatively remote location, and a relatively long distance communication means. Vehicle Days Machined in a Microprocessor And sent to the to the remote diagnostic center, is achieved by means of a remote diagnosis system for mobile communication including a vehicle mobile communication terminal to display diagnostic information from the remote diagnostic center to the user.

In addition, it is preferable to further include a short-range receiving means for receiving a processing signal for the vehicle data from the mobile communication terminal to the microprocessor.

Here, the near field receiving means includes an infrared receiver which receives the processing signal from the mobile communication terminal and receives infrared data, and an infrared receiver which converts infrared data to transmit the received infrared data to the microprocessor. desirable. The short-range transmission means includes an infrared transmission device for transmitting the vehicle data to the mobile communication terminal as infrared data, and an infrared transmission unit for converting the vehicle data from the microprocessor to infrared data and outputting the vehicle data to the infrared communication device. It is preferable.

1 is a block diagram showing a remote diagnosis system for a mobile communication vehicle according to the present invention.

Explanation of symbols on the main parts of the drawing

One ; Vehicle electronic controller 2; OBD II Interface Section

3; Microprocessor 4; Oscillation Circuit

5; Short range transmission means 6; Mobile communication terminal

7; Near field reception means 8; Extended memory

9; Communication status display section 10; Operation switch

11; Power circuit 12; Infrared transmitter

13; Infrared transmitter 14; Infrared receiver

15; Infrared receiver

Hereinafter, a remote diagnosis system of a mobile communication vehicle according to the present invention will be described in detail with reference to the accompanying drawings. 1 is a block diagram showing a remote diagnosis system for a mobile communication vehicle according to the present invention.

As shown in FIG. 1, the remote diagnosis system is installed at a position remote from the electronic controller 1 and a vehicle electronic controller 1 for controlling the engine and various devices of the vehicle and extracting the data of the vehicle from the vehicle. And a remote diagnostic center (not shown) for analyzing vehicle data, and in particular, a mobile communication terminal (cellular phone connected to a PDA or laptop) for transmitting vehicle data from the electronic controller 1 to the remote diagnostic sensor over the Internet. 6) between the electronic controller 1 and the mobile communication terminal 6 to process the vehicle data of the electronic controller 1 with a predetermined algorithm to perform the remote control via the mobile communication terminal 6. It has a data processing unit to send to the diagnostic center.

The data processing unit processes the vehicle data extracted from the OBD II interface unit 2, which extracts the vehicle data by matching the predetermined communication protocol from the electronic controller 1, and the vehicle data extracted from the OBD II interface unit 2 into a predetermined information unit. And a microprocessor (3) for outputting it if necessary, an oscillation circuit (4) for generating starting data to the microprocessor (3), and vehicle data processed by the microprocessor (3) in a relatively short distance. A near field transmitter 5 for transmitting to the remote diagnosis unit and vehicle data processed by the microprocessor 3 to the remote diagnosis center by a relatively long distance communication means, and displaying diagnostic information from the remote diagnosis center to the user. It has a mobile communication terminal (6). The microprocessor 3 is connected with a short-range receiver 7 for receiving and transmitting a processing signal from the mobile communication terminal 6 so that vehicle data can be properly processed.

Here, the OBD II interface unit 2 has a protocol that satisfies the SAE (Society Automotive Engineering) standard, which is a digital communication algorithm, and when a data collision occurs, the processing is relatively performed according to the determined priority, and processing between data. Is configured to be appropriate. The microprocessor (3) is provided with an expansion memory (8) for responding flexibly in accordance with the capacity of the vehicle data generated from the vehicle electronic controller (1), the mobile communication terminal (6) to the electronic controller ( Communication state display unit 9 for transmitting vehicle data of 1) and receiving state from the mobile communication terminal 6 to the user by at least one of hearing and time is connected. In addition, the microprocessor 3 is connected to the operation switch 10 so that the user can input a desired command.

In addition, the near field transmitter 5 transmits the vehicle data to the mobile communication terminal 6 as infrared data, and the infrared transmitter 12 to the vehicle from the microprocessor 3 to the vehicle. And an infrared transmitting unit 13 for converting the data into infrared data and outputting the infrared data, and the short range receiving unit 7 receives the processing signal from the mobile communication terminal 6 and receives the infrared data. And an infrared receiver 15 for converting infrared data to transmit the received infrared data to the microprocessor 3.

Therefore, the remote diagnosis center receives the vehicle data generated from the mobile communication terminal 6, analyzes the state of the vehicle with a diagnosis algorithm of a standard suitable for the vehicle, and feeds it back to the mobile communication terminal 6. Make sure you know the condition of the vehicle.

On the other hand, there is provided a separate power circuit 11 for supplying the power generated from the vehicle to the operating components having a specific power distribution when necessary.

The present invention accurately analyzes the information of the electronic controller of the vehicle or the dedicated diagnostic device in a wireless communication network in the vehicle diagnosis center of the remote location by processing the diagnostic information and the appropriate diagnostic data suitable for the condition of the vehicle and other necessary Since information is transmitted to a vehicle user's mobile communication terminal, such as a PDA, a mobile phone, and a laptop, the vehicle owner provides the state of the vehicle in real time without having to go to the maintenance shop of the vehicle, thereby maximizing user convenience. For example, modern people who live in the most urgently changing life will further improve the convenience of time saving, which can save maintenance time of the vehicle.

In addition, as the structure and function of the vehicle becomes more complicated, the diagnostic time increases, and the technician is inspecting each vehicle one by one. The communication between the center and the mobile communication terminal enables a more rapid diagnosis, especially in the case of a problem in the remote areas without a repair shop can be used more conveniently.

Claims (4)

In the remote diagnosis system of a mobile communication vehicle having an electronic controller for controlling the engine and various devices of the vehicle and extracting the data of the vehicle from them, and a remote diagnostic center installed at a remote location from the electronic controller and analyzing the vehicle data. ; An OBD II interface unit for extracting the vehicle data by matching a predetermined communication protocol from the electronic controller; A microprocessor for processing the vehicle data extracted from the OBD II interface unit into a predetermined information unit and outputting the same if necessary; An oscillation circuit for generating start data to the microprocessor; Short-range transmission means for transmitting the vehicle data processed by the microprocessor to a relatively short distance remote location; And a mobile communication terminal for transmitting the vehicle data processed by the microprocessor to the remote diagnosis center by a relatively long distance communication means, and displaying the diagnostic information from the remote diagnosis center to the user. Remote diagnosis system. The method of claim 1; And a short-range reception means for receiving a processing signal for vehicle data from the mobile communication terminal and transmitting it to the microprocessor. The method of claim 2; The near field receiving means, An infrared receiver receiving the processing signal from the mobile communication terminal and receiving infrared data; And an infrared receiver for converting infrared data to transmit the received infrared data to the microprocessor. The method of claim 1; The short range transmission means, An infrared transmitter for transmitting the vehicle data to the mobile communication terminal as infrared data; And an infrared transmitter for converting vehicle data into infrared data from the microprocessor and outputting the infrared transmitter to the infrared transmitter.